CN108495015A - Filming apparatus and electronic equipment - Google Patents

Abstract

This application discloses a kind of filming apparatus and electronic equipments, the filming apparatus includes camera module, structure light module, receiver and circuit board, the circuit board includes the first distribution terminal, second distribution terminal, third distribution terminal and bus end, first distribution terminal, second distribution terminal and the third distribution terminal respectively with the structure light module, camera module and receiver electrical connection, the bus end and first distribution terminal, second distribution terminal and the electrical connection of third distribution terminal, through first distribution terminal, second distribution terminal and third distribution terminal and the structure light module, camera module and receiver transmission telecommunications number.The structure light module, camera module and receiver only by the bus end transmission telecommunications number, simplify the board structure of circuit, optimize the arrangement of the filming apparatus.

Description

Filming device and electronic equipment

technical field

The present application relates to the field of electronic equipment, in particular to a photographing device and electronic equipment.

Background technique

The mobile phone can be equipped with multiple camera modules and receivers, and each camera module and receiver needs to obtain electrical signals through the circuit board. As the number of camera modules increases, the layout of multiple camera modules and receivers is limited, resulting in a complex circuit board structure that provides electrical signals for multiple camera modules and receivers, which affects the internal layout of the mobile phone.

Contents of the invention

The present application provides a photographing device and electronic equipment.

The present application provides a shooting device, wherein the shooting device includes a camera module, a structured light module, a receiver and a circuit board, and the circuit board includes a first branch end, a second branch end, a third branch Line terminal and bus terminal, the first branch terminal, the second branch terminal and the third branch terminal are electrically connected to the structured light module, the camera module and the receiver respectively, and the bus terminal is connected to the The first branch terminal, the second branch terminal and the third branch terminal are electrically connected, and the structured light module and the camera are connected through the first branch terminal, the second branch terminal and the third branch terminal. The module and receiver transmit electrical signals.

The present application also provides an electronic device, wherein the electronic device includes the above-mentioned photographing device.

The present application also provides an electronic device, wherein the electronic device includes a photographing device, a device body and a slider slidingly connected to the device body, and the photographing device includes a structured light module, a camera module, a receiver and a circuit Board, the camera module, structured light module and receiver are fixed on the slider, the circuit board includes a first branch terminal, a second branch terminal, a third branch terminal and a bus terminal, the first The first branch terminal, the second branch terminal and the third branch terminal are respectively electrically connected to the structured light module, the camera module and the receiver, and the bus terminal is connected to the first branch terminal, the second The two branch terminals are electrically connected to the third branch terminal, and the electrical signals are transmitted to the structured light module, the camera module and the receiver through the first branch terminal, the second branch terminal and the third branch terminal, The bus terminal is also electrically connected to the device body

In the photographing device and electronic equipment according to the embodiments of the present application, the circuit board includes a first branch terminal, a second branch terminal, a third branch terminal and a bus terminal, the first branch terminal, the second branch terminal terminal and the third branch terminal are electrically connected with the structured light module, the camera module and the receiver respectively, and the bus terminal is connected with the first branch terminal, the second branch terminal and the third branch terminal Electrically connected, transmitting electrical signals with the structured light module, the camera module and the receiver through the first branch terminal, the second branch terminal and the third branch terminal, so that the structured light module, the camera module The group and the receiver only transmit electrical signals through the bus terminal, which simplifies the structure of the circuit board and optimizes the arrangement structure of the photographing device.

Additional aspects and advantages of embodiments of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of embodiments of the invention.

Description of drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the following will briefly introduce the drawings that need to be used in the implementation manner. Obviously, the drawings in the following description are some implementation manners of the application, and are common to those skilled in the art. As far as the skilled person is concerned, other drawings can also be obtained based on these drawings on the premise of not paying creative work.

FIG. 1 is a schematic diagram of an electronic device provided in an embodiment of the present application;

FIG. 2 is another schematic diagram of an electronic device according to an embodiment of the present application;

FIG. 3 is another schematic diagram of an electronic device according to an embodiment of the present application;

FIG. 4 is another schematic diagram of an electronic device according to an embodiment of the present application;

FIG. 5 is another schematic diagram of an electronic device according to an embodiment of the present application;

FIG. 6 is an enlarged schematic diagram of part V of the electronic device of FIG. 5;

Fig. 7 is an infrared supplementary light circuit board of an electronic device according to an embodiment of the present application;

FIG. 8 is a schematic diagram of a photographing device of an electronic device according to an embodiment of the present application;

FIG. 9 is another schematic diagram of a photographing device of an electronic device according to an embodiment of the present application;

Fig. 10 is an enlarged schematic diagram of part VI of the photographing device of Fig. 9;

FIG. 11 is another schematic diagram of a photographing device of an electronic device according to an embodiment of the present application;

FIG. 12 is another schematic diagram of a photographing device of an electronic device according to an embodiment of the present application;

FIG. 13 is a schematic perspective view of a photographing device of an electronic device according to an embodiment of the present application;

FIG. 14 is an exploded schematic diagram of a photographing device of an electronic device according to an embodiment of the present application;

FIG. 15 is another schematic diagram of an electronic device according to an embodiment of the present application;

Fig. 16 is an exploded schematic diagram of an electronic device according to an embodiment of the present application.

Detailed ways

Embodiments of the present invention will be further described below in conjunction with the accompanying drawings. The same or similar reference numerals in the drawings represent the same or similar elements or elements having the same or similar functions throughout.

In addition, the embodiments of the present invention described below in conjunction with the accompanying drawings are exemplary, and are only used to explain the embodiments of the present invention, and should not be construed as limiting the present invention.

In the present invention, unless otherwise clearly specified and limited, the first feature may be in direct contact with the first feature or the first and second feature may be in direct contact with the second feature through an intermediary. touch. Moreover, "above", "above" and "above" the first feature on the second feature may mean that the first feature is directly above or obliquely above the second feature, or simply means that the first feature is higher in level than the second feature. "Below", "beneath" and "beneath" the first feature may mean that the first feature is directly below or obliquely below the second feature, or simply means that the first feature is less horizontally than the second feature.

Referring to FIG. 1 and FIG. 2 , an electronic device 1000 according to an embodiment of the present application includes a photographing device 100 , a device body 200 , and a slider 300 slidably connected to the device body 200 . The photographing device 100 includes a structured light module 10 , a camera module 20 , a receiver 30 and a circuit board 40 . The structured light module 10 , the camera module 20 and the receiver 30 are fixed on the slider 300 . The circuit board 40 includes a first terminal 41 , a second terminal 42 , a third terminal 43 and a bus terminal 44 . The first branch terminal 41 , the second branch terminal 42 and the third branch terminal 43 are electrically connected to the structured light module 10 , the camera module 20 and the receiver 30 respectively. The bus terminal 44 is electrically connected to the first branch terminal 41, the second branch terminal 42 and the third branch terminal 43, and is connected to the first branch terminal 41, the second branch terminal 42 and the third branch terminal 43. The branch terminal 43 transmits electrical signals with the structured light module 10 , the camera module 20 and the receiver 30 , and the bus terminal 44 is also electrically connected to the device body 200 .

It can be understood that the slider 300 slides and expands relative to the device body 200 to drive the structured light module 10 , the camera module 20 and the receiver 30 to extend or shrink relative to the device body 200 . The circuit board 40 connects the device body 200 with the structured light module 10, the camera module 20 and the receiver 30, so as to realize the communication between the structured light module 10, the camera module 20 and the receiver 30. The device body 200 transmits electrical signals. The electronic device 1000 may be a mobile phone, a notebook computer or a tablet computer and the like. The photographing device 100 can photograph a human face through the structured light module 10 to have the function of recognizing a human face. The photographing device 100 can also take pictures of regular portraits or scenes through the camera module 20 to have a photographing function. The photographing device 100 can also realize the function of receiving a voice call through the receiver 30, so as to realize the multifunctional purpose of photographing and communication.

The circuit board 40 includes a first branch terminal 41, a second branch terminal 42, a third branch terminal 43 and a bus terminal 44, and the first branch terminal 41, the second branch terminal 42 and the The third branch terminal 43 is electrically connected to the structured light module 10, the camera module 20 and the receiver 30 respectively, and the bus terminal 44 is connected to the first branch terminal 41, the second branch terminal 42 and the third branch terminal 41. The branch terminal 43 is electrically connected, and transmits electrical signals with the structured light module 10, the camera module 20 and the receiver 30 through the first branch terminal 41, the second branch terminal 42 and the third branch terminal 43, The structured light module 10 , the camera module 20 and the receiver 30 only transmit electrical signals through the bus terminal 44 , which simplifies the structure of the circuit board 40 and optimizes the arrangement structure of the camera 100 .

In this embodiment, the structured light module 10 , the camera module 20 and the receiver 30 are arranged side by side on the slider 300 . The structured light module 10, the camera module 20 and the receiver 30 are fixed on the slider 300 away from the device body 200, so as to facilitate the extension of the slider 300 relative to the device body 200, reducing the The sliding stroke of the slider 300. The circuit board 40 is located on the slider 300 close to the device body 200 to facilitate electrical connection with the device body 200 . The circuit board 40 is arranged side by side with the structured light module 10 , the camera module 20 and the receiver 30 . The bus terminal 44 is adjacent to the device body 200 . The first branch end 41 , the second branch end 42 and the third branch end 43 are respectively adjacent to the structured light module 10 , the camera module 20 and the receiver 30 . The arrangement of the circuit board 40 , the structured light module 10 , the camera module 20 and the receiver 30 is denser, and the arrangement structure of the electronic device 1000 is optimized. The first terminal 41 , the second terminal 42 and the third terminal 43 are close to each other and located on a side of the circuit board 40 away from the device body 200 . The bus terminal 44 is located on a side of the circuit board 40 close to the device body 200 . The bus terminal 44 is opposite to the first branch terminal 41, the second branch terminal 42 and the third branch terminal 43, so as to prevent the conductive circuit of the bus terminal 44 from contacting the first branch terminal 41, The second branch terminal 42 and the third branch terminal 43 have crosstalk.

Further, referring to FIG. 3 , the circuit board 40 includes a main line part 50 , a main line part 60 , a first branch line part 70 and a second branch line part 80 . The main line portion 50 has a first edge 51 and a second edge 52 opposite to the first edge 51 . The bus line portion 60 and the first branch line portion 70 extend from the first edge 51 and the second edge 52 respectively. The second branch line portion 80 extends from the second edge 52 . The bus terminal 44 is disposed on the bus line portion 60 . The first branch terminal 41 is disposed on the first branch line portion 70 . The second branch terminal 42 is disposed on the main line portion 50 . The third branch terminal 43 is disposed on the second branch line portion 80 .

In this embodiment, the main line portion 50 further includes a third edge 53 connected between the first edge 51 and the second edge 52 , and a fourth edge 54 opposite to the third edge 53 . The first edge 51 and the second edge 52 are opposite to each other in the sliding direction of the slider 300 relative to the device body 200 . The first edge 51 and the second edge 52 are substantially perpendicular to the sliding direction of the slider 300 . The third edge 53 and the fourth edge 54 are substantially parallel to the sliding direction of the slider 300 relative to the device body 200 . A distance from the third edge 53 to the fourth edge 54 is approximately equal to the width of the slider 300 in a substantially vertical sliding direction. The bus line portion 60 extends along a direction substantially perpendicular to the first edge 51 . The first branch line portion 70 extends along a direction substantially perpendicular to the second edge 52 . The second branch line portion 80 extends along a direction substantially perpendicular to the second edge 52 . The first sub-circuit part 70 and the second sub-circuit part 80 are isolated from each other. The bus end 44 is disposed at an end of the bus line portion 60 away from the main line portion 50 . The first branch line end 41 is disposed at an end of the first branch line portion 70 away from the main line portion 50 . The distance between the bus terminal 44 and the main circuit part 50 is increased, which facilitates the electrical connection of the bus terminal 44 to the device body 200 . The distance between the first branch line end 41 and the main line part 50 increases, which facilitates the structured light module 10 to approach the edge of the slider 300 and facilitates the structured light module 10 to extend out of the device. Body 200. The second branch terminal 42 is disposed on the main line portion 50 adjacent to the second edge 52 . The camera module 20 is adjacent to the second edge 52 of the main line part 50, so that it is convenient to be side by side with the first branch line part 70, and is convenient to be side by side with the structured light module 10, so that the electronic device 1000 The structure arrangement is compact, which optimizes the arrangement structure of the electronic device 1000 . The third branch line end 43 is disposed at the end of the second branch line part 80 away from the main line part 50 , so that the receiver 30 and the camera module 20 are arranged side by side.

Further, referring to FIG. 4 , the first sub-line part 70 includes a first sub-section 71 and a second sub-section 72 opposite to the first sub-section 71 . Both the first subsection 71 and the second subsection 72 extend from the second edge 52 . The first branch line end 41 includes an infrared line end 411 and an imaging line end 412 , and the infrared line end 411 and the imaging line end 412 are respectively disposed on the first subsection 71 and the second subsection 72 . The structured light module 10 includes an infrared module 11 and an imaging module 12 relatively fixed to the infrared module 11 . The infrared module 11 is electrically connected to the infrared terminal 411 , and the imaging module 12 is electrically connected to the imaging line terminal 412 .

In this embodiment, the extension direction of the first subsection 71 is parallel to the extension direction of the second subsection 72 . The extending direction of the first subsection 71 is substantially perpendicular to the second edge 52 . The first subsection 71 and the second subsection 72 are respectively located at two opposite ends of the second edge 52 . That is, the first subsection 71 and the second subsection 72 are adjacent to the third edge 53 and the fourth edge 54 respectively, so that the gap between the first subsection 71 and the second subsection 72 is Larger spacings can be obtained. Since the size of the camera module 20 is larger than the size of the structured light module 10, there is a larger distance between the first subsection 71 and the second subsection 72, and the camera The module 20 and the receiver 30 are arranged between the first subsection 71 and the second subsection 72, and the camera module 20 and the receiver 30 extend parallel to the first subsection 71 The direction arrangement makes the structure of the camera module 20 and the receiver 30 more compact. The infrared module 11 and the imaging module 12 are respectively located on two sides of the receiver 30 . The infrared module 11 and the imaging module 12 are independent of each other, and an avoidance space is formed between the infrared module 11 and the imaging module 12, and the avoidance space is provided for the camera module 20 and the receiver 30 to make full use of the internal layout space of the electronic device 1000 . The camera module 20 is roughly located in the middle of the electronic device 1000, so that the distance between the camera module 20 and the two edges in the width direction of the electronic device 1000 is equal, which facilitates shooting by the camera module 20 and improves user experience. . The infrared end 411 is disposed at an end of the first subsection 71 away from the main circuit portion 50 . The infrared terminal 411 transmits a driving electrical signal for emitting infrared light and a sensing signal for detecting infrared light to the infrared module 11 . The imaging line end 412 is disposed at an end of the second subsection 72 away from the main line portion 50 . The imaging line terminal 412 transmits a driving signal for capturing an image and receives a sensing signal for capturing an image for the imaging module 12 . The infrared end 411 and the imaging line end 412 are respectively located on the same facing side of the first subsection 71 and the second subsection 72, so as to facilitate the infrared module 11 and the imaging module 12 to pass through The flexible circuit board is electrically connected to the infrared terminal 411 and the imaging terminal 412 .

Further, referring to FIG. 5 , FIG. 6 and FIG. 7 , the first subsection 71 includes a first branch 711 extending from the second edge 52 and a second branch extending from the first branch 711 712. The infrared end 411 includes a first port 413 and a second port 414 . The first port 413 and the second port 414 are respectively disposed on the first branch 711 and the second branch 712 . The infrared module 11 includes an infrared camera 111 and an infrared supplementary light 112 fixed relative to the infrared camera 111 . The infrared camera 111 and the infrared supplementary light 112 are electrically connected to the first port 413 and the second port 414 respectively.

In this embodiment, the infrared camera 111 and the infrared supplementary light 112 extend along a direction parallel to the second edge 52 . That is, the infrared camera 111 and the infrared supplementary light 112 are arranged side by side in the width direction of the electronic device 1000 . The infrared camera 111 and the infrared supplementary light 112 are close together, so that the distance between the first port 413 and the second port 414 is relatively close, which facilitates the routing of the infrared terminal 411 . The first port 413 and the second port 414 are arranged on the first branch 711 and the second branch 712 respectively, so as to facilitate the wiring of the first branch 71 and avoid the wiring of the first port 413 crosstalk with the line of the second port 414 . The second branch 712 is extended from the first branch 711 to reduce the wiring distance from the first port 413 to the main line part 50, and to reduce the distance from the second port 414 to the main line Section 50 trace distance. The first branch 711 has an end edge 7111 parallel to the second edge 52 and a first side edge 7112 and a second side edge 7113 connecting two ends of the end edge 7111 . The first side edge 7112 is closer to the second subsection 72 than the second side edge 7113 . The second branch 712 extends away from the first branch 7111 in a direction away from the second subsection 72 . That is, the second branch 712 extends from the second side edge 7112 . The first port 413 is located near the end edge 7111 of the first branch 711 . The end edge 7111 is close to the side wall of the infrared camera 111 . The second branch 712 includes a first extension portion 7121 and a second extension portion 7122 . The first extension portion 7121 extends from the second side edge 7113 , and the second extension portion 7122 extends from the first extension portion 7121 . The extending direction of the first extending portion 7121 is substantially perpendicular to the second side edge 7112 , and the extending direction of the second extending portion 7122 is substantially parallel to the second side edge 7112 . The second port 414 is disposed on the second extension portion 7122 to facilitate the infrared camera 111 and the infrared fill light 112 to be side by side. The second port 414 is close to the third edge 53 . The infrared fill light 112 is located on a side of the infrared camera 111 away from the imaging module 12 . The infrared supplementary light 112 is relatively close to the infrared camera 111 , so that the infrared supplementary light 112 provides light for the infrared camera 111 conveniently. Moreover, the distance from the infrared camera 111 to the imaging module 12 is reduced, so that the infrared light image taken by the infrared camera 111 and the picture image taken by the imaging module 12 are conveniently overlapped in a large area, so that Faces or other objects that are closer to the electronic device 1000 are identified.

In this embodiment, both the first port 413 and the second port 414 are connection seats of a board-to-board connector. A first flexible circuit board 113 extends from the bottom of the infrared camera 111 . The first flexible circuit board 113 is parallel to the first branch 711 . The end of the first flexible circuit board 113 is bent relative to the bottom of the infrared camera 111 , and plugged into the first port 413 to realize the electrical connection between the infrared camera 111 and the first port 413 . The orientation of the infrared camera 111 is perpendicular to the first branch 711 , that is, the orientation of the infrared camera 111 is substantially perpendicular to the main line portion 50 . A supplementary light circuit board 114 extends from the bottom of the infrared supplementary light 112 . The fill light circuit board 114 is a flexible circuit board. The fill light circuit board 114 is parallel to the second branch 712 . The end of the supplementary light circuit board 114 is bent relative to the bottom of the infrared supplementary light 112, and plugged into the second port 414 to realize the electrical connection between the infrared supplementary light 112 and the second port 414. connect. The direction of the infrared supplementary light 112 is perpendicular to the second branch 712 , that is, the direction of the infrared supplementary light 112 is substantially perpendicular to the main line portion 50 . The edge of the supplementary light circuit board 114 away from the second branch 712 also extends out of the expansion plate 115 . The photographing device 100 also includes an ambient light sensor 110 and a proximity light distance sensor 120 . The expansion board 115 includes a first expansion portion 1151 protruding from the edge of the fill light circuit board 114 and a second expansion portion 1152 separated from the first expansion portion 1151 . The first extension part 1151 bends and extends along the sidewall of the infrared supplementary light 112 . The second extension part 1152 bends and extends along a direction parallel to the infrared fill light 112 . The ambient light sensor 110 is fixed on the first extension part 1151 , and is electrically connected to the second port 414 through the fill light circuit board 114 . The ambient light sensor 110 faces parallel to the sliding direction of the slider 300 relative to the device body 200 , the ambient light sensor 110 receives ambient light toward the outside of the end of the slider 300 , and the ambient light sensor 110 When the slider 300 shrinks relative to the device body 200 , the ambient light sensor 110 can still detect the brightness of the ambient light outside the electronic device 1000 to adjust the brightness of the display screen of the electronic device 1000 . The ambient light sensor 110 is oriented parallel to the second branch 712, so that the ambient light sensor 110 senses ambient light on the top end surface of the electronic device 1000, thereby avoiding the light on the front or back of the electronic device 1000. Light is sensed to avoid damaging the front and back structures of the electronic device 1000 . The proximity light distance sensor 120 is composed of an infrared emitter, an infrared sensor and a flood sensor. The proximity light distance sensor 120 is fixed on the second extension part 1152 and is electrically connected to the second port 414 through the fill light circuit board 114 . The direction of the proximity light distance sensor 120 is approximately parallel to the direction of the infrared supplementary light. The expansion board 115 is integrated with the supplementary light circuit board 114 to facilitate the electrical connection of the infrared supplementary light 112, the ambient light sensor 110 and the proximity light distance sensor 120 through the second port 414 to realize the The second port 414 is electrically connected to multiple functional devices, so as to optimize the arrangement structure of the photographing device 100 and simplify the structure of the electronic device 1000 .

Further, please refer to FIG. 8, the photographing device 100 includes a first antenna module 101, the second branch 712 is also provided with a first antenna port 102, and the first antenna module 101 is electrically connected to the first Antenna port 102 .

In this embodiment, the second port 414 is located at the end of the second extension portion 7121 away from the infrared supplementary light 112 . The first antenna port 102 is located on a side of the second port 414 close to the infrared fill light 112 . The end of the fill light circuit board 114 away from the infrared fill light 112 is plugged into the second port 414 , so that the fill light circuit board 114 covers the first antenna port 102 conveniently. The first antenna module 101 includes a first antenna feed board 103 and a first antenna circuit board 104 electrically connected to the first antenna feed board 103 . The first antenna feeding plate 103 is provided with a first feeding shrapnel 1031 and a first radio frequency port 1032 . The first feeding shrapnel 1031 is used to provide feeding signals for antenna radiation. The first radio frequency port 1032 is used for plugging into the first radio frequency signal line 105 . The end of the first radio frequency signal 105 away from the first antenna feeding board 103 is plugged into the device body 200 and electrically connected to the device body 200 for transmitting radio frequency signals. The first antenna circuit board 104 is electrically connected to the first antenna port 102 . The first antenna port 102 is a connection seat for board-to-board connection. An end of the first antenna circuit board 104 is inserted into the first antenna port 102 . The supplementary light circuit board 114 covers the end of the first antenna circuit board 104 and the first antenna port 102 to facilitate insertion of the first antenna circuit board 104 and the first antenna port 102. The connection is stable, so that the structure of the shooting device 100 is compact and firm, and has high safety.

Further, referring to FIG. 9 and FIG. 10 , the second subsection 72 includes a third branch 721 extending from the first edge 51 and a fourth branch 722 extending from the third branch 721 . The imaging line end 412 includes a third port 415 and a fourth port 416 . The third port 415 and the fourth port 416 are respectively disposed on the third branch 721 and the fourth branch 422 . The imaging module 12 includes an imaging camera 121 and a laser dot matrix device 122 fixed relative to the imaging camera 121 . The imaging camera 121 and the laser dot matrix device 122 are electrically connected to the third port 415 and the fourth port 416 respectively.

In this embodiment, the imaging camera 121 and the laser dot matrix device 122 extend along a direction parallel to the second edge 52 . That is, the imaging camera 121 and the laser dot matrix device 122 are arranged side by side in the width direction of the electronic device 1000 . The imaging camera 121 is close to the laser dot matrix device 122 , so that the distance between the third port 415 and the fourth port 416 is relatively close, which facilitates the wiring of the imaging line end 412 . The third port 415 and the fourth port 416 are arranged on the third branch 721 and the fourth branch 722 respectively, so as to facilitate the wiring of the second subsection 72 and avoid the wiring of the third port 415 crosstalk with the line of the fourth port 416 . The fourth branch 722 is extended from the third branch 721 to reduce the routing distance from the third port 415 to the main line part 50, and to reduce the distance from the fourth port 416 to the main line Section 50 trace distance. The third branch 721 has an end edge 7211 parallel to the second edge 52 and a third side edge 7212 and a fourth side edge 7213 connecting two ends of the end edge 7211 . The third side edge 7212 is closer to the first subsection 71 than the fourth side edge 7213 . The fourth branch 722 extends away from the second branch 72 from the third branch 7211 . That is, the fourth branch 722 extends from the fourth side edge 7213 . The third port 415 is located near the end edge 7211 of the third branch 721 . The end edge 7211 is close to the side wall of the imaging camera 121 . The fourth branch 722 includes a third extension portion 7221 and a fourth extension portion 7222 . The third extension portion 7221 extends from the fourth side edge 7213 , and the fourth extension portion 7222 extends from the third extension portion 7221 . The extension direction of the third extension part 7221 is substantially perpendicular to the fourth side edge 7213 , and the extension direction of the fourth extension part 7222 is substantially parallel to the fourth side edge 7213 . The fourth port 416 is disposed on the fourth extension portion 7222 to facilitate the imaging camera 121 and the laser dot matrix device 122 to be side by side. The fourth port 416 is adjacent to the fourth edge 54 . The laser dot matrix device 122 is located on a side of the imaging camera 121 away from the infrared camera 111 . The distance between the laser dot matrix device 122 and the imaging camera 121 is relatively short, which is convenient for the laser dot matrix device 122 to provide light for the imaging camera 121 . Moreover, the distance from the imaging camera 121 to the infrared camera 111 is reduced, so that the infrared light image taken by the imaging camera 121 and the picture image taken by the imaging camera 121 are conveniently overlapped in a large area, and then the distance can be adjusted. face or other objects near the electronic device 1000.

In this embodiment, both the third port 415 and the fourth port 416 are connection seats of a board-to-board connector. A second flexible circuit board 123 extends from the bottom of the imaging camera 121 . The second flexible circuit board 123 is parallel to the third branch 721 . The end of the second flexible circuit board 123 is bent relative to the bottom of the imaging camera 121 , and plugged into the third port 415 , so as to realize the electrical connection between the imaging camera 121 and the third port 415 . The orientation of the imaging camera 121 is perpendicular to the third branch 721 , that is, the orientation of the imaging camera 121 is substantially perpendicular to the main line portion 50 . The orientation of the imaging camera 121 is substantially the same as that of the infrared camera 111 , so that the imaging camera 121 and the infrared camera 111 can photograph the same target. The laser circuit board 124 extends from the bottom of the laser dot matrix device 122 . The laser circuit board 124 is a flexible circuit board. The laser circuit board 124 is parallel to the fourth branch 722 . The end of the laser circuit board 124 is bent relative to the bottom of the laser dot matrix device 122 , and plugged into the fourth port 416 to realize the electrical connection between the laser dot matrix device 122 and the fourth port 416 . The orientation of the laser dot matrix device 122 is perpendicular to the fourth branch 722 , that is, the orientation of the laser dot matrix device 122 is substantially perpendicular to the main line portion 50 . The third port 415 and the fourth port 416 provide electrical signals for the imaging camera 121 and the laser dot matrix device 122, simplify the structure of the circuit board 40, and optimize the structural arrangement of the photographing device 100 .

Further, please refer to FIG. 11 , the photographing device 100 further includes a second antenna module 90, the fourth branch 722 is also provided with a second antenna port 91, and the second antenna module 90 is electrically connected to the first Two antenna ports 91 .

In this embodiment, the fourth port 416 is located at the end of the fourth extending portion 7222 away from the laser dot matrix device 122 . The second antenna port 91 is located on a side of the fourth port 416 close to the laser dot matrix device 122 . The end of the laser circuit board 124 away from the laser dot matrix device 122 is plugged into the fourth port 416 to facilitate the laser circuit board 124 to cover the second antenna port 91 . The second antenna module 90 includes a second antenna feed board 92 and a second antenna circuit board 93 electrically connected to the second antenna feed board 92 . The second antenna feeding plate 92 is provided with a second feeding shrapnel 921 and a second radio frequency port 922 . The second feeding shrapnel 921 is used to provide feeding signals for antenna radiation. The second radio frequency port 922 is used for plugging into the second radio frequency signal line 923 . The end of the second radio frequency signal 923 away from the second antenna feeding board 92 is plugged into the device body 200 and electrically connected to the device body 200 for transmitting radio frequency signals. The second antenna circuit board 93 is electrically connected to the second antenna port 91 . The second antenna port 91 is a connection seat for board-to-board connection. The end of the second antenna circuit board 93 is inserted into the second antenna port 91 . The laser circuit board 114 presses the end of the second antenna circuit board 93 and the second antenna port 91 to facilitate the insertion of the second antenna circuit board 93 and the second antenna port 91 firmly. , so that the structure of the photographing device 100 is compact and firm, and has high safety.

Further, referring to FIG. 12 , FIG. 13 and FIG. 14 , the camera module 20 includes a first camera 21 and a second camera 22 fixed side by side with the first camera 21 . The second branch line end 42 includes a first camera line end 421 and a second camera line end 422 parallel to the first camera line end 421 . The first camera line end 421 and the second camera line end 422 are electrically connected to the first camera 21 and the second camera 22 respectively.

In this embodiment, the first camera 21 is a main camera. The second camera 22 is a secondary camera. The orientations of the first camera 21 and the second camera 22 are substantially the same. The orientation of the first camera 21 is opposite to that of the imaging camera 121 . The first camera 21 and the second camera 22 may be rear cameras. The imaging camera 121 is a front camera. The first camera 21 and the second camera 22 are arranged side by side between the first branch 711 and the third branch 721 . The first camera 21 and the second camera 22 are adjacent to the first side edge 7112 and the third side edge 7212 respectively. The first camera line end 421 and the second camera line end 422 are adjacent to the second edge 52 and arranged side by side along a direction parallel to the second edge 52 . The first camera line end 421 and the second camera line end 422 are facing the distance between the first branch 711 and the third branch 721 on the main circuit board 50, so as to facilitate the first The camera 21 and the second camera 22 are located within the distance between the first subsection 71 and the second subsection 72 , so that the structure of the photographing device 100 is compact. Both the first camera line end 421 and the second camera line end 422 are sockets of board-to-board connectors. A first camera circuit board 211 and a second camera circuit board 221 extend from the bottom of the first camera 21 and the bottom of the second camera 22 respectively. Both the first camera circuit board 211 and the second camera circuit board 221 are flexible circuit boards. The end of the first camera circuit board 211 away from the first camera 21 is plugged into the first camera line end 421, so that the first camera 21 is electrically connected to the first camera line end 421, and it is convenient The first camera 21 is detachable relative to the circuit board 40 . The end of the second camera circuit board 221 away from the second camera 22 is plugged into the second camera line end 422, so that the second camera 22 is electrically connected to the second camera line end 421, and it is convenient The second camera 22 can be disassembled relative to the circuit board 40 . The first camera 21 is partly aligned with and close to the infrared camera 111 . The second camera 22 is partly adjacent to the imaging camera 121 , which optimizes the arrangement structure of the photographing device 100 .

In this embodiment, the receiver 30 is located on a side of the second camera 22 away from the main line part 50 . The receiver 30 is close to the second camera 22 . Since the length and width of the second camera 22 are smaller than the length and width of the first camera 21 , it is convenient for the receiver 30 to be close to the second camera 22 . The proximity light distance sensor 120 is opposite to the first camera 21 and arranged side by side with the receiver 30 , making full use of the arrangement space between the first camera 21 and the edge of the slider 300 . The second sub-line part 80 includes an extension connection part 81 extending from the second edge 52 and a receiver connection end 82 away from the main line part 50 . The third branch terminal 43 is disposed on the receiver connection terminal 82 . The extension connecting portion 81 is disposed opposite to the gap between the first camera 21 and the second camera 22 , so as to prevent the extension connecting portion 81 from interfering with the shooting of the first camera 21 and the second camera 22 . The extension connecting portion 81 is approximately close to the bottom of the camera module 20 . The third wire terminal 43 is provided with an elastic contact point, and the third wire end 43 is in conflict with the elastic blade of the receiver 30 , so as to provide electrical signals to the receiver 30 conveniently. A rigid reinforcing plate is provided on the side of the receiver connecting end 82 away from the receiver 30 to provide rigid support for the receiver 30 .

In this embodiment, the photographing device 100 further includes a device holder 140 . The device bracket 140 is fixed on the slider 300 . The structured light module 10 , the camera module 20 and the receiver 30 are all fixed on the device bracket 140 . The device bracket 140 is fixed on an edge of the slider 300 away from the device body 200 . Two ends of the device holder 140 are roughly aligned with two edges in the width direction of the slider 300 . The device support 140 is arranged sequentially in a direction substantially parallel to the width of the slider 300 with a supplementary light storage slot 141, an infrared storage slot 142, a photosensitive storage slot 143, a receiver slot 144, an imaging storage slot 145, and a laser storage slot. Groove 146. The supplementary light storage tank 141, the infrared storage tank 142, the photosensitive storage tank 143, the receiver storage tank 144, the imaging storage tank 145 and the laser storage tank 146 respectively accommodate and fix the infrared supplementary light lamp 112, the infrared camera 111, Proximity optical distance sensor 120 , receiver 30 , imaging camera 121 and laser dot matrix device 122 . The device bracket 140 supports the infrared fill light 112 , the infrared camera 111 , the proximity light distance sensor 120 , the receiver 30 , the imaging camera 121 and the laser dot matrix device 122 . to locate. The device bracket 140 is also provided with an escape notch 147 roughly facing the photosensitive receiving groove 143 and the receiver receiving groove 144 . The escape notch 147 partially accommodates the first camera 21 and the second camera 22 , so that the camera module 20 is closely matched with the device bracket 140 , so that the photographing device 100 has a compact structure.

Further, please refer to FIG. 14 and FIG. 15 , the main line part 60 is bent relative to the main line part 50 as the slider 300 slides relative to the device body 200 . The device body 200 includes a middle frame 210 and a main board 220 fixed to the middle frame 210 , and the slider 300 is slidably connected to the middle frame 210 . The main line part 60 includes a main board connection part 61 away from the main circuit board 50 and a bending and stretching part 62 connected between the main board connection part 61 and the main circuit part 50 . The motherboard connecting portion 61 is fixedly connected to the motherboard 220 . The bending and stretching portion 62 is located on a side of the main board 220 opposite to the main board connecting portion 61 , and the bus terminal 44 is disposed on the main board connecting portion 61 .

In this embodiment, the circuit board 40 is a flexible circuit board. The circuit board 40 is provided with a first reinforcement board, a second reinforcement board and a third reinforcement board on a side of the main circuit part 50 away from the second branch terminal 42 . The first reinforcing plate is opposite to the first camera line end 421 and the second camera line end 422 . The second reinforcing plate and the third reinforcing plate are respectively located on two sides of the first reinforcing plate. The second reinforcing plate, the first reinforcing plate and the third reinforcing plate are arranged along a direction parallel to the second edge 52 . The second reinforcing plate and the third reinforcing plate are opposite to the first branch 711 and the third branch 721 respectively. A first electronic device group 59 and a second electronic device group 58 are provided on the other side of the main circuit part 50 opposite to the second reinforcing plate and the third reinforcing plate. The second reinforcing board supports the first electronic device group 59 , and the third reinforcing board supports the second electronic device group 58 . The first electronic device group 59 and the second electronic device group 58 can process the electrical signals of the structured light module 10 , the camera module 20 and the receiver 30 . Arranging the first electronic device assembly 59 and the second electronic device group 59 on the main circuit part 50 fully utilizes the arrangement space of the circuit board 40 and makes the structure of the circuit board 40 stable. The circuit board 40 is provided with a fourth reinforcing plate on the side of the first subsection 71 facing away from the infrared end 411 , and the fourth reinforcing plate supports the infrared end 411 . The circuit board 40 is provided with a fifth reinforcing plate on the side of the second subsection 72 facing away from the imaging line end 412, and the fifth reinforcing plate supports the imaging line end 412 to improve the circuit board. 40 Stability. Since the main board connecting portion 61 is fixed to the device body 200 , the main circuit portion 50 is fixed to the slider 300 . When the slider 300 stretches out or shrinks relative to the device body 200 , it drives the bus line portion 60 to deform, so that the bending and stretching portion 62 bends. In order to facilitate the bending of the bending and stretching portion 62 and reduce the stress loss of the bending and stretching portion 62 , there is a receiving groove between the main board 220 and the middle frame 210 . The bending and stretching portion 62 is accommodated on a side of the main board 220 facing the middle frame 210 . The motherboard connecting portion 61 is detachably connected to the side of the motherboard 220 away from the middle frame 210 . The bus terminal 44 is a connection seat of a board-to-board connector. The bus terminal 44 is plugged with the main board 220 to facilitate disassembly of the circuit board 40 and the main board 220 . Of course, in other trial methods, the circuit board 40 may also be a rigid-flex board. The main circuit board 50 may constitute the hard board part of the circuit board 40 , and the bus circuit part 60 may constitute the soft board part of the circuit board 40 .

Further, the main line part 60 includes a first main branch 63 extending from the main line part 50 and a second main branch 64 extending from the main line part 50 . The bus terminal 44 includes a first connection port 441 and a second connection port 442 . The first connection port 441 is arranged at the end of the first main branch 63 away from the main line part 50 and is fixed relative to the device body 100 , and the second connection port 442 is arranged at the second main branch 64 The end away from the main line part 50 is fixed relative to the device body 200 .

In this embodiment, the first general branch 63 and the second general branch 64 extend from the first edge 51 of the main line portion 50 . The extending direction of the first general branch 63 and the extending direction of the second general branch 64 are substantially parallel to the sliding direction of the sliding block 300 relative to the device body 200 . The first general branch 63 and the second general branch 64 are respectively located at two ends of the first edge 51 . Both the first connection port 441 and the second connection port 442 are board-to-board connector sockets. The first connection port 441 and the second connection port 442 are plugged into the main board 220 to realize the detachable connection between the bus line part 50 and the main board 220 . There is a storage space 65 between the first main branch 63 and the second main branch 64, and the electronic device 1000 also includes a driving mechanism 230 fixed on the middle frame 210, and the driving mechanism 230 is located in the storage space. In the space 65, the slider 200 is driven to slide. The driving mechanism 230 includes a motor, a screw and a nut. The motor is fixed on the device body 200 to drive the screw to rotate, and the screw drives the nut to slide relative to the device body 200 . The slider 300 is fixedly connected to the nut and slides with the nut relative to the device body 200 . Using the nut to apply a sliding force to the position where the slider 200 is facing the camera module 20 , it is convenient to drive the slider 200 to slide, so that the slider 200 slides smoothly. The first general branch 63 and the second general branch 64 avoid the driving mechanism 230 , which optimizes the structural arrangement of the electronic device 1000 .

Further, please refer to FIG. 15 and FIG. 16 , the electronic device 1000 further includes a display 240 fixed on the device body 200 , the display 240 has a display area 241 , the camera module 20 , the structured light module 10 The receiver 30 shrinks to the device body 200 along with the slider 300 , and the display area 241 at least partially covers the structured light module 10 . The display area 241 can be used to cover the structured light module 10 and the receiver 30, preventing the display screen 240 from opening a signal port in the display area 241 for the structured light module 10 and the receiver 30 to transmit signals , so as to increase the proportion of the display area 241 in the display screen 240 to realize a full screen display structure. The display screen 240 covers a side of the middle frame 210 away from the main board 220 . The electronic device 1000 also includes a back case 250 . The back shell 250 covers the side of the middle frame 210 away from the display screen 240 . The motherboard 220 is located between the back shell 250 and the middle frame 210 . Edges of the back shell 250 are substantially aligned with edges of the display screen 240 . When the slider 300 is contracted relative to the device body 200 , the back shell 250 completely covers the slider 300 , the photographing device 100 , and the device body 200 . The display screen 240 completely covers the slider 300 and the photographing device 100 .

It can be understood that when the slider 300 is fully extended relative to the device body 200, the slider 300 drives the structured light module 10, the receiver 30, the ambient light sensor 110 and the proximity light distance sensor 120 to extend. Out of the device body 200, when the structured light module 10, the receiver 30, the ambient light sensor 110 and the proximity light distance sensor 120 are unfolded relative to the display screen 240; the infrared supplementary light 112 can avoid all The display screen 240 emits infrared light toward the face to detect the distance between the face and the electronic device 1000; the laser dot matrix device 122 emits infrared light in a lattice structure toward the face to detect the characteristic structure of the face. The infrared camera 111 collects the laser lattice structure emitted by the laser dot matrix device 122 . The imaging camera 121 can capture a human face image to be synthesized with the laser dot matrix structure collected by the infrared camera 111 , and can also be used for conventional shooting and the like. The receiver 30 can avoid the display screen 240 to provide the user with a call voice; the proximity light distance sensor 120 can be composed of an ambient light sensor, an infrared distance sensor and an infrared light emitter. The proximity light distance sensor 120 can realize the functions of detecting the brightness of ambient light and judging whether an external component is close to the electronic device by using infrared light. After the proximity light distance sensor 120 is deployed relative to the display screen 240, it can detect the brightness of the ambient light to control the brightness of the display screen to assist the Selfie function of the imaging camera 121. In the state of providing call voice, it is detected whether the user's face is close to the display screen 240 to control the display screen 240 to turn on or off. When the ambient light sensor 110 extends relative to the device body 200 along with the slider 300 , the ambient light sensor 110 may stop working, and the proximity light distance sensor 110 detects ambient light brightness.

In the photographing device and electronic equipment according to the embodiments of the present application, the circuit board includes a first branch terminal, a second branch terminal, a third branch terminal and a bus terminal, the first branch terminal, the second branch terminal terminal and the third branch terminal are electrically connected with the structured light module, the camera module and the receiver respectively, and the bus terminal is connected with the first branch terminal, the second branch terminal and the third branch terminal Electrically connected, transmitting electrical signals with the structured light module, the camera module and the receiver through the first branch terminal, the second branch terminal and the third branch terminal, so that the structured light module, the camera module The group and the receiver only transmit electrical signals through the bus terminal, which simplifies the structure of the circuit board and optimizes the arrangement structure of the photographing device.

In the description of this specification, references to the terms "certain embodiments," "one embodiment," "some embodiments," "exemplary embodiments," "examples," "specific examples," or "some examples" To describe means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the described specific features, structures, materials or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

In addition, the terms "first" and "second" are used for descriptive purposes only, and cannot be interpreted as indicating or implying relative importance or implicitly specifying the quantity of indicated technical features. Thus, the features defined as "first" and "second" may explicitly or implicitly include at least one of said features. In the description of the present invention, "plurality" means at least two, such as two, three, unless otherwise specifically defined.

Although the embodiments of the present invention have been shown and described above, it can be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, those skilled in the art can make the above-mentioned The embodiments are subject to changes, modifications, substitutions and variations, the scope of the present invention is defined by the claims and their equivalents.

Claims (20)

1. a kind of filming apparatus, which is characterized in that the filming apparatus include camera module, structure light module, receiver and Circuit board, the circuit board include the first distribution terminal, the second distribution terminal, third distribution terminal and bus end, first distribution terminal, Second distribution terminal and the third distribution terminal are electrically connected with the structure light module, camera module and receiver respectively, described Bus end is electrically connected with first distribution terminal, the second distribution terminal and third distribution terminal, through first distribution terminal, the second separated time End and third distribution terminal and the structure light module, camera module and receiver transmission telecommunications number.

2. filming apparatus according to claim 1, which is characterized in that the circuit board include main line portion, total line portion, First separated time road portion and the second separated time road portion, the main line portion have first edge and are oppositely arranged with the first edge Second edge, the total line portion is extended by the first edge, first separated time road portion and second separated time road portion Extended by the second edge, the bus end is set to the total line portion, and first distribution terminal is set to described One separated time road portion, second distribution terminal are set to the main line portion, and the third distribution terminal is set to second separated time Road portion.

3. filming apparatus according to claim 2, which is characterized in that first separated time road portion include the first branch and with The second opposite branch of first branch, first branch and second branch are extended by the second edge, First distribution terminal includes infrared line end and imaging line end, and the infrared line end and the imaging line end are respectively arranged at described First branch and second branch, the structure light module include infrared module and with the infrared module it is relatively-stationary at As module, the infrared module is electrically connected the infrared line end, and the imaging modules are electrically connected the imaging line end.

4. filming apparatus according to claim 3, which is characterized in that deposited between first branch and second branch In spacing, second distribution terminal and the third distribution terminal are set to place opposite with the spacing of the main line portion.

5. filming apparatus according to claim 3, which is characterized in that first branch includes being prolonged by the second edge The first branch stretched out and the second branch stretched out by first branch, the infrared line end includes first port and second end Mouthful, the first port and the second port are respectively arranged at first branch and second branch, the infrared mould Group includes infrared camera and the relatively described fixed infrared light compensating lamp of infrared camera, the infrared camera and described infrared Light compensating lamp is electrically connected the first port and the second port.

6. filming apparatus according to claim 5, which is characterized in that second branch is by first branch towards separate Second branch extends in direction.

7. filming apparatus according to claim 5, which is characterized in that the filming apparatus further includes first antenna module, Second branch is additionally provided with first antenna port, and the first antenna module is electrically connected the first antenna port.

8. filming apparatus according to claim 7, which is characterized in that the filming apparatus further includes light filling lamp circuit board, First antenna port described in second port and the infrared light compensating lamp described in the light compensating lamp circuit board electrical connection and gland.

9. filming apparatus according to claim 3, which is characterized in that second branch includes being prolonged by the second edge The third branch of stretching and the 4th branch extended by the third branch, the imaging line terminal include third port and Four ports, the third port and the 4th port are respectively arranged at the third branch and the 4th branch, it is described at As module includes imaging camera head and the relatively described fixed laser dot-matrix device of imaging camera head, the imaging camera head and described Laser dot-matrix device is electrically connected the third port and the 4th port.

10. filming apparatus according to claim 9, which is characterized in that the 4th branch is due to court of the third branch Extend far from first branch direction.

11. filming apparatus according to claim 9, which is characterized in that the filming apparatus further includes the second antenna modules, 4th branch is additionally provided with the second antenna port, and second antenna modules are electrically connected second antenna port.

12. filming apparatus according to claim 11, which is characterized in that the filming apparatus further includes laser circuit for lamp Plate, the 4th port and the laser dot-matrix device described in the laser lamp circuit board electrical connection, and the second antenna port described in gland.

13. according to the filming apparatus described in claim 1~12 any one, which is characterized in that the camera module includes First camera and with first camera fixed second camera side by side, second distribution terminal includes the first camera shooting line It holds and the second camera shooting line end with the first camera shooting line end side by side, the first camera shooting line end and the second camera shooting line end divides It is not electrically connected first camera and the second camera.

14. a kind of electronic equipment, which is characterized in that the electronic equipment includes being shot described in claim 1~13 any one Device.

15. a kind of electronic equipment, which is characterized in that the electronic equipment includes filming apparatus, device body and the institute that is slidably connected State the sliding block of device body, the filming apparatus includes structure light module, camera module, receiver and circuit board, described to take the photograph As head mould group, structure light module and receiver are fixed on the sliding block, the circuit board includes the first distribution terminal, the second separated time End, third distribution terminal and bus end, first distribution terminal, the second distribution terminal and the third distribution terminal respectively with the structure Optical mode group, camera module and receiver transmission electrical connection, the bus end and first distribution terminal, the second distribution terminal and the 3-point line end is electrically connected, through first distribution terminal, the second distribution terminal and third distribution terminal and the structure light module, camera Module and receiver transmission telecommunications number, the bus end are also electrically connected described device ontology.

16. electronic equipment according to claim 15, which is characterized in that the circuit board includes main line portion, total line Portion, the first separated time road portion and the second separated time road portion, the total line portion is extended by main line portion, and the total line portion is far from institute State main line portion one end and be fixed on described device ontology, the total line portion slided with respect to described device ontology with the sliding block and The relatively described main line portion bending, the bus end are set to the total line portion far from main line portion one end, and described One separated time road portion and second separated time road portion are extended by the main line portion, and first distribution terminal is set to described first Separated time road portion, second distribution terminal are set to the main line portion, and the third distribution terminal is set to second separated time road Portion.

17. electronic equipment according to claim 16, which is characterized in that described device ontology includes center and is fixed on institute State the mainboard of center, the sliding block is slidably connected the center, and the total line portion includes the master far from the main body wiring board Portion is unfolded in plate interconnecting piece and the bending for being connected to the mainboard interconnecting piece and the main line portion, and the mainboard interconnecting piece, which is fixed, to be connected The mainboard is connect, the bending unfolds portion and is located at the mainboard side opposite with the mainboard interconnecting piece, and the bus end is set It is placed in the mainboard interconnecting piece.

18. electronic equipment according to claim 16, which is characterized in that the total line portion includes by the main line portion The first general branch extended and the second general branch extended by the main line portion, the bus end include the first connectivity port and Second connection end mouth, first connectivity port are set to first general branch far from main line portion one end, and opposite institute It states device body to fix, the second connection end mouth is set to second general branch far from main line portion one end, and opposite Described device ontology is fixed.

19. electronic equipment according to claim 18, which is characterized in that between first general branch and second general branch There are receiving space, the electronic equipment further includes the driving mechanism for being fixed on the center, and the driving mechanism is located at described In receiving space, the sliding block is driven to slide.

20. according to the electronic equipment described in claim 15~19 any one, which is characterized in that the electronic equipment further includes Be fixed on the display of described device ontology, the display have camera module, structure light module described in viewing area and by It talks about device to shrink in described device ontology with the sliding block, structure light module described in at least covering part of the viewing area.