Patent Publication Number: US-2022236627-A1

Title: Optical imaging lens group

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     This application claims benefit of priority to Chinese Patent Application No. 202110096278.3 filed on Jan. 25, 2021 before the China National Intellectual Property Administration, the entire disclosure of which is incorporated herein by reference in its entity. 
     TECHNICAL FIELD 
     The present disclosure relates to the field of optical elements, and in particular, to an optical imaging lens group. 
     BACKGROUND 
     With the rapid development of the lens assembly industry, the imaging quality of optical imaging lens groups applied to portable electronic products such as smart phones is getting higher and higher. At the same time, users have more and more requirements for mobile phone cameras. At present, most of the mobile phone cameras on the market (especially front cameras of mobile phones) are fixed-focus lens assembly structures. This fixed-focus lens assembly structure may seriously affect the shooting effect of the mobile phone camera in some shooting scenarios. 
     How to design an optical imaging lens group having the autofocus function to capture the best picture in time in different shooting scenarios is one of the problems that many lens assembly designers need to solve urgently. 
     SUMMARY 
     One aspect of the present disclosure provides an optical imaging lens group, and the optical imaging lens group along an optical axis from an object side to an image side sequentially includes: an autofocus component, a first lens, a second lens, a third lens, a fourth lens, and at least one subsequent lens, where a radius of curvature of an image-side surface of the autofocus component is variable; and there is an interval between any two adjacent lenses from the first lens to the at least one subsequent lens. 
     In an embodiment, there is at least one aspheric surface among the object-side surface of the first lens to the image-side surface of a lens closest to the image side. 
     In an embodiment, an effective focal length f1 of the first lens and an effective focal length f2 of the second lens satisfy: −2.5&lt;f2/f1&lt;−1.0. 
     In an embodiment, a total effective focal length f of the optical imaging lens group and an effective focal length f4 of the fourth lens satisfy: 0&lt;f4/f&lt;0.7. 
     In an embodiment, a radius of curvature R2 of an image-side surface of the first lens and a radius of curvature R3 of an object-side surface of the second lens satisfy: −5.5 &lt;R2/R3&lt;−1.0. 
     In an embodiment, an effective focal length f1 of the first lens and a radius of curvature R1 of an object-side surface of the first lens satisfy: 1.5&lt;f1/R1&lt;2.1. 
     In an embodiment, a radius of curvature R7 of an object-side surface of the fourth lens and a radius of curvature R8 of an image-side surface of the fourth lens satisfy: 2.0&lt;R7/R8&lt;6.1. 
     In an embodiment, a center thickness CT1 of the first lens on the optical axis and a spaced interval T12 between the first lens and the second lens on the optical axis satisfy: 2.0&lt;CT1/T12&lt;3.6. 
     In an embodiment, a spaced interval T12 between the first lens and the second lens on the optical axis and a spaced interval T23 between the second lens and the third lens on the optical axis satisfy: 1.7&lt;T23/T12&lt;3.5. 
     In an embodiment, a center thickness CT4 of the fourth lens on the optical axis and a spaced interval T34 between the third lens and the fourth lens on the optical axis satisfy: 1.0&lt;CT4/T34&lt;2.0. 
     In an embodiment, a half of a maximum field-of-view of the optical imaging lens group Semi-FOV satisfies: Semi-FOV&gt;30°. 
     In an embodiment, a sum of center thickness ΣCT of the first lens to a lens closest to the image side on the optical axis and a center thickness D of the autofocus component on the optical axis satisfy: 3.5&lt;ΣCT/D&lt;4.6. 
     In an embodiment, a distance TTL from the object-side surface of the first lens to an imaging plane of the optical imaging lens group on the optical axis and a sum of spaced intervals ΣAT of each two adjacent lenses on the optical axis among the first lens to a lens closest to the image side satisfy: 3.5&lt;TTL/ΣAT&lt;4.5. 
     In an embodiment, a total effective focal length f of the optical imaging lens group and a half of a diagonal length ImgH of an effective pixel area on an imaging plane of the optical imaging lens group satisfy: 1.0&lt;f/ImgH&lt;1.5. 
     In an embodiment, the autofocus component along the optical axis from the object side sequentially includes: a light-transmitting module, a liquid material, and a flexible film. The liquid material is glued to the light-transmitting module; the flexible film is disposed on an image-side surface of the liquid material; and a radius of curvature of the image-side surface of the liquid material and a shape of the flexible film are variable. 
     The present disclosure provides an optical imaging lens group suitable for portable electronic products, having stable image quality, autofocus function, miniaturization, and good imaging quality through a reasonable distribution of the refractive power and optimization of optical parameters. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       By reading detailed description of non-limiting embodiments with reference to the following accompanying drawings, other features, objectives and advantages of the present disclosure will be more apparent: 
         FIG. 1  is a schematic structural diagram illustrating an optical imaging lens group according to Example 1 of the present disclosure; 
         FIGS. 2A-2D  respectively illustrate a longitudinal aberration curve, an astigmatic curve, a distortion curve and a lateral color curve of the optical imaging lens group according to Example 1; 
         FIG. 3A  and  FIG. 3B  respectively illustrate a modulation transfer function (MTF) curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 1 within a waveband range of 430 nm to 650 nm when a distance from a photographed object to the optical imaging lens group is 350 mm; 
         FIG. 4A  and  FIG. 4B  respectively illustrate an MTF curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 1 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is 150 mm; 
         FIG. 5A  and  FIG. 5B  respectively illustrate an MTF curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 1 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is infinite; 
         FIG. 6  is a schematic structural diagram illustrating an optical imaging lens group according to Example 2 of the present disclosure; 
         FIGS. 7A-7D  respectively illustrate a longitudinal aberration curve, an astigmatic curve, a distortion curve and a lateral color curve of the optical imaging lens group according to Example 2; 
         FIG. 8A  and  FIG. 8B  respectively illustrate a modulation transfer function (MTF) curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 2 when a distance from the photographed object to the optical imaging lens group is 350 mm, within a waveband range of 430 nm to 650 nm; 
         FIG. 9A  and  FIG. 9B  respectively illustrate an MTF curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 2 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is 150 mm; 
         FIG. 10A  and  FIG. 10B  respectively illustrate an MTF curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 2 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is infinite; 
         FIG. 11  is a schematic structural diagram illustrating an optical imaging lens group according to Example 3 of the present disclosure; 
         FIGS. 12A-12D  respectively illustrate a longitudinal aberration curve, an astigmatic curve, a distortion curve and a lateral color curve of the optical imaging lens group according to Example 3; 
         FIG. 13A  and  FIG. 13B  respectively illustrate a modulation transfer function (MTF) curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 3 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is 350 mm; 
         FIG. 14A  and  FIG. 14B  respectively illustrate an MTF curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 3 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is 150 mm; 
         FIG. 15A  and  FIG. 15B  respectively illustrate an MTF curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 3 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is infinite; 
         FIG. 16  is a schematic structural diagram illustrating an optical imaging lens group according to Example 4 of the present disclosure; 
         FIGS. 17A-17D  respectively illustrate a longitudinal aberration curve, an astigmatic curve, a distortion curve and a lateral color curve of the optical imaging lens group according to Example 4; 
         FIG. 18A  and  FIG. 18B  respectively illustrate a modulation transfer function (MTF) curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 4 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is 350 mm; 
         FIG. 19A  and  FIG. 19B  respectively illustrate an MTF curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 4 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is 150 mm; 
         FIG. 20A  and  FIG. 20B  respectively illustrate an MTF curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 4 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is infinite; 
         FIG. 21  is a schematic structural diagram illustrating an optical imaging lens group according to Example 5 of the present disclosure; 
         FIGS. 22A-22D  respectively illustrate a longitudinal aberration curve, an astigmatic curve, a distortion curve and a lateral color curve of the optical imaging lens group according to Example 5; 
         FIG. 23A  and  FIG. 23B  respectively illustrate a modulation transfer function (MTF) curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 5 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is 350 mm; 
         FIG. 24A  and  FIG. 24B  respectively illustrate an MTF curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 5 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is 150 mm; 
         FIG. 25A  and  FIG. 25B  respectively illustrate an MTF curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 5 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is infinite; 
         FIG. 26  is a schematic structural diagram illustrating an optical imaging lens group according to Example 6 of the present disclosure; 
         FIGS. 27A-27D  respectively illustrate a longitudinal aberration curve, an astigmatic curve, a distortion curve and a lateral color curve of the optical imaging lens group according to Example 6; 
         FIG. 28A  and  FIG. 28B  respectively illustrate a modulation transfer function (MTF) curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 6 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is 350 mm; 
         FIG. 29A  and  FIG. 29B  respectively illustrate an MTF curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 6 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is 150 mm; 
         FIG. 30A  and  FIG. 30B  respectively illustrate an MTF curve diagram and a focus shift curve diagram of the optical imaging lens group in Example 6 within a waveband range of 430 nm to 650 nm when a distance from the photographed object to the optical imaging lens group is infinite; and 
         FIG. 31A  and  FIG. 31B  respectively illustrate schematic structural diagrams of an autofocus component of the optical imaging lens group in the present disclosure when a distance from the photographed object to the optical imaging lens group is different. 
     
    
    
     DETAILED DESCRIPTION OF EMBODIMENTS 
     For a better understanding of the present disclosure, various aspects of the present disclosure will be described in more detail with reference to the accompanying drawings. It should be understood that the detailed description is merely an illustration for the exemplary implementations of the present disclosure rather than a limitation to the scope of the present disclosure in any way. Throughout the specification, the same reference numerals designate the same elements. The expression “and/or” includes any and all combinations of one or more of the associated listed items. 
     It should be noted that in the specification, the expressions, such as “first,” “second” and “third” are only used to distinguish one feature from another, rather than represent any limitations to the features. Thus, the first lens discussed below may also be referred to as the second lens or the third lens without departing from the teachings of the present disclosure. 
     In the accompanying drawings, the thicknesses, sizes and shapes of the lenses have been slightly exaggerated for the convenience of explanation. Specifically, shapes of spherical surfaces or aspheric surfaces shown in the accompanying drawings are shown by examples. That is, the shapes of the spherical surfaces or the aspheric surfaces are not limited to the shapes of the spherical surfaces or the aspheric surfaces shown in the accompanying drawings. The accompanying drawings are merely illustrative and not strictly drawn to scale. 
     In this text, the paraxial area refers to an area near the optical axis. If the surface of a lens is a convex surface and the position of the convex surface is not defined, it indicates that the surface of the lens is a convex surface at least in the paraxial area; and if the surface of a lens is a concave surface and the position of the concave surface is not defined, it indicates that the surface of the lens is a concave surface at least in the paraxial area. The surface closest to the object in each lens is referred to as the object-side surface, and the surface closest to the image plane in each lens is referred to as the image-side surface. 
     It should be further understood that the terms “comprising,” “including,” “having”, “containing” and/or “contain,” when used in the specification, specify the presence of stated features, elements and/or components, but do not exclude the presence or addition of one or more other features, elements, components and/or combinations thereof. In addition, expressions, such as “at least one of,” when preceding a list of features, modify the entire list of features rather than an individual element in the list. Further, the use of “may,” when describing embodiments of the present disclosure, refers to “one or more embodiments of the present disclosure.” Also, the term “exemplary” is intended to refer to an example or illustration. 
     Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by those of ordinary skill in the art to which the present disclosure belongs. It should be further understood that terms (i.e., those defined in commonly used dictionaries) should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein. 
     It should also be noted that the embodiments in the present disclosure and the features in the embodiments may be combined with each other on a non-conflict basis. The present disclosure will be described below in detail with reference to the accompanying drawings and in combination with the embodiments. 
     The features, principles, and other aspects of the present disclosure are described in detail below. 
     The optical imaging lens group according to exemplary implementations of the present disclosure may include an autofocus component and at least five lenses having refractive powers. The at least five lenses having refractive powers are a first lens, a second lens, a third lens, a fourth lens and at least one subsequent lens, respectively. The autofocus component and the at least five lenses having refractive powers are sequentially arranged from the object side to the image side along the optical axis. There may be a spaced interval between the autofocus component and the first lens. There may be a spaced interval between any two adjacent lenses of the first lens to a lens closest to the image side. 
     According to an exemplary implementation of the present disclosure, the autofocus component along the optical axis from the object side may sequentially include: a light-transmitting module and a liquid material. The light-transmitting module and the liquid material are glued together, that is, the light-transmitting module and an object-side surface of the liquid material are glued together, so that a total length of the optical imaging lens group may be effectively reduced, the space of the optical imaging lens group may be saved, and an autofocus function of the lens group may be realized. In particular, the light-transmitting module may be an optical lens. 
     According to an exemplary implementation of the present disclosure, the autofocus component further includes a flexible film arranged on an image-side surface of the liquid material. A radius of curvature of an image-side surface of the autofocus component is variable, that is, a radius of curvature of the image-side surface of the liquid material and a shape of the flexible film are variable. The radius of curvature of the image-side surface of the autofocus component may be changed with the change of a distance between the optical imaging lens group and the photographed object, so as to realize the autofocus function of the optical imaging lens group. 
     According to an exemplary implementation of the present disclosure, the autofocus component may include: the light-transmitting module, the liquid material and the flexible film.  FIG. 31A  shows a schematic structural diagram of a light-transmitting module T 1 , a liquid material T 2  and a flexible film T 3  in the present disclosure, where the liquid material T 2  and the flexible film T 3  are both plane structures.  FIG. 31B  shows a schematic structural diagram of a light-transmitting module T 1 ′, a liquid material T 2 ′ and a flexible film T 3 ′ in the present disclosure, where the image-side surface of the liquid material T 2 ′ and the flexible film T 3 ′ are deformed. Specifically, the liquid material T 2 ′ may be disposed between the light-transmitting module T 1 ′ and the flexible film T 3 ′, and the liquid material T 2 ′ may be connected to a conductive material (not shown). When an external voltage is applied to the conductive material, the image-side surface of the liquid material T 2 ′ may be deformed, which in turn drives the flexible film T 3 ′ to deform, and changes a focal length of the autofocus component, thereby adjusting a total effective focal length of the optical imaging lens group. It should be understood that the liquid material in the present disclosure does not only include one material. In actual production, in order to reasonably adjust the total effective focal length of the optical imaging lens group, multiple kinds of liquid materials, such as a first liquid material, or a second liquid material, may be disposed between the light-transmitting module and the flexible film according to specific needs. In addition, the first liquid material, the second liquid material, and the like are not immiscible with each other. When a voltage is applied to the conductive material, the liquid material may be deformed, which in turn drives shapes of contact surfaces of the flexible film, the first liquid material and the second liquid material to change, so that the focal length of the autofocus component is changed, thereby adjusting the total effective focal length of the optical imaging lens group. 
     According to an exemplary implementation of the present disclosure, drive systems such as voice coil motors, micro-electromechanical systems, piezoelectric systems, and memory metals may be used to apply voltage to the conductive material. The drive system may adjust the focal length of the optical imaging lens group to make the optical imaging lens group have a good imaging position, so that the optical imaging lens group can clearly image at different distances to the photographed object. 
     According to an exemplary implementation of the present disclosure, the optical imaging lens group according to the present disclosure may satisfy: −2.5&lt;f2/f1&lt;−1.0, where f1 is an effective focal length of the first lens, and f2 is an effective focal length of the second lens. More specifically, f2 and f1 may further satisfy: −2.4&lt;f2/f1&lt;−1.4. Satisfying −2.5&lt;f2/f1&lt;−1.0 may effectively reduce an optical sensitivity of the first lens and the second lens, which is beneficial to the mass production of the first lens and the second lens. 
     According to an exemplary implementation of the present disclosure, the optical imaging lens group according to the present disclosure may satisfy: 0&lt;f4/f&lt;0.7, where f is a total effective focal length of the optical imaging lens group, and f4 is an effective focal length of the fourth lens. More specifically, f4 and f may further satisfy: 0.4&lt;f4/f&lt;0.7. Satisfying 0&lt;f4/f&lt;0.7 may reduce a deflection angle of light passing through the fourth lens, thereby helping reduce sensitivity of the optical imaging lens group. 
     According to an exemplary implementation of the present disclosure, the optical imaging lens group according to the present disclosure may satisfy: −5.5&lt;R2/R3&lt;−1.0, where R2 is a radius of curvature of an image-side surface of the first lens, and R3 is a radius of curvature of an object-side surface of the second lens. More specifically, R2 and R3 may further satisfy: −5.4&lt;R2/R3&lt;−1.4. Satisfying −5.5&lt;R2/R3&lt;−1.0 may make light have good optical path deflection in the optical imaging lens group. 
     According to an exemplary implementation of the present disclosure, the optical imaging lens group according to the present disclosure may satisfy: 1.5&lt;f1/R1&lt;2.1, where f1 is an effective focal length of the first lens, and R1 is a radius of curvature of an object-side surface of the first lens. More specifically, f1 and R1 may further satisfy: 1.8&lt;f1/R1&lt;2.1. Satisfying 1.5&lt;f1/R1&lt;2.1 may control a deflection angle of light in an edge field-of-view at the first lens, which may further effectively reduce the sensitivity of the optical imaging lens group. 
     According to an exemplary implementation of the present disclosure, the optical imaging lens group according to the present disclosure may satisfy: 2.0&lt;R7/R8&lt;6.1, where R7 is a radius of curvature of an object-side surface of the fourth lens, and R8 is a radius of curvature of an image-side surface of the fourth lens. More specifically, R7 and R8 may further satisfy: 2.4&lt;R7/R8&lt;6.1. Satisfying 2.0&lt;R7/R8&lt;6.1 may control a deflection angle of light in an edge field-of-view at the fourth lens, which may further effectively reduce the sensitivity of the optical imaging lens group. 
     According to an exemplary implementation of the present disclosure, the optical imaging lens group according to the present disclosure may satisfy: 2.0&lt;CT1/T12&lt;3.6, where CT1 is a center thickness of the first lens on the optical axis, and T12 is a spaced interval between the first lens and the second lens on the optical axis. More specifically, CT1 and T12 may further satisfy: 2.4&lt;CT1/T12&lt;3.6. Satisfying 2.0&lt;CT1/T12&lt;3.6 may effectively avoid ghost images between the first lens and the second lens, and may make the optical imaging lens group have a better function of correcting spherical aberrations and distortion. 
     According to an exemplary implementation of the present disclosure, the optical imaging lens group according to the present disclosure may satisfy: 1.7&lt;T23/T12&lt;3.5, where T12 is a spaced interval between the first lens and the second lens on the optical axis, and T23 is a spaced interval between the second lens and the third lens on the optical axis. More specifically, T23 and T12 may further satisfy: 1.7&lt;T23/T12&lt;3.2. Satisfying 1.7&lt;T23/T12&lt;3.5 may control the contribution of field curvature of each field-of-view of the optical imaging lens group within a reasonable range. 
     According to an exemplary implementation of the present disclosure, the optical imaging lens group according to the present disclosure may satisfy: 1.0&lt;CT4/T34&lt;2.0, where CT4 is a center thickness of the fourth lens on the optical axis, and T34 is a spaced interval between the third lens and the fourth lens on the optical axis. More specifically, CT4 and T34 may further satisfy: 1.0&lt;CT4/T34&lt;1.9. Satisfying 1.0&lt;CT4/T34&lt;2.0 may help the uniform distribution of sizes of lenses, ensure the assembly stability of the lens group, and help reduce an overall aberration of the optical imaging lens group. 
     According to an exemplary implementation of the present disclosure, the optical imaging lens group according to the present disclosure may satisfy: Semi-FOV&gt;30°, where Semi-FOV is a half of a maximum field-of-view of the optical imaging lens group. More specifically, Semi-FOV may further satisfy: Semi-FOV&gt;33°. 
     Satisfying Semi-FOV&gt;30° may effectively control a field-of-view range of the optical imaging lens group, which is beneficial to improve image quality. 
     According to an exemplary implementation of the present disclosure, the optical imaging lens group according to the present disclosure may satisfy: 3.5&lt;ΣCT/D&lt;4.6, where ΣCT is a sum of center thickness of the first lens to a lens closest to the image side on the optical axis, and D is a center thickness of the autofocus component on the optical axis. More specifically, ΣCT and D may further satisfy: 3.7&lt;ΣCT/D&lt;4.6. Satisfying 3.5&lt;ΣCT/D&lt;4.6 may help the uniform distribution of sizes of lenses, ensure the assembly stability of the lens group, and to shorten the total length of the optical imaging lens group. 
     According to an exemplary implementation of the present disclosure, the optical imaging lens group according to the present disclosure may satisfy: 3.5&lt;TTL/ΣAT&lt;4.5, where TTL is a distance from the object-side surface of the first lens to an imaging plane of the optical imaging lens group on the optical axis, and ΣAT is a sum of spaced intervals of each two adjacent lenses on the optical axis from the first lens to a lens closest to the image side. Satisfying 3.5&lt;TTL/ΣAT&lt;4.5 may reasonably control the distortion of the lens group, so that the lens group has a good distortion effect. 
     According to an exemplary implementation of the present disclosure, the optical imaging lens group according to the present disclosure may satisfy: 1.0&lt;f/ImgH&lt;1.5, where f is a total effective focal length of the optical imaging lens group, and ImgH is a half of a diagonal length of an effective pixel area on an imaging plane of the optical imaging lens group. More specifically, f and ImgH may further satisfy: 1.2&lt;f/ImgH&lt;1.5. Satisfying 1.0&lt;f/ImgH&lt;1.5 is beneficial to make light have good optical path deflection in the lens group. 
     In an exemplary implementation, the optical imaging lens group according to the present disclosure further includes a stop arranged between the autofocus component and the first lens. Alternatively, the optical imaging lens group may further include an optical filter for correcting color deviation and/or a protective glass for protecting a photosensitive element on the imaging plane. The present disclosure proposes an optical imaging lens group having characteristics such as miniaturization, autofocus, stable image quality, and high imaging quality. The optical imaging lens group according to the above implementations of the present disclosure may employ a plurality of lenses, such as five lenses as described above. By reasonably distributing the refractive power of each lens, the surface shape, the center thickness of each lens and the spaced intervals along the optical axis between the lenses, it may effectively converge incident light, reduce a total track length of the imaging lens assembly and improve the processability of the imaging system, making the optical imaging lens group more conducive to production and processing. 
     In the implementations of the present disclosure, at least one of the surfaces of the lenses is an aspheric surface, that is, at least one of the surfaces from the object-side surface of the first lens to the image-side surface of the lens closest to the image side is an aspheric surface. The characteristic of the aspheric lens is: the curvature is continuously changing from the center of the lens to the periphery of the lens. Unlike the spherical lens with a constant curvature from the center of the lens to the periphery, the aspheric lens has a better radius of curvature characteristic, having advantages of improving the distortion aberration and improving the astigmatic aberration. The use of the aspheric lens can eliminate as much as possible the aberrations that occur during the imaging, thereby improving the imaging quality. Alternatively, at least one of the object-side surface and the image-side surface of each of the first lens, the second lens, the third lens, the fourth lens and the at least one subsequent lens is an aspheric surface. Alternatively, the object-side surface and the image-side surface of each of the first lens, the second lens, the third lens, the fourth lens and the at least one subsequent lens are aspheric surfaces. 
     However, it should be understood by those skilled in the art that the various results and advantages described in the present specification may be obtained by changing the number of the lenses constituting the optical imaging lens group without departing from the technical solution claimed by the present disclosure. For example, although the optical imaging lens group having five lenses or six lenses is described as an example in the implementations, the optical imaging lens group is not limited to include five lenses or six lenses. If desired, the optical imaging lens group may also include other numbers of lenses. 
     Specific examples of the optical imaging lens group that may be applied to the above implementations are further described below with reference to the accompanying drawings. 
     Example 1 
     An optical imaging lens group according to Example 1 of the present disclosure is described below with reference to  FIGS. 1-5B .  FIG. 1  is a schematic structural diagram illustrating the optical imaging lens group according to Example 1 of the present disclosure. 
     As shown in  FIG. 1 , the optical imaging lens group from an object side to an image side sequentially includes: an autofocus component T (including a light-transmitting module, a liquid material and a flexible film), a stop STO, a first lens E 1 , a second lens E 2 , a third lens E 3 , a fourth lens E 4 , a fifth lens E 5 , an optical filter E 6  and an imaging plane S 13 . 
     The first lens E 1  has a positive refractive power, an object-side surface S 1  of the first lens is a convex surface, and an image-side surface S 2  of the first lens is a concave surface. The second lens E 2  has a negative refractive power, an object-side surface S 3  of the second lens is a concave surface, and an image-side surface S 4  of the second lens is a concave surface. The third lens E 3  has a positive refractive power, an object-side surface S 5  of the third lens is a convex surface, and an image-side surface S 6  of the third lens is a convex surface. The fourth lens E 4  has a positive refractive power, an object-side surface S 7  of the fourth lens is a concave surface, and an image-side surface S 8  of the fourth lens is a convex surface. The fifth lens E 5  has a negative refractive power, an object-side surface S 9  of the fifth lens is a concave surface, and an image-side surface S 10  of the fifth lens is a concave surface. The optical filter E 6  has an object-side surface S 11  and an image-side surface S 12 . Light from an object sequentially passes through the light-transmitting module to the image-side surface S 12  of the optical filter E 6  and is finally imaged on the imaging plane S 13 . 
     Table 1 is a table illustrating basic parameters of the optical imaging lens group of Example 1, where the units for the radius of curvature, the thickness/distance and the focal length are millimeter (mm). 
     
       
         
           
               
               
               
             
               
                 TABLE 1 
               
             
            
               
                   
               
               
                   
                 Material 
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 Surface 
                 Surface 
                 Radius of 
                 Thickness/ 
                 Refractive 
                 Abbe 
                 Focal 
                 Conic 
               
               
                 number 
                 type 
                 curvature 
                 Distance 
                 index 
                 number 
                 length 
                 coefficient 
               
               
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 OBJ 
                 Spherical 
                 infinite 
                 D1 
                   
                   
                   
                   
               
               
                   
                 Spherical 
                 infinite 
                 0.3000 
                 1.52 
                 64.2 
                   
                   
               
               
                   
                 Spherical 
                 infinite 
                 0.2650 
                 1.55 
                 29.9 
                   
                   
               
               
                   
                 Spherical 
                 RT 
                 0.0200 
                 1.53 
                 65.4 
                   
                   
               
               
                   
                 Spherical 
                   
                 0.4500 
                   
                   
                   
                   
               
               
                 STO 
                 Spherical 
                 infinite 
                 −0.3500 
                   
                   
                   
                   
               
               
                 S1 
                 Aspheric 
                 1.5494 
                 0.6566 
                 1.55 
                 56.1 
                 2.96 
                 −0.0503 
               
               
                 S2 
                 Aspheric 
                 32.2278 
                 0.2015 
                   
                   
                   
                 −90.0000 
               
               
                 S3 
                 Aspheric 
                 −8.1223 
                 0.2100 
                 1.67 
                 20.4 
                 −4.31 
                 29.5889 
               
               
                 S4 
                 Aspheric 
                 4.4932 
                 0.3436 
                   
                   
                   
                 −50.5475 
               
               
                 S5 
                 Aspheric 
                 20.0000 
                 0.3291 
                 1.64 
                 23.5 
                 14.80 
                 68.5880 
               
               
                 S6 
                 Aspheric 
                 −18.1138 
                 0.6763 
                   
                   
                   
                 −90.0000 
               
               
                 S7 
                 Aspheric 
                 −5.8413 
                 0.6768 
                 1.55 
                 56.1 
                 2.02 
                 −44.8266 
               
               
                 S8 
                 Aspheric 
                 −0.9666 
                 0.1730 
                   
                   
                   
                 −1.0119 
               
               
                 S9 
                 Aspheric 
                 −14.1818 
                 0.3300 
                 1.54 
                 55.8 
                 −1.73 
                 23.7569 
               
               
                 S10 
                 Aspheric 
                 1.0037 
                 0.5741 
                   
                   
                   
                 −0.9927 
               
               
                 S11 
                 Spherical 
                 infinite 
                 0.2100 
                 1.52 
                 64.2 
                   
                   
               
               
                 S12 
                 Spherical 
                 infinite 
                 0.5339 
                   
                   
                   
                   
               
               
                 S13 
                 Spherical 
                 infinite 
               
               
                   
               
            
           
         
       
     
     In this example, the light-transmitting module and the liquid material may be glued together. By changing the radius of curvature of a flexible film surface of the autofocus component T and the radius of curvature of an image-side surface of the liquid material, the total effective focal length of the optical imaging lens group may be changed with the change of a distance from the photographed object to the optical imaging lens group, thereby realizing the autofocus function of the optical imaging lens group. Specifically, when the distance D1 between the optical imaging lens group and the photographed object is 350 mm, the image-side surface of the autofocus component T (i.e., the image-side surface of the liquid material and the flexible film surface) is a plane, and the radius of curvature RT is infinite. When the distance D1 between the optical imaging lens group and the photographed object is 150 mm, the image-side surface of the autofocus component T is a concave surface, and the radius of curvature RT is 3.5300. When the distance D1 between the optical imaging lens group and the photographed object is infinite, the image-side surface of the autofocus component T is a convex surface, and the radius of curvature RT is −4.7400. 
     In this example, a total effective focal length f of the optical imaging lens group is 4.11 mm, a total track length TTL of the optical imaging lens group (that is, a distance from the object-side surface of the first lens to the imaging plane S 13  of the optical imaging lens group on the optical axis) is 4.91 mm, a half of a diagonal length ImgH of an effective pixel area on the imaging plane S 13  of the optical imaging lens group is 3.01 mm, a half of a maximum field-of-view Semi-FOV of the optical imaging lens group is 35.0°, and an F number Fno of the optical imaging lens group is 2.00. 
     In Example 1, the object-side surface and the image-side surface of each of the first lens E 1  to the fifth lens E 5  are aspheric. The surface shape x of each aspheric lens may be defined by using, but not limited to, the following aspheric formula: 
     
       
         
           
             
               
                 
                   x 
                   = 
                   
                     
                       
                         ch 
                         2 
                       
                       
                         1 
                         + 
                         
                           
                             1 
                             - 
                             
                               
                                 ( 
                                 
                                   k 
                                   + 
                                   1 
                                 
                                 ) 
                               
                               ⁢ 
                               
                                 c 
                                 2 
                               
                               ⁢ 
                               
                                 h 
                                 2 
                               
                             
                           
                         
                       
                     
                     + 
                     
                       ∑ 
                       
                         A 
                         ⁢ 
                         i 
                         ⁢ 
                         
                           h 
                           i 
                         
                       
                     
                   
                 
               
               
                 
                   ( 
                   1 
                   ) 
                 
               
             
           
         
       
     
     Where, x is the sag—the axis-component of the displacement of the surface from the aspheric vertex, when the surface is at height h from the optical axis; c is a paraxial curvature of the aspheric surface, c32 1/R (that is, the paraxial curvature c is reciprocal of the radius of curvature R in the above Table 1); k is a conic coefficient; Ai is a correction coefficient for the i-th order of the aspheric surface. Table 2 below shows high-order coefficients A 4 , A 6 , A 8 , A 10 , A 12 , A 14 , A 16 , A 18  and A 20  applicable to each aspheric surface S 1  to S 10  in Example 1. 
     
       
         
           
               
               
               
               
               
               
             
               
                 TABLE 2 
               
               
                   
               
             
            
               
                 Surface number 
                 A4 
                 A6 
                 A8 
                 A10 
                 A12 
               
               
                   
               
               
                 S1 
                 −6.2010E−03 
                 −1.9154E−03 
                 −5.1595E−04 
                 −9.5721E−05  
                 −2.4498E−05  
               
               
                 S2 
                 −1.8046E−02 
                 −5.1023E−04 
                 −5.2167E−04 
                 4.8537E−06 
                 2.6816E−07 
               
               
                 S3 
                  2.8969E−02 
                  4.5521E−03 
                 −5.7808E−04 
                 2.4389E−04 
                 −1.7807E−05  
               
               
                 S4 
                  4.3626E−02 
                  3.0780E−03 
                 −2.4469E−04 
                 1.5417E−04 
                 1.6876E−05 
               
               
                 S5 
                 −1.0360E−01 
                 −3.6572E−03 
                 −7.4873E−04 
                 1.8454E−05 
                 −4.6300E−06  
               
               
                 S6 
                 −1.5442E−01 
                 −1.7126E−03 
                  7.7290E−04 
                 4.6650E−04 
                 1.8538E−04 
               
               
                 S7 
                 −1.3624E−01 
                  2.4350E−02 
                  3.0234E−03 
                 −2.1506E−03  
                 3.4271E−04 
               
               
                 S8 
                  6.8822E−01 
                 −6.6426E−02 
                  2.9580E−02 
                 −1.7076E−02  
                 7.8311E−03 
               
               
                 S9 
                 −5.6261E−01 
                  1.8150E−01 
                 −2.5807E−02 
                 1.0728E−02 
                 1.2525E−03 
               
               
                 S10 
                 −2.8945E+00 
                  5.1358E−01 
                 −1.6166E−01 
                 6.5327E−02 
                 −2.3554E−02  
               
               
                   
               
               
                   
                 Surface number 
                 A14 
                 A16 
                 A18 
                 A20 
               
               
                   
               
               
                   
                 S1 
                 −2.2903E−07  
                 −2.0715E−06  
                  2.2529E−06 
                 −1.1343E−06  
               
               
                   
                 S2 
                 −2.5685E−06  
                 6.8244E−07 
                 −3.8136E−07 
                 1.6649E−06 
               
               
                   
                 S3 
                 4.6713E−06 
                 −1.1095E−06  
                 −5.5562E−07 
                 2.6345E−07 
               
               
                   
                 S4 
                 1.7781E−06 
                 5.3884E−06 
                 −2.4551E−06 
                 2.0884E−06 
               
               
                   
                 S5 
                 2.1675E−05 
                 −6.0453E−06  
                  6.5881E−06 
                 −4.2497E−06  
               
               
                   
                 S6 
                 4.9217E−05 
                 1.6191E−05 
                  2.1849E−06 
                 1.4446E−06 
               
               
                   
                 S7 
                 1.5213E−04 
                 1.4821E−05 
                 −2.3473E−05 
                 4.2882E−07 
               
               
                   
                 S8 
                 −1.4574E−03  
                 8.1252E−04 
                 −7.9964E−04 
                 2.2021E−04 
               
               
                   
                 S9 
                 −4.2088E−03  
                 9.8721E−04 
                 −1.1090E−03 
                 8.2573E−04 
               
               
                   
                 S10 
                 1.1218E−02 
                 A.7130E−03  
                  2.2677E−03 
                 −1.0369E−03  
               
               
                   
               
            
           
         
       
     
       FIG. 2A  illustrates the longitudinal aberration curve of the optical imaging lens group according to Example 1, representing deviations of focal points converged by light of different wavelengths after passing through the lens assembly.  FIG. 2B  illustrates the astigmatic curve of the optical imaging lens group according to Example 1, representing a curvature of a tangential plane and a curvature of a sagittal plane.  FIG. 2C  illustrates the distortion curve of the optical imaging lens group according to Example 1, representing the amounts of distortion corresponding to different image heights.  FIG. 2D  illustrates the lateral color curve of the optical imaging lens group according to Example 1, representing deviations of different heights of images on an imaging plane formed by light passing through the lens assembly.  FIG. 3A ,  FIG. 4A  and  FIG. 5A  respectively illustrate MTF curve diagrams of the optical imaging lens group in Example 1 within a waveband range of 430 nm to 650 nm, when the distance from the photographed object to the optical imaging lens group is 350 mm, 150 mm and infinite, representing pixel sizes of a tangential field-of-view and a sagittal field-of-view at different frequencies.  FIG. 3B ,  FIG. 4B  and  FIG. 5B  respectively illustrate focus shift curve diagrams of the optical imaging lens group in Example 1 within a waveband range of 430 nm to 650 nm, when the distance from the photographed object to the optical imaging lens group is 350 mm, 150 mm and infinite, representing pixel sizes of a tangential field-of-view and a sagittal field-of-view under different focal shifts (that is, a difference between the actual focal length and a theoretical focal length). It can be seen from  FIG. 2A  to  FIG. 5B  that the optical imaging lens group provided in Example 1 can achieve good imaging quality. 
     Example 2 
     An optical imaging lens group according to Example 2 of the present disclosure is described below with reference to  FIG. 6  to  FIG. 10B . In this example and the following examples, for the purpose of brevity, the description of parts similar to those in Example 1 will be omitted.  FIG. 6  illustrates a schematic structural diagram of the optical imaging lens group according to Example 2 of the present disclosure. 
     As shown in  FIG. 6 , the optical imaging lens group from an object side to an image side sequentially includes: an autofocus component T (including a light-transmitting module, a liquid material and a flexible film), a stop STO, a first lens E 1 , a second lens E 2 , a third lens E 3 , a fourth lens E 4 , a fifth lens E 5 , an optical filter E 6  and an imaging plane S 13 . 
     The first lens E 1  has a positive refractive power, an object-side surface S 1  of the first lens is a convex surface, and an image-side surface S 2  of the first lens is a concave surface. The second lens E 2  has a negative refractive power, an object-side surface S 3  of the second lens is a concave surface, and an image-side surface S 4  of the second lens is a convex surface. The third lens E 3  has a negative refractive power, an object-side surface S 5  of the third lens is a concave surface, and an image-side surface S 6  of the third lens is a convex surface. The fourth lens E 4  has a positive refractive power, an object-side surface S 7  of the fourth lens is a concave surface, and an image-side surface S 8  of the fourth lens is a convex surface. The fifth lens E 5  has a negative refractive power, an object-side surface S 9  of the fifth lens is a concave surface, and an image-side surface S 10  of the fifth lens is a concave surface. The optical filter E 6  has an object-side surface S 11  and an image-side surface S 12 . Light from an object sequentially passes through the light-transmitting module to the image-side surface S 12  of the optical filter E 6  and is finally imaged on the imaging plane S 13 . 
     In this example, a total effective focal length f of the optical imaging lens group is 4.19 mm, a total track length TTL of the optical imaging lens group is 4.91 mm, a half of a diagonal length ImgH of an effective pixel area on the imaging plane S 13  of the optical imaging lens group is 3.01 mm, a half of a maximum field-of-view Semi-FOV of the optical imaging lens group is 34.5°, and an F number Fno of the optical imaging lens group is 2.38. 
     Table 3 is a table illustrating basic parameters of the optical imaging lens group of Example 2, where the units for the radius of curvature, the thickness/distance and the focal length are millimeter (mm). Table 4 shows high-order coefficients applicable to each aspheric surface in Example 2, where the surface shape of each aspheric surface may be defined by the formula (1) given in the above Example 1. 
     
       
         
           
               
               
               
             
               
                 TABLE 3 
               
             
            
               
                   
               
               
                   
                 Material 
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 Surface 
                 Surface 
                 Radius of 
                 Thickness/ 
                 Refractive 
                 Abbe 
                 Focal 
                 Conic 
               
               
                 number 
                 type 
                 curvature 
                 Distance 
                 index 
                 number 
                 length 
                 coefficient 
               
               
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 OBJ 
                 Spherical 
                 infinite 
                 D1 
                   
                   
                   
                   
               
               
                   
                 Spherical 
                 infinite 
                 0.3000 
                 1.52 
                 64.2 
                   
                   
               
               
                   
                 Spherical 
                 infinite 
                 0.2650 
                 1.55 
                 29.9 
                   
                   
               
               
                   
                 Spherical 
                 RT 
                 0.0200 
                 1.53 
                 65.4 
                   
                   
               
               
                   
                 Spherical 
                   
                 0.4196 
                   
                   
                   
                   
               
               
                 STO 
                 Spherical 
                 infinite 
                 −0.3196 
                   
                   
                   
                   
               
               
                 S1 
                 Aspheric 
                 1.3818 
                 0.5675 
                 1.55 
                 56.1 
                 2.71 
                 0.0071 
               
               
                 S2 
                 Aspheric 
                 17.6605 
                 0.1627 
                   
                   
                   
                 87.5775 
               
               
                 S3 
                 Aspheric 
                 −3.3062 
                 0.2300 
                 1.67 
                 20.4 
                 −5.98 
                 −5.7689 
               
               
                 S4 
                 Aspheric 
                 −20.0000 
                 0.3081 
                   
                   
                   
                 90.0000 
               
               
                 S5 
                 Aspheric 
                 −8.5680 
                 0.2843 
                 1.64 
                 23.5 
                 −440.01 
                 89.8783 
               
               
                 S6 
                 Aspheric 
                 −8.9498 
                 0.5501 
                   
                   
                   
                 −20.2442 
               
               
                 S7 
                 Aspheric 
                 −5.2063 
                 0.9924 
                 1.55 
                 56.1 
                 2.18 
                 −8.1001 
               
               
                 S8 
                 Aspheric 
                 −1.0354 
                 0.1679 
                   
                   
                   
                 −1.0172 
               
               
                 S9 
                 Aspheric 
                 −6.3923 
                 0.3700 
                 1.54 
                 55.8 
                 −1.75 
                 0.8265 
               
               
                 S10 
                 Aspheric 
                 1.1262 
                 0.5560 
                   
                   
                   
                 −1.0075 
               
               
                 S11 
                 Spherical 
                 infinite 
                 0.2100 
                 1.52 
                 64.2 
                   
                   
               
               
                 S12 
                 Spherical 
                 infinite 
                 0.5157 
                   
                   
                   
                   
               
               
                 S13 
                 Spherical 
                 infinite 
               
               
                   
               
            
           
         
       
     
     In this example, the light-transmitting module and the liquid material may be glued together. By changing the radius of curvature of a flexible film surface of the autofocus component T and the radius of curvature of an image-side surface of the liquid material, the total effective focal length of the optical imaging lens group may be changed with the change of a distance from the photographed object to the optical imaging lens group, thereby realizing the autofocus function of the optical imaging lens group. When the distance D1 between the optical imaging lens group and the photographed object is 350 mm, the image-side surface of the autofocus component T is a plane, and the radius of curvature RT is infinite. When the distance D1 between the optical imaging lens group and the photographed object is 150 mm, the image-side surface of the autofocus component T is a concave surface, and the radius of curvature RT is 3.5350. When the distance D1 between the optical imaging lens group and the object is infinite, the image-side surface of the autofocus component T is a convex surface, and the radius of curvature RT is −4.7200. 
     
       
         
           
               
               
               
               
               
               
             
               
                 TABLE 4 
               
               
                   
               
             
            
               
                 Surface number 
                 A4 
                 A6 
                 A8 
                 A10 
                 A12 
               
               
                   
               
               
                 S1 
                 −1.9695E−03 
                 −2.1322E−03  
                 −7.8107E−04 
                 −1.8826E−04  
                 −4.7061E−05 
               
               
                 S2 
                 −1.7293E−02 
                 −1.6539E−03  
                 −2.6433E−04 
                 7.8808E−05 
                  4.3765E−05 
               
               
                 S3 
                  4.6350E−02 
                 2.6364E−03 
                  3.6651E−04 
                 2.6820E−04 
                  1.8461E−05 
               
               
                 S4 
                  4.6823E−02 
                 1.0217E−03 
                 −5.4302E−04 
                 −1.2287E−04  
                 −9.4437E−05 
               
               
                 S5 
                 −1.1785E−01 
                 −3.5552E−03  
                 −1.3297E−03 
                 −2.3701E−04  
                 −1.1754E−04 
               
               
                 S6 
                 −1.5492E−01 
                 1.1359E−02 
                  2.7969E−03 
                 1.1157E−03 
                  3.3955E−04 
               
               
                 S7 
                 −1.1639E−01 
                 7.8287E−03 
                 −1.4928E−03 
                 1.8829E−04 
                  8.8498E−04 
               
               
                 S8 
                  6.9300E−01 
                 −6.3287E−02  
                  1.6492E−02 
                 −9.7839E−03  
                  4.8976E−03 
               
               
                 S9 
                 −4.6926E−01 
                 1.7644E−01 
                 −3.5267E−02 
                 1.3352E−02 
                 −2.9441E−03 
               
               
                 S10 
                 −2.8861E+00 
                 5.0888E−01 
                 −1.6990E−01 
                 6.7970E−02 
                 −2.7483E−02 
               
               
                   
               
               
                   
                 Surface number 
                 A14 
                 A16 
                 A18 
                 A20 
               
               
                   
               
               
                   
                 S1 
                 −3.0011E−06  
                 −2.5314E−06 
                  2.2183E−06 
                 −7.2876E−07 
               
               
                   
                 S2 
                 6.9161E−06 
                  3.2479E−06 
                 −3.6560E−06 
                 −1.9899E−06 
               
               
                   
                 S3 
                 1.6729E−05 
                 −2.0979E−06 
                  3.3808E−06 
                 −2.6822E−06 
               
               
                   
                 S4 
                 −6.7583E−05  
                 −3.4433E−05 
                 −3.2905E−05 
                 −1.9189E−05 
               
               
                   
                 S5 
                 −3.5720E−05  
                 −2.6903E−05 
                 −2.5611E−06 
                 −5.7732E−06 
               
               
                   
                 S6 
                 9.0085E−05 
                  4.7260E−05 
                  2.4832E−05 
                  2.0400E−05 
               
               
                   
                 S7 
                 1.0374E−04 
                  4.8453E−05 
                 −1.5671E−05 
                 −4.1763E−05 
               
               
                   
                 S8 
                 −1.6446E−03  
                  8.0237E−04 
                 −8.3694E−05 
                  4.1197E−04 
               
               
                   
                 S9 
                 5.4310E−04 
                  5.5316E−04 
                 −4.5687E−04 
                 −4.2621E−04 
               
               
                   
                 S10 
                 1.2609E−02 
                 −6.0371E−03 
                  2.8122E−03 
                 −1.4067E−03 
               
               
                   
               
            
           
         
       
     
       FIG. 7A  illustrates the longitudinal aberration curve of the optical imaging lens group according to Example 2, representing deviations of focal points converged by light of different wavelengths after passing through the lens assembly.  FIG. 7B  illustrates the astigmatic curve of the optical imaging lens group according to Example 2, representing a curvature of a tangential plane and a curvature of a sagittal plane.  FIG. 7C  illustrates the distortion curve of the optical imaging lens group according to Example 2, representing the amounts of distortion corresponding to different image heights.  FIG. 7D  illustrates the lateral color curve of the optical imaging lens group according to Example 2, representing deviations of different heights of images on an imaging plane formed by light passing through the lens assembly.  FIG. 8A ,  FIG. 9A  and  FIG. 10A  respectively illustrate MTF curve diagrams of the optical imaging lens group in Example 2 within a waveband range of 430 nm to 650 nm, when the distance from the photographed object to the optical imaging lens group is 350 mm, 150 mm and infinite, representing pixel sizes of a tangential field-of-view and a sagittal field-of-view at different frequencies.  FIG. 8B ,  FIG. 9B  and  FIG. 10B  respectively illustrate focus shift curve diagrams of the optical imaging lens group in Example 2 within a waveband range of 430 nm to 650 nm, when the distance from the photographed object to the optical imaging lens group is 350 mm, 150 mm and infinite, representing pixel sizes of a tangential field-of-view and a sagittal field-of-view under different focal shifts. It can be seen from  FIG. 7A  to  FIG. 10B  that the optical imaging lens group provided in Example 2 can achieve good imaging quality. 
     Example 3 
     An optical imaging lens group according to Example 3 of the present disclosure is described below with reference to  FIG. 11  to  FIG. 15B .  FIG. 11  illustrates a schematic structural diagram of the optical imaging lens group according to Example 3 of the present disclosure. 
     As shown in  FIG. 11 , the optical imaging lens group from an object side to an image side sequentially includes: an autofocus component T (including a light-transmitting module, a liquid material and a flexible film), a stop STO, a first lens E 1 , a second lens E 2 , a third lens E 3 , a fourth lens E 4 , a fifth lens E 5 , an optical filter E 6  and an imaging plane S 13 . 
     The first lens E 1  has a positive refractive power, an object-side surface S 1  of the first lens is a convex surface, and an image-side surface S 2  of the first lens is a concave surface. The second lens E 2  has a negative refractive power, an object-side surface S 3  of the second lens is a concave surface, and an image-side surface S 4  of the second lens is a concave surface. The third lens E 3  has a positive refractive power, an object-side surface S 5  of the third lens is a concave surface, and an image-side surface S 6  of the third lens is a convex surface. The fourth lens E 4  has a positive refractive power, an object-side surface S 7  of the fourth lens is a concave surface, and an image-side surface S 8  of the fourth lens is a convex surface. The fifth lens E 5  has a negative refractive power, an object-side surface S 9  of the fifth lens is a concave surface, and an image-side surface S 10  of the fifth lens is a concave surface. The optical filter E 6  has an object-side surface S 11  and an image-side surface S 12 . Light from an object sequentially passes through the light-transmitting module to the image-side surface S 12  of the optical filter E 6  and is finally imaged on the imaging plane S 13 . 
     In this example, a total effective focal length f of the optical imaging lens group is 4.23 mm, a total track length TTL of the optical imaging lens group is 4.83 mm, a half of a diagonal length ImgH of an effective pixel area on the imaging plane S 13  of the optical imaging lens group is 3.01 mm, a half of a maximum field-of-view Semi-FOV of the optical imaging lens group is 34.4°, and an F number Fno of the optical imaging lens group is 2.38. 
     Table 5 is a table illustrating basic parameters of the optical imaging lens group of Example 3, where the units for the radius of curvature, the thickness/distance and the focal length are millimeter (mm). Table 6 shows high-order coefficients applicable to each aspheric surface in Example 3, where the surface shape of each aspheric surface may be defined by the formula (1) given in the above Example 1. 
     
       
         
           
               
               
               
             
               
                 TABLE 5 
               
             
            
               
                   
               
               
                   
                 Material 
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 Surface 
                 Surface 
                 Radius of 
                 Thickness/ 
                 Refractive 
                 Abbe 
                 Focal 
                 Conic 
               
               
                 number 
                 type 
                 curvature 
                 Distance 
                 index 
                 number 
                 length 
                 coefficient 
               
               
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 OBJ 
                 Spherical 
                 infinite 
                 D1 
                   
                   
                   
                   
               
               
                   
                 Spherical 
                 infinite 
                 0.3000 
                 1.52 
                 64.2 
                   
                   
               
               
                   
                 Spherical 
                 infinite 
                 0.2650 
                 1.55 
                 29.9 
                   
                   
               
               
                   
                 Spherical 
                 RT 
                 0.0200 
                 1.53 
                 65.4 
                   
                   
               
               
                   
                 Spherical 
                   
                 0.4500 
                   
                   
                   
                   
               
               
                 STO 
                 Spherical 
                 infinite 
                 −0.3371 
                   
                   
                   
                   
               
               
                 S1 
                 Aspheric 
                 1.3433 
                 0.5734 
                 1.55 
                 56.1 
                 2.71 
                 0.0071 
               
               
                 S2 
                 Aspheric 
                 12.5526 
                 0.1753 
                   
                   
                   
                 39.1196 
               
               
                 S3 
                 Aspheric 
                 −4.7235 
                 0.2100 
                 1.67 
                 20.4 
                 −4.83 
                 −1.6333 
               
               
                 S4 
                 Aspheric 
                 10.3148 
                 0.2976 
                   
                   
                   
                 4.1545 
               
               
                 S5 
                 Aspheric 
                 −13.8088 
                 0.3129 
                 1.64 
                 23.5 
                 24.93 
                 90.0000 
               
               
                 S6 
                 Aspheric 
                 −7.4932 
                 0.5769 
                   
                   
                   
                 −4.9284 
               
               
                 S7 
                 Aspheric 
                 −6.0326 
                 0.9329 
                 1.55 
                 56.1 
                 2.22 
                 −4.2102 
               
               
                 S8 
                 Aspheric 
                 −1.0657 
                 0.1290 
                   
                   
                   
                 −0.9966 
               
               
                 S9 
                 Aspheric 
                 −7.8415 
                 0.3517 
                 1.54 
                 55.8 
                 −1.74 
                 −0.9780 
               
               
                 S10 
                 Aspheric 
                 1.0762 
                 0.5524 
                   
                   
                   
                 −0.9805 
               
               
                 S11 
                 Spherical 
                 infinite 
                 0.2100 
                 1.52 
                 64.2 
                   
                   
               
               
                 S12 
                 Spherical 
                 infinite 
                 0.5122 
                   
                   
                   
                   
               
               
                 S13 
                 Spherical 
                 infinite 
               
               
                   
               
            
           
         
       
     
     In this example, the light-transmitting module and the liquid material may be glued together. By changing the radius of curvature of a flexible film surface of the autofocus component T and the radius of curvature of an image-side surface of the liquid material, the total effective focal length of the optical imaging lens group may be changed with the change of a distance from the photographed object to the optical imaging lens group, thereby realizing the autofocus function of the optical imaging lens group. Specifically, when the distance D1 between the optical imaging lens group and the photographed object is 350 mm, the image-side surface of the autofocus component T is a plane, and the radius of curvature RT is infinite. When the distance D1 between the optical imaging lens group and the photographed object is 150 mm, the image-side surface of the autofocus component T is a concave surface, and the radius of curvature RT is 3.5150. When the distance D1 between the optical imaging lens group and the photographed object is infinite, the image-side surface of the autofocus component T is a convex surface, and the radius of curvature RT is −4.7100. 
     
       
         
           
               
               
               
               
               
               
             
               
                 TABLE 6 
               
               
                   
               
             
            
               
                 Surface number 
                 A4 
                 A6 
                 A8 
                 A10 
                 A12 
               
               
                   
               
               
                 S1 
                 −2.3798E−03 
                 −1.9269E−03  
                 −7.0325E−04 
                 −1.8124E−04  
                 −4.5498E−05  
               
               
                 S2 
                 −1.9438E−02 
                 −3.9799E−04  
                 −4.8354E−04 
                 −1.0847E−05  
                 1.7036E−06 
               
               
                 S3 
                  4.3948E−02 
                 5.0978E−03 
                 −1.4519E−04 
                 3.0597E−04 
                 4.5355E−06 
               
               
                 S4 
                  5.0849E−02 
                 7.0578E−03 
                  3.5919E−04 
                 4.0445E−04 
                 5.7974E−05 
               
               
                 S5 
                 −1.1498E−01 
                 −2.2072E−03  
                 −5.8848E−04 
                 7.3581E−05 
                 5.0269E−05 
               
               
                 S6 
                 −1.5858E−01 
                 8.3300E−03 
                  2.3514E−03 
                 9.4627E−04 
                 2.5380E−04 
               
               
                 S7 
                 −1.3416E−01 
                 1.0041E−02 
                  4.9749E−04 
                 −1.0654E−03  
                 3.7786E−04 
               
               
                 S8 
                  6.8300E−01 
                 −6.6889E−02  
                  1.6354E−02 
                 −1.3576E−02  
                 6.2060E−03 
               
               
                 S9 
                 −4.7165E−01 
                 1.9875E−01 
                 −5.0744E−02 
                 1.1553E−02 
                 −1.9201E−03  
               
               
                 S10 
                 −2.8603E+00 
                 5.3580E−01 
                 −1.6426E−01 
                 6.9228E−02 
                 −2.6878E−02  
               
               
                   
               
               
                   
                 Surface number 
                 A14 
                 A16 
                 A18 
                 A20 
               
               
                   
               
               
                   
                 S1 
                 −6.5694E−06 
                 −2.4926E−06 
                  5.2096E−07 
                 −6.7931E−07  
               
               
                   
                 S2 
                 −6.1904E−08 
                 −6.4933E−07 
                 −7.6828E−07 
                 −5.4013E−07  
               
               
                   
                 S3 
                  5.3092E−06 
                 −3.6785E−08 
                 −2.9221E−07 
                 2.8879E−08 
               
               
                   
                 S4 
                  8.1128E−07 
                 −1.6922E−05 
                 −1.9568E−05 
                 −1.5132E−05  
               
               
                   
                 S5 
                  2.1064E−05 
                  8.5965E−06 
                  5.1286E−06 
                 3.1042E−06 
               
               
                   
                 S6 
                  2.9202E−05 
                 −6.6468E−07 
                 −2.3458E−06 
                 4.6720E−06 
               
               
                   
                 S7 
                 −5.5347E−05 
                 −2.6765E−05 
                 −2.9203E−06 
                 1.2796E−05 
               
               
                   
                 S8 
                 −2.4132E−03 
                  8.0739E−04 
                 −4.6244E−04 
                 3.4095E−04 
               
               
                   
                 S9 
                 −8.5388E−04 
                  1.0218E−03 
                 −3.7125E−04 
                 4.4517E−04 
               
               
                   
                 S10 
                  1.2098E−02 
                 −5.7385E−03 
                  2.7096E−03 
                 −1.3238E−03  
               
               
                   
               
            
           
         
       
     
       FIG. 12A  illustrates the longitudinal aberration curve of the optical imaging lens group according to Example 3, representing deviations of focal points converged by light of different wavelengths after passing through the lens assembly.  FIG. 12B  illustrates the astigmatic curve of the optical imaging lens group according to Example 3, representing a curvature of a tangential plane and a curvature of a sagittal plane.  FIG. 12C  illustrates the distortion curve of the optical imaging lens group according to Example 3, representing the amounts of distortion corresponding to different image heights.  FIG. 12D  illustrates the lateral color curve of the optical imaging lens group according to Example 3, representing deviations of different heights of images on an imaging plane formed by light passing through the lens assembly.  FIG. 13A ,  FIG. 14A  and  FIG. 15A  respectively illustrate MTF curve diagrams of the optical imaging lens group in Example 3 within a waveband range of 430 nm to 650 nm, when the distance from the photographed object to the optical imaging lens group is 350 mm, 150 mm and infinite, representing pixel sizes of a tangential field-of-view and a sagittal field-of-view at different frequencies.  FIG. 13B ,  FIG. 14B  and  FIG. 15B  respectively illustrate focus shift curve diagrams of the optical imaging lens group in Example 3 within a waveband range of 430 nm to 650 nm, when the distance from the photographed object to the optical imaging lens group is 350 mm, 150 mm and infinite, representing pixel sizes of a tangential field-of-view and a sagittal field-of-view under different focal shifts. It can be seen from  FIG. 12A  to  FIG. 15B  that the optical imaging lens group provided in Example 3 can achieve good imaging quality. 
     Example 4 
     An optical imaging lens group according to Example 4 of the present disclosure is described below with reference to  FIG. 16  to  FIG. 20B .  FIG. 16  illustrates a schematic structural diagram of the optical imaging lens group according to Example 4 of the present disclosure. 
     As shown in  FIG. 16 , the optical imaging lens group from an object side to an image side sequentially includes: an autofocus component T (including a light-transmitting module, a liquid material and a flexible film), a stop STO, a first lens E 1 , a second lens E 2 , a third lens E 3 , a fourth lens E 4 , a fifth lens E 5 , a sixth lens E 6 , an optical filter E 7  and an imaging plane S 15 . 
     The first lens E 1  has a positive refractive power, an object-side surface S 1  of the first lens is a convex surface, and an image-side surface S 2  of the first lens is a concave surface. The second lens E 2  has a negative refractive power, an object-side surface S 3  of the second lens is a concave surface, and an image-side surface S 4  of the second lens is a concave surface. The third lens E 3  has a negative refractive power, an object-side surface S 5  of the third lens is a concave surface, and an image-side surface S 6  of the third lens is a convex surface. The fourth lens E 4  has a positive refractive power, an object-side surface S 7  of the fourth lens is a concave surface, and an image-side surface S 8  of the fourth lens is a convex surface. The fifth lens E 5  has a positive refractive power, an object-side surface S 9  of the fifth lens is a convex surface, and an image-side surface S 10  of the fifth lens is a convex surface. The sixth lens E 6  has a negative refractive power, an object-side surface S 11  of the sixth lens is a concave surface, and an image-side surface S 12  of the sixth lens is a concave surface. The optical filter E 7  has an object-side surface S 13  and an image-side surface S 14 . Light from an object sequentially passes through the light-transmitting module to the image-side surface S 14  of the optical filter E 7  and is finally imaged on the imaging plane S 15 . 
     In this example, a total effective focal length f of the optical imaging lens group is 3.98 mm, a total track length TTL of the optical imaging lens group is 4.84 mm, a half of a diagonal length ImgH of an effective pixel area on the imaging plane S 15  of the optical imaging lens group is 3.01 mm, a half of a maximum field-of-view Semi-FOV of the optical imaging lens group is 36.0°, and an F number Fno of the optical imaging lens group is 2.34. 
     Table 7 is a table illustrating basic parameters of the optical imaging lens group of Example 4, where the units for the radius of curvature, the thickness/distance and the focal length are millimeter (mm). Table 8 shows high-order coefficients applicable to each aspheric surface in Example 4, where the surface shape of each aspheric surface may be defined by the formula (1) given in the above Example 1. 
     
       
         
           
               
               
               
             
               
                 TABLE 7 
               
             
            
               
                   
               
               
                   
                 Material 
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 Surface 
                 Surface 
                 Radius of 
                 Thickness/ 
                 Refractive 
                 Abbe 
                 Focal 
                 Conic 
               
               
                 number 
                 type 
                 curvature 
                 Distance 
                 index 
                 number 
                 length 
                 coefficient 
               
               
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 OBJ 
                 Spherical 
                 infinite 
                 D1 
                   
                   
                   
                   
               
               
                   
                 Spherical 
                 infinite 
                 0.3000 
                 1.52 
                 64.2 
                   
                   
               
               
                   
                 Spherical 
                 infinite 
                 0.2650 
                 1.55 
                 29.9 
                   
                   
               
               
                   
                 Spherical 
                 RT 
                 0.0200 
                 1.53 
                 65.4 
                   
                   
               
               
                   
                 Spherical 
                   
                 0.3689 
                   
                   
                   
                   
               
               
                 STO 
                 Spherical 
                 infinite 
                 −0.2689 
                   
                   
                   
                   
               
               
                 S1 
                 Aspheric 
                 1.3742 
                 0.4908 
                 1.55 
                 56.1 
                 2.72 
                 −0.0074 
               
               
                 S2 
                 Aspheric 
                 15.8644 
                 0.1607 
                   
                   
                   
                 90.0000 
               
               
                 S3 
                 Aspheric 
                 −6.8755 
                 0.2300 
                 1.67 
                 20.4 
                 −6.08 
                 9.1520 
               
               
                 S4 
                 Aspheric 
                 9.9807 
                 0.3959 
                   
                   
                   
                 −90.0000 
               
               
                 S5 
                 Aspheric 
                 −8.4844 
                 0.3325 
                 1.64 
                 23.5 
                 −25.84 
                 88.9701 
               
               
                 S6 
                 Aspheric 
                 −17.5613 
                 0.4000 
                   
                   
                   
                 −90.0000 
               
               
                 S7 
                 Aspheric 
                 −2.2426 
                 0.5800 
                 1.55 
                 56.1 
                 2.43 
                 −24.6372 
               
               
                 S8 
                 Aspheric 
                 −0.9091 
                 0.0600 
                   
                   
                   
                 −1.0833 
               
               
                 S9 
                 Aspheric 
                 74.8991 
                 0.4100 
                 1.55 
                 56.1 
                 12.03 
                 90.0000 
               
               
                 S10 
                 Aspheric 
                 −7.1842 
                 0.0829 
                   
                   
                   
                 12.6310 
               
               
                 S11 
                 Aspheric 
                 −1.5932 
                 0.4300 
                 1.54 
                 55.8 
                 −1.88 
                 −29.2451 
               
               
                 S12 
                 Aspheric 
                 3.0199 
                 0.5258 
                   
                   
                   
                 −0.4793 
               
               
                 S13 
                 Spherical 
                 infinite 
                 0.2100 
                 1.52 
                 64.2 
                   
                   
               
               
                 S14 
                 Spherical 
                 infinite 
                 0.5341 
                   
                   
                   
                   
               
               
                 S15 
                 Spherical 
                 infinite 
               
               
                   
               
            
           
         
       
     
     In this example, the light-transmitting module and the liquid material may be glued together. By changing the radius of curvature of a flexible film surface of the autofocus component T and the radius of curvature of an image-side surface of the liquid material, the total effective focal length of the optical imaging lens group may be changed with the change of a distance from the photographed object to the optical imaging lens group , thereby realizing the autofocus function of the optical imaging lens group. Specifically, when the distance D1 between the optical imaging lens group and the object is 350 mm, the image-side surface of the autofocus component T is a plane, and the radius of curvature RT is infinite. When the distance D1 between the optical imaging lens group and the object is 150 mm, the image-side surface of the autofocus component T is a concave surface, and the radius of curvature RT is 3.4350. When the distance D1 between the optical imaging lens group and the object is infinite, the image-side surface of the autofocus component T is a convex surface, and the radius of curvature RT is −4.8300. 
     
       
         
           
               
               
               
               
               
               
             
               
                 TABLE 8 
               
               
                   
               
             
            
               
                 Surface number 
                 A4 
                 A6 
                 A8 
                 A10 
                 A12 
               
               
                   
               
               
                 S1 
                 −3.8124E−03 
                 −4.0536E−03  
                 −1.6862E−03 
                 −4.8782E−04 
                 −1.5085E−04  
               
               
                 S2 
                 −1.6132E−02 
                 −4.8945E−03  
                 −1.1293E−03 
                 −2.1444E−04 
                 −7.7737E−05  
               
               
                 S3 
                  4.3423E−02 
                 2.9980E−03 
                  7.5809E−04 
                  2.3997E−04 
                 4.6166E−05 
               
               
                 S4 
                  3.5703E−02 
                 2.2862E−03 
                  3.3699E−04 
                  3.8816E−05 
                 4.7382E−06 
               
               
                 S5 
                 −1.1512E−01 
                 −3.6802E−03  
                 −1.2295E−04 
                 −2.0678E−05 
                 −2.6415E−05  
               
               
                 S6 
                 −1.3920E−01 
                 3.8114E−03 
                  2.2628E−03 
                  7.5209E−05 
                 1.4699E−04 
               
               
                 S7 
                 −6.3761E−02 
                 2.6516E−02 
                 −7.8205E−03 
                 −9.5786E−04 
                 1.4850E−03 
               
               
                 S8 
                  7.8381E−01 
                 −6.3912E−02  
                 −7.3406E−03 
                 −5.6085E−03 
                 8.1283E−03 
               
               
                 S9 
                 −4.3042E−01 
                 7.7505E−02 
                 −1.4891E−02 
                  8.3824E−03 
                 −8.2498E−04  
               
               
                 S10 
                 −2.0988E−01 
                 1.3077E−01 
                 −2.8844E−02 
                  9.7391E−03 
                 5.9807E−04 
               
               
                 S11 
                 −1.8482E−02 
                 1.4198E−01 
                 −5.7202E−02 
                  5.8015E−03 
                 5.6017E−03 
               
               
                 S12 
                 −1.9995E+00 
                 3.4512E−01 
                 −8.2659E−03 
                 −6.5087E−03 
                 2.7422E−02 
               
               
                   
               
               
                   
                 Surface number 
                 A14 
                 A16 
                 A18 
                 A20 
               
               
                   
               
               
                   
                 S1 
                 −2.7802E−05 
                 −1.4428E−05  
                 −1.0355E−07 
                 −3.3779E−06 
               
               
                   
                 S2 
                 −6.5722E−05 
                 −5.9534E−05  
                 −5.4910E−05 
                 −4.4354E−05 
               
               
                   
                 S3 
                  1.6359E−05 
                 1.1465E−05 
                  1.1769E−05 
                  1.2850E−05 
               
               
                   
                 S4 
                 −1.6383E−05 
                 −3.1138E−07  
                 −7.5406E−06 
                  1.0616E−06 
               
               
                   
                 S5 
                 −5.8959E−06 
                 −1.9578E−05  
                  5.8511E−06 
                 −6.3647E−06 
               
               
                   
                 S6 
                 −1.7081E−05 
                 4.2878E−06 
                 −1.4785E−06 
                 −6.8419E−07 
               
               
                   
                 S7 
                 −1.2105E−04 
                 3.1662E−05 
                  9.7450E−08 
                 −1.2193E−06 
               
               
                   
                 S8 
                 −4.2558E−03 
                 2.0157E−03 
                  2.9146E−05 
                  9.4987E−04 
               
               
                   
                 S9 
                 −1.2451E−03 
                 1.4659E−03 
                 −1.9894E−03 
                  1.0686E−03 
               
               
                   
                 S10 
                  2.0260E−04 
                 −7.5642E−04  
                 −1.2243E−03 
                  5.7743E−04 
               
               
                   
                 S11 
                 −8.2008E−03 
                 5.1109E−03 
                 −9.7492E−04 
                 −7.3773E−04 
               
               
                   
                 S12 
                 −7.4687E−03 
                 7.5221E−03 
                 −1.1668E−02 
                  5.6433E−03 
               
               
                   
               
            
           
         
       
     
       FIG. 17A  illustrates the longitudinal aberration curve of the optical imaging lens group according to Example 4, representing deviations of focal points converged by light of different wavelengths after passing through the lens assembly.  FIG. 17B  illustrates the astigmatic curve of the optical imaging lens group according to Example 4, representing a curvature of a tangential plane and a curvature of a sagittal plane.  FIG. 17C  illustrates the distortion curve of the optical imaging lens group according to Example 4, representing the amounts of distortion corresponding to different image heights.  FIG. 17D  illustrates the lateral color curve of the optical imaging lens group according to Example 4, representing deviations of different heights of images on an imaging plane formed by light passing through the lens assembly.  FIG. 18A ,  FIG. 19A  and  FIG. 20A  respectively illustrate MTF curve diagrams of the optical imaging lens group in Example 4 within a waveband range of 430 nm to 650 nm of the optical imaging lens group, when the distance from the photographed object to the optical imaging lens group is 350 mm, 150 mm and infinite, representing pixel sizes of a tangential field-of-view and a sagittal field-of-view at different frequencies.  FIG. 18B ,  FIG. 19B  and  FIG. 20B  respectively illustrate focus shift curve diagrams of the optical imaging lens group in Example 4 within a waveband range of 430 nm to 650 nm, when the distance from the photographed object to the optical imaging lens group is 350 mm, 150 mm and infinite, representing pixel sizes of a tangential field-of-view and a sagittal field-of-view under different focal shifts. It can be seen from  FIG. 17A  to  FIG. 20B  that the optical imaging lens group provided in Example 4 can achieve good imaging quality. 
     Example 5 
     An optical imaging lens group according to Example 5 of the present disclosure is described below with reference to  FIG. 21  to  FIG. 25B .  FIG. 21  illustrates a schematic structural diagram of the optical imaging lens group according to Example 5 of the present disclosure. 
     As shown in  FIG. 21 , the optical imaging lens group from an object side to an image side sequentially includes: an autofocus component T (including a light-transmitting module, a liquid material and a flexible film), a stop STO, a first lens E 1 , a second lens E 2 , a third lens E 3 , a fourth lens E 4 , a fifth lens E 5 , a sixth lens E 6 , an optical filter E 7  and an imaging plane S 15 . 
     The first lens E 1  has a positive refractive power, an object-side surface S 1  of the first lens is a convex surface, and an image-side surface S 2  of the first lens is a concave surface. The second lens E 2  has a negative refractive power, an object-side surface S 3  of the second lens is a concave surface, and an image-side surface S 4  of the second lens is a concave surface. The third lens E 3  has a negative refractive power, an object-side surface S 5  of the third lens is a concave surface, and an image-side surface S 6  of the third lens is a concave surface. The fourth lens E 4  has a positive refractive power, an object-side surface S 7  of the fourth lens is a concave surface, and an image-side surface S 8  of the fourth lens is a convex surface. The fifth lens E 5  has a positive refractive power, an object-side surface S 9  of the fifth lens is a convex surface, and an image-side surface S 10  of the fifth lens is a convex surface. The sixth lens E 6  has a negative refractive power, an object-side surface S 11  of the sixth lens is a concave surface, and an image-side surface S 12  of the sixth lens is a concave surface. The optical filter E 7  has an object-side surface S 13  and an image-side surface S 14 . Light from an object sequentially passes through the light-transmitting module to the image-side surface S 14  of the optical filter E 7  and is finally imaged on the imaging plane S 15 . 
     In this example, a total effective focal length f of the optical imaging lens group is 4.22 mm, a total track length TTL of the optical imaging lens group is 5.05 mm, a half of a diagonal length ImgH of an effective pixel area on the imaging plane S 15  of the optical imaging lens group is 3.01 mm, a half of a maximum field-of-view Semi-FOV of the optical imaging lens group is 34.4°, and an F number Fno of the optical imaging lens group is 2.34. 
     Table 9 is a table illustrating basic parameters of the optical imaging lens group of Example 5, where the units for the radius of curvature, the thickness/distance and the focal length are millimeter (mm). Table 10 shows high-order coefficients applicable to each aspheric surface in Example 5, where the surface shape of each aspheric surface may be defined by the formula (1) given in the above Example 1. 
     
       
         
           
               
               
               
             
               
                 TABLE 9 
               
             
            
               
                   
               
               
                   
                 Material 
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 Surface 
                 Surface 
                 Radius of 
                 Thickness/ 
                 Refractive 
                 Abbe 
                 Focal 
                 Conic 
               
               
                 number 
                 type 
                 curvature 
                 Distance 
                 index 
                 number 
                 length 
                 coefficient 
               
               
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 OBJ 
                 Spherical 
                 infinite 
                 D1 
                   
                   
                   
                   
               
               
                   
                 Spherical 
                 infinite 
                 0.3000 
                 1.52 
                 64.2 
                   
                   
               
               
                   
                 Spherical 
                 infinite 
                 0.2650 
                 1.55 
                 29.9 
                   
                   
               
               
                   
                 Spherical 
                 RT 
                 0.0200 
                 1.53 
                 65.4 
                   
                   
               
               
                   
                 Spherical 
                   
                 0.4500 
                   
                   
                   
                   
               
               
                 STO 
                 Spherical 
                 infinite 
                 −0.3070 
                   
                   
                   
                   
               
               
                 S1 
                 Aspheric 
                 1.3906 
                 0.5163 
                 1.55 
                 56.1 
                 2.82 
                 0.0091 
               
               
                 S2 
                 Aspheric 
                 12.6435 
                 0.1472 
                   
                   
                   
                 90.0000 
               
               
                 S3 
                 Aspheric 
                 −8.6876 
                 0.2500 
                 1.67 
                 20.4 
                 −6.60 
                 33.7433 
               
               
                 S4 
                 Aspheric 
                 9.0114 
                 0.4624 
                   
                   
                   
                 −90.0000 
               
               
                 S5 
                 Aspheric 
                 −11.6868 
                 0.4359 
                 1.64 
                 23.5 
                 −14.35 
                 76.0225 
               
               
                 S6 
                 Aspheric 
                 45.0000 
                 0.3669 
                   
                   
                   
                 90.0000 
               
               
                 S7 
                 Aspheric 
                 −2.7081 
                 0.5600 
                 1.55 
                 56.1 
                 2.60 
                 −26.5430 
               
               
                 S8 
                 Aspheric 
                 −0.9992 
                 0.0600 
                   
                   
                   
                 −1.0443 
               
               
                 S9 
                 Aspheric 
                 31.2761 
                 0.4300 
                 1.55 
                 56.1 
                 10.64 
                 90.0000 
               
               
                 S10 
                 Aspheric 
                 −7.0963 
                 0.1109 
                   
                   
                   
                 12.4380 
               
               
                 S11 
                 Aspheric 
                 −1.3540 
                 0.4500 
                 1.54 
                 55.8 
                 −1.99 
                 −16.4997 
               
               
                 S12 
                 Aspheric 
                 5.6119 
                 0.5007 
                   
                   
                   
                 0.2009 
               
               
                 S13 
                 Spherical 
                 infinite 
                 0.2100 
                 1.52 
                 64.2 
                   
                   
               
               
                 S14 
                 Spherical 
                 infinite 
                 0.5462 
                   
                   
                   
                   
               
               
                 S15 
                 Spherical 
                 infinite 
               
               
                   
               
            
           
         
       
     
     In this example, the light-transmitting module and the liquid material may be glued together. By changing the radius of curvature of a flexible film surface of the autofocus component T and the radius of curvature of an image-side surface of the liquid material, the total effective focal length of the optical imaging lens group may be changed with the change of a distance from the photographed object to the optical imaging lens group , thereby realizing the autofocus function of the optical imaging lens group. Specifically, when the distance D1 between the optical imaging lens group and the photographed object is 350 mm, the image-side surface of the autofocus component T is a plane, and the radius of curvature RT is infinite. When the distance D1 between the optical imaging lens group and the object is 150 mm, the image-side surface of the autofocus component T is a concave surface, and the radius of curvature RT is 3.5350. When the distance D1 between the optical imaging lens group and the photographed object is infinite, the image-side surface of the autofocus component T is a convex surface, and the radius of curvature RT is −4.7300. 
     
       
         
           
               
               
               
               
               
               
             
               
                 TABLE 10 
               
               
                   
               
             
            
               
                 Surface number 
                 A4 
                 A6 
                 A8 
                 A10 
                 A12 
               
               
                   
               
               
                 S1 
                 −3.5223E−03 
                 −2.8094E−03  
                 −1.0902E−03 
                 −3.0330E−04 
                 −8.6608E−05  
               
               
                 S2 
                 −1.5044E−02 
                 −3.3929E−03  
                 −1.1067E−03 
                 −1.7004E−04 
                 −2.2405E−05  
               
               
                 S3 
                  3.8650E−02 
                 3.2815E−03 
                  3.7777E−05 
                  1.2749E−04 
                 6.0163E−06 
               
               
                 S4 
                  3.1072E−02 
                 2.2258E−03 
                 −1.8081E−04 
                 −4.1378E−05 
                 −3.1654E−05  
               
               
                 S5 
                 −1.1004E−01 
                 −3.8918E−03  
                 −5.6170E−04 
                 −1.5578E−04 
                 −4.2846E−05  
               
               
                 S6 
                 −1.4062E−01 
                 4.1913E−03 
                  1.4322E−03 
                 −3.5639E−05 
                 8.2752E−05 
               
               
                 S7 
                 −6.5399E−02 
                 2.9617E−02 
                 −4.8111E−03 
                 −1.2146E−03 
                 1.8629E−03 
               
               
                 S8 
                  7.5937E−01 
                 −4.6292E−02  
                 −9.2227E−03 
                 −2.9693E−04 
                 4.8198E−03 
               
               
                 S9 
                 −4.1838E−01 
                 8.8636E−02 
                 −1.6062E−02 
                  8.6361E−03 
                 −5.3878E−04  
               
               
                 S10 
                 −1.8184E−01 
                 1.3851E−01 
                 −2.9634E−02 
                  1.0450E−02 
                 1.1966E−03 
               
               
                 S11 
                  1.2799E−01 
                 1.0355E−01 
                 −4.5414E−02 
                  1.1051E−02 
                 4.5263E−03 
               
               
                 S12 
                 −7.7876E−01 
                 1.6102E−01 
                  7.0644E−02 
                 −2.0022E−02 
                 4.0039E−02 
               
               
                   
               
               
                   
                 Surface number 
                 A14 
                 A16 
                 A18 
                 A20 
               
               
                   
               
               
                   
                 S1 
                 −1.3794E−05 
                 −5.4402E−06 
                  1.3643E−06 
                 −9.0317E−07  
               
               
                   
                 S2 
                 −6.2050E−06 
                 −5.3523E−07 
                 −2.0131E−06 
                 1.5964E−07 
               
               
                   
                 S3 
                 −3.0891E−07 
                 −1.4665E−06 
                 −1.3494E−06 
                 6.9748E−08 
               
               
                   
                 S4 
                 −1.5802E−05 
                 −2.1550E−06 
                 −3.6293E−06 
                 3.2686E−07 
               
               
                   
                 S5 
                 −2.0126E−05 
                 −7.8272E−06 
                  3.4225E−07 
                 −1.5481E−06  
               
               
                   
                 S6 
                 −1.7477E−05 
                  6.5526E−06 
                 −2.4908E−06 
                 −2.3462E−06  
               
               
                   
                 S7 
                 −4.0864E−04 
                  2.3468E−06 
                 −9.4406E−05 
                 −1.5225E−05  
               
               
                   
                 S8 
                 −4.9305E−03 
                  2.1750E−03 
                  3.0331E−04 
                 9.8914E−04 
               
               
                   
                 S9 
                 −9.1960E−04 
                  1.9430E−03 
                 −2.1760E−03 
                 9.4891E−04 
               
               
                   
                 S10 
                 −2.6045E−04 
                 −5.4235E−04 
                 −7.4868E−04 
                 6.2402E−04 
               
               
                   
                 S11 
                 −4.8070E−03 
                  4.3540E−03 
                 −8.3220E−04 
                 −2.5657E−03  
               
               
                   
                 S12 
                 −1.6415E−02 
                  8.1881E−03 
                 −1.0257E−02 
                 6.5396E−03 
               
               
                   
               
            
           
         
       
     
       FIG. 22A  illustrates the longitudinal aberration curve of the optical imaging lens group according to Example 5, representing deviations of focal points converged by light of different wavelengths after passing through the lens assembly.  FIG. 22B  illustrates the astigmatic curve of the optical imaging lens group according to Example 5, representing a curvature of a tangential plane and a curvature of a sagittal plane.  FIG. 22C  illustrates the distortion curve of the optical imaging lens group according to Example 5, representing the amounts of distortion corresponding to different image heights.  FIG. 22D  illustrates the lateral color curve of the optical imaging lens group according to Example 5, representing deviations of different heights of images on an imaging plane formed by light passing through the lens assembly.  FIG. 23A ,  FIG. 24A  and  FIG. 25A  respectively illustrate MTF curve diagrams of the optical imaging lens group in Example 5 within a waveband range of 430 nm to 650 nm, when the distance from the photographed object to the optical imaging lens group is 350 mm, 150 mm and infinite, representing pixel sizes of a tangential field-of-view and a sagittal field-of-view at different frequencies.  FIG. 23B ,  FIG. 24B  and  FIG. 25B  respectively illustrate focus shift curve diagrams of the optical imaging lens group in Example 5 within a waveband range of 430 nm to 650 nm, when the distance from the photographed object to the optical imaging lens group is 350 mm, 150 mm and infinite, representing pixel sizes of a tangential field-of-view and a sagittal field-of-view under different focal shifts. It can be seen from  FIG. 22A  to  FIG. 25B  that the optical imaging lens group provided in Example 5 can achieve good imaging quality. 
     Example 6 
     An optical imaging lens group according to Example 6 of the present disclosure is described below with reference to  FIG. 26  to  FIG. 30B .  FIG. 26  illustrates a schematic structural diagram of the optical imaging lens group according to Example 6 of the present disclosure. 
     As shown in  FIG. 26 , the optical imaging lens group from an object side to an image side sequentially includes: an autofocus component T (including a light-transmitting module, a liquid material and a flexible film), a stop STO, a first lens E 1 , a second lens E 2 , a third lens E 3 , a fourth lens E 4 , a fifth lens E 5 , a sixth lens E 6 , an optical filter E 7  and an imaging plane S 15 . 
     The first lens E 1  has a positive refractive power, an object-side surface S 1  of the first lens is a convex surface, and an image-side surface S 2  of the first lens is a concave surface. The second lens E 2  has a negative refractive power, an object-side surface S 3  of the second lens is a concave surface, and an image-side surface S 4  of the second lens is a concave surface. The third lens E 3  has a negative refractive power, an object-side surface S 5  of the third lens is a concave surface, and an image-side surface S 6  of the third lens is a convex surface. The fourth lens E 4  has a positive refractive power, an object-side surface S 7  of the fourth lens is a concave surface, and an image-side surface S 8  of the fourth lens is a convex surface. The fifth lens E 5  has a positive refractive power, an object-side surface S 9  of the fifth lens is a concave surface, and an image-side surface S 10  of the fifth lens is a convex surface. The sixth lens E 6  has a negative refractive power, an object-side surface S 11  of the sixth lens is a concave surface, and an image-side surface S 12  of the sixth lens is a concave surface. The optical filter E 7  has an object-side surface S 13  and an image-side surface S 14 . Light from an object sequentially passes through the light-transmitting module to the image-side surface S 14  of the optical filter E 7  and is finally imaged on the imaging plane S 15 . 
     In this example, a total effective focal length f of the optical imaging lens group is 3.99 mm, a total track length TTL of the optical imaging lens group is 4.83 mm, a half of a diagonal length ImgH of an effective pixel area on the imaging plane S 15  of the optical imaging lens group is 3.01 mm, a half of a maximum field-of-view Semi-FOV of the optical imaging lens group is 35.9°, and an F number Fno of the optical imaging lens group is 2.41. 
     Table 11 is a table illustrating basic parameters of the optical imaging lens group of Example 6, where the units for the radius of curvature, the thickness/distance and the focal length are millimeter (mm). Table 12 shows high-order coefficients applicable to each aspheric surface in Example 6, where the surface shape of each aspheric surface may be defined by the formula (1) given in the above Example 1. 
     
       
         
           
               
               
               
             
               
                 TABLE 11 
               
             
            
               
                   
               
               
                   
                 Material 
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 Surface 
                 Surface 
                 Radius of 
                 Thickness/ 
                 Refractive 
                 Abbe 
                 Focal 
                 Conic 
               
               
                 number 
                 type 
                 curvature 
                 Distance 
                 index 
                 number 
                 length 
                 coefficient 
               
               
                   
               
            
           
           
               
               
               
               
               
               
               
               
            
               
                 OBJ 
                 Spherical 
                 infinite 
                 D1 
                   
                   
                   
                   
               
               
                   
                 Spherical 
                 infinite 
                 0.3000 
                 1.52 
                 64.2 
                   
                   
               
               
                   
                 Spherical 
                 infinite 
                 0.2650 
                 1.55 
                 29.9 
                   
                   
               
               
                   
                 Spherical 
                 RT 
                 0.0200 
                 1.53 
                 65.4 
                   
                   
               
               
                   
                 Spherical 
                   
                 0.3589 
                   
                   
                   
                   
               
               
                 STO 
                 Spherical 
                 infinite 
                 −0.2589 
                   
                   
                   
                   
               
               
                 S1 
                 Aspheric 
                 1.3700 
                 0.4760 
                 1.55 
                 56.1 
                 2.75 
                 0.0074 
               
               
                 S2 
                 Aspheric 
                 13.6569 
                 0.1923 
                   
                   
                   
                 84.4872 
               
               
                 S3 
                 Aspheric 
                 −7.0124 
                 0.2100 
                 1.67 
                 20.4 
                 −5.81 
                 10.0245 
               
               
                 S4 
                 Aspheric 
                 8.7546 
                 0.3994 
                   
                   
                   
                 −79.9938 
               
               
                 S5 
                 Aspheric 
                 −8.1095 
                 0.3169 
                 1.64 
                 23.5 
                 −35.44 
                 83.4797 
               
               
                 S6 
                 Aspheric 
                 −12.7648 
                 0.4000 
                   
                   
                   
                 49.9585 
               
               
                 S7 
                 Aspheric 
                 −2.3513 
                 0.5800 
                 1.55 
                 56.1 
                 2.43 
                 −24.6410 
               
               
                 S8 
                 Aspheric 
                 −0.9212 
                 0.0600 
                   
                   
                   
                 −1.0767 
               
               
                 S9 
                 Aspheric 
                 −59.0558 
                 0.4100 
                 1.55 
                 56.1 
                 15.36 
                 90.0000 
               
               
                 S10 
                 Aspheric 
                 −7.3620 
                 0.0728 
                   
                   
                   
                 12.8030 
               
               
                 S11 
                 Aspheric 
                 −2.0693 
                 0.4300 
                 1.54 
                 55.8 
                 −1.93 
                 −48.3857 
               
               
                 S12 
                 Aspheric 
                 2.2282 
                 0.5564 
                   
                   
                   
                 −0.7521 
               
               
                 S13 
                 Spherical 
                 infinite 
                 0.2100 
                 1.52 
                 64.2 
                   
                   
               
               
                 S14 
                 Spherical 
                 infinite 
                 0.5162 
                   
                   
                   
                   
               
               
                 S15 
                 Spherical 
                 infinite 
               
               
                   
               
            
           
         
       
     
     In this example, the light-transmitting module and the liquid material may be glued together. By changing the radius of curvature of a flexible film surface of the autofocus component T and the radius of curvature of an image-side surface of the liquid material, the total effective focal length of the optical imaging lens group may be changed with the change of a distance from the photographed object to the optical imaging lens group , thereby realizing the autofocus function of the optical imaging lens group. Specifically, when the distance D1 between the optical imaging lens group and the photographed object is 350 mm, the image-side surface of the autofocus component T is a plane, and the radius of curvature RT is infinite. When the distance D1 between the optical imaging lens group and the photographed object is 150 mm, the image-side surface of the autofocus component T is a concave surface, and the radius of curvature RT is 3.5000. When the distance D1 between the optical imaging lens group and the object is infinite, the image-side surface of the autofocus component T is a convex surface, and the radius of curvature RT is −4.7300. 
     
       
         
           
               
               
               
               
               
               
             
               
                 TABLE 12 
               
               
                   
               
             
            
               
                 Surface number 
                 A4 
                 A6 
                 A8 
                 A10 
                 A12 
               
               
                   
               
               
                 S1 
                 −3.0877E−03 
                 −3.7795E−03  
                 −1.6252E−03 
                 −4.7276E−04  
                 −1.0462E−04  
               
               
                 S2 
                 −1.7132E−02 
                 −4.1822E−03  
                 −1.0833E−03 
                 −1.1427E−04  
                 5.5572E−05 
               
               
                 S3 
                  4.3228E−02 
                 3.1955E−03 
                  4.1342E−04 
                 1.7791E−04 
                 3.2260E−05 
               
               
                 S4 
                  3.8797E−02 
                 2.8996E−03 
                  3.0366E−04 
                 8.8672E−05 
                 2.3846E−05 
               
               
                 S5 
                 −1.1547E−01 
                 −2.7705E−03  
                  8.5777E−05 
                 7.5644E−05 
                 2.4377E−06 
               
               
                 S6 
                 −1.4414E−01 
                 3.6161E−03 
                  2.2286E−03 
                 1.9675E−04 
                 1.4765E−04 
               
               
                 S7 
                 −7.1381E−02 
                 2.6604E−02 
                 −5.8075E−03 
                 −6.8101E−04  
                 1.3683E−03 
               
               
                 S8 
                  7.8242E−01 
                 −6.9111E−02  
                 −4.9608E−03 
                 −6.0947E−03  
                 7.8644E−03 
               
               
                 S9 
                 −3.7740E−01 
                 7.3622E−02 
                 −1.4823E−02 
                 6.4722E−03 
                 −1.1729E−03  
               
               
                 S10 
                 −1.8799E−01 
                 1.1813E−01 
                 −2.6612E−02 
                 8.9918E−03 
                 9.4677E−04 
               
               
                 S11 
                 −9.3902E−02 
                 1.6757E−01 
                 −6.1983E−02 
                 7.7932E−03 
                 3.3279E−03 
               
               
                 S12 
                 −2.5078E+00 
                 4.9046E−01 
                 −7.9277E−02 
                 1.6229E−02 
                 1.2413E−02 
               
               
                   
               
               
                   
                 Surface number 
                 A14 
                 A16 
                 A18 
                 A20 
               
               
                   
               
               
                   
                 S1 
                  3.2937E−05 
                 5.4063E−05 
                  6.0910E−05 
                 4.7898E−05 
               
               
                   
                 S2 
                  5.3268E−05 
                 2.2423E−05 
                 −4.6102E−06 
                 −1.8199E−05  
               
               
                   
                 S3 
                  3.1897E−05 
                 4.3688E−05 
                  4.8251E−05 
                 4.5919E−05 
               
               
                   
                 S4 
                  4.6021E−07 
                 8.4164E−06 
                  1.8298E−06 
                 6.3516E−06 
               
               
                   
                 S5 
                  5.2186E−06 
                 −1.6310E−05  
                  6.6658E−06 
                 −5.2308E−06  
               
               
                   
                 S6 
                 −6.0528E−06 
                 −1.1484E−06  
                  1.4099E−06 
                 −1.4665E−06  
               
               
                   
                 S7 
                 −1.4692E−04 
                 5.5666E−05 
                 −9.1470E−06 
                 −4.4027E−05  
               
               
                   
                 S8 
                 −3.3618E−03 
                 1.8781E−03 
                 −2.9862E−04 
                 6.3811E−04 
               
               
                   
                 S9 
                 −1.4577E−03 
                 1.1339E−03 
                 −1.5030E−03 
                 1.0119E−03 
               
               
                   
                 S10 
                 −3.3754E−05 
                 −7.3190E−04  
                 −1.2895E−03 
                 5.4966E−04 
               
               
                   
                 S11 
                 −6.0312E−03 
                 3.5825E−03 
                 −7.0137E−04 
                 −8.6299E−04  
               
               
                   
                 S12 
                  3.2152E−03 
                 2.9986E−03 
                 −7.9674E−03 
                 3.0349E−03 
               
               
                   
               
            
           
         
       
     
       FIG. 27A  illustrates the longitudinal aberration curve of the optical imaging lens group according to Example 6, representing deviations of focal points converged by light of different wavelengths after passing through the lens assembly.  FIG. 27B  illustrates the astigmatic curve of the optical imaging lens group according to Example 6, representing a curvature of a tangential plane and a curvature of a sagittal plane.  FIG. 27C  illustrates the distortion curve of the optical imaging lens group according to Example 6, representing the amounts of distortion corresponding to different image heights.  FIG. 27D  illustrates the lateral color curve of the optical imaging lens group according to Example 6, representing deviations of different heights of images on an imaging plane formed by light passing through the lens assembly.  FIG. 28A ,  FIG. 29A  and  FIG. 30A  respectively illustrate MTF curve diagrams of the optical imaging lens group in Example 6 within a waveband range of 430 nm to 650 nm, when the distance from the photographed object to the optical imaging lens group is 350 mm, 150 mm and infinite, representing pixel sizes of a tangential field-of-view and a sagittal field-of-view at different frequencies.  FIG. 28B ,  FIG. 29B  and  FIG. 30B  respectively illustrate focus shift curve diagrams of the optical imaging lens group in Example 6 within a waveband range of 430 nm to 650 nm, when the distance from the photographed object to the optical imaging lens group is 350 mm, 150 mm and infinite, representing pixel sizes of a tangential field-of-view and a sagittal field-of-view under different focal shifts. It can be seen from  FIG. 27A  to  FIG. 30B  that the optical imaging lens group provided in Example 6 can achieve good imaging quality. 
     In view of the above, examples 1 to 6 respectively satisfy the relationship shown in Table 13. 
     
       
         
           
               
               
             
               
                 TABLE 13 
               
             
            
               
                   
               
               
                   
                 Example 
               
            
           
           
               
               
               
               
               
               
               
            
               
                 Conditional 
                 1 
                 2 
                 3 
                 4 
                 5 
                 6 
               
               
                   
               
            
           
           
               
               
               
               
               
               
               
            
               
                 ΣCT/D 
                 3.77 
                 4.18 
                 4.07 
                 4.23 
                 4.52 
                 4.14 
               
               
                 TTL/ΣAT 
                 3.52 
                 4.13 
                 4.10 
                 4.40 
                 4.40 
                 4.30 
               
               
                 f2/f1 
                 −1.46 
                 −2.20 
                 −1.79 
                 −2.23 
                 −2.34 
                 −2.11 
               
               
                 f4/f 
                 0.49 
                 0.52 
                 0.53 
                 0.61 
                 0.62 
                 0.61 
               
               
                 f/ImgH 
                 1.37 
                 1.39 
                 1.41 
                 1.32 
                 1.40 
                 1.32 
               
               
                 R2/R3 
                 −3.97 
                 −5.34 
                 −2.66 
                 −2.31 
                 −1.46 
                 −1.95 
               
               
                 f1/R1 
                 1.91 
                 1.96 
                 2.02 
                 1.98 
                 2.03 
                 2.01 
               
               
                 R7/R8 
                 6.04 
                 5.03 
                 5.66 
                 2.47 
                 2.71 
                 2.55 
               
               
                 CT1/T12 
                 3.26 
                 3.49 
                 3.27 
                 3.05 
                 3.51 
                 2.47 
               
               
                 T23/T12 
                 1.70 
                 1.89 
                 1.70 
                 2.46 
                 3.14 
                 2.08 
               
               
                 CT4/T34 
                 1.00 
                 1.80 
                 1.62 
                 1.45 
                 1.53 
                 1.45 
               
               
                   
               
            
           
         
       
     
     The present disclosure further provides an imaging apparatus, having an electronic photosensitive element, which may be a photosensitive Charge-Coupled Device (CCD) or a Complementary Metal-Oxide Semiconductor (CMOS). The imaging apparatus may be an independent imaging device such as a digital camera, or may be an imaging module integrated in a mobile electronic device such as a mobile phone. The imaging apparatus is equipped with the optical imaging lens group described above. 
     The foregoing is only a description of the preferred examples of the present disclosure and the applied technical principles. It should be appreciated by those skilled in the art that the inventive scope of the present disclosure is not limited to the technical solutions formed by the particular combinations of the above technical features. The inventive scope should also cover other technical solutions formed by any combinations of the above technical features or equivalent features thereof without departing from the concept of the invention, such as, technical solutions formed by replacing the features as disclosed in the present disclosure with (but not limited to), technical features with similar functions.