Patent Description:
A display device refers to an information display device using electronic technologies to turn an imperceptible signal into a perceptible signal. The display device has advantages of small size, flexible display format, and comprehensive display of multiple information at the same time.

With continuous development of technologies, appearances and functions of display devices are constantly innovating and upgrading. A screen ratio is an important indicator of screens of the display devices. An increase in the screen ratio can provide people with an excellent visual experience and interactive effects. To improve a visual effect to allow users to feel more immersive, people set forth higher requirements for the screen ratio of the display devices. Therefore, a full screen display device has also entered people's field of vision.

<CIT> discloses a mobile terminal comprising: a stylus, the stylus being equipped with a camera component and a signal contact, wherein the camera component is used for capturing images; and a terminal body, the terminal body being provided with a storage channel and a signal probe, wherein the storage channel is used for housing the stylus. When the stylus is inserted into the storage channel, the signal probe is electrically connected to the signal contact to enable data communication between the terminal body and the stylus. By configuring the camera component on the stylus, the mobile terminal eliminates the need for a front-facing camera to occupy the top forehead of the terminal body, thereby achieving a truly full-screen design for the mobile terminal.

With popularization of a concept of full screen, to improve a screen ratio, under-screen camera, water droplet screen, in-screen openings, and other display technologies have been gradually developed. However, the water droplet screens, the in-screen openings, etc. destroy the integrity of the screen and are not true full screens. The conventional technology of under-screen-camera solutions is immature. Visual differences are between a camera area and other areas due to design issues, and an imaging effect is poor and a production yield is low. Therefore, how to provide a full screen display device that does not occupy a screen space and can complete a photo or video function is an issue that need to be solved urgently by a person of ordinary skill in the art.

An objective of the present invention is to provide a display device that can solve an issue that a conventional display device cannot have both a front camera function and a full screen effect.

To solve the above issue, the present invention provides a display device comprising: a camera module comprising a lens configured to acquire an image;.

a first assembly comprising: a first communication unit; and a first control module connected to the first communication unit; and a second assembly configured to control the camera module, wherein the second assembly comprises: a display screen configured to display the image acquired by the lens; a second communication unit configured to connect with the first communication unit in wireless communication; and a second control module connected to the display screen and the second communication unit; wherein the camera module is detachably installed on an outer edge of the first assembly or an outer edge of the second assembly.

Furthermore, the display screen is a touch panel configured to receive at least one control instruction; and the second control module is configured to transmit the control instruction to the camera module.

Furthermore, when the camera module is detachably installed on the outer edge of the first assembly, the second control module is configured to transmit the control instruction to the second communication unit, the second communication unit transmits the control instruction to the first communication unit, the first communication unit transmits the control instruction to the first control module, and the first control module transmits the control instruction to the camera module.

Furthermore, when the camera module is detachably installed on the outer edge of the second assembly, the second control module directly transmits the control instruction to the camera module.

Furthermore, the first assembly is a stylus comprising a first socket; the second assembly is a display device main body and comprises a second socket; and the camera module comprises a first connector, and the first connector is unpluggably connected to the first socket or the second socket.

Furthermore, the first socket and the second socket are Type-C sockets, and the first connector is a Type-C connector.

Furthermore, the second assembly comprises a casing and an accommodation cavity is defined in the casing; and the first assembly is detachably installed in the accommodation cavity.

Furthermore, the first assembly comprises a power input electrical contact; the second assembly comprises a power output electrical contact disposed in the accommodation cavity; and when the first assembly is installed in the accommodation cavity, and a power input electrical contact is electrically connected to the power output electrical contact.

Furthermore, the first socket and the power input electrical contact are disposed on two ends of the first assembly respectively.

Furthermore, the first assembly comprises a magnetic element configured to magnetically attach the first assembly to the second assembly.

The present invention relates to a display device. A camera module of the present invention is detachably connected to the outer edge of the display device main body without disposing a camera module before the display device main body is disposed, such that no aperture needs to be formed in the display region of the display screen of the display device main body to make the display device main body achieve real full screen. In the present invention, a user can hold the camera module by a hand to adjust a direction of a lens of the camera module at will for taking a photograph at multiple angles. When the user takes a photograph, even if the display device for inputting shutter instructions shakes, stability of the camera module can be completely unaffected and the camera module can still photograph a clear image.

To more clearly elaborate on the technical solutions of embodiments of the present invention or prior art, appended figures necessary for describing the embodiments of the present invention or prior art will be briefly introduced as follows. Apparently, the following appended figures are merely some embodiments of the present invention. A person of ordinary skill in the art may acquire other figures according to the appended figures without any creative effort.

Preferred embodiments of the present invention are described with accompanying drawings as follows introduce a person of ordinary skill in the art the technical contents of the present invention completely such that examples are used to prove that the present invention can be embodied. As such the published technologies of the present invention are made clearer such that a person of ordinary skill in the art can better understand the way to embody the present invention.

The terminologies of direction mentioned in the present invention, such as "upper", "lower", "front", "rear", "left", "right", "inner", "outer", "side surface", etc., only refer to the directions of the appended figures. Therefore, the terminologies of direction are used for explanation and comprehension of the present invention, instead of limiting the present invention.

In the drawings, elements with the same structures are indicated with the same numerals, and elements with similar structures or functions are indicated with similar numerals. Furthermore, for convenience of understanding and description, the dimension and thickness of each assembly in the drawings are depicted at arbitrarily, and the present invention has no limit to the dimension and thickness of each assembly.

With reference to <FIG>, the present embodiment provides a display device <NUM> comprising: a camera module <NUM>, a first assembly <NUM>, and a second assembly <NUM>.

With reference to <FIG>, the camera module <NUM> comprises a lens <NUM> and first connector <NUM>. The lens <NUM> is configured to acquire an image. The first connector <NUM> in the present embodiment is configured to achieve charge/discharge and data transmission, and is preferably a Type-C connector. In other embodiment, the first connector <NUM> can employ a connector of other type such as a lighting connector, a mini-USB connector, etc..

With reference to <FIG> and <FIG>, the first connector <NUM> makes the camera module <NUM> detachably connected to an outer edge of the first assembly <NUM> or an outer of the second assembly <NUM>. Namely, when the camera module <NUM> is detachably connected to the outer edge of the first assembly <NUM>, only the first connector <NUM> of the camera module <NUM> extends into the first assembly <NUM>, and other parts of the camera module <NUM> are located outside the first assembly <NUM>. When the camera module <NUM> is detachably connected to the outer edge of the second assembly <NUM>, only the first connector <NUM> of the camera module <NUM> extends into the second assembly <NUM>, and other parts of the camera module <NUM> are located outside the second assembly <NUM>.

With reference to <FIG>, the first assembly <NUM> comprises: a first communication unit <NUM> and a first control module <NUM>. The first control module <NUM> (processor) is connected to the first communication unit <NUM>.

With reference to <FIG>, in the present embodiment, the first assembly <NUM> is preferably a stylus and comprises a first socket <NUM>. In the present embodiment, the first socket <NUM> is preferably a Type-C socket. As such, the first connector <NUM> of the camera module <NUM> is unpluggably connected to the first socket <NUM>.

With reference to <FIG>, the second assembly <NUM> is a display device main body. The display device main body comprises one of cell phone, tablet, or laptop. In the present embodiment, the second assembly <NUM> is a cell phone.

The second assembly <NUM> comprises: a casing <NUM>, a display screen <NUM>, and a second socket <NUM>. In the present embodiment, the second socket <NUM> is a Type-C socket. As such, the first connector <NUM> of the camera module <NUM> is unpluggably connected to the second socket <NUM>. The display screen <NUM> is configured to display the image acquired by the lens <NUM>. In the present embodiment, the display screen <NUM> is a touch panel. The display screen <NUM> is configured to receive at least one control instruction. The control instruction comprises a control instruction from a user, for example, instruction such as activating the camera module, photographing, switching working modes of the camera module, etc..

With reference to <FIG>, the second assembly <NUM> comprises: a second communication unit <NUM> and a second control module <NUM>.

The second communication unit <NUM> is connected to the first communication unit <NUM> in wireless communication. In the present embodiment, the first communication unit <NUM> and the second communication unit <NUM> are matching wireless communication units, and preferably a set of Bluetooth communication devices to achieve real time communication between the first assembly <NUM> and the second assembly <NUM>. In other embodiment, the first communication unit <NUM> and the second communication unit <NUM> can also employ other communication devices, for example, Wi-Fi communication devices.

The second control module <NUM> is connected to the display screen <NUM> and the second communication unit <NUM>. The second control module <NUM> is mainly configured to control the camera module <NUM>.

With reference to <FIG> and <FIG>, when the camera module <NUM> is detachably installed on the outer edge of the first assembly <NUM>, the first control module <NUM> is also connected to the camera module <NUM> and is configured to control the camera module <NUM> to acquire an image.

When the camera module <NUM> is detachably installed on the outer edge of the first assembly <NUM>, the second control module <NUM> transmits the control instruction to the camera module <NUM>. Specifically, the second control module <NUM> transmits the control instruction to the second communication unit <NUM>, and the second communication unit <NUM> transmits the control instruction to the first communication unit <NUM>. The first communication unit <NUM> transmits the control instruction to the first control module <NUM>, and the first control module <NUM> controls the camera module <NUM> to implement a control instruction.

With reference to <FIG>, the camera module <NUM> can also be inserted into the second assembly <NUM>. Specifically, the first connector <NUM> of the camera module <NUM> is unpluggably connected to the second socket <NUM>. As such, even under a circumstance of the first assembly <NUM> having a low battery or damages, the camera module <NUM> can still be inserted into the second assembly <NUM> to perform works of acquiring an image. Specifically, when the camera module <NUM> is detachably installed on the outer edge of the second assembly <NUM>, the second control module <NUM> directly transmits the control instruction to the camera module <NUM>, and the camera module <NUM> implements a control instruction.

With reference to <FIG>, an accommodation cavity <NUM> is defined in the casing <NUM>. The first assembly <NUM> is detachably installed in the accommodation cavity <NUM>. When it is not required to use the camera module <NUM>, the first connector <NUM> of the camera module <NUM> can be inserted into the first socket <NUM> of the first assembly <NUM>, and then the first assembly <NUM> with the camera module <NUM> can be accommodated in the accommodation cavity <NUM> to facilitate carrying, which can also prevent loss of the first assembly <NUM> and the camera module <NUM>.

At the same time, in the present embodiment, the second assembly <NUM> further comprises a power output electrical contact (not shown in the figures). The power output electrical contact is disposed in the accommodation cavity <NUM>.

With reference to <FIG>, the first assembly <NUM> comprises a power input electrical contact <NUM>. The first socket <NUM> and the power input electrical contact <NUM> are disposed at two ends of the first assembly <NUM> respectively. In the present embodiment, the power input electrical contact <NUM> is a penpoint of the active pen. When the first assembly <NUM> is installed to the accommodation cavity <NUM>, the power input electrical contact <NUM> is electrically connected to the power output electrical contact, thereby charging the first assembly <NUM> through the second assembly <NUM>. As such, the accommodation cavity <NUM> has both functions of accommodation and charging and charges the first assembly <NUM> when the first assembly <NUM> is installed to the accommodation cavity <NUM> without spending additional time to charge the first assembly <NUM>, which is convenient to use.

The camera module <NUM> of the present embodiment is detachably connected to the outer edge of the first assembly <NUM> and the outer edge of the second assembly <NUM>, such that there is no need to dispose the camera module <NUM> in the second assembly <NUM> and thus there is no need to define an aperture in the display screen <NUM> of the second assembly <NUM>, which makes the display screen <NUM> of the second assembly <NUM> achieve a true full screen. In the present embodiment, a user can hold the camera module <NUM> by hand, such that a direction of the lens of the camera module <NUM> can be adjusted at will to perform multi-angle photographing. When a user takes a photograph, even if the second assembly <NUM> for inputting shutter instructions shakes, stability of the camera module <NUM> can be completely unaffected and the camera module <NUM> can still photograph a clear image.

With reference to <FIG>, the present embodiment comprises most of the features of the first embodiment, and a difference of the present embodiment from first embodiment is as follows: The first assembly <NUM> in the present embodiment comprises: a magnetic element <NUM>. The magnetic element <NUM> is configured to magnetically attach the first assembly <NUM> to the second assembly <NUM>. Namely, when the camera module <NUM> and first assembly <NUM> are not needed, the first assembly <NUM> and the camera module <NUM> can be magnetically attached to the second assembly <NUM> to facilitate carrying, which can also prevent loss of the first assembly <NUM> and the camera module <NUM>.

In the present embodiment, the first assembly <NUM> can be connected to an external power supply through the first socket <NUM> to charge the first assembly <NUM>.

Claim 1:
A display device (<NUM>), comprising:
a camera module (<NUM>) comprising a lens (<NUM>) configured to acquire an image;
a first assembly (<NUM>) comprising:
a first communication unit (<NUM>); and
a first control module (<NUM>) connected to the first communication unit (<NUM>); and
a second assembly (<NUM>) configured to control the camera module (<NUM>), wherein the second assembly (<NUM>) comprises:
a display screen (<NUM>) configured to display the image acquired by the lens (<NUM>);
a second communication unit (<NUM>) configured to connect with the first communication unit (<NUM>) in wireless communication; and
a second control module connected to the display screen (<NUM>) and the second communication unit (<NUM>);
wherein the camera module (<NUM>) is detachably installed on an outer edge of the first assembly (<NUM>) or an outer edge of the second assembly (<NUM>);
wherein the display device (<NUM>) is characterized in that:
the first assembly (<NUM>) is a stylus comprising a first socket (<NUM>);
the second assembly (<NUM>) is a display device main body and comprises a second socket (<NUM>); and
the camera module (<NUM>) comprises a first connector (<NUM>), and the first connector (<NUM>) is unpluggably connected to the first socket (<NUM>) or the second socket (<NUM>).