Patent Publication Number: US-4484799-A

Title: Wide angle zoom lens

Description:
This is a continuation-in-part of application Ser. No. 071,048, filed Aug. 30, 1979, now abandoned. 
    
    
     BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     This invention relates to a zoom lens, and more particularly to a wide angle zoom lens wherein the zoom ratio is 1.54 and the range of zoom movement of the lens begins at a wide angle embracing an image angle approximating 73° on the wide angle side. 
     2. Description of the Prior Art 
     Single lens reflex cameras are becoming increasingly compact and, as a result, the lenses for these cameras are required to be proportionately decreased in size. Thus, there has arisen the necessity for developing a zoom lens which has a simple lens structure, permits use of a small lens barrel and enjoys the advantages of low cost and ease of handling. 
     SUMMARY OF THE INVENTION 
     In order to meet this necessity, the present invention aims to provide compact zoom lens, particularly a zoom lens of the type suitable for use in a still camera, which is adapted to permit the magnification to be varied in the reange from the wide angle side of short focal length up to the standard zone and which is capable of providing the desired performance. 
    
    
     BRIEF DESCRIPTION OF THE DRAWING 
     FIG. 1 is a diagrammatic view showing the lens structure of one preferred embodiment of the wide angle zoom lens according to this invention, 
     FIGS. 2A-2C and 3A-3C are graphic views showing the spherical aberration, sine condition, astigmatism and distortion on the wide angle side (2A-2C) and those on the telephoto side (3A-3C) in the preferred embodiment mentioned above, 
     FIG. 4 is a diagrammatic view showing the lens structure of another preferred embodiment of the wide angle zoom lens according to this invention, 
     FIGS. 5A-5C and 6A-6C are graphic views showing the spherical aberration, sine condition, astigmatism and distortion on the wide angle side (5A-5C) and those on the telephoto side (6A-6C) in the preferred embodiment shown in FIG. 4, 
     FIG. 7 is a diagrammatic view showing the lens structure of yet another preferred embodiment of the wide angle zoom lens according to the invention, 
     FIGS. 8A-8C and 9A-9C are graphic views showing the spherical aberration, sine condition, astigmatism and distortion on the wide angle side (8A-8C) and those on the telephoto side (9A-9C) in the preferred embodiment shown in FIG. 7, 
     FIG. 10 is a diagrammatic view showing the lens structure of still another preferred embodiment of the wide angle zoom lens according to this invention, and 
     FIGS. 11A-11C and 12A-12C are graphic views showing the spherical aberration, sine condition, astigmatism and distortion on the wide angle side (11A-11C) and those on the telephoto side (12A-12C) respectively in the preferred embodiment shown in FIG. 10. 
    
    
     PREFERRED EMBODIMENTS OF THE INVENTION 
     Specifically, this invention provides a wide angle zoom lens consisting of a front lens group A comprising at least one negative meniscus lens L1 having its convex surface directed toward the object side, one negative meniscus or biconcave lens L3 having the surface of larger radius of curvature directed toward the object side and a positive meniscus lens L4 having the surface of larger radius of curvature directed toward the image side and a rear lens group B comprising one biconvex lens L5, positive meniscus lens L6 having its convex surface directed toward the object side, one biconcave lens L7 having the surface of larger radius of curvature directed toward the object and two positive meniscus lenses L8 and L9 with the convex side toward the image in the order mentioned from the object side and adapted to provide variation in magnification by causing the two lens groups mentioned above to be moved in mutually opposite directions along the optical axis of the lens system, which zoom lens is characterized by fulfilling the following requirements in which the focal length (fW) on the wide angle side is assumed to be 1: 
     
         ______________________________________                                    
        (1) -2.1 &lt; fA &lt; -1.7                                              
        (2) 0.2 &lt; d12 + d13 &lt; 0.45                                        
        (3) -0.1 &lt; 1/r5 &lt; 0.1                                             
        (4) 0.9 &lt; 1/r7 &lt; 1.3                                              
        (5) 1.2 &lt; 1/r11 &lt; 1.6                                             
        (6) -0.8 &lt; 1/r13 &lt; -0.5                                           
        (7) νd4 &lt; 30.0                                                 
______________________________________                                    
 
    
     wherein, fA stands for the focal length of the front lens group A, r5 for the radius of curvature of the objective side of the lens L3, r7 for the radius of curvature of the object side of the lens L5, r11 for the radius of curvature of the object side of the convex meniscus lens L6, r13 for the radius of curvature of the object side of the concave lens L7, d12 for the length of the air gap between the concave lens L6 and the concave lens L7, d13 for the center thickness of the lens L7 and νd4 for the Abbe number of the lens L4. 
     The requirement (1) is necessary for the purpose of obtaining the required reduction in size of the zoom lens system. If the focal length fA of the front zoom lens group A is greater than -2.1 in absolute value, the amount of the zoom movement of the front lens group A must be increased to maintain the zoom ratio constant and the lens diameter must be also increased to admit sufficient marginal light on the wide angle side, with the result that the aim of decreasing the size of the zoom lens system is defeated. Although a focal length fA smaller than -1.7 in absolute value would appear advantageous from the point of decreasing the size of the lens system, it is actually detrimental because the amount of the zoom movement of the rear lens group B must be increased and the back focus must be consequently lengthened excessively on the telephoto side in order to maintain the zoom ratio and the rear lens group must consequently be enlarged in order to prevent the F number from decreasing. 
     An attempt to reduce the amount of the zoom movement of the rear lens group by shortening the focal length of the rear lens group B adversely affects spherical aberration, curvature of field, distortion, etc. This is why the requirement (1) must be fulfilled. 
     The requirement (2) is also necessary for obtaining the required decrease in size of the lens system. If the sum d12=d13 is smaller than 0.2, the back focus of the entire lens system is lengthened by a factor which is greater than the amount by which this sum is smaller than 0.2 and this makes it difficult to decrease the size of the lens system. An attempt to shorten the back focus by increasing the focal length of the lens L7 gives rise to a problem that the spherical aberration and curvature of field produced by the lenses L5 and L6 are insufficiently corrected. If the sum d12+d13 is greater than 0.45, the back focus on the wide angle side becomes too short for the lens system to be used on a single lens reflex camera. An attempt to lengthen the back focus by increasing the length of the air gap d14 between the lens L7 and the lens L8 entails a problem that the comatic aberration and the off-axis chromatic aberration are aggravated. For the required decrease in size of the lens system, therefore, the requirement (2) is as important as the requirement (1). 
     The requirements (3) through (7) are necessary to assure that the zoom lens system decreased in size in accordance with the requirements (1) and (2) has good optical properties. The requirement (3) defines the radius of curvature r5 of the object side of the lens L3 for the purpose of reducing variation in the spherical aberration and curvature of field in the lenses L1 and L2 between the wide angle side telephoto side. If the value, 1/r5, falls short of the lower limit of the specified range, there ensures a problem that spherical aberration on the wide angle side is corrected less than that on the telephoto side and the curvature of field on the telephoto side is overcorrected. Conversely, if the value exceeds the upper limit of the range, there is entailed a disadvantage that the curvature of field on the wide angle side is insufficiently corrected and the comatic aberration increases. 
     The requirement (4) is necessary because, in the present invention, L4 is the only positive meniscus lens present in the front lens group and, therefore, this lens L4 alone must be relied on for the correction of the excessively corrected spherical aberration and curvature of field which occur in the lens group located more closely to the object side than the lens L4. This requirement (4) defines the radius of curvature r7 of the object side surface of the lens L4 for this purpose. If the value 1/r7 is greater than the upper limit of the specified range, the spherical aberration and curvature of field suffer from insufficient correction. If the value is smaller than the lower limit of the range, the spherical aberration and curvature of field are corrected excessively. Thus, a value of 1/r7 outside the specified range is disadvantageous. An attempt to make the correction on the rear surface of the lens L3 gives rise to a disadvantage in that the amount of variation in the spherical aberration is small compared with that in the curvature of field so that either the spherical aberration or the curvature of field remains insufficiently corrected. Thus, this requirement (4) must be fulfilled. 
     The requirement (5) is necessary because the lens L7 in the rear lens group possesses high negative refracting power and the curvature of field occuring in this lens is corrected by front surface of the positive menicus lens L6. This requirement (5) defines the radius of curvature r11 of the object side surface of the lens L6 for the purpose of this correction. If the value 1/r11 is smaller than the lower limit of the specified range, the curvature of field is excessively corrected over the entire range. An attempt to mend this excessive correction by reducing the radius of curvature of the image side surface of the lens L6 results in a problem that the spherical aberration remains insufficiently corrected and the comatic aberration in the biconcave lens L7 is aggravated. If the value 1/r11 is greater than the upper limit of the range, there is entailed a problem that the curvature of field remains insufficiently corrected. 
     All considered, it is concluded that the requirement (5) must be fulfilled for the entire lens system to retain the curvature of field within acceptable limits. 
     The requirement (6) is necessary because the insufficient correction given the spherical aberrations occuring in the front lenses L5 and L6 of the rear lens group must be compensated for by the front surface of the concave lens L7. This requirement (6), therefore, defines the radius of curvature r13 of the object side surface for the purpose of the correction. If the value 1/r13 is greater than the upper limit of the specified range, the spherical aberration remains insufficiently corrected. An attempt to cope with this trouble at the rear surface of the lens L7 leads to a disadvantage that the comatic aberration and curvature of field are aggravated. If the value 1/r13 is smaller than the lower limit, the spherical aberration suffers from excessive correction. An attempt to overcome this trouble at the lenses L8 and L9, aggravates the comatic aberration, curvature of field, chromatic aberration, etc. to a point where the lens system fails to produce an image of good quality. Thus, the requirement (6) must be fulfilled. 
     The requirement (7) has a bearing on the chromatic aberration. The chromatic aberration in the front lens group can be reduced by keeping the Abbe number of the lens L4 in the front lens group below the level of 30.0. Then, the chromatic aberration can be reduced from the entire lens system by making the rear lens group achromatic. If the Abbe number is greater than 30.0, the Abbe number of the lens L3 must be increased for making the front lens group achromatic. This necessitates use of a glass material possessing a low refractive index. The consequence is that the various aberrations are impaired to a point where the quality of the lens cannot be maintained at the desired level unless a complicated lens structure is used in the front lens group. 
     Working examples which satisfy the requirements described above will be cited below with reference to the accompanying drawing. 
     In the following tables, fW=the focal length and lW=the back focal length of the lens system in the wide angle side and fT=the focal length and lT=the back focal length of the lens system on the telephoto side of the zoom range. 
     EXAMPLE 1 
     FIG. 1 shows one preferred embodiment of the lens system according to the present invention. The optical data of this lens system are shown in Table 1. 
     
                       TABLE 1                                                     
______________________________________                                    
                                   νd                                  
R (radius of           Nd (refractive                                     
                                   (Abbe                                  
curvature) d (distance)                                                   
                       index)      number)                                
______________________________________                                    
r1 = 1.658892                                                             
           d1 = 0.047288                                                  
                       1.                                                 
r2 = 0.804543                                                             
           d2 = 0.113491                                                  
                       1.72342     38.0                                   
r3 = 1.275310                                                             
           d3 = 0.047288                                                  
                       1.                                                 
r4 = 0.786038                                                             
           d4 = 0.179694                                                  
                       1.80518     25.5                                   
r5 = 23.849087                                                            
           d5 = 0.041557                                                  
                       1.                                                 
r6 = 1.218140                                                             
           d6 = 0.006756                                                  
                       1.72342     38.0                                   
r7 = 0.923918                                                             
           d7 = 0.160779                                                  
                       1.                                                 
r8 = 22.190507                                                            
           *d8 = 0.945759                                                 
                       1.80518     25.5                                   
r9 = 1.991961                                                             
           d9 = 0.05911                                                   
                       1.                                                 
r10 = -7.437378                                                           
           d10 = 0.008181                                                 
                       1.6935      53.4                                   
r11 = 0.686304                                                            
           d11 = 0.075661                                                 
                       1.                                                 
r12 = 2.085653                                                            
           d12 = 0.149156                                                 
                       1.744       44.9                                   
r13 = -1.560376                                                           
           d13 = 0.141864                                                 
                       1.                                                 
r14 = 0.845674                                                            
           d14 = 0.056746                                                 
                       1.80518     25.5                                   
r15 = -2.832972                                                           
           d15 = 0.075661                                                 
                       1.                                                 
r16 = -0.733727                                                           
           d16 = 0.006755                                                 
                       1.744       44.9                                   
r17 = -8.332682                                                           
           d17 = 0.056746                                                 
                       1.                                                 
r18 = -1.867355        1.6779      55.5                                   
          *d8 = 0.945759-0.174965                                         
fW = 1       fT = 1.5045   fA = 1.920277                                  
lW = 1.3955  lT = 1.7140                                                  
______________________________________                                    
 
    
     FIGS. 2A-2C and 3A-3C show the spherical aberration, sine condition, astigmatism and distortion on the wide angle side (2A-2C) and those on the telephoto side (3A-3C) of the lens system of the preferred embodiment shown in FIG. 1. 
     EXAMPLE 2 
     FIG. 4 shows another preferred embodiment of the lens system according to the present invention. The optical data of this lens system are shown in Table 2. 
     
                       TABLE 2                                                     
______________________________________                                    
                                   νd                                  
R (radius of           Nd (refractive                                     
                                   (Abbe                                  
curvature) d (distance)                                                   
                       index)      number)                                
______________________________________                                    
r1 = 1.457523                                                             
           d1 = 0.054412                                                  
                       1.                                                 
r2 = 0.673023                                                             
           d4 = 0.309465                                                  
                       1.80518     25.5                                   
r5 = -33.777967                                                           
           d5 = 0.047610                                                  
                       1.                                                 
r6 = 1.096340                                                             
           d6 = 0.017003                                                  
                       1.77252     49.6                                   
r7 = 0.939638                                                             
           d7 = 0.161874                                                  
                       1.                                                 
r8 = 11.51461                                                             
           d8 = *0.9522                                                   
                       1.80518     25.5                                   
r9 = 3.10274                                                              
           d9 = 0.062913                                                  
                       1.                                                 
r10 = -3.020367                                                           
           d10 = 0.006802                                                 
                       1.69680     55.6                                   
r11 = 0.773743                                                            
           d11 = 0.076176                                                 
                       1.                                                 
r12 = 4.482                                                               
           d12 = 0.176458                                                 
                       1.73400     51.3                                   
r13 = -1.555655                                                           
           d13 = 0.190440                                                 
                       1.                                                 
r14 = 0.849853                                                            
           d14 = 0.057132                                                 
                       1.80518                                            
r15 = -3.772288                                                           
           d15 = 0.076176                                                 
                       1.                                                 
r16 = -0.749117                                                           
           d16 = 0.006802                                                 
                       1.77252     49.6                                   
r17 = -6.937206                                                           
           d17 = 0.076176                                                 
                       1.                                                 
r18 = -3.101834        1.72342     38.0                                   
         *d8 = 0.9522-0.176157                                            
fW = 1.0      fT = 1.54142 fA = 1.867598                                  
lW = 1.29152  lT = 1.63446                                                
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     FIGS. 5A-5C and 6A-6C show the spherical aberration, sine condition, astigmatism and distortion on the wide angle, side (5A-5C) and those on the telephoto side (6A-6C) of the lens system of the preferred embodiment shown in FIG. 4. 
     EXAMPLE 3 
     FIGS. 7 shows yet another preferred embodiment of the lens system according to the present invention. The optical data of this lens system are shown in Table 3. 
     
                       TABLE 3                                                     
______________________________________                                    
                                    νd                                 
R (radius of            Nd (refractive                                    
                                    (Abbe                                 
curvature) d (distance) index)      number)                               
______________________________________                                    
r1 = 1.388813                                                             
           d1 = 0.053774                                                  
                        1.                                                
r2 = 0.667942                                                             
           d4 = 0.305839                                                  
                        1.80518     25.5                                  
r5 = -32.080306                                                           
           d5 = 0.047052                                                  
                        1.                                                
r6 = 1.0746                                                               
           d6 = 0.016804                                                  
                        1.7859      44.0                                  
r7 = 0.926169                                                             
           d7 = 0.159977                                                  
                        1.                                                
r8 = 11.379693                                                            
           *d8 = 0.941044                                                 
                        1.80518     25.5                                  
r9 = 3.793155                                                             
           d9 = 0.062176                                                  
                        1.                                                
r10 = -2.792763                                                           
           d10 = 0.006722                                                 
                        1.72        50.3                                  
r11 = 0.734003                                                            
           d11 = 0.075284                                                 
                        1.                                                
r12 = 3.010675                                                            
           d12 = 0.1895167                                                
                        1.72        50.3                                  
r13 = -1.634778                                                           
           d13 = 0.188209                                                 
                        1.                                                
r14 = 0.840651                                                            
           d14 = 0.047052                                                 
                        1.80518     25.5                                  
r15 = -55.673176                                                          
           d15 = 0.094104                                                 
                        1.                                                
r16 = -0.814157                                                           
           d16 = 0.006727                                                 
                        1.77252     49.6                                  
r17 = -10.696839                                                          
           d17 = 0.048712                                                 
                        1.                                                
r18 = -4.99349          1.72342     38.0                                  
         *d8 = 0.941044-0.174093                                          
fW = 1.0      fT = 1.540815                                               
                            fA = 1.863930                                 
lW = 1.285346 lT = 1.625488                                               
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     FIGS. 8A-8C and 9A-9C show the spherical aberration, sine condition, astigmatism and distortion on the wide angle side (8A-8C) and those on the telephoto side (9A-9C) of the lens system of the preferred embodiment shown in FIG. 7. 
     EXAMPLE 4 
     FIG. 10 shows still another preferred embodiment of the lens system according to the present invention. The optical data of this lens system are shown in Table 4. 
     
                       TABLE 4                                                     
______________________________________                                    
                                    νd                                 
R (radius of            Nd (refractive                                    
                                    (Abbe                                 
curvature) d (distance) index)      number)                               
______________________________________                                    
r1 = 1.419097                                                             
           d1 = 0.053812                                                  
                        1.                                                
r2 = 0.667306                                                             
           d4 = 0.306057                                                  
                        1.80518     25.5                                  
r5 = -21.296539                                                           
           d5 = 0.047088                                                  
                        1.                                                
r6 = 1.000975                                                             
           d6 = 0.016816                                                  
                        1.744       44.9                                  
r7 = 0.892106                                                             
           d7 = 0.164800                                                  
                        1.                                                
r8 = 11.400800                                                            
           *d8 = 0.9329701                                                
                        1.80518     25.5                                  
r9 = 3.956883                                                             
           d9 = 0.089799                                                  
                        1.                                                
r10 = -2.745535                                                           
           d10 = 0.006727                                                 
                        1.72        50.3                                  
r11 = 0.73595                                                             
           d11 = 0.101907                                                 
                        1.                                                
r12 = 5.354656                                                            
           d12 = 0.132849                                                 
                        1.72        50.3                                  
r13 = -1.590186                                                           
           d13 = 0.235429                                                 
                        1.                                                
r14 = 0.822319                                                            
           d14 = 0.037669                                                 
                        1.80518     25.5                                  
r15 = -2.850234                                                           
           d15 = 0.07500                                                  
                        1.                                                
r16 = -0.723278                                                           
           d16 = 0.006727                                                 
                        1.77252     49.6                                  
r17 = -18.871960                                                          
           d17 = 0.047086                                                 
                        1.                                                
r18 = -4.339623         1.72342     38.0                                  
         *d8 = 0.9329701-0.174217                                         
fW = 1.0      fT = 1.53634  fA = 1.867352                                 
lW = 1.286045 lT = 1.620254                                               
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     FIGS. 11A-11C and 12A-12C show the spherical aberration, sine condition, astigmatism and distortion on the wide angle side (11A-11C) and those on the telephoto side (12A-12C) of the lens system of the preferred embodiment shown in FIG. 10. 
     By adoption of the lens structure described above and fulfillment of the various requirements touched upon above, there can be provided a very compact zoom lens which, in the case of application to a frame area of 24×36mm 2 , has a focal length ranging from 29.7mm to 45.6mm and a lens length of 92.7 as measured from the first surface to the focal plane.