CN115484333A - Device capable of being used for camera under screen and terminal with device - Google Patents

Abstract

The invention discloses a device for a screen camera and a terminal with the device, wherein the device for the screen camera comprises: the bracket module is used for being arranged above the camera; the display screen module is arranged on the bracket module and can horizontally move relative to the bracket module, and the display screen module is provided with an auxiliary screen which can lift relative to the bracket module; wherein, horizontal migration through the relative support module of display screen module and the relative support module's of vice screen elevating movement can make the camera expose so that do not have the work of sheltering from, perhaps, make vice screen and main screen parallel and level in order to show complete video content. According to the device, the camera can work without shielding, the imaging quality is good, the user experience is improved, the range of the display screen is wider under the condition that the front camera is not cancelled, and the non-OLED screen can realize the same full-screen experience as the OLED screen.

Description

Device capable of being used for camera under screen and terminal with device

Technical Field

The invention relates to the technical field of communication, in particular to a device for an off-screen camera and a terminal with the device.

Background

Mobile phones have become the most important interactive devices in people's lives at present. Especially, the popularization of smart phones, and the mobile phones are not only used as communication tool equipment, but also undertake media for people to acquire information, live shopping, positioning and entertainment. In order to adapt to more and more abundant use scenes and deeper pursuit of people for friendly interfaces, the size of the screen is required to be larger. But is limited to handheld devices and the screen cannot be made infinitely large. Then in a limited size, the display area is maximized to bring a better user experience. When not needing to shoot or take a video, hide the camera and do not influence the display area, can not influenced use the camera again when needs are shot, just can bring better user experience. To achieve this, it is necessary to have the camera below the display screen.

Because the camera is the module of a material, can not shelter from at the in-process that uses, needs a large amount of light to get into, so prior art adopts mechanical structure to hide the camera (if pop-up camera, convertible camera or sliding closure formula camera). The adoption of the modes has the disadvantages of complex structure, low reliability and incapability of achieving dust prevention and water prevention. In addition, there is a method in the prior art, that is, a camera under a screen is adopted, and the camera is made to be under the screen by utilizing the Light transmittance of an OLED (Organic Light-Emitting Diode) screen, but in this method, due to the existence of Light-Emitting pixels of an OLED display screen, the entering of Light during photographing is affected, so that the imaging quality is poor, and in this method, only the OLED screen can be used.

Disclosure of Invention

In order to solve the technical problem, the invention provides a device for an off-screen camera and a terminal with the device.

To achieve the above object, an aspect of the present invention provides an apparatus for an off-screen camera, including: the bracket module is used for being arranged above the camera; the display screen module is arranged on the bracket module and can horizontally move relative to the bracket module, and the display screen module is provided with an auxiliary screen which can lift relative to the bracket module; wherein, horizontal migration through the relative support module of display screen module and the lift of vice relative support module of screen remove, can make the camera expose so that do not have the work of sheltering from, perhaps, make vice screen and main screen parallel and level in order to show complete video content.

Wherein, the display screen module is still including being used for settling vice screen on it and can follow the display screen bracket component that vertical direction goes up and down, includes: the first platform is used for being fixedly connected with the lower surface of the auxiliary screen; a second platform located below the first platform; and the connecting part is respectively connected with the first platform and the second platform and can enable the first platform to move up and down relative to the second platform along the vertical direction.

Furthermore, the lifting driving assembly is used for driving the first platform to move up and down relative to the second platform along the vertical direction.

The lifting driving assembly is a magnetic driving assembly driven by magnetic force, or an electric driving assembly driven by electric power, or an air pressure driving assembly or a hydraulic driving assembly driven by pressure.

The support module comprises a body, wherein a lifting guide structure used for guiding the display screen module to move up and down relative to the body and a horizontal guide structure used for guiding the display screen module to move horizontally relative to the body are arranged on the body.

Preferably, the lifting guide structure comprises a vertical guide seat or a vertical slide rail which is arranged at one end of the body and extends along the vertical direction.

Preferably, the horizontal guide structure comprises a horizontal sliding rail or a horizontal guide seat which is arranged on the body and extends along the horizontal direction.

Furthermore, the horizontal driving component is used for driving a second platform of the display screen module to horizontally move relative to the horizontal guiding structure.

The horizontal driving assembly is a magnetic driving assembly driven by magnetic force, or an electric driving assembly driven by electric power, or an air pressure driving assembly or a hydraulic driving assembly driven by pressure.

In another aspect, the present invention further provides a terminal including the apparatus for an off-screen camera as described above.

The device for the under-screen camera and the terminal with the device provided by the invention have the following advantages that:

according to the device capable of being used for the camera under the screen and the terminal with the device, the support module is arranged above the camera, the display screen module with the auxiliary screen is arranged on the support module, the auxiliary screen is made to move up and down relative to the support module, and the display screen module with the auxiliary screen is made to move horizontally relative to the support module, so that the camera can be exposed to perform non-shielding work, or the auxiliary screen is made to be flush with the main screen to display complete video content, so that the camera can perform non-shielding work, the imaging quality is good, the reliability is high, the user experience is greatly improved, the range of the applicable display screen is wider under the condition that a front-mounted camera is not cancelled, and the non-OLED screen, such as a TFT (Thin Film Transistor for short) screen, can achieve the same full-screen experience as the OLED screen.

Drawings

FIG. 1 is a schematic view of the movement of the secondary screen of the present invention relative to the primary screen;

FIG. 2 is an exploded view of an apparatus that may be used with an under-screen camera in accordance with an embodiment of the present invention;

FIG. 3 is a schematic view of a rack module according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a display module according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a display module according to an embodiment of the present invention in an initial position relative to a stand module;

FIG. 6 is a schematic view (partially in cross section) illustrating a descending structure of a display module relative to a stand module according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a display module moving to the right relative to a stand module according to an embodiment of the present invention;

fig. 8 is a flowchart of the operation of an apparatus that can be used in an off-screen camera in accordance with an embodiment of the present invention.

Detailed Description

As shown in fig. 2, which is an exploded view of the apparatus for an off-screen camera according to the present invention, as can be seen from fig. 2, the apparatus of the present invention includes: the bracket module 1 is used for being arranged above the camera 4; the display screen module 2 is arranged on the bracket module 1 and can horizontally move relative to the bracket module 1, and is provided with an auxiliary screen 21 which can lift and move relative to the bracket module 1; wherein, horizontal migration through the relative support module 1 of display screen module 2 and the relative lifting movement of support module 1 of vice screen 21 can make camera 4 expose so that do not have the work of sheltering from, perhaps, make vice screen 21 and 3 parallel and level of main screen in order to show complete video content.

It should be noted that, the term "screen" herein refers to a Display screen, which may be a TFT screen, an LCD (i.e., liquid Crystal Display) screen, an OLED screen, or a Display screen made of other materials in the prior art.

The present invention divides the display screen into two parts, i.e. as shown in fig. 1, one part of the display screen is a small display screen (i.e. the sub-screen 21) located above the camera 4, and the other part of the display screen is a large display screen (i.e. the main screen 3) in addition. According to the invention, the support module 1 forms a rail support for the horizontal movement of the display screen module 2 and the lifting movement of the auxiliary screen 21, so that when the camera 4 needs to work, the auxiliary screen 21 right above the camera 4 descends relative to the support module 1, and then the display screen module 2 moves to the right, so that the camera 4 leaves the camera 4 and is hidden under the main screen 3 when the camera 4 works, the camera 4 is exposed without interference, and the work can be carried out under the condition of no shielding. When the camera 4 does not need to work, the auxiliary screen 21 can return to the original position, namely, the display screen module 2 moves left, then the auxiliary screen 21 rises, and returns to the position right above the camera 4, and the auxiliary screen 21 and the main screen 3 are parallel and level, and are spliced into a complete screen to display the picture.

In order to make the sub-screen 21 of the display screen module 2 move up and down relative to the bracket module 1, the invention arranges the sub-screen 21 on a display screen bracket assembly which can move up and down along the vertical direction, and the display screen bracket assembly can adopt the structure as shown in fig. 2 and fig. 4, and comprises: a first platform 22 fixedly connected with the lower surface of the secondary screen 21; a second platform 23 located below the first platform 22; and a connecting part which is respectively connected with the first platform 22 and the second platform 23 and can enable the first platform 22 to move up and down along the vertical direction relative to the second platform 23. In order to make the secondary screen 21 flush with the primary screen 3 and prevent dust and water, the first platform 22 may be designed to have an outer size larger than that of the secondary screen 21 as shown in fig. 2 and 4.

In order to enable the auxiliary screen 21 to move up and down relative to the bracket module 1, the present invention further includes a lifting driving assembly for driving the first platform 22 to move up and down in a vertical direction relative to the second platform 23, wherein the lifting driving assembly may be a magnetic driving assembly driven by magnetic force, an electric driving assembly driven by electric force, an air pressure driving assembly or a hydraulic driving assembly driven by pressure, and of course, other driving assemblies in the prior art may also be used.

In order to ensure that the sub-screen 21 moves up and down to a designated position relative to the rack module 1, the present invention further includes a first detecting element for detecting a height position or a stroke of the lifting movement of the first platform 22 relative to the rack module 1. On the basis, the invention can also comprise a second detection element for detecting the horizontal position or the horizontal movement stroke of the display screen module 2 relative to the bracket module 1.

In order to make the bracket module 1 form a rail support for the horizontal movement of the display screen module 2 and the lifting movement of the auxiliary screen 21, the bracket module adopts the structure shown in figures 2 and 3, and comprises: the body 15, and be provided with on body 15 and be used for guiding the display screen module 2 relative body 15 elevating movement's lift guide structure 16 and the horizontal guide structure 14 that is used for guiding display screen module 2 relative body 15 horizontal migration. The lifting guide structure 16 includes a vertical guide seat or a vertical slide rail disposed at one end of the body 15 and extending along a vertical direction, and the horizontal guide structure 14 includes a horizontal slide rail or a horizontal guide seat disposed on the body 15 and extending along a horizontal direction.

In order to enable the auxiliary screen 21 and the display screen module 2 to horizontally move relative to the bracket module 1, the invention further comprises a horizontal driving component for driving the second platform of the display screen module to horizontally move relative to the horizontal guide structure, wherein the horizontal driving component can be a magnetic driving component driven by magnetic force, an electric driving component driven by electric power, and an air pressure driving component or a hydraulic driving component driven by pressure.

In addition, the invention also provides a terminal which comprises the device which can be used for the camera under the screen, and in addition, the terminal also comprises a display screen formed by splicing the main screen and the auxiliary screen, an instruction control unit which is used for controlling at least whether the electromagnet is electrified or not and whether the camera works or not, a position detection unit which is used for detecting the position of the auxiliary screen or the display screen module and the like.

The structure of the device of the present invention will be described in detail below by taking as an example that the LCD panel is used as the display screen of the device of the present invention, and the magnetic driving assembly that is magnetically driven is used as the lifting driving assembly and the horizontal driving assembly.

As shown in fig. 2 to 4, the apparatus of the present embodiment mainly includes the following two parts: support module 1 and LCD display screen module 2, wherein display screen module 2 can be in support module 1 inside translation from top to bottom and left and right sides.

The rack module 1 has a body 15, which may be a rectangular flat plate. A horizontal guide structure 14 and a lifting guide structure 16 are provided on the body. The lifting guide structure 16 can adopt a vertical guide seat which is arranged on one side of the body 15 and extends along the vertical direction, and comprises a pair of L-shaped mounting plates which are fixedly arranged on two sides of one end of the body 15 and a pair of baffle plates which are adjacent to the pair of L-shaped mounting plates and are arranged on two sides of the body 15, the baffle plates comprise an upper baffle plate which is arranged on the upper part and is L-shaped and a vertical flat plate which is arranged on the lower part and is tightly attached to the outer wall of the body 15 and extends vertically, the space size enclosed by the pair of L-shaped mounting plates and the pair of baffle plates is matched with the size of the display screen module 2, so that the display screen module 2 can be up and down in the space, and the distance between the upper baffle plate and the upper surface of the body 15 can meet the requirement of enabling the display screen module 2 to pass through the upper baffle plate and the upper surface of the body 15. In addition, the vertical guide seat can also adopt other structures, but the requirement that can guide the display screen module 2 up and down needs to be satisfied.

The horizontal guiding structure 14 can be a horizontal guiding seat disposed on the body 15 and extending along the horizontal direction, as shown in fig. 2 and fig. 3, the horizontal guiding seat can be formed by three vertical plates surrounding the periphery of the other side of the body 15, that is, the horizontal guiding seat includes a first vertical plate mounted at the other end of the body 15 and a pair of second vertical plates mounted at the two sides of the body 15 and seamlessly connected with the first vertical plate, the pair of second vertical plates are respectively butted with the vertical flat plates of the pair of baffles, so that the space surrounded by the three vertical plates is communicated with the space surrounded by the vertical guiding seat, and the display screen module 2 can smoothly move to the right along the horizontal guiding structure after descending to the designated position along the lifting guiding structure. In addition, horizontal guide holder also can adopt other structures, but need to satisfy the requirement that can guide display screen module 2 left and right translation.

In order to make display screen module 2 can control the translation on support module 1, still be provided with 2 electro-magnets 12 that can circular telegram and 2 springs 11 that extend along the horizontal direction that can make display screen module 2 self return on body 15, during the installation, the one end of 2 springs 11, 2 electro-magnets 12 all can be embedded in the inside wall of the horizontal guide holder of body 15. During manufacturing, the body 15, the horizontal guide structure 14 and the lifting guide structure can be formed by injection molding of plastic glass fibers (namely, plastic and glass fibers), and thus, the lubricating device has a certain lubricating function under the condition of ensuring certain strength. Of course, the components may be made of other materials.

The LCD display screen module 2 of the present embodiment includes an LCD sub-screen 21 and a display screen bracket assembly for supporting the sub-screen 21 and driving the sub-screen to move up and down. The display screen support assembly comprises a first platform 22, a second platform 23 and a connecting part, wherein the upper end and the lower end of the connecting part are respectively connected with the first platform 22 and the second platform 23, the connecting part can adopt an X-shaped hinge 24 as shown in figure 2, the connecting part comprises a pair of claws hinged together through a pin shaft in the middle, two ends of each claw are respectively provided with an inserting column vertical to the length extending direction of the claw, correspondingly, sliding grooves (not shown in the figure) capable of being connected with the inserting columns in a sliding mode are respectively arranged on side walls extending along the transverse direction (the transverse direction refers to the direction consistent with the translation direction of the second platform) on two sides of the first platform 22 and the second platform 23, and therefore, the vertical distance between the first platform 22 and the second platform 23 can be changed through changing the distance between the tail ends of the pair of claws. Of course, other components may be used as the connecting member.

In order to make the first platform 22 lift relative to the second platform 23, 2 electromagnets 25 capable of being electrified and 4 springs 26 which can make the first platform 22 automatically return, extend along the vertical direction and are positioned at four corners enclosed by the lifting guide mechanism are also arranged between the first platform 22 and the second platform 23. When installed, the electromagnet 25 and one end (i.e., the lower end) of the spring 26 may both be embedded in the upper wall of the second platform 23.

In order to achieve the purpose that the first platform can be lifted relative to the second platform and the display screen module can be translated relative to the bracket module by electrifying the electromagnet, the first platform 22 and the second platform 23 of the embodiment are made of magnetic metal pieces. The LCD sub-panel 21 may be fixed on the upper surface of the first platform 22 by means of adhesive-backed bonding, so that it is integrated with the first platform 22. Thus, under the condition that the electromagnet 25 is electrified, the auxiliary screen 21 and the first platform 22 can be attracted with the second platform 23 under the constraint of the hinge 24 so as to move downwards; and under the condition that the electromagnet 12 is electrified, the second platform 23 drives the whole display screen module 2 to be attracted with the electromagnet 12 so as to move to the right. And when the electromagnet is powered off, the display screen module can move back to the home position from the left under the action of the corresponding spring, and then the auxiliary screen moves up to the home position and is flush with the main screen.

In order to facilitate the detection of the vertical position of the display screen module 2 relative to the bracket module 1, a position sensor 13 is mounted on a vertical guide seat of the bracket module 2, and the position sensor 13 can adopt a proximity sensor or other sensors.

The working flow chart of the terminal of the device for the under-screen camera according to the embodiment of the invention is shown in fig. 8, and comprises the following steps:

and S01, starting to enable a user to wait for using the camera.

And S02, electrifying the electromagnet to generate magnetism, and attracting the LCD auxiliary screen to move vertically downwards along the bracket module.

And S03, the position sensor detects that the LCD auxiliary screen descends to the right position.

And S04, electrifying the electromagnet to generate magnetism, and attracting the LCD display screen module to move along the bracket module in a rightward translation manner.

And S05, the camera works.

Specifically, the initial configuration and position of the device of the present embodiment are shown in fig. 5, at this time, the LCD sub-screen 21 and the main screen (not shown in the figure) are on a plane and are embedded with each other, that is, the portion of the first platform 22 extending out of the sub-screen 21 is located below the main screen, and the display contents of the sub-screen and the main screen are spliced into a complete picture.

When a user starts the camera, the instruction control unit controls the electromagnet 25 to be electrified to generate magnetism according to an output instruction of the position detection unit, the first platform 22 and the LCD auxiliary screen 21 are attracted to move downwards along the lifting guide seat of the bracket module 1 together, the hinge 24 moves downwards along with the platform 22, the crossing angle of the pair of clamping jaws is increased to keep the stability of the downward movement of the first platform 22, and meanwhile, the spring 26 is compressed. After the first platform 22 moves downwards to the designated position, the position sensor 13 detects the position information of the first platform 22, then the electromagnet 12 is electrified and generates magnetism, the electromagnet 12 attracts the second platform 23 of the LCD display screen module 2 to move towards the right side along the horizontal guide seat, the spring 11 is compressed, and after the display screen module 2 moves to the right side, no shielding object exists above the camera 3, and the camera starts to work without being influenced. Wherein, to the user use the camera, can be work such as shooing, video, sweep the sign indicating number.

When the camera is not needed, the electromagnet 12 is powered off, the magnetism disappears, the spring 11 recovers to deform, and the LCD display screen module 2 is pushed to move towards the left side. When the LCD display screen module 2 moves to the left, the position sensor 13 detects the position information of the display screen module 2, then the electromagnet 25 is powered off and loses magnetism, the spring 26 recovers deformation, the first platform 22 and the LCD auxiliary screen 21 are pushed to move upwards together, and after the LCD display screen module moves to the right, the upper surface of the LCD auxiliary screen 21 is flush with the upper surface of the main screen, and a spliced complete picture is displayed together.

In summary, the terminal of the present embodiment divides the display screen into two parts, one part is a small display screen located above the camera, and the other part is a large display screen. The motion route of the display screen module is guided through the support module in the device, the power on and off of the electromagnet is utilized to generate or lose magnetic force, meanwhile, the proximity sensor is matched to push the lifting and translation motion of the first platform of the LCD display screen module, so that the small display screen on the upper surface of the camera leaves the camera when the camera works, the camera is hidden below the large display screen, and the camera works under the conditions of no interference and no shielding. When the camera does not need to work, the small display screen on the upper surface of the camera returns to the upper part of the camera again along the bracket module under the action of the return spring, and is spliced with the large display screen to form a complete screen for displaying pictures. The structure of the device can be widely applied to terminal equipment with the front-facing camera, so that the user experience is greatly improved, and the full-screen experience of a non-OLED screen (such as a TFT screen) as same as that of an OLED screen is realized under the condition of not canceling the front-facing camera.

The preferred embodiments of the present invention have been described above with reference to the accompanying drawings, and are not to be construed as limiting the scope of the invention. Any modifications, equivalents and improvements which may occur to those skilled in the art without departing from the scope and spirit of the present invention are intended to be within the scope of the claims.

Claims (10)

1. An apparatus usable with an underscreen camera, comprising:

the bracket module is used for being arranged above the camera;

the display screen module is arranged on the bracket module and can horizontally move relative to the bracket module, and the display screen module is provided with an auxiliary screen which can lift relative to the bracket module;

wherein, horizontal migration through the relative support module of display screen module and the lift of vice relative support module of screen remove, can make the camera expose so that do not have the work of sheltering from, perhaps, make vice screen and main screen parallel and level in order to show complete video content.

2. The apparatus of claim 1, wherein the display screen module further comprises a display screen bracket assembly for mounting the sub-screen thereon and being vertically liftable, comprising:

the first platform is used for being fixedly connected with the lower surface of the auxiliary screen;

a second platform located below the first platform;

and the connecting part is respectively connected with the first platform and the second platform and can enable the first platform to move up and down relative to the second platform along the vertical direction.

3. The apparatus of claim 2, further comprising a lift drive assembly for driving the first platform to move vertically relative to the second platform.

4. The apparatus of claim 3, wherein the lifting drive assembly is a magnetic drive assembly driven by magnetic force, or an electric drive assembly driven by electric force, or a pneumatic or hydraulic drive assembly driven by pressure.

5. The device according to any one of claims 1-4, wherein the support module comprises a body, and the body is provided with a lifting guide structure for guiding the display screen module to move up and down relative to the body and a horizontal guide structure for guiding the display screen module to move horizontally relative to the body.

6. The device of claim 5, wherein the lifting guide structure comprises a vertical guide base or a vertical slide rail disposed at one end of the body and extending in a vertical direction.

7. The device of claim 5, wherein the horizontal guiding structure comprises a horizontal sliding rail or a horizontal guiding seat which is arranged on the body and extends along the horizontal direction.

8. The apparatus of claim 7, further comprising a horizontal driving assembly for driving the second platform of the display screen module to move horizontally relative to the horizontal guiding structure.

9. The apparatus of claim 8, wherein the horizontal drive assembly is a magnetic drive assembly driven by magnetic force, or an electric drive assembly driven by electric force, or a pneumatic or hydraulic drive assembly driven by pressure.

10. A terminal, characterized in that it comprises a device usable with an underscreen camera according to any one of claims 1 to 9.

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