CN117440235A - Electronic equipment, camera module, equipment body and data processing method - Google Patents
Electronic equipment, camera module, equipment body and data processing method Download PDFInfo
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- CN117440235A CN117440235A CN202311751206.3A CN202311751206A CN117440235A CN 117440235 A CN117440235 A CN 117440235A CN 202311751206 A CN202311751206 A CN 202311751206A CN 117440235 A CN117440235 A CN 117440235A
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- 238000003672 processing method Methods 0.000 title claims abstract description 9
- 230000009471 action Effects 0.000 claims abstract description 22
- 230000008054 signal transmission Effects 0.000 claims abstract description 20
- 238000001514 detection method Methods 0.000 claims description 25
- 238000003780 insertion Methods 0.000 claims description 22
- 230000037431 insertion Effects 0.000 claims description 22
- 238000000034 method Methods 0.000 claims description 14
- 238000012545 processing Methods 0.000 claims description 14
- 230000006870 function Effects 0.000 claims description 9
- 238000004080 punching Methods 0.000 claims description 4
- 238000000605 extraction Methods 0.000 claims 1
- 238000004519 manufacturing process Methods 0.000 abstract description 12
- 230000005540 biological transmission Effects 0.000 description 31
- 238000010586 diagram Methods 0.000 description 9
- 238000013461 design Methods 0.000 description 5
- 238000012546 transfer Methods 0.000 description 4
- 230000008569 process Effects 0.000 description 3
- 239000000523 sample Substances 0.000 description 3
- 229920001621 AMOLED Polymers 0.000 description 2
- 230000003190 augmentative effect Effects 0.000 description 2
- 238000005034 decoration Methods 0.000 description 2
- 239000004973 liquid crystal related substance Substances 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 239000002096 quantum dot Substances 0.000 description 2
- 238000010276 construction Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000003860 storage Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 238000001356 surgical procedure Methods 0.000 description 1
Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/57—Mechanical or electrical details of cameras or camera modules specially adapted for being embedded in other devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/50—Constructional details
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/60—Control of cameras or camera modules
- H04N23/667—Camera operation mode switching, e.g. between still and video, sport and normal or high- and low-resolution modes
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- Signal Processing (AREA)
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Abstract
The embodiment of the application provides electronic equipment, a camera module, an equipment body and a data processing method. Wherein, electronic equipment includes: the device comprises a device body and a camera module which can be plugged and unplugged on the device body; the equipment body is provided with a groove; the recess includes: a first inner side; a first group of electric connecting pieces are arranged on the first inner side surface; the camera module is provided with a plug-in component; the plug-in component comprises: a first outer side; the first outer side surface is provided with a second group of electric connecting pieces; when the plug-in components are inserted into the grooves in the first posture, the second group of electric connecting components are elastically abutted with the first group of electric connecting components one by one, and the plug-in components are fixed in the grooves under the action force of the elastic abutment of the first group of electric connecting components and the second group of electric connecting components; the second group of electric connecting pieces are elastically abutted with the first group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module. The technical scheme provided by the embodiment of the application can reduce the manufacturing cost and the volume of the electronic equipment.
Description
Technical Field
The application relates to the technical field of terminals, in particular to electronic equipment, a camera module, an equipment body and a data processing method.
Background
Currently, it is a conventional operation to provide a camera on an electronic product. The existing camera is generally integrally and fixedly arranged on an electronic product, is not detachable and replaceable, and is inconvenient to use. In order to meet the requirements of detachable and replaceable cameras of electronic products, some electronic products are provided with detachable camera modules.
In the prior art, a plurality of spring probes for being electrically connected with an electronic product are arranged on a detachable camera module, and in order to fix the detachable camera module, magnets are arranged on the side of the detachable camera module and the side of the electronic product, and the detachable camera module is fixed on the electronic product by means of the attraction force of the magnets. Therefore, in the prior art, the use of the magnet not only increases the manufacturing cost, but also makes the volume of the electronic product and the detachable camera module larger.
Disclosure of Invention
Aspects of the present application provide an electronic device, a camera module, a device body, and a data processing method. The technical scheme that this application embodiment provided can reduce manufacturing cost, reduce the volume of equipment body and pluggable camera module.
In a first aspect, an electronic device is provided, including: the device comprises a device body and a camera module which can be plugged and unplugged on the device body; the equipment body is provided with a groove; the groove includes: a first inner side; a first group of electric connectors are arranged on the first inner side surface; the camera module is provided with a plug-in component; the plug-in component comprises: a first outer side; a second group of electric connectors are arranged on the first outer side face;
when the plug-in component is inserted into the groove in a first posture, the second group of electric connectors are elastically abutted with the first group of electric connectors one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutment of the first group of electric connectors and the second group of electric connectors;
the second group of electric connecting pieces are elastically abutted with the first group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module.
In this embodiment, not only can the first group of electrical connectors and the second group of electrical connectors realize the transmission of electrical signals between the equipment body and the camera module, but also the camera module can be fixed on the equipment body. Therefore, the technical scheme provided by the embodiment of the application avoids the use of the magnet, so that the manufacturing cost can be reduced, and the volume of the equipment body and the camera module can be reduced.
Optionally, the electrical connectors in the first group of electrical connectors are of a spring plate structure; the electrical connectors in the second set of electrical connectors are contact structures.
In this embodiment, the spring-type electrical connector has a simple structure, and can further reduce manufacturing cost compared with the use of a spring probe.
Optionally, the groove further includes: a second inner side surface disposed opposite to the first inner side surface; a third group of electric connecting pieces are arranged on the second inner side surface;
when the plug-in component is inserted into the groove in a second posture, the second group of electric connectors are elastically abutted against the third group of electric connectors one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutment of the third group of electric connectors and the second group of electric connectors;
the second group of electric connecting pieces are elastically abutted with the third group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module.
In this embodiment, the forward and reverse insertion function of the camera module is realized.
Optionally, the plug further includes: a second outer side surface disposed opposite the first outer side surface;
when the plug-in component is plugged in the groove in a first posture, the third group of electric connecting components are abutted with the second outer side face;
When the plug-in component is inserted into the groove in a second gesture, the first group of electric connecting components are abutted with the second outer side face.
In this embodiment, no matter what posture the plug-in member is inserted into the groove, the opposite outer side surfaces of the plug-in member are subjected to clamping forces of the opposite inner side surfaces of the groove, so that the plug-in member is better fixed in the groove.
Optionally, a first circuit board is arranged in the equipment body;
the first group of electric connecting pieces and the third group of electric connecting pieces are respectively and electrically connected with the first circuit board;
a first group of openings are formed in the first inner side surface; the first group of electric connecting pieces penetrate through the first group of holes one by one and extend out of the first inner side surface;
a second group of openings are formed in the second inner side surface; the third group of electric connecting pieces penetrate through the second group of holes one by one and extend out of the second inner side face.
Optionally, the first circuit board is a multilayer structure; the first group of electric connectors and the electric connectors with the same functions in the third group of electric connectors are electrically connected in a mode of punching through holes in the first circuit board; the first set of electrical connectors are electrically connected to a main circuit board within the device body through the first circuit board.
Thus, the wiring design in the first circuit board can be simplified, and the circuit board with the multilayer structure can be convenient for wiring.
Optionally, the first circuit board is electrically connected to a main circuit board in the device body through a board-to-board connector.
Optionally, the first circuit board is a flexible circuit board. In this way, a solution is installed.
Optionally, a first electrical connector electrically connected with the positive and negative insertion detection interface inside the equipment body and a second electrical connector electrically connected with the first level end are arranged on the inner side surface of the groove;
a third electric connector is arranged on the outer side surface of the plug-in component;
when the plug-in component is plugged in the groove in a first posture, the first electric connector and the second electric connector are electrically connected through the third electric connector;
when the plug-in component is inserted into the groove in the second gesture, the first electric connector is suspended.
In this embodiment, the forward and reverse insertion of the camera module can be automatically identified, so as to improve the use experience of the user.
Optionally, the first electrical connector and the second electrical connector are disposed on the first inner side; the third electrical connection is disposed on the first outer side.
In a second aspect, an apparatus body of an electronic apparatus is provided, where the apparatus body is provided with a groove into which a camera module can be inserted and removed; the groove includes: a first inner side; a first group of electric connectors are arranged on the first inner side surface; the camera module is provided with a plug-in component; the plug-in component comprises: a first outer side; a second group of electric connectors are arranged on the first outer side face;
when the plug-in component is inserted into the groove in a first posture, the second group of electric connectors are elastically abutted with the first group of electric connectors one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutment of the first group of electric connectors and the second group of electric connectors;
the second group of electric connecting pieces are elastically abutted with the first group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module.
In this embodiment, the first group of electrical connectors not only can realize the transmission of electrical signals between the device body and the camera module, but also can fix the camera module on the device body. Therefore, the technical scheme provided by the embodiment of the application avoids the use of the magnet, so that the manufacturing cost can be reduced, and the volume of the equipment body and the camera module can be reduced.
Optionally, the electrical connectors in the first group of electrical connectors are of a spring plate structure; the electrical connectors in the second set of electrical connectors are contact structures.
In this embodiment, the spring-type electrical connector has a simple structure, and can further reduce manufacturing cost compared with the use of a spring probe.
Optionally, the groove further includes: a second inner side surface disposed opposite to the first inner side surface; a third group of electric connecting pieces are arranged on the second inner side surface;
when the plug-in component is inserted into the groove in a second posture, the second group of electric connectors are elastically abutted against the third group of electric connectors one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutment of the third group of electric connectors and the second group of electric connectors;
the second group of electric connecting pieces are elastically abutted with the third group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module.
In this embodiment, the forward and reverse insertion function of the camera module is realized.
Optionally, the plug further includes: a second outer side surface disposed opposite the first outer side surface;
when the plug-in component is plugged in the groove in a first posture, the third group of electric connecting components are abutted with the second outer side face;
When the plug-in component is inserted into the groove in a second gesture, the first group of electric connecting components are abutted with the second outer side face.
In this embodiment, no matter what posture the plug-in member is inserted into the groove, the opposite outer side surfaces of the plug-in member are subjected to clamping forces of the opposite inner side surfaces of the groove, so that the plug-in member is better fixed in the groove.
Optionally, a first circuit board is arranged in the equipment body;
the first group of electric connecting pieces and the third group of electric connecting pieces are respectively and electrically connected with the first circuit board;
a first group of openings are formed in the first inner side surface; the first group of electric connecting pieces penetrate through the first group of holes one by one and extend out of the first inner side surface;
a second group of openings are formed in the second inner side surface; the third group of electric connecting pieces penetrate through the second group of holes one by one and extend out of the second inner side face.
Optionally, the first circuit board is a multilayer structure; the electric connectors with the same functions in the first group of electric connectors and the third group of electric connectors are electrically connected in a mode of punching through holes in the first circuit board; the first set of electrical connectors are electrically connected to a main circuit board within the device body through the first circuit board.
Optionally, the first circuit board is electrically connected to a main circuit board in the device body through a board-to-board connector.
Optionally, the first circuit board is a flexible circuit board.
Optionally, a first electric connector electrically connected with the positive and negative plug detection interface inside the equipment body and a second electric connector electrically connected with the first level end are arranged on the inner side surface of the groove;
a third electric connector is arranged on the outer side surface of the plug-in component;
when the plug-in component is plugged in the groove in a first posture, the first electric connector and the second electric connector are electrically connected through the third electric connector;
when the plug-in component is inserted into the groove in the second gesture, the first electric connector is suspended.
In this embodiment, the forward and reverse insertion of the camera module can be automatically identified, so as to improve the use experience of the user.
Optionally, the first electrical connector and the second electrical connector are disposed on the first inner side; the third electrical connection is disposed on the first outer side.
In a third aspect, a camera module is provided, where the camera module can be plugged into an equipment body of an electronic device;
the equipment body is provided with a groove; the groove includes: a first inner side; a first group of electric connectors are arranged on the first inner side surface; the camera module is provided with a plug-in component; the plug-in component comprises: a first outer side; a second group of electric connectors are arranged on the first outer side face;
When the plug-in component is inserted into the groove in a first posture, the second group of electric connectors are elastically abutted with the first group of electric connectors one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutment of the first group of electric connectors and the second group of electric connectors;
the second group of electric connecting pieces are elastically abutted with the first group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module.
In this embodiment, the first group of electrical connectors not only can realize the transmission of electrical signals between the device body and the camera module, but also can fix the camera module on the device body. Therefore, the technical scheme provided by the embodiment of the application avoids the use of the magnet, so that the manufacturing cost can be reduced, and the volume of the equipment body and the camera module can be reduced.
Optionally, the electrical connectors in the first group of electrical connectors are of a spring plate structure; the electrical connectors in the second set of electrical connectors are contact structures.
Optionally, the groove further includes: a second inner side surface disposed opposite to the first inner side surface; a third group of electric connecting pieces are arranged on the second inner side surface;
When the plug-in component is inserted into the groove in a second posture, the second group of electric connectors are elastically abutted against the third group of electric connectors one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutment between the third group of electric connectors and the second group of electric connectors;
the second group of electric connecting pieces are elastically abutted with the third group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module.
Optionally, a first electrical connector electrically connected with the positive and negative insertion detection interface inside the equipment body and a second electrical connector electrically connected with the first level end are arranged on the inner side surface of the groove;
a third electric connector is arranged on the outer side surface of the plug-in component;
when the plug-in component is plugged in the groove in a first posture, the first electric connector and the second electric connector are electrically connected through the third electric connector;
when the plug-in component is inserted into the groove in the second gesture, the first electric connector is suspended.
Optionally, the first electrical connector and the second electrical connector are disposed on the first inner side; the third electrical connection is disposed on the first outer side.
In a fourth aspect, there is provided a data processing method applied to an electronic device, the electronic device including: the device comprises a device body and a camera module which can be plugged and unplugged on the device body; the equipment body is provided with a groove; the camera module is provided with a plug-in component; a first electric connector electrically connected with the positive and negative plug detection interface inside the equipment body and a second electric connector electrically connected with the first level end are arranged on the inner side surface of the groove; a third electric connector is arranged on the outer side surface of the plug-in component; the inner side surface of the groove comprises a first inner side surface and a second inner side surface which are oppositely arranged; a first group of electric connectors are arranged on the first inner side surface; a third group of electric connecting pieces are arranged on the second inner side surface; the outer side surface of the plug comprises: a first outer side; a second group of electric connectors are arranged on the first outer side face;
when the plug-in component is inserted into the groove in a first posture, the second group of electric connecting components are elastically abutted against the first group of electric connecting components one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutting of the first group of electric connecting components and the second group of electric connecting components, and the first electric connecting components and the second electric connecting components are electrically connected through the third electric connecting components; the second group of electric connecting pieces are elastically abutted with the first group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module;
When the plug-in component is inserted into the groove in a second posture, the second group of electric connecting components are elastically abutted with the third group of electric connecting components one by one, the plug-in component is fixed in the groove under the action force of the elastic abutment of the third group of electric connecting components and the second group of electric connecting components, and the first electric connecting components are suspended; the second group of electric connecting pieces are elastically abutted with the third group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module;
the method comprises the following steps:
acquiring the state of the positive and negative plug detection interface; the states include: a state electrically connected to the first level terminal and a suspended state;
and identifying the inserting mode of the camera module according to the state.
In this embodiment, the forward and reverse insertion of the camera module can be automatically identified, so as to improve the use experience of the user.
Optionally, the method further comprises:
determining a shooting mode of the camera module according to the inserting mode of the camera module;
when the shooting mode is a self-shooting mode, mirror image processing is carried out on the image acquired by the camera module, and a mirror image processed picture is obtained;
And displaying the image after mirror image processing.
Optionally, the first electrical connector and the second electrical connector are disposed on the first inner side; the third electrical connection is disposed on the first outer side.
Drawings
The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:
fig. 1 is a schematic structural diagram of an electronic device according to an exemplary embodiment of the present application;
fig. 2 is a first schematic structural diagram of an apparatus body according to an exemplary embodiment of the present application;
fig. 3 is a first schematic structural diagram of a camera module according to an exemplary embodiment of the present application;
fig. 4 is a schematic cross-sectional view of an electronic device according to an exemplary embodiment of the present disclosure when a plug member is inserted into a recess in a forward direction;
fig. 5 is a schematic cross-sectional view of an electronic device according to another exemplary embodiment of the present disclosure when a plug-in unit is reversely inserted into a recess;
FIG. 6 is a schematic diagram of a circuit board according to an exemplary embodiment of the present application;
fig. 7 is a second schematic structural diagram of an apparatus body according to an exemplary embodiment of the present application;
Fig. 8 is a third structural schematic diagram of an apparatus body according to still another exemplary embodiment of the present application;
FIG. 9 is a schematic diagram of a first pin connection provided in an exemplary embodiment of the present application;
fig. 10 is a second schematic structural diagram of a camera module according to another exemplary embodiment of the present application;
FIG. 11 is a schematic diagram of a second pin connection provided in an exemplary embodiment of the present application;
fig. 12 is a flowchart of a data processing method according to an exemplary embodiment of the present application.
Detailed Description
For the purposes, technical solutions and advantages of the present application, the technical solutions of the present application will be clearly and completely described below with reference to specific embodiments of the present application and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure. Wherein, in the description of the embodiments of the present application, "/" means or is meant unless otherwise indicated, for example, a/B may represent a or B; "and/or" herein is merely an association relationship describing an association object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist together, and B exists alone. In addition, in the description of the embodiments of the present application, "plurality" means two or more than two.
The terms "first," "second," "third," and the like, are used below for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", or a third "may explicitly or implicitly include one or more such feature.
An embodiment of the present application provides an electronic device, as shown in fig. 1, the electronic device 100 includes: the device comprises a device body 1 and a camera module 2 which can be plugged in and pulled out of the device body 1.
The embodiment of the present application does not limit the type of the apparatus body 1. For example, it may be a cell phone, a television, a tablet, a notebook, a palm, a mobile internet device (mobile internetdevice, MID), a wearable device (e.g., a watch, a bracelet, a smart helmet, etc.), a Virtual Reality (VR) device, an augmented reality (augmented reality, AR) device, an ultra-mobile personal computer (ultra-mobilepersonal computer, UMPC), a netbook, a personal digital assistant (personal digital assistant, PDA), a wireless terminal in industrial control (industrial control), a wireless terminal in unmanned (self driving), a wireless terminal in teleoperation (remote medical surgery), a wireless terminal in smart grid (smart grid), a wireless terminal in transportation security (transportation safety), a wireless terminal in smart city (smart city), a wireless terminal in smart home (smart home), etc.
The apparatus body 1 may include: the display device includes a first housing 11, a display 12 provided on the first housing 11, and a body circuit board (not shown) provided in the first housing 11.
The first housing 11 is used to protect the electronics inside the apparatus body 1.
The display screen 12 is for displaying images, videos, and the like, for example: and displaying the image and video shot by the camera module 2. The display 12 may be a flexible display or a rigid display. For example: the display 12 may be an organic light-emitting diode (OLED) display, an active-matrix organic light-emitting diode (AMOLED) display, a mini-led (mini organic light-emitting diode) display, a micro-led (micro organic light-emitting diode) display 120, a micro-organic led (micro organic light-emitting diode) display, a quantum dot led (quantum dot light emitting diodes, QLED) display, a liquid crystal display (liquidcrystal display, LCD).
The body circuit board is used for setting the electronic components of the equipment body 1 and realizing the electric connection between the electronic components. By way of example, the electronic components may be control chips (e.g., system on Chip, SOC), graphics control chips (graphics processing unit, GPU), universal memory (universal flash storage, UFS), earpiece, flash modules, and the like. The body circuit board may be a motherboard, for example.
The camera module 2 is used for shooting video or images. The camera module 2 includes, but is not limited to: camera and camera circuit board. The camera is electrically connected with the camera circuit board. The cameras include, but are not limited to, a main camera, a wide-angle camera, a tele camera and the like.
As shown in fig. 2, the apparatus body 1 is provided with a groove 13; the groove 13 includes: an inner bottom surface 130 and a first inner side surface 131; the first inner side 131 is provided with a first set of electrical connectors 14. As shown in fig. 3, the camera module 2 is provided with a plug-in component 21; the plug 21 includes: a first outer side 211; the first outer side 211 is provided with a second set of electrical connectors 22;
when the plug-in piece 21 is inserted into the groove 13 in the first posture, the second group of electrical connectors 22 are elastically abutted against the first group of electrical connectors 14 one by one, and the plug-in piece 21 is fixed in the groove 13 under the action force of the elastic abutment of the first group of electrical connectors 14 and the second group of electrical connectors 22;
the second set of electrical connectors 22 are elastically abutted against the first set of electrical connectors 14 one by one, and then are used for realizing electrical signal transmission between the device body 1 and the camera module 2.
The specific shape of the groove 13 may be set according to practical needs, which is not specifically limited in the embodiment of the present application. The recess 13 may be, for example, a U-shaped recess.
Wherein the electrical connectors of one set of electrical connectors in the first set of electrical connectors 14 and the second set of electrical connectors 22 may be designed as a resilient structure and the electrical connectors of the other set of electrical connectors may be designed as a rigid structure. The rigid structure may include: and a contact structure. Illustratively, the electrical connectors in the first set of electrical connectors 14 are in a contact configuration and the electrical connectors in the second set of electrical connectors 22 are in a spring configuration. Further exemplary, the electrical connectors in the first set of electrical connectors 14 are spring structures and the electrical connectors in the second set of electrical connectors 22 are contact structures. It should be noted that, the spring plate structure is disposed in the groove, which can protect the spring plate structure.
In this embodiment, the first group of electrical connectors not only can realize the transmission of electrical signals between the device body and the camera module, but also can fix the camera module on the device body. Therefore, the technical scheme provided by the embodiment of the application avoids the use of the magnet, so that the manufacturing cost can be reduced, and the volume of the equipment body and the camera module can be reduced.
In order to further reduce the manufacturing cost, the elastic structure may be a spring structure, and the specific shape of the elastic structure may be set according to actual needs, which is not particularly limited in the embodiment of the present application. The electrical connectors in the first set of electrical connectors are each designed as a spring structure, and the electrical connectors in the second set of electrical connectors are each designed as a contact structure. In the embodiment of the application, the elastic sheet is simple in structure and low in manufacturing cost, and the manufacturing cost of a product can be further reduced.
In an alternative example, as shown in fig. 2, the recess 13 further includes: a second inner side 132 disposed opposite the first inner side 131; the plug-in 21 may further include: a second outer side 212 (shown in fig. 5) disposed opposite the first outer side 211.
When the plug 21 is inserted into the recess 13 in the first posture, the second electrical connectors 22 elastically abut against the first electrical connectors 14 one by one, and the second inner side 132 abuts against the second outer side 212 (the abutment may be elastic abutment or rigid abutment). That is, the opposite outer sides of the insert 21 are gripped by the opposite inner sides of the recess 13. Illustratively, the force of the first set of electrical connectors 14 against the plug member 21 is in a direction opposite to the force of the second inner side 132 against the plug member 21. I.e. by opposing forces, the plug member 21 is secured within the recess 13.
In the above embodiment, the plug-in member 21 can be inserted into the recess 13 only in the first posture, that is, the camera module can provide only one photographing mode (for example, one of the self-photographing mode and the takt photographing mode). In order to be able to support a plurality of shooting modes, for example a self-timer mode and a takt mode, a third set of electrical connectors 15 may also be provided on the second inner side 132, as shown in fig. 2. The electrical connectors in the third set of electrical connectors 15 may also be of resilient construction, for example.
By way of example, the first set of electrical connectors 14 and the third set of electrical connectors 15 may each comprise: power supply pin VCC (e.g., 14a and 15a in fig. 2), first data transmission pin D- (e.g., 14b and 15b in fig. 2), second data transmission pin d+ (e.g., 14c and 15c in fig. 2), and ground pin GND (e.g., 14D and 15D in fig. 2). The power supply pin VCC and the ground pin GND are used for transmitting power supply signals, namely, are used for supplying power for the camera module; the power supply pin VCC represents the positive pole and GND represents the negative pole. The first data transmission pin D-and the second data transmission pin d+ are used for transmitting data signals, for example: the equipment body can transmit shooting control instructions to the camera module through the first data transmission pin D-and the second data transmission pin D+; the camera module can locally transmit the shot image data or video data to the equipment through the first data transmission pin D-and the second data transmission pin D+.
It should be noted that the first set of electrical connectors 14 and the third set of electrical connectors 15 may include fewer or more pins, which may be specifically configured according to practical needs, and the embodiments of the present application are not limited thereto. For example: when the camera module 2 has a power supply built therein, the power supply pin VCC and the ground pin GND are not included in the first group of electrical connectors 14 and the third group of electrical connectors 15. For another example: the first and third sets of electrical connectors 14 and 15 may include other pins for data transmission in addition to the first and second data transmission pins D-and d+ described above, so as to achieve multiple data transmission.
In an alternative example, the number of electrical connectors of the second set of electrical connectors is the same as the number of electrical connectors of the first set of electrical connectors; the number of electrical connectors of the second set of electrical connectors 22 is the same as the number of electrical connectors of the third set of electrical connectors 15.
Taking the electrical connectors of the second set of electrical connectors 22 as contact structures for example, as shown in fig. 3, the second set of electrical connectors 22 may include: power supply contact VCC (e.g., 22a in fig. 3), first data transfer contact D- (e.g., 22b in fig. 3), second data transfer contact d+ (e.g., 22c in fig. 3), and ground contact GND (e.g., 22D in fig. 3). The power supply contact VCC and the ground contact GND are used for transmitting power supply signals, namely, are used for supplying power to the camera module; the supply contact VCC represents the positive pole and GND (Ground) represents the negative pole. The first data transmission contact D-and the second data transmission contact d+ are used for transmitting data signals, for example: the equipment body can transmit shooting control instructions to the camera module through the first data transmission contact D-and the second data transmission contact D+; the camera module can locally transmit the shot image data or video data to the equipment through the first data transmission contact D-and the second data transmission contact D.
In order to reduce the difficulty of structural design, the plurality of electrical connectors in the first set of electrical connectors 14 may be arranged along a straight line, the plurality of electrical connectors in the third set of electrical connectors 15 may be arranged along a straight line, and the plurality of electrical connectors in the second set of electrical connectors 22 may also be arranged along a straight line.
As shown in fig. 4, when the plug-in component 21 is inserted into the groove 13 in the forward direction (i.e., inserted into the groove in the first posture), the second group of electrical connectors 22 elastically abut against the first group of electrical connectors 14 one by one, and the plug-in component 21 is fixed in the groove 13 under the action force of elastically abutting the first group of electrical connectors 14 against the second group of electrical connectors 22; the second set of electrical connectors 22 are elastically abutted against the first set of electrical connectors 14 one by one, and then are used for realizing electrical signal transmission between the device body 1 and the camera module 2.
Wherein each electrical connector of the second set of electrical connectors 22 resiliently abuts an electrical connector of the first set of electrical connectors 14 that is functionally identical to the electrical connector (which may be referred to as an electrical function in particular).
Illustratively, as shown in fig. 4, the ground contact GND22d in the second set of electrical connectors 22 abuts the ground pin GND14d in the first set of electrical connectors 14; the second data transfer contact d+22c in the second set of electrical connectors 22 abuts the second data transfer pin d+14c in the first set of electrical connectors 14; the first data transmission contacts D-22b of the second set of electrical connectors 22 abut the first data transmission pins D-14b of the first set of electrical connectors 14; the power supply contact VCC 22a in the second set of electrical connectors 22 abuts the power supply pin VCC14a in the first set of electrical connectors 14.
As shown in fig. 4, when the plug 21 is inserted into the recess 13 in the forward direction (i.e., in the first posture), the third group of electrical connectors 15 abut (may be in rigid abutment or elastic abutment) with the second outer side 212 of the plug 21.
Illustratively, as shown in fig. 4, the electrical connectors in the first set of electrical connectors 14 and the third set of electrical connectors 15 are each of a resilient structure; when the plug 21 is inserted into the groove 13, the second set of electrical connectors 22 elastically abuts against the first set of electrical connectors 14 one by one, the third set of electrical connectors 15 elastically abuts against the second outer side 212 of the plug 21, and the plug 21 is fixed in the groove 13 under the elastic action of the first set of electrical connectors 14 and the third set of electrical connectors 15. Namely: when the plug 21 is inserted into the recess 13, the first set of electrical connectors 14 applies an elastic force to the first outer side 211 of the plug 21, and the third set of electrical connectors 15 applies an elastic force to the second outer side 212 of the plug 21. Specifically, the first set of electrical connectors 14 and the third set of electrical connectors 15 apply opposing elastic forces to the plug members 21, such that the plug members are secured within the recess by opposing forces.
As shown in fig. 5, when the plug-in component 21 is reversely inserted into (i.e., inserted into) the groove 13 in the second posture, the second group of electrical connectors 22 elastically abut against the third group of electrical connectors 15 one by one, and the plug-in component 21 is fixed in the groove 13 under the action force of the elastic abutment between the third group of electrical connectors 15 and the second group of electrical connectors 22; the second group of electrical connectors 22 and the third group of electrical connectors 15 are elastically abutted one by one and then used for realizing electric signal transmission between the equipment body 1 and the camera module 2.
Wherein each electrical connector of the second set of electrical connectors 22 is in resilient abutment with an electrical connector of the third set of electrical connectors 15 that is functionally identical to that electrical connector (which may be referred to as an electrical function in particular).
Illustratively, as shown in fig. 5, the ground contact GND22d in the second set of electrical connectors 22 abuts the ground pin GND15d in the third set of electrical connectors 15; the second data transmission contact d+22c in the second set of electrical connectors 22 abuts the second data transmission pin d+15c in the third set of electrical connectors 15; the first data transmission contacts D-22b in the second set of electrical connectors 22 abut the first data transmission pins D-15b in the third set of electrical connectors 15; the power supply contact VCC22a in the second set of electrical connectors 22 abuts the power supply pin VCC15a in the third set of electrical connectors 15.
As shown in fig. 5, when the plug-in member 21 is inserted in the recess 13 in the opposite direction (i.e., in the second posture), the first group of electrical connectors 14 abut (may be in rigid abutment or in elastic abutment) with the second outer side 212 of the plug-in member 21.
Illustratively, as shown in fig. 5, the electrical connectors in the first set of electrical connectors 14 and the third set of electrical connectors 15 are each of a resilient structure; when the plug-in component 21 is reversely inserted into the groove 13, the second group of electrical connectors 22 elastically abut against the third group of electrical connectors 15 one by one, the first group of electrical connectors 14 elastically abut against the second outer side 212 of the plug-in component 21, and the plug-in component 21 is fixed in the groove 13 under the elastic action of the first group of electrical connectors 14 and the third group of electrical connectors 15. Namely: when the plug 21 is inserted into the recess 13, the first set of electrical connectors 14 applies an elastic force to the second outer side surface of the plug 21, and the third set of electrical connectors 15 applies an elastic force to the first outer side surface 211 of the plug 21. Specifically, the first set of electrical connectors 14 and the third set of electrical connectors 15 may apply opposing elastic forces to the plug member 21, such that the plug member may be secured within the recess by opposing forces. Specifically, when the plug-in component is inserted in the groove in the forward direction and is inserted in the groove in the reverse direction, the shooting modes of the camera module are different. When the plug-in component is inserted into the groove in the forward direction, the shooting mode of the camera module is a self-shooting mode; when the plug-in component is reversely plugged in the groove, the shooting mode of the camera module is a shooting mode. Still another exemplary embodiment of the present invention provides a camera module, wherein when the plug-in component is inserted into the groove in a forward direction, a shooting mode of the camera module is a takt mode; when the plug-in component is reversely plugged in the groove, the shooting mode of the camera module is a self-shooting mode.
In the embodiment of the present application, the forward insertion and the reverse insertion are only relative concepts, and the insertion mode corresponding to each shooting mode is specifically set according to the actual needs.
Optionally, the groove 13 may further include: a third inner side and a fourth inner side (not shown) disposed opposite each other. The recess 13 is defined by the inner bottom surface 130, the first and second inner side surfaces 131 and 132 disposed opposite to each other, and the third and fourth inner side surfaces disposed opposite to each other.
Alternatively, as shown in fig. 6, the apparatus body 1 has the first circuit board 16 built therein; the first set of electrical connectors 14 are electrically connected to the first circuit board 16; the first inner side 131 is provided with a first set of openings (not shown); the first plurality of electrical connectors 14 are disposed one-by-one through the first plurality of openings and extend beyond the first inner side 131 (as shown in fig. 2).
Wherein the shape of the openings in the first set of openings is adapted to the shape of the spring pins in the first set of electrical connectors 14. The number of openings in the first set of openings is the same as the number of electrical connections in the first set of electrical connections 14.
Optionally, as shown in fig. 6, the third set of electrical connectors 15 is electrically connected to the first circuit board 16; as shown in fig. 7, the second inner side 132 of the recess 13 is provided with a second set of openings 17; a third set of electrical connectors are disposed one-by-one through the second set of openings and extend out of the second inner side 132 (as shown in fig. 2).
Wherein the shape of the openings in the second set of openings 17 is adapted to the shape of the electrical connectors in the third set of electrical connectors 15. The number of openings in the second set of openings 17 is the same as the number of electrical connections in the third set of electrical connections 15.
For ease of installation, the first circuit board 16 may be a flexible circuit board (FPC, flexible Printed Circuit) which may be bent along the outside of the groove 13.
Illustratively, as shown in FIG. 6, the first circuit Board 16 may be electrically connected to a body circuit Board (e.g., motherboard) within the device body 1 via a Board-to-Board connector (BTB) 20.
It should be noted that, the first circuit board 16 may also be electrically connected to the body circuit board in the apparatus body 1 through other manners, which is not specifically limited in the embodiment of the present application.
For convenience of wiring, the first group of electrical connectors 14 and the electrical connectors with the same functions in the third group of electrical connectors 15 are electrically connected through the first circuit board 16; the first set of electrical connectors 14 are electrically connected to the body circuit board within the device body 1 via a first circuit board 16.
Wherein the first set of electrical connectors 14 are electrically connected to the body circuit board within the device body 1 via the first circuit board 16 and the BTB connector 20.
Illustratively, the ground pin GND14d in the first set of electrical connectors 14 and the ground pin GND15d in the third set of electrical connectors 15 are electrically connected by traces in the first circuit board 16; the second data transmission pins d+14c in the first set of electrical connectors 14 are electrically connected with the second data transmission pins d+15c in the third set of electrical connectors 15 through traces in the first circuit board 16; the first data transmission pins D-14b in the first set of electrical connectors 14 are electrically connected with the first data transmission pins D-15b in the third set of electrical connectors 15 through traces in the first circuit board 16; the power supply pin VCC14a in the first set of electrical connectors 14 is electrically connected to the power supply pin VCC15a in the third set of electrical connectors 15 by traces in the first circuit board 16.
To facilitate routing in the first circuit board 16, the first circuit board 16 may be a multi-layer structure; the electrical connectors of the first set of electrical connectors 14 and the third set of electrical connectors 15, which are functionally identical, are electrically connected by routing through holes in the first circuit board.
In practical applications, when the camera module is in the self-timer mode, the photographed image displayed on the display screen on the device body is generally expected to be similar to the image displayed when the photographed user looks at the mirror. That is, when the camera module is in the self-photographing mode, the image photographed by the camera needs to be mirrored and then displayed to the user of the photographed person.
In one implementation scheme, the device body can respond to the selection operation of the mirror image processing options on the interface displayed by the display screen by the user to mirror the image shot by the camera module.
For example: when the camera module is in the self-timer mode, a user can click a mirror image processing option on an interface displayed by the display screen.
In another implementation scheme, the equipment body can automatically identify the forward and backward insertion of the camera module, namely automatically identify the shooting mode of the camera module; and correspondingly processing the image acquired by the camera according to the identification result. For example, when it is recognized that the camera module is inserted into the groove in the forward direction (assuming that the camera module corresponds to the self-timer mode), the image collected by the camera may be mirrored; when the camera module is identified to be reversely inserted into the groove (which is supposed to correspond to the shooting mode), the image acquired by the camera is not subjected to mirror image processing.
As shown in fig. 8 and 10, a first electrical connector 18a electrically connected with a positive and negative plug detection interface inside the device body (for example, a body circuit board) and a second electrical connector 19a electrically connected with a first level end are arranged on the inner side surface of the groove; the outer side surface of the plug-in piece 21 is provided with a third electric connector 23; when the plug-in member 21 is inserted into the recess 13 in the first posture, the first electrical connector 18a and the second electrical connector 19a are electrically connected by the third electrical connector 23; when the plug-in member 21 is inserted into the recess 13 in the second posture, the first electrical connector 18a is suspended.
That is, when the plug-in member 21 is inserted into the recess 13 in the first posture, the forward and reverse insertion detection interface is in a state of being electrically connected to the first level end; when the plug-in member 21 is inserted into the groove 13 in the second posture, the forward and reverse insertion detection interface is in a suspended state. Suspending means: i.e. not high or low. Therefore, according to the state of the positive and negative plug-in detection interface, the plug-in mode of the plug-in can be identified, and further the shooting mode can be identified.
For example, as shown in fig. 9, the above-mentioned positive and negative plug detection interface may be a General-purpose input/output interface GPIO (General-Purpose Input Output Ports) of a main circuit board of the device body 1.
The first level terminal may be a ground terminal (GND as shown in fig. 9) or a low level terminal, for example.
Illustratively, as shown in fig. 8, the first and second electrical connectors 18a, 19a may be resilient structures, such as: a spring plate structure; the third electrical connector 23 may be a rigid structure, for example: and a contact structure.
The first electrical connector 18a and the second electrical connector 19a in fig. 9 form a positive-negative plug detecting structure DIR (direction)
In a specific example, as shown in fig. 8, 9 and 10, the first electrical connector 18a and the second electrical connector 19a may be disposed on the first inner side 131; the third electrical connector 23 is arranged on the first outer side 211. To reduce the difficulty of structural design, the plurality of electrical connectors in the first set of electrical connectors 14, the first electrical connector 18a, and the second electrical connector 19a may be aligned along a straight line, and the plurality of electrical connectors in the second set of electrical connectors 22 and the third electrical connector 23 may be aligned along a straight line. When the positive and negative plug-in detection interface is in a state of being electrically connected with the first level end, determining that the plug-in component is inserted into the groove in the positive direction, and the camera module is in a self-shooting mode; when the positive and negative plug-in detection interface is in a suspended state, the plug-in component is determined to be reversely plugged in the groove, and the camera module is in a shooting mode. Optionally, as shown in fig. 8, the second inner side 132 of the groove 13 may further be provided with a third electrical connector 18b and a fourth electrical connector 19b, which are not electrically connected to the positive and negative plug-in detecting interface, and are only used for decoration, and may also provide elastic force to the plug-in component when the plug-in component is plugged into the groove. The third electrical connector 18b and the fourth electrical connector 19b may also be of a resilient structure, such as: spring plate structure. In order to reduce the difficulty of structural design, the plurality of electrical connectors in the third group of electrical connectors 15, the third electrical connector 18b and the fourth electrical connector 19b may be arranged along a straight line.
In another embodiment, the first electrical connector 18a and the second electrical connector 19a may be disposed on the second inner side 132 of the recess 13; the third electrical connector 23 is disposed on a first outer side 211 (shown in fig. 10) of the plug 21. Wherein, as shown in fig. 11, the plurality of electrical connectors in the third group of electrical connectors 15, the first electrical connector 18a and the second electrical connector 19a may be arranged along a straight line. Optionally, a third electrical connector 18b and a fourth electrical connector 19b may be further disposed on the first inner side 131 of the groove, and neither of these two electrical connectors is electrically connected to the positive and negative plug-in detecting interface, which is only used for decoration, and may also provide elastic force to the plug-in component when the plug-in component is inserted into the groove. In order to reduce the difficulty of the structural design, as shown in fig. 11, the plurality of electrical connectors in the first set of electrical connectors 14, the third electrical connector 18b and the fourth electrical connector 19b may be arranged along a straight line, and the plurality of electrical connectors in the second set of electrical connectors 22 and the third electrical connector 23 may also be arranged along a straight line. When the positive and negative plug-in detection interface is in a grounding state (namely, a state of being electrically connected with the first level end), the plug-in component is determined to be reversely plugged in the groove, and the camera module is in a takt mode; when the positive and negative plug-in detection interface is in a suspended state, the plug-in component is determined to be inserted into the groove in the positive direction, and the camera module is in a self-shooting mode.
It should be noted that, the specific positions of the first electrical connector 18a, the second electrical connector 19a on the inner side of the groove, and the specific positions of the third electrical connector 23 on the outer side of the plug are not limited to the above two combinations, but other combinations are also possible, and the embodiment of the present application is not limited thereto specifically.
The embodiment of the application also provides an equipment body and a camera module of the electronic equipment, wherein the specific structures of the equipment body and the camera module can be referred to the corresponding contents in the above embodiments, and the details are not repeated here.
Fig. 12 shows a flowchart of a data processing method according to an embodiment of the present application. The method is applied to the electronic equipment. As shown in fig. 12, the method includes:
1201. and acquiring the state of the positive and negative plug detection interface.
Wherein the states include: a state electrically connected to the first level terminal and a suspended state;
1202. and identifying the inserting mode of the camera module according to the state.
In practical application, a corresponding relationship between the state of the forward and reverse plug detection interface and the plug mode of the camera module can be constructed in advance. The corresponding relationship is determined by the specific positions of the first electrical connector 18a, the second electrical connector 19a on the inner side surface of the groove and the specific position of the third electrical connector 23 on the outer side surface of the plug-in component.
Taking fig. 9 as an example, the state of electrical connection with the first level terminal corresponds to forward insertion; the suspended state corresponds to the reverse insertion. Then, according to the corresponding relation, when the state of the positive and negative plug-in detection interface is the state of being electrically connected with the first level end, determining that the plug-in mode of the camera module is positive plug-in; when the state of the positive and negative plug-in detection interface is in a suspended state, the plug-in mode of the camera module is determined to be reverse plug-in.
Taking fig. 11 as an example, the state of electrical connection with the first level terminal corresponds to reverse insertion; the suspended state corresponds to the forward insertion. Then, according to the corresponding relation, when the state of the positive and negative plug-in detection interface is the state of being electrically connected with the first level end, determining that the plug-in mode of the camera module is reverse plug-in; when the state of the positive and negative plug-in detection interface is in a suspended state, the plug-in mode of the camera module is determined to be positive plug-in.
Optionally, the method may further include:
1203. and determining a shooting mode of the camera module according to the inserting mode of the camera module.
1204. When the shooting mode is a self-shooting mode, mirror image processing is carried out on the image acquired by the camera module, and a mirror image processed picture is obtained.
1205. And displaying the image after mirror image processing.
In the above 1203, in an example, when the insertion mode of the camera module is forward insertion, determining that the shooting mode of the camera module is a self-timer mode; when the inserting mode of the camera module is reverse inserting, the shooting mode of the camera module is determined to be the shooting mode.
In 1204, the mirror image processing technology may refer to the prior art, which is not specifically limited in the embodiments of the present application.
When the shooting mode is a self-shooting mode, mirror image processing is carried out on the image acquired by the camera module, so that the image after mirror image processing seen by a user is consistent with the image displayed when the user looks at the mirror, and the use habit of the user is met.
It should be noted that, the descriptions of "first" and "second" herein are used to distinguish different messages, devices, modules, etc., and do not represent a sequence, and are not limited to the "first" and the "second" being different types.
It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.
The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and changes may be made to the present application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc. which are within the spirit and principles of the present application are intended to be included within the scope of the claims of the present application.
Claims (28)
1. An electronic device, comprising: the device comprises a device body and a camera module which can be plugged and unplugged on the device body; the equipment body is provided with a groove; the groove includes: a first inner side; a first group of electric connectors are arranged on the first inner side surface; the camera module is provided with a plug-in component; the plug-in component comprises: a first outer side; a second group of electric connectors are arranged on the first outer side face;
when the plug-in component is inserted into the groove in a first posture, the second group of electric connectors are elastically abutted with the first group of electric connectors one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutment of the first group of electric connectors and the second group of electric connectors;
the second group of electric connecting pieces are elastically abutted with the first group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module.
2. The electronic device of claim 1, wherein the electrical connectors in the first set of electrical connectors are of a dome structure; the electrical connectors in the second set of electrical connectors are contact structures.
3. The electronic device of claim 1 or 2, wherein the recess further comprises: a second inner side surface disposed opposite to the first inner side surface; a third group of electric connecting pieces are arranged on the second inner side surface;
when the plug-in component is inserted into the groove in a second posture, the second group of electric connectors are elastically abutted against the third group of electric connectors one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutment of the third group of electric connectors and the second group of electric connectors;
the second group of electric connecting pieces are elastically abutted with the third group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module.
4. The electronic device of claim 3, wherein the plug-in further comprises: a second outer side surface disposed opposite the first outer side surface;
when the plug-in component is plugged in the groove in a first posture, the third group of electric connecting components are abutted with the second outer side face;
When the plug-in component is inserted into the groove in a second gesture, the first group of electric connecting components are abutted with the second outer side face.
5. The electronic device of claim 3, wherein the device body has a first circuit board built-in;
the first group of electric connecting pieces and the third group of electric connecting pieces are respectively and electrically connected with the first circuit board;
a first group of openings are formed in the first inner side surface; the first group of electric connecting pieces penetrate through the first group of holes one by one and extend out of the first inner side surface;
a second group of openings are formed in the second inner side surface; the third group of electric connecting pieces penetrate through the second group of holes one by one and extend out of the second inner side face.
6. The electronic device of claim 5, wherein the first circuit board is a multi-layer structure; the first group of electric connectors and the electric connectors with the same functions in the third group of electric connectors are electrically connected in a mode of punching through holes in the first circuit board; the first set of electrical connectors are electrically connected to a main circuit board within the device body through the first circuit board.
7. The electronic device of claim 5, wherein the first circuit board is electrically connected to a main circuit board within the device body through a board-to-board connector.
8. The electronic device of claim 5, wherein the first circuit board is a flexible circuit board.
9. The electronic device of claim 3, wherein a first electrical connector electrically connected to the positive and negative insertion detection interface inside the device body and a second electrical connector electrically connected to the first level terminal are provided on an inner side surface of the recess;
a third electric connector is arranged on the outer side surface of the plug-in component;
when the plug-in component is plugged in the groove in a first posture, the first electric connector and the second electric connector are electrically connected through the third electric connector;
when the plug-in component is inserted into the groove in the second gesture, the first electric connector is suspended.
10. The electronic device of claim 9, wherein the first electrical connector and the second electrical connector are disposed on the first interior side; the third electrical connection is disposed on the first outer side.
11. The equipment body of the electronic equipment is characterized in that the equipment body is provided with a groove for the insertion and extraction of a camera module; the groove includes: a first inner side; a first group of electric connectors are arranged on the first inner side surface; the camera module is provided with a plug-in component; the plug-in component comprises: a first outer side; a second group of electric connectors are arranged on the first outer side face;
When the plug-in component is inserted into the groove in a first posture, the second group of electric connectors are elastically abutted with the first group of electric connectors one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutment of the first group of electric connectors and the second group of electric connectors;
the second group of electric connecting pieces are elastically abutted with the first group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module.
12. The device body of claim 11, wherein the electrical connectors in the first set of electrical connectors are of a dome structure; the electrical connectors in the second set of electrical connectors are contact structures.
13. The apparatus body of claim 11 or 12, wherein the recess further comprises: a second inner side surface disposed opposite to the first inner side surface; a third group of electric connecting pieces are arranged on the second inner side surface;
when the plug-in component is inserted into the groove in a second posture, the second group of electric connectors are elastically abutted against the third group of electric connectors one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutment of the third group of electric connectors and the second group of electric connectors;
The second group of electric connecting pieces are elastically abutted with the third group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module.
14. The apparatus body of claim 13, wherein the plug further comprises: a second outer side surface disposed opposite the first outer side surface;
when the plug-in component is plugged in the groove in a first posture, the third group of electric connecting components are abutted with the second outer side face;
when the plug-in component is inserted into the groove in a second gesture, the first group of electric connecting components are abutted with the second outer side face.
15. The device body of claim 13, wherein the device body has a first circuit board built-in;
the first group of electric connecting pieces and the third group of electric connecting pieces are respectively and electrically connected with the first circuit board;
a first group of openings are formed in the first inner side surface; the first group of electric connecting pieces penetrate through the first group of holes one by one and extend out of the first inner side surface;
a second group of openings are formed in the second inner side surface; the third group of electric connecting pieces penetrate through the second group of holes one by one and extend out of the second inner side face.
16. The device body of claim 15, wherein the first circuit board is a multi-layer structure; the electric connectors with the same functions in the first group of electric connectors and the third group of electric connectors are electrically connected in a mode of punching through holes in the first circuit board; the first set of electrical connectors are electrically connected to a main circuit board within the device body through the first circuit board.
17. The device body of claim 15, wherein the first circuit board is electrically connected to a main circuit board within the device body by a board-to-board connector.
18. The device body of claim 15, wherein the first circuit board is a flexible circuit board.
19. The device body according to claim 13, wherein a first electrical connector electrically connected to the positive and negative insertion detection interface inside the device body and a second electrical connector electrically connected to the first level end are provided on an inner side surface of the groove;
a third electric connector is arranged on the outer side surface of the plug-in component;
when the plug-in component is plugged in the groove in a first posture, the first electric connector and the second electric connector are electrically connected through the third electric connector;
When the plug-in component is inserted into the groove in the second gesture, the first electric connector is suspended.
20. The device body of claim 19, wherein the first electrical connector and the second electrical connector are disposed on the first interior side; the third electrical connection is disposed on the first outer side.
21. The camera module is characterized in that the camera module can be inserted and pulled on the equipment body of the electronic equipment;
the equipment body is provided with a groove; the groove includes: a first inner side; a first group of electric connectors are arranged on the first inner side surface; the camera module is provided with a plug-in component; the plug-in component comprises: a first outer side; a second group of electric connectors are arranged on the first outer side face;
when the plug-in component is inserted into the groove in a first posture, the second group of electric connectors are elastically abutted with the first group of electric connectors one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutment of the first group of electric connectors and the second group of electric connectors;
the second group of electric connecting pieces are elastically abutted with the first group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module.
22. The camera module of claim 21, wherein the electrical connectors of the first set of electrical connectors are of a dome structure; the electrical connectors in the second set of electrical connectors are contact structures.
23. The camera module of claim 21 or 22, wherein the recess further comprises: a second inner side surface disposed opposite to the first inner side surface; a third group of electric connecting pieces are arranged on the second inner side surface;
when the plug-in component is inserted into the groove in a second posture, the second group of electric connectors are elastically abutted against the third group of electric connectors one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutment between the third group of electric connectors and the second group of electric connectors;
the second group of electric connecting pieces are elastically abutted with the third group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module.
24. The camera module of claim 23, wherein a first electrical connector electrically connected to the positive and negative plug detection interface inside the device body and a second electrical connector electrically connected to the first level end are provided on an inner side surface of the recess;
A third electric connector is arranged on the outer side surface of the plug-in component;
when the plug-in component is plugged in the groove in a first posture, the first electric connector and the second electric connector are electrically connected through the third electric connector;
when the plug-in component is inserted into the groove in the second gesture, the first electric connector is suspended.
25. The camera module of claim 24, wherein the first electrical connector and the second electrical connector are disposed on the first interior side; the third electrical connection is disposed on the first outer side.
26. A data processing method applied to an electronic device, the electronic device comprising: the device comprises a device body and a camera module which can be plugged and unplugged on the device body; the equipment body is provided with a groove; the camera module is provided with a plug-in component; a first electric connector electrically connected with the positive and negative plug detection interface inside the equipment body and a second electric connector electrically connected with the first level end are arranged on the inner side surface of the groove; a third electric connector is arranged on the outer side surface of the plug-in component; the inner side surface of the groove comprises a first inner side surface and a second inner side surface which are oppositely arranged; a first group of electric connectors are arranged on the first inner side surface; a third group of electric connecting pieces are arranged on the second inner side surface; the outer side surface of the plug comprises: a first outer side; a second group of electric connectors are arranged on the first outer side face;
When the plug-in component is inserted into the groove in a first posture, the second group of electric connecting components are elastically abutted against the first group of electric connecting components one by one, and the plug-in component is fixed in the groove under the action force of the elastic abutting of the first group of electric connecting components and the second group of electric connecting components, and the first electric connecting components and the second electric connecting components are electrically connected through the third electric connecting components; the second group of electric connecting pieces are elastically abutted with the first group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module;
when the plug-in component is inserted into the groove in a second posture, the second group of electric connecting components are elastically abutted with the third group of electric connecting components one by one, the plug-in component is fixed in the groove under the action force of the elastic abutment of the third group of electric connecting components and the second group of electric connecting components, and the first electric connecting components are suspended; the second group of electric connecting pieces are elastically abutted with the third group of electric connecting pieces one by one and then used for realizing electric signal transmission between the equipment body and the camera module;
the method comprises the following steps:
acquiring the state of the positive and negative plug detection interface; the states include: a state electrically connected to the first level terminal and a suspended state;
And identifying the inserting mode of the camera module according to the state.
27. The method as recited in claim 26, further comprising:
determining a shooting mode of the camera module according to the inserting mode of the camera module;
when the shooting mode is a self-shooting mode, mirror image processing is carried out on the image acquired by the camera module, and a mirror image processed picture is obtained;
and displaying the image after mirror image processing.
28. The method of claim 26 or 27, wherein the first electrical connector and the second electrical connector are disposed on the first interior side; the third electrical connection is disposed on the first outer side.
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CN202311751206.3A CN117440235A (en) | 2023-12-19 | 2023-12-19 | Electronic equipment, camera module, equipment body and data processing method |
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