CN113329112B - Electronic equipment - Google Patents

Abstract

The present disclosure relates to an electronic device, comprising: the equipment body, equipment body surface is equipped with the opening, equipment body inside be equipped with the acceping chamber of opening intercommunication. The bracket module is arranged in the accommodating cavity in a sliding manner; when the bracket module moves to a first position, the bracket module is accommodated in the accommodating cavity; when the bracket module moves to the second position, one part of the bracket module is accommodated in the accommodating cavity, the other part of the bracket module is positioned outside the accommodating cavity, and the part of the bracket module positioned outside the accommodating cavity can be bent relative to the part of the bracket module accommodated in the accommodating cavity so as to form a support for the equipment body. When the electronic equipment needs support, the support module is moved to the second position and is partially bent to form the support for the equipment body, so that the support can be realized.

Description

Electronic equipment

Technical Field

The disclosure relates to the field of electronic technology, and in particular, to an electronic device.

Background

In recent years, smart devices such as smart phones and tablet computers have become indispensable products in people's lives. Especially, the time for a user to watch a television show using a smart phone is increasing. With current 4G networks and 5G networks covering fast, surfing speeds are rapidly increasing, and users can watch video scenes more frequently using smartphones. However, due to the appearance and functions of the current smart device, the mobile phones on the market are basically provided with no mobile phone support, the angle of the screen needs to be adjusted by holding the mobile phone by hands, and the pain points directly faced by the terminal user for watching the video for a long time by using the mobile phone or the tablet are as follows: or the mobile phone or the flat plate is horizontally placed on the desktop, and at the moment, the screen picture can not directly face to enter human eyes, so that the impression experience is affected; or the mobile phone or the tablet is required to be held by hands all the time, so that the mobile phone or the tablet cannot be used by the hands, and the user can feel ache after long time; or some users additionally purchase a single bracket to fix the mobile phone and other devices for supporting, and the outsourcing bracket is inconvenient to carry and can not meet the requirements of use anytime and anywhere.

It can be seen that the smart device cannot support and fix itself, so that the user experience of the terminal user is extremely poor when the terminal user views the video for a long time by using the mobile phone or the tablet product.

Disclosure of Invention

The electronic equipment can enable the electronic equipment to have the functions of supporting and fixing the electronic equipment according to different user requirements and different scenes, and the user can experience better when watching videos.

In order to achieve the above purpose, the technical scheme adopted in the present disclosure is as follows:

an embodiment of the present disclosure provides an electronic device, including:

the device comprises a device body, wherein an opening is formed in the surface of the device body, and a containing cavity communicated with the opening is formed in the device body;

the bracket module is arranged in the accommodating cavity in a sliding manner; when the bracket module moves to a first position, the bracket module is accommodated in the accommodating cavity; when the bracket module moves to the second position, one part of the bracket module is accommodated in the accommodating cavity, the other part of the bracket module is positioned outside the accommodating cavity, and the part of the bracket module positioned outside the accommodating cavity can be bent relative to the part of the bracket module accommodated in the accommodating cavity so as to form a support for the equipment body.

Further, the bracket module comprises a support rod and a bracket appearance piece connected to the end part of the support rod; when the bracket module moves to a first position, the support rod is accommodated in the accommodating cavity, and the bracket appearance piece is shielded at the opening position; when the support module moves to the second position, one part of the support rod is accommodated in the accommodating cavity, the other part of the support rod is positioned outside the accommodating cavity, and the part of the support rod positioned outside the accommodating cavity can be bent relative to the part of the support rod accommodated in the accommodating cavity so as to form a support for the equipment body.

Further, the support rod comprises a first support rod body, a second support rod body and a hinge structure connected between the first support rod body and the second support rod body, and the support appearance piece is connected to the end part of the second support rod body;

when the bracket module moves to a first position, the first support rod body and the second support rod body are both accommodated in the accommodating cavity; when the bracket module moves to a second position, the first support rod body is accommodated in the accommodating cavity, the second support rod body is positioned outside the accommodating cavity, and the second support rod body is bent relative to the first support rod body through the hinge structure so as to support the equipment body.

Further, the hinge structure is a hinge or a spherical hinge.

Further, the first support rod body is of a hollow structure, the second support rod body is arranged in the first support rod body in a sliding mode, and the hinge structure is arranged at the connecting position of the first support rod body and the second support rod body.

Further, the supporting rod is a rod piece made of elastic and bendable materials.

Further, the bracket module further comprises a sealing piece, wherein the sealing piece is arranged on one side of the bracket appearance piece, which is close to the supporting rod; or the sealing piece is arranged at the position, close to the appearance piece of the bracket, of the inner side wall of the opening.

Further, one of the inner wall of the accommodating cavity and the bracket module is provided with a track, and the other of the inner wall of the accommodating cavity and the bracket module is provided with a sliding piece matched with the track.

Further, the number of the rails is two, and the two rails are arranged side by side; the number of the sliding pieces is four, and every two sliding pieces are correspondingly matched with one rail.

Further, the fixing assembly is used for keeping the support module at a fixed position and comprises a first magnetic piece and at least two second magnetic pieces arranged at intervals, the support module moves to the first position or the second position, and the first magnetic pieces are mutually adsorbed with one of the second magnetic pieces.

Further, the fixed assembly further comprises at least two energizing coils; the first magnetic piece and the at least two energizing coils are arranged on the inner wall of the accommodating cavity at intervals along the length direction of the accommodating cavity; the electronic equipment further comprises a driving module electrically connected with the at least two energizing coils, and the driving module controls the energizing coils to be energized so that the energizing coils and the second magnetic pieces at corresponding positions generate driving forces for driving the bracket module to move.

Further, the first magnetic member is positioned adjacent to the opening; the at least two second magnetic pieces are arranged on the bracket module at intervals along the length direction of the bracket module, and the interval distance between the second magnetic pieces is consistent with the interval distance between the electrified coils and the interval distance between the first magnetic pieces and the electrified coils

Further, the device also comprises a trigger detection module electrically connected with the driving module, wherein the trigger detection module is used for receiving a control instruction or a trigger signal and sending the control instruction or the trigger signal to the driving module, and the driving module controls the electrified coil to be electrified positively or negatively according to the control instruction or the trigger signal so that the electrified coil and the second magnetic piece at the corresponding position generate driving force for driving the bracket module to move into or move out of the accommodating cavity.

The technical scheme provided by the embodiment of the disclosure can comprise the following beneficial effects:

according to the electronic equipment, the movable support module is arranged on the equipment body, when the electronic equipment needs support, the support of the equipment body can be achieved through moving the support module to the second position and partially bending the support module. The electronic equipment has the functions of supporting and fixing the electronic equipment according to different user requirements and different scenes, so that the user can watch videos better.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

Fig. 1 is a schematic perspective view of an electronic device according to an exemplary embodiment of the present disclosure.

Fig. 2 is a schematic structural diagram of a bracket module of an electronic device according to an exemplary embodiment of the present disclosure.

Fig. 3 is a schematic structural view of a cradle module of an electronic device according to another exemplary embodiment of the present disclosure.

Fig. 4 is a schematic structural view of a cradle module of an electronic device according to still another exemplary embodiment of the present disclosure.

Fig. 5 is a schematic view of a device body of an electronic device according to an exemplary embodiment of the present disclosure.

Fig. 6 is a schematic structural diagram of an electronic device in a non-sliding out state of a bracket module according to an exemplary embodiment of the disclosure.

Fig. 7 is a schematic structural diagram of an electronic device in a sliding-out state of a stand module according to an exemplary embodiment of the present disclosure.

Fig. 8 is a schematic structural diagram of an electronic device in a bent state of a bracket module according to an exemplary embodiment of the disclosure.

Fig. 9 is a schematic perspective view of an electronic device according to another exemplary embodiment of the present disclosure.

Fig. 10 is a schematic perspective view of an electronic device according to still another exemplary embodiment of the present disclosure.

Fig. 11 is a schematic perspective view of an electronic device according to still another exemplary embodiment of the present disclosure.

Detailed Description

The present disclosure will be described in detail below with reference to the detailed description of the embodiments shown in the drawings. These embodiments are not intended to limit the disclosure, but structural, methodological, or functional transformations of one of ordinary skill in the art based on these embodiments are included within the scope of the present disclosure.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any or all possible combinations of one or more of the associated listed items.

The electronic equipment can enable the electronic equipment to have the functions of supporting and fixing the electronic equipment according to different user requirements and different scenes, and the user can experience better when watching videos. The electronic device of the present disclosure will be described in detail below with reference to the accompanying drawings, and features in the following examples and embodiments may be combined with each other without conflict.

Referring to fig. 1 to 4, an embodiment of the present disclosure provides an electronic device, which may be a mobile terminal, a tablet computer, or the like. The electronic device comprises a device body 1 and a bracket module 2. The surface of the device body 1 is provided with an opening 11, and a containing cavity 17 communicated with the opening 11 is arranged inside the device body 1. Alternatively, the opening 11 avoids all the ridges of the device body 1. The opening 11 and the receiving chamber 17 may be located at a top side position, a bottom side position, a left side position, a right side position, or a back side position of the apparatus body 1. In this embodiment, the opening 11 and the accommodating cavity 17 are located at the right side edge of the device body 1, and the appearance of the opening 11 may be lower than the right side edge appearance surface of the device body 1, or may be flush with the right side edge appearance surface of the device body 1 to ensure appearance integrity.

The bracket module 2 is slidably arranged in the accommodating cavity 17. As shown in fig. 2, when the bracket module 2 moves to the first position, the bracket module 2 is accommodated in the accommodating cavity 17. As shown in fig. 3, when the bracket module 2 moves to the second position, a part of the bracket module 2 is accommodated in the accommodating cavity 17, another part of the bracket module 2 is located outside the accommodating cavity 17, and the part of the bracket module 2 located outside the accommodating cavity 17 can be bent relative to the part of the bracket module 2 accommodated in the accommodating cavity 17, so as to form a support for the device body 1.

In order to facilitate the sliding of the bracket module 2 in the accommodating cavity 17, the sliding rail 10 can be arranged in the accommodating cavity 17, so that the bracket module 2 can slide conveniently. In the embodiment shown in fig. 1, the sliding rail 10 extends along the width direction (left-right direction in the drawing) of the device body 1, and it is understood that the bracket module 2 may slide out of the device body 1 along the sliding rail 10 and may also slide into the device body 1 along the sliding rail 10. In other examples, the slide rail 10 may be provided to extend in the longitudinal direction (up-down direction in the drawing) or the thickness direction (front-rear direction in the drawing) of the apparatus body 1. In addition, the number of the slide rails 10 provided inside the apparatus body 1 is not limited to one, and a corresponding number may be provided according to actual functional requirements of the electronic apparatus, which is not limited by the present disclosure.

Taking an electronic device as an example of a mobile phone, the bracket module 2 is a module which is arranged on the device body 1 and is used for playing a role of a mobile phone bracket after sliding out, the bracket module 2 can slide along the sliding rail 10, the bracket module 2 can slide into the device body 1 through the opening 11 and keep at a first position, or slide out of the device body 1, so that a part of the bracket module 2 is exposed out of the device body 1, and meanwhile, a part of the bracket module 2 which does not slide out remains in the device body 1, and the bracket module can keep a fastening state at the current position all the time after sliding out to a designated position (namely a second position). In addition, the shape of the bracket module 2 can be changed after the bracket module 2 slides out of the device body 1, that is, the part of the bracket module 2 outside the accommodating cavity 17 can be bent relative to the part of the bracket module 2 accommodated in the accommodating cavity 17, so as to support the device body 1 and play a role of a mobile phone bracket.

It should be noted that the shape change of the bracket module is not limited to bending deformation; the shape change can be manually operated to deform the device, or the current shape can be kept unchanged until the device body is internally provided with a corresponding driving module to deform the device body, as will be described in detail below. Before the bracket module completely slides into the equipment body, the bracket module can be restored to the original form by means of manual operation, or the bracket module can be restored to the original state by means of the built-in driving module of the equipment body, so that the bracket module slides into the equipment body along the accommodating cavity of the equipment body and keeps a fastening state, and the bracket module is described in detail below.

Through above-mentioned setting, this disclosure is through setting up mobilizable support module on the equipment body, when electronic equipment needs the support to support, through moving the support module to the second position and partly buckling formation to the support of equipment body, can play the effect of support. The electronic equipment has the functions of supporting and fixing the electronic equipment according to different user requirements and different scenes, so that the user can watch videos better.

Referring to fig. 5 to 7, in an alternative embodiment, the bracket module 2 includes a support bar 25 and a bracket exterior 24 connected to an end of the support bar 25. When the bracket module 2 moves to the first position, the supporting rod 25 is accommodated in the accommodating cavity 17, and the bracket appearance piece 24 is blocked at the position of the opening 11, so that the appearance of the device is smooth and beautiful. When the bracket module 2 moves to the second position, a part of the supporting rod 25 is accommodated in the accommodating cavity 17, another part of the supporting rod 25 is positioned outside the accommodating cavity 17, and the part of the supporting rod 25 positioned outside the accommodating cavity 17 can be bent relative to the part of the supporting rod 25 accommodated in the accommodating cavity 17, so as to form a support for the equipment body 1.

Further, the support bar 25 includes a first support bar 251, a second support bar 252, and a hinge structure 28 connected between the first support bar 251 and the second support bar 252, and the support frame outer 24 is connected to an end of the second support bar 252. Alternatively, the hinge structure 28 may be a hinge or a ball joint or other structure, which is not limited by the present disclosure. In the example shown in fig. 5, the hinge structure 28 is a hinge. In the example shown in fig. 6, the hinge structure 28 is a spherical hinge.

When the bracket module 2 moves to the first position, the first support rod 251 and the second support rod 252 are both accommodated in the accommodating cavity 17. When the bracket module 2 moves to the second position, the first support rod 251 is accommodated in the accommodating cavity 17, the second support rod 252 is located outside the accommodating cavity 17, and the second support rod 252 is bent relative to the first support rod 251 through the hinge structure 28, so as to support the apparatus body 1.

Further, when the hinge structure 28 is a spherical hinge, the second support rod 252 and the first support rod 251 may be configured as a telescopic structure (similar to an umbrella stay structure), and the hinge structure 28 is disposed at a connection position between the first support rod 251 and the second support rod 252. Before the bracket module 2 slides out of the apparatus body 1, both the first support rod 251 and the second support rod 252 are in a contracted state, and after the bracket module 2 slides out of the apparatus body 1, the user can stretch the second support rod 252 outwards until it can be deformed along the hinge structure 28, in which case the overall length of the bracket module 2 will be longer. After the user finishes using the bracket module 2, the second support rod 252 is bent to be in the same straight line position with the first support rod 251 along the position of the hinge structure 28, so that the bracket module 2 is restored to the original axial straight line state, the second support rod 252 is pushed into the device body by force, the second support rod 252 is contracted inwards to the first support rod 251, and the whole bracket module 2 is pushed into the device body and fastened.

In the above example, the bending deformation of the bracket module is realized through a hinge structure, and when the bracket module slides out of the device body, the supporting function can be realized by manually adjusting the deformation angle of the hinge structure, and the number of the hinge structures can be not limited to one. In other examples, the support rod 25 may be a rod made of a flexible material. That is, the deformable portion of the stent module may be realized entirely by virtue of the properties of the corresponding deformable material itself. The material can complete specific deformation under the action of external force by depending on the self attribute, and can keep the current form stable and unchanged after the application of the external force, and the next deformation can not occur until the next external force is applied. After the user invokes the bracket module 2 to slide out, the deformation of the bracket module 2 depends on the material characteristics of the support rod 25 to realize the deformation and fixation of a specific angle. After the user finishes using the stand function, the stand module 2 is restored to the original shape by means of the support rod 25 or external force, and the stand module 2 can be slid into the device body 1 and kept fixed.

Further, the bracket module 2 may further include a sealing member 27, where the sealing member 27 may be disposed on a side of the bracket appearance 24 near the support bar 25, and the sealing member 27 may also be disposed on a position of the inner sidewall of the opening 11 near the bracket appearance 24. It will be appreciated that the seal 27 acts as a dust and water tight seal between the bracket module 2 and the opening 11 of the device body 1. In the present embodiment, the seal member 27 is provided on the support rod 25.

One of the inner wall of the accommodating cavity 17 and the bracket module 2 may be further provided with a rail, and the other of the inner wall of the accommodating cavity 17 and the bracket module 2 is provided with a slider matched with the rail. The sliding piece is matched with the rail, so that the sliding-in and sliding-out actions of the bracket module can be more conveniently completed. Further, the number of the rails is two, and the two rails are arranged side by side. The number of the sliding pieces is four, every two sliding pieces are correspondingly matched with one rail, and when the bracket module 2 slides into the equipment body 1, the rail is abutted with one sliding piece, so that the bracket module 2 is ensured to slide into place. When the bracket module 2 slides out of the equipment body 1, the rail is abutted against the other sliding piece, so that the whole bracket module 2 slides out of the equipment body 1 in the process of preventing a user from using the bracket module 2. In this embodiment, as shown in fig. 5 and 8, two rails 26 are provided on the support rod 25 of the bracket module 2, and the two rails 26 are disposed side by side. Four sliding parts 16 are arranged on the inner wall of the accommodating cavity, the sliding parts 16 adopt a guide pillar structure, and every two sliding parts 16 are correspondingly matched with one track 26. In this embodiment, the track is in a track-type structure, so that the track can be matched with a sliding piece arranged on the device body 1 to complete the sliding-in and sliding-out actions of the bracket module 2. Therefore, the sliding piece and the rail are matched with each other, so that the sliding piece can be used for guiding the bracket module to slide in and slide out of the equipment body along a specific direction, and the bracket module 2 is prevented from moving outwards when the bracket module slides out to a certain distance, so that the effect of preventing the bracket module from sliding out is achieved.

In an alternative embodiment, the electronic device of the present disclosure further comprises a fixing assembly for holding the bracket module 2 in a fixed position. It can be appreciated that the bracket module can slide in or out of the device body along the sliding rail, and can keep a fastening state at the current position after sliding out to the designated position. When the bracket module slides into the appointed position in the equipment body, the fastening state can be kept at the current position all the time.

The fixing assembly comprises a first magnetic piece and at least two second magnetic pieces arranged at intervals, and the arrangement direction of the second magnetic pieces is consistent with the length direction of the accommodating cavity 17 or the length direction of the bracket module 2. One of the first magnetic member and the second magnetic member is disposed on the inner wall of the accommodating cavity 17, and the other of the first magnetic member and the second magnetic member is disposed on the bracket module 2. The bracket module 2 moves to the first position or the second position, and the first magnetic pieces and one of the second magnetic pieces are attracted to each other, so that the bracket module 2 is kept in a fixed position. Alternatively, both the first magnetic member and the second magnetic member may employ magnets. In this embodiment, the first magnetic member is a first magnet 15. The number of the second magnetic members is three, and the second magnet 21, the third magnet 22 and the fourth magnet 23 are respectively. The number of the second magnetic members may be set according to actual needs, which is not limited by the present disclosure.

Taking the example that the number of the second magnetic pieces is two and the second magnetic pieces are arranged on the inner wall of the accommodating cavity 17 at intervals, the first magnetic pieces are arranged on the bracket module 2. When the bracket module 2 moves to the first position, that is, slides into the device body to be accommodated in the accommodating cavity 17, the bracket module 2 is kept at the first position by attractive force generated by mutual adsorption of the first magnetic piece and one of the second magnetic pieces. When the bracket module 2 moves to the second position, that is, the bracket module 2 slides out of the device body, so that a part of the bracket module 2 is accommodated in the accommodating cavity 17, and the other part is positioned outside the accommodating cavity 17, the bracket module 2 is kept at the second position by attractive force generated by mutual adsorption of the first magnetic piece and the other second magnetic piece.

In the above example, the movement of the bracket module 2 may be performed by a manual operation. In other examples, the movement of the carrier module 2 may also be implemented by software control. To this end, the fixation assembly may further comprise at least two energizing coils. The first magnetic element and the at least two energizing coils are arranged on the inner wall of the accommodating cavity 17 at intervals along the length direction of the accommodating cavity 17, and the first magnetic element is located at a position close to the opening 11. The at least two second magnetic pieces are arranged on the bracket module 2 at intervals along the length direction of the bracket module 2, and the interval distance between the second magnetic pieces is consistent with the interval distance between the electrified coils and the interval distance between the first magnetic pieces and the electrified coils. The electronic equipment further comprises a driving module electrically connected with the at least two energizing coils, and the driving module controls the energizing coils to be energized so that the energizing coils and the second magnetic pieces at corresponding positions generate driving forces for driving the bracket module 2 to move. In the example shown in the figure, the number of the energizing coils is three, namely a first energizing coil 12, a second energizing coil 13 and a third energizing coil 14, and the first magnetic member is a first magnet 15. The number of the second magnetic members is three, and the second magnet 21, the third magnet 22 and the fourth magnet 23 are respectively.

Further, the electronic device may further include a trigger detection module electrically connected to the driving module, where the trigger detection module is configured to receive a control instruction or a trigger signal, and send the control instruction or the trigger signal to the driving module, and the driving module controls the power-on coil to be electrified positively or negatively according to the control instruction or the trigger signal, so that the power-on coil and the second magnetic element at a corresponding position generate a driving force for driving the bracket module 2 to move into or move out of the accommodating cavity 17. It can be appreciated that the trigger detection module is configured to detect a trigger operation when the user uses the stand module, so that the driving module drives the stand module to slide into or slide out of the device body under the condition that the trigger detection module determines that the trigger detection module detects the trigger operation of the user. The driving module can respond to the locking instruction or the calling instruction which is received by the triggering detection module and aims at the bracket module, and generates a pop-up command or a recycling command which drives the bracket module to move, so that the bracket module is driven to slide into the equipment body or slide out of the equipment body.

Further, the trigger detection module may include a touch sensing element or a press sensing element for receiving a trigger signal, and is disposed on the bracket module 2. The trigger detection module may also include a physical key or a touch component for receiving a control instruction, and is disposed on the device body 1.

As shown in fig. 5 and 8, in an embodiment, the first energizing coil 12, the second energizing coil 13, the third energizing coil 14 and the first magnet 15 are disposed on the inner wall of the housing cavity 17 of the device body 1, the effective lengths of the first energizing coil 12, the second energizing coil 13 and the third energizing coil 14 are S1, and the interval between them is S2, where S2 is smaller than S1, and the distance between the third energizing coil 14 and the first magnet 15 is also S2. The second magnet 21, the third magnet 22, and the fourth magnet 23 are provided on the support rod 25 of the bracket module 2, and the lengths of the second magnet 21, the third magnet 22, and the fourth magnet 23 are set to S1. Meanwhile, the distance between the second magnet 21 and the third magnet 22 is set to S2, and the distance between the third magnet 22 and the fourth magnet 23 is set to 2×s2+s1.

As shown in fig. 2, when the stand module 2 is in the unpopulated state, the first power-on coil 12 and the second magnet 21 are at the same position in the thickness direction of the apparatus body 1, the second power-on coil 13 and the third magnet 22 are at the same position in the thickness direction of the apparatus body 1, the third power-on coil 14 is located at the middle position of the third magnet 22 and the fourth magnet 23, and the first magnet 15 and the fourth magnet 23 are at the same position in the thickness direction of the apparatus body 1.

The driving module can control the first energizing coil 12, the second energizing coil 13 and the third energizing coil 14 to be energized positively or reversely, and can generate magnetic field forces in two opposite directions respectively. When the bracket module 2 is fastened inside the device body 1 before the device is not started to slide out, the first magnet 15 arranged on the device body 1 and the fourth magnet 23 arranged on the bracket module 2 generate attractive force F1 to attract each other, so that the bracket module 2 is ensured not to slide along the accommodating cavity 17, and meanwhile, the first energizing coil 12, the second energizing coil 13 and the third energizing coil 14 arranged on the device body 1 are not energized, and the second magnet 21 and the third magnet 22 arranged on the bracket module 2 at corresponding positions are not generated to generate acting force, so that the bracket module 2 is fastened inside the device body 1. In this state, the waterproofing of the apparatus body 1 and the bracket module 2 at the position of the opening 11 is achieved by means of the sealing member 27 provided on the support rod 25 of the bracket module 2.

As shown in fig. 3, when the user prepares to use the bracket module 2 for the bracket function, the user may click on a "slide-out button" application program on the screen of the electronic device, or press the bracket module 2, and detect a corresponding signal by triggering the detection module, thereby invoking the driving module disposed inside the electronic device, and thus the bracket module 2 slides out of the device body along a specific path through the cooperation of the corresponding coil and the magnet. For example, in this embodiment, when the user clicks the "slide-out button" application program on the screen, or manually presses the appearance of the bracket module 2 with a suitable force along the opposite sliding direction of the bracket module 2, the trigger detection module detects a corresponding electrical signal, and then the system transmits the signal to the driving module through the CPU processing, and then the driving module controls the first power-on coil 12 and the second power-on coil 13 disposed inside the device body to be powered on simultaneously. At this time, the first energizing coil 12 interacts with the second magnet 21 and generates a force F3 in a direction consistent with the sliding-out direction of the bracket module 2. At the same time, the second energizing coil 12 interacts with the third magnet 22 and generates a force F4 in a direction consistent with the sliding-out direction of the bracket module 2. The first energizing coil 12 and the second energizing coil 13 are continuously energized, and when F3+F4 > F1, the bracket module 2 can slide outwards.

When the outward sliding distance of the bracket module 2 is S1, the second magnet 21 moves to the corresponding position of the second energizing coil 13, and the third magnet 22 moves to the corresponding position of the third energizing coil 14, at this time, the CPU controls the driving module to interrupt the energizing of the first energizing coil 12, keeps energizing of the second energizing coil 13 and the action of the second magnet 21 to generate a force F5 in a direction consistent with the sliding direction of the bracket module 2, and instantly starts the energizing of the third energizing coil 14 and the action of the third magnet 22 to generate a force F6 in a direction consistent with the sliding direction of the bracket module 2, wherein f5+f6 is equal to f3+f4 and greater than F1, so that the bracket module 2 can continue to slide outwards. When the outward sliding distance of the bracket module 2 is equal to 2×s1+2×s2, the second energizing coil 13 and the third energizing coil 14 are stopped to energize, at this time, the third magnet 22 moves to the corresponding position of the first magnet 15 and generates an attractive force F7 to attract each other to keep the current position stationary, as shown in fig. 3, at this time, the bracket module 2 partially slides out.

As shown in fig. 4, after the user invokes the bracket module 2 to slide out, the user needs to perform specific treatment on the portion of the bracket module 2 exposed out of the device body 1 to deform the portion, so that the appearance surface of the deformed bracket module 2 and the other edge of the device body form a virtual supporting surface, thereby realizing the bracket function. The deformation of the bracket module 2 depends on the hinge structure 28 to drive a part of the supporting rod 25 to realize the deformation of a specific angle along the position of the hinge structure 28, and the locking can be realized. Specifically, after the bracket module 2 slides out, the bracket module 2 and the device body 1 are attracted to each other by means of the attractive force F7 between the first magnet 15 and the third magnet 22 to keep the current position, and the deformation of the bracket module 2 is realized by means of the hinge structure 28, for example, the hinge structure 28 is arranged at a specific position above the supporting rod 25 in the embodiment, so that the bracket module 2 can just start to deform along the opening position of the electronic device, then the user reversely adjusts and deforms the sliding bracket module 2 towards the screen of the electronic device, and forms a virtual supporting surface with one edge of the left side edge of the device body 1 to play a role of a mobile phone bracket after the sliding bracket module 2 is adjusted to a proper deformation position. At this time, the user can comfortably watch the screen display video content of the electronic device. In this embodiment, the bending deformation of the bracket module 2 is realized completely by the hinge structure 28, which can realize bending deformation at an angle of 0 ° to 180 °, and has a self-locking function after any bending deformation, so as to ensure the stability of the bracket function when a user uses the bracket.

After the user finishes using the stand function, the stand module 2 also drives a part of the support rod 25 along the hinge structure 28 by means of the hinge structure 28 to restore the original shape and slide into the device body 1 again under the control of the driving module, and then is attracted and kept fixed by means of the magnets, as shown in fig. 2.

As described above, when the user uses the cradle function, the entire electronic apparatus is in the structural state shown in fig. 4. When the user is ready to use the bracket module 2 to perform the bracket function, the user needs to restore the bracket module 2 to the original shape, and then click on the application program of the 'slide-in button' on the screen, or press the appearance of the bracket module 2, at this time, the trigger detection module can detect the corresponding signal, thereby calling the driving module arranged in the electronic device, and enabling the bracket module 2 to slide into the device body along the specific path through the cooperation of the corresponding coil and the magnet. For example, in this embodiment, when the user finishes using the stand, only needs to restore the stand module 2 from the position of the hinge structure 28, then clicks on the "slide-in button" application program on the screen, or manually presses the appearance of the stand module 2 with a suitable force along the sliding-out opposite direction of the stand module 2, at this time, the trigger detection module detects the corresponding electric signal, then the system transmits the signal to the driving module through the CPU process, controls the third energizing coil 14 disposed inside the apparatus body to energize, at this time, the direction of the applied electric signal is opposite to that of the control stand module 2, at this time, the third energizing coil 14 interacts with the second magnet 21 and generates a force F8 in a direction consistent with the sliding-in direction of the stand module 2, because the operating state of the stand module 2 is that the current position is kept by means of the attractive force F7 generated by the third magnet 22 and the first magnet 15, the acting force F8 between the third energizing coil 14 and the second magnet 21 can be lifted by adjusting the current magnitude of the third energizing coil 14, and when F8 > F7 slides into the apparatus body. When the inward sliding distance of the bracket module 2 is S1, the second magnet 21 moves to a position corresponding to the second through-current coil 13, and the third magnet 22 moves to a position corresponding to the third through-current coil 14, at this time, the CPU controls the driving module to keep the third through-current coil 14 energized, and simultaneously controls the second through-current coil 13 to be energized, the direction of the electric signal is consistent with that of the third through-current coil 14, at this time, the second magnet 21 and the second through-current coil 13 generate a force F9 consistent with the sliding direction of the bracket module 2, the third magnet 22 and the third through-current coil 14 generate a force F10 consistent with the sliding direction of the bracket module 2, and f9+f10 is greater than F7, so as to control the bracket module to quickly slide into the device body continuously. When the inward sliding distance of the bracket module is 2×s2+s1, the second power-on coil 13 is kept powered on, the third power-on coil 14 is interrupted to be powered on, meanwhile, the CPU controls the driving module to keep the first power-on coil 12 powered on, the electric signal is consistent with the second power-on coil 13, at this time, the second magnet 21 and the first power-on coil 12 generate a force F11 consistent with the sliding direction of the bracket module 2, the third magnet 22 and the second power-on coil 13 generate a force F12 consistent with the sliding direction of the bracket module 2, the bracket module 2 continues to slide inwards, when the inward sliding distance of the bracket module 2 is equal to 2×s1+2xs2, the first power-on coil 12 and the second power-on coil 13 are stopped, at this time, the fourth magnet 23 moves to a position corresponding to the first magnet 15, and generates a suction force F13 (the size is equal to F7) to attract each other to keep the current position motionless, at this time, the bracket module 2 slides completely into the device body 1, as shown in fig. 2.

In an alternative embodiment, as shown in fig. 9, a communication module may be further disposed in the device body 1, and the stand module 2 is provided with a remote connection module for electrically connecting with the communication module. Further, the bracket module 2 may further be provided with a display module, a touch key module and a power supply module.

In an embodiment, the stand module 2 may be detachable, i.e. the stand module 2 may be slid completely out of the device body 1. Of course, the bracket module may be provided in a non-detachable type, which is not limited by the present disclosure. The remote connection module is arranged on the bracket module 2, so that the bracket module 2 after sliding out can be used as a remote control device with a certain specific function of the electronic equipment. For example, in this embodiment, the apparatus body 1 is provided with the first power coil 12, the second power coil 13, the third power coil 14, and the first magnet 15, and the dimensions and the positions and the pitches of the first power coil and the second power coil are described above, which are not repeated here. Meanwhile, the device body is also provided with a Bluetooth module 101 as a communication module. The bracket module 2 is provided with a second magnet 21, a third magnet 22 and a fourth magnet 23, and the dimensions, positions and intervals of the second magnet and the third magnet are also described above, and are not described here again. In addition, the bracket module 2 may further be provided with a bluetooth module 201 as a remote connection module, and a touch key module 202, a display module 203 and a power supply module 204. The bluetooth module 201 is configured to be connected with the bluetooth module 101 disposed on the device body 1, and the touch key module 202 has a specific shortcut triggering function, and of course, the triggering function may also be disposed on the display module 203, and the power supply module 204 is mainly a bluetooth module, and the touch key module and the display module provide power support, so as to ensure that each module works smoothly. In this embodiment, the bluetooth module 201, the touch key module 202, the display module 203 and the position on the bracket module 2 are not limited.

In this embodiment, the support module and the apparatus body may not be provided with rails and sliders to restrict the support module from sliding out of the apparatus body, and the support module may be held stationary in the non-sliding-out state by the attraction of the first magnet 15 and the fourth magnet 23. The sliding-out and sliding-in states of the bracket module 2 are ensured by means of mutual matching between the magnet and the corresponding energizing coil, so that the bracket module 2 is slid out and fixed, and the above description is omitted herein. Optionally, a control unit for controlling the camera of the electronic device to take a photograph may be disposed on the bracket module, and the remote photographing is implemented by using bluetooth connection and used as a remote control device. When a user needs to take a picture at a certain distance from the equipment in a specific scene, the bracket module 2 can slide out of the equipment body 1, then the bracket module 2 is manually taken out by overcoming the attractive force between the first magnet 15 and the fourth magnet 23 by applying acting force to the bracket module 2, and the camera of the electronic equipment can be controlled to take a picture under the condition of a certain distance from the equipment body. The real-time pictures are connected with each other by means of the Bluetooth device, and can be shot by pressing the touch key module 202, and can also be shot by means of the touch function on the display module 203. After photographing, the user slides the tail of the bracket module 2 into the equipment body 1 again.

Of course, the bracket module 2 also has the bracket function when the remote control and display functions are attached, so that the user can switch at any time and any place according to the actual application scene requirement. The foregoing embodiments have been described separately, and are not repeated here.

Referring to fig. 10, in an alternative embodiment, a key triggering module is disposed on an inner wall of the accommodating cavity 17, and the key triggering module is configured to be in contact with and matched with the bracket module 2. In this embodiment, in addition to the above-mentioned support module 2 and the device body 1, the respective energizing coils and magnets cooperate to complete the sliding-in and sliding-out actions of the support module 2, so as to realize the support function required by the user, other key functions, such as a power key, can be realized. The support appearance piece 24 and the key triggering module arranged on the equipment body 1 form a power key function module, wherein the support appearance piece 24 can be used as a physical button of a power key, and the key triggering module arranged on the support module 1 and the electronic equipment internal central control unit realize electric signal transmission to complete the function of the power key through an electric connection mode. For example, in this embodiment, the bracket module 2 is provided with a bracket appearance 24, which can be designed into a specific structure and shape according to the process and function requirements. The device body 1 is provided with an opening 11, a key triggering module 106 can be arranged at the position where the inner wall of the accommodating cavity 17 is matched with the support module 2, and under the condition that a user applies a certain amount of pressing force to the support module 2 towards the inside of the support module 2, the support module 2 moves a certain small distance towards the inside of the device body to be in contact with the key triggering module 106, at the moment, a power key function is triggered, and the startup and shutdown functions of the electronic device are realized. Alternatively, the key triggering module can be set as a triggering button for realizing more other functions through the software setting of the electronic device, for example, the triggering button can be set as a shooting triggering button for a user.

Referring to fig. 11, in an alternative embodiment, the stand module 2 may further be provided with a USB power module and a USB interface. In this embodiment, except for the above-mentioned support module 2 and the cooperation of each power coil and magnet on the equipment body 1 to accomplish the slide-in and slide-out actions of support module 2, realize the required support function of user, can also regard as the electronic equipment power module to use. For example, in this embodiment, besides the above modules for realizing the sliding in and out functions of the bracket module 2, the device body 1 and the bracket module 2 are further provided with a USB power supply module 205 on the bracket module 2, meanwhile, an FPC (flexible circuit board, flexible Printed Circuit) 206 for performing electric signal transmission is provided on the bracket module 2, one end of which is connected with the power supply module 205, the other end of which is connected with a PCBA (printed circuit board, printed Circuit Board Assembly) 107 provided inside the device body 1, and meanwhile, a battery module 108 provided inside the device body 1 is also connected with the PCBA107, so as to realize the power supply function to the electronic device through electric connection.

Optionally, when the Type of the USB interface provided on the bracket module 2 is a Type-C interface, the charging interface function of the battery module 208 of the electronic device is mainly assumed, and the electronic device does not need to be provided with another USB interface for assuming the charging interface.

Optionally, when the Type of the USB interface provided on the bracket module 2 is a Type-a interface, the USB interface is mainly used for a function of charging the electronic device under special conditions. For example, when the user does not carry the charging wire, the user needs to charge the electronic equipment, at this moment, the user can click the "sliding-out button" on the screen, so that the support module 2 slides out of the equipment body, then the deformation shape of the support module is adjusted, the Type-A interface is inserted into the external power supply device to charge the electronic equipment, after the charging is completed, the support module is adjusted to the original shape, and then the screen is clicked to "sliding-in button" so that the support module returns to the inside of the equipment body and is kept fastened. In this case, a separate Type-C interface or other Type of charging interface needs to be set on the electronic device to charge the device normally.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This disclosure is intended to cover any adaptations, uses, or adaptations of the disclosure following the general principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It is to be understood that the present disclosure is not limited to the precise arrangements and instrumentalities shown in the drawings, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (13)

1. An electronic device, comprising:

the device comprises a device body, wherein an opening is formed in the surface of the device body, and a containing cavity communicated with the opening is formed in the device body;

the bracket module is arranged in the accommodating cavity in a sliding manner; the bracket module slides into the equipment body through the opening and is kept at a first position, and the bracket module is accommodated in the accommodating cavity; the bracket module slides out of the equipment body through the opening, so that a part of the bracket module is exposed out of the equipment body, and meanwhile, the part of the bracket module, which does not slide out, is reserved in the equipment body; the support module is in a fastening state at the current position after sliding out of the second position, one part of the support module is accommodated in the accommodating cavity, the other part of the support module is positioned outside the accommodating cavity, and the part of the support module positioned outside the accommodating cavity can be bent relative to the part of the support module accommodated in the accommodating cavity so as to form a support for the equipment body.

2. The electronic device of claim 1, wherein the stand module comprises a support bar and a stand appearance connected to an end of the support bar; when the bracket module moves to a first position, the support rod is accommodated in the accommodating cavity, and the bracket appearance piece is shielded at the opening position; when the support module moves to the second position, one part of the support rod is accommodated in the accommodating cavity, the other part of the support rod is positioned outside the accommodating cavity, and the part of the support rod positioned outside the accommodating cavity can be bent relative to the part of the support rod accommodated in the accommodating cavity so as to form a support for the equipment body.

3. The electronic device of claim 2, wherein the support bar comprises a first support bar body, a second support bar body, and a hinge structure connected between the first support bar body and the second support bar body, the stand appearance being connected to an end of the second support bar body;

when the bracket module moves to a first position, the first support rod body and the second support rod body are both accommodated in the accommodating cavity; when the bracket module moves to a second position, the first support rod body is accommodated in the accommodating cavity, the second support rod body is positioned outside the accommodating cavity, and the second support rod body is bent relative to the first support rod body through the hinge structure so as to support the equipment body.

4. The electronic device of claim 3, wherein the hinge structure is a hinge or a ball joint.

5. The electronic device of claim 3, wherein the first support rod body is of a hollow structure, the second support rod body is slidably disposed in the first support rod body, and the hinge structure is disposed at a connection position between the first support rod body and the second support rod body.

6. The electronic device of claim 2, wherein the support bar is a rod of elastically bendable material.

7. The electronic device of claim 2, wherein the stand module further comprises a sealing member disposed on a side of the stand appearance member adjacent to the support bar; or the sealing piece is arranged at the position, close to the appearance piece of the bracket, of the inner side wall of the opening.

8. The electronic device of claim 1, wherein one of the inner wall of the receiving cavity and the bracket module is provided with a rail, and the other of the inner wall of the receiving cavity and the bracket module is provided with a slider that mates with the rail.

9. The electronic device of claim 8, wherein the number of tracks is two, two of the tracks being disposed side-by-side; the number of the sliding pieces is four, and every two sliding pieces are correspondingly matched with one rail.

10. The electronic device of claim 1, further comprising a securing assembly for holding the bracket module in a secured position, the securing assembly comprising a first magnetic member and at least two second magnetic members disposed in spaced relation, the bracket module being movable to the first position or the second position, the first magnetic member being attracted to one of the second magnetic members.

11. The electronic device of claim 10, wherein the stationary assembly further comprises at least two energized coils; the first magnetic piece and the at least two energizing coils are arranged on the inner wall of the accommodating cavity at intervals along the length direction of the accommodating cavity; the electronic equipment further comprises a driving module electrically connected with the at least two energizing coils, and the driving module controls the energizing coils to be energized so that the energizing coils and the second magnetic pieces at corresponding positions generate driving forces for driving the bracket module to move.

12. The electronic device of claim 11, wherein the first magnetic member is located proximate to the opening; the at least two second magnetic pieces are arranged on the bracket module at intervals along the length direction of the bracket module, and the interval distance between the second magnetic pieces is consistent with the interval distance between the electrified coils and the interval distance between the first magnetic pieces and the electrified coils.

13. The electronic device of claim 11, further comprising a trigger detection module electrically connected to the driving module, wherein the trigger detection module is configured to receive a control command or a trigger signal and send the control command or the trigger signal to the driving module, and the driving module controls the energizing coil to be electrified positively or negatively according to the control command or the trigger signal, so that the energizing coil and the second magnetic member at a corresponding position generate a driving force for driving the bracket module to move into or out of the accommodating cavity.

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