CN219286578U - Battery module and remote controller - Google Patents

Abstract

The embodiment of the application relates to the technical field of unmanned aerial vehicles, in particular to a battery module and a remote controller. The battery module is applied to the remote controller, and the remote controller comprises a remote controller main body, and the battery module comprises a rear mounting shell, a first magnetic attraction piece and a battery module. The installation backshell is used for installing in the remote controller main part. The first magnetic attraction piece is at least partially arranged in the installation rear shell. The battery module comprises a shell, an electric core and a second magnetic attraction piece, wherein the shell is provided with an accommodating cavity, the shell is detachably arranged on the rear installation shell, the electric core and the second magnetic attraction piece are accommodated in the accommodating cavity, the electric core is used for storing electric energy, and the polarity of the second magnetic attraction piece is opposite to that of the first magnetic attraction piece. When the shell is arranged on the rear mounting shell, the battery core is electrically connected with a circuit in the remote controller main body, and the first magnetic attraction piece and the second magnetic attraction piece are mutually magnetically attracted. Through the structure, the weight of a single battery module can be reduced by replacing the battery module, so that the weight of the remote controller in use is reduced, and the operation is convenient.

Description

Battery module and remote controller

Technical Field

The embodiment of the application relates to the technical field of unmanned aerial vehicles, in particular to a battery module and a remote controller.

Background

Unmanned aircraft, for short unmanned aerial vehicles, are unmanned aerial vehicles that are operated by means of radio remote control devices and self-contained program control means, which can also be operated autonomously, either entirely or intermittently, by a computer. Since no specific staff is required to drive, the unmanned aerial vehicle can afford some dangerous or repetitive work. At present, unmanned aerial vehicle technology is already mature and civil, and is widely applied to various technical fields such as aerial photography, agriculture, plant protection, miniature self-timer shooting, express delivery transportation, disaster relief, wild animal observation, infectious disease monitoring, mapping, news reporting, power inspection, disaster relief, video shooting and the like.

Unmanned aerial vehicle is generally supporting with unmanned aerial vehicle remote controller when selling to the user realizes controlling unmanned aerial vehicle through this unmanned aerial vehicle remote controller. And the long-time unmanned aerial vehicle remote controller is used, the problem of electric quantity duration is accompanied.

In the course of implementing the embodiments of the present application, the inventors found that: at present, unmanned aerial vehicle remote controller includes remote controller main part and battery, and the charging mode of battery is direct grafting power cord and charges, and this kind of structure can increase unmanned aerial vehicle battery because long-time continuation of the journey requirement, leads to battery weight increase, unmanned aerial vehicle remote controller weight increase, inconvenient operation.

Disclosure of Invention

The embodiment of the application provides a battery module and remote controller, can improve battery weight and increase, unmanned aerial vehicle remote controller weight increases, the current situation of being inconvenient for the operation.

In order to solve the technical problems, a technical scheme adopted by the embodiment of the application is to provide a battery module. The battery module is applied to a remote controller, the remote controller comprises a remote controller main body, and the battery module comprises a rear mounting shell, a first magnetic attraction piece and a battery module. The installation rear shell is used for installing the remote controller main body. The first magnetic attraction piece is at least partially installed in the installation rear shell. The battery module comprises a shell, a battery core and a second magnetic attraction piece, wherein the shell is provided with an accommodating cavity, the shell is detachably arranged on the installation rear shell, the battery core and the second magnetic attraction piece are accommodated in the accommodating cavity, the battery core is used for storing electric energy, and the polarity of the second magnetic attraction piece is opposite to that of the first magnetic attraction piece. When the shell is arranged on the rear installation shell, the battery cell is electrically connected with a circuit in the remote controller main body, and the first magnetic attraction piece and the second magnetic attraction piece are mutually magnetically attracted.

Optionally, the installation backshell is provided with first wall, second wall and third wall, first wall and second wall set up along first direction relatively, the both ends of third wall are connected respectively first wall and second wall, first wall, second wall and third wall enclose into a holding tank jointly, the holding tank is relative installation backshell indent sets up, battery module accept in the holding tank.

Optionally, the installation backshell is provided with first butt region, first butt region is located on the third wall, first magnetism inhale the piece at least partially install in the inside of installation backshell, first magnetism inhale the piece set up in first butt region. The housing is provided with a second abutment region, the second magnetic attraction piece is at least partially mounted inside the housing, and the second magnetic attraction piece is disposed in the second abutment region. When the battery module is mounted on the mounting rear case, the first abutting region abuts against the second abutting region, the first magnetic attraction piece and the second magnetic attraction piece magnetically attract each other, the first abutting region and the second abutting region are oppositely arranged along a second direction, and the second direction is perpendicular to the first direction.

Optionally, the mounting rear shell is provided with a first guide protrusion, and the first guide protrusion is arranged on one side of the first wall surface and/or the second wall surface, which faces the accommodating groove. The shell is provided with a first guide groove, the first guide groove is arranged on two sides of the shell in the first direction, and when the battery module is contained in the containing groove, the first guide protrusion and the first guide groove slide relatively.

Optionally, the installation backshell is provided with fourth wall and second direction arch, the fourth wall with first wall, second wall and third wall are all perpendicular, the second direction arch set up in the fourth wall towards the one side of accepting groove. The shell is provided with a second guide groove, the second guide groove is formed in the surface of the shell in the third direction, and when the battery module is contained in the containing groove, the second guide protrusion and the second guide groove slide relatively. The third direction, the first direction and the second direction are perpendicular to each other, the first direction is the direction in which the first wall surface and the second wall surface are oppositely arranged, and the second direction is the direction in which the third wall surface faces.

Optionally, the battery module further includes an interface exposed on a wall surface of the housing in the second direction, the interface is electrically connected with the electric core, and the interface is used for being abutted to a power connector in the remote controller main body.

In order to solve the technical problem, another technical scheme is further adopted in the embodiment of the application, and the remote controller comprises a remote controller main body and the battery module, wherein the remote controller main body is installed on the installation rear shell.

Optionally, the remote controller further includes a stand, the stand including: mounting bracket, adjustment mechanism and equipment support. The mounting bracket is used for being detachably mounted on a mounting rear shell of the battery module. The adjusting mechanism comprises a connecting frame and a rotating table, one end of the connecting frame is rotationally connected to the mounting bracket, the rotating table is rotationally connected with the other end of the connecting frame around a preset direction, the rotating table can also rotate around a preset direction relative to the connecting frame, and the preset direction is perpendicular to the preset direction. The equipment support is arranged on the rotary table and used for accommodating the mobile terminal.

Optionally, the mounting bracket comprises a mounting bracket body and a screw-connection piece, and the mounting bracket is used for being screwed to the threaded hole of the mounting rear shell through the screw-connection piece.

Optionally, the device support includes a base and two end caps, two end caps are disposed opposite to each other on two sides of the base, at least one of the two end caps is movable relative to the base, the base is used for carrying a mobile terminal, and the end caps are used for clamping the mobile terminal. The end cover has a first preset state and a second preset state, and in the first preset state, the distance between the end cover and the base is adjustable. And in the second preset state, the two end covers and the base clamp and fix the mobile terminal together.

Optionally, the device support further comprises a tension spring, one end of the tension spring is connected to the end cover, and the other end of the tension spring is connected to the base.

Optionally, the device support further comprises a silica gel pad, and the silica gel pad is arranged on the surfaces of the base and the two end covers for clamping the mobile terminal.

The beneficial effects of the embodiment of the application are that: in other words, the battery module comprises a mounting rear shell, a first magnetic attraction piece and a battery module. The installation rear shell is used for being installed on the remote controller main body. The first magnetic attraction piece is at least partially installed in the installation rear shell. The battery module comprises a shell, a battery core and a second magnetic attraction piece, wherein the shell is provided with an accommodating cavity, the shell is detachably arranged on the installation rear shell, the battery core and the second magnetic attraction piece are accommodated in the accommodating cavity, the battery core is used for storing electric energy, and the polarity of the second magnetic attraction piece is opposite to that of the first magnetic attraction piece. When the shell is arranged on the rear installation shell, the battery cell is electrically connected with a circuit in the remote controller main body, and the first magnetic attraction piece and the second magnetic attraction piece are mutually magnetically attracted. Through the structure, after the electric quantity of the remote controller is used up, the battery module can be directly separated, so that the distance between the first magnetic attraction piece and the second magnetic attraction piece is far enough to be incapable of being adsorbed and fixed, the weight of a single battery module is reduced by changing the battery module, the weight of the remote controller during use is reduced, and the operation is convenient.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which the figures of the drawings are not to scale, unless expressly stated otherwise.

Fig. 1 is a perspective view of a remote control provided in one embodiment of the present application;

FIG. 2 is a schematic diagram of a remote control according to one embodiment of the present application;

FIG. 3 is an exploded view of a remote control provided in one embodiment of the present application;

FIG. 4 is a partially exploded view of a remote control provided in one embodiment of the present application;

fig. 5 is an exploded view of a stent provided in one embodiment of the present application.

Reference numerals of the remote controller 1000 are as follows:

Detailed Description

In order to facilitate an understanding of the present application, the present application will be described in more detail below with reference to the accompanying drawings and specific examples. It will be understood that when an element is referred to as being "fixed" to another element, it can be directly on the other element or one or more intervening elements may be present therebetween. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or one or more intervening elements may be present therebetween. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the present application in this description is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The term "and/or" as used in this specification includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, a perspective view of a remote control 1000 according to one embodiment of the present application is shown. The embodiment of the application provides a remote controller 1000, the remote controller 1000 includes a remote controller main body 300 and a battery module 100, and the remote controller main body 300 is mounted on the battery module 100. The battery module 100 is used to power the remote controller body 300. The remote controller 1000 is used for controlling electric equipment such as an unmanned plane, an unmanned vehicle, an air conditioner, a television, and the like.

For the foregoing battery module 100, please refer to fig. 2 and 3, which respectively show a schematic view of the remote controller 1000 provided in one embodiment of the present application and an exploded view of the remote controller 1000 provided in one embodiment of the present application, and are combined with other drawings. The battery module 100 includes a mounting rear case 110, a first magnetic attraction member 120, and a battery module 130. The mounting rear case 110 is used to mount the remote controller main body 300. Optionally, the mounting rear case 110 and the remote controller main body 300 together enclose a receiving cavity for receiving electronic components in the remote controller main body 300; or, the battery module 100 is installed on the remote controller main body 300 through the installation back shell 110 in the form of an external standby power supply to charge or supply power to the remote controller main body 300, when the battery module 100 is in the form of an external standby power supply, the battery module 100 can charge the remote controller main body 300 in the form of wireless charging, and the principle of wireless charging is not repeated in the application. That is, the embodiment of the present application may be directly used as an electric energy source of the remote controller main body 300, or as a standby power source of the remote controller main body 300. The first magnetic attraction member 120 is at least partially mounted within the mounting rear housing 110. It should be noted that, in the rear mounting case 110 described herein, it means that the first magnetic attraction member 120 is located at a side of the rear mounting case 110 opposite to the battery module 130, and the first magnetic attraction member 120 may be housed in the housing cavity or exposed to the surface of the rear mounting case 110, but the first magnetic attraction member 120 is still located at a side of the rear mounting case 110 opposite to the battery module 130. The battery module 130 includes a housing 131, a battery core 132 and a second magnetic attraction member 133, the housing 131 is provided with a housing cavity 1311, the housing 131 is detachably mounted on the mounting rear housing 110, the battery core 132 and the second magnetic attraction member 133 are both housed in the housing cavity 1311, the battery core 132 is used for storing electric energy, and the polarity of the second magnetic attraction member 133 is opposite to that of the first magnetic attraction member 120. When the battery module 130 is mounted on the mounting rear case 110, the battery core 132 is electrically connected with a circuit in the remote controller 1000, and the first magnetic attraction member 120 and the second magnetic attraction member 133 magnetically attract each other. That is, the battery module 130 is mounted on the mounting rear case 110 by mutual magnetic attraction between the first and second magnetic attraction pieces 120 and 133, alternatively, the first and second magnetic attraction pieces 120 and 133 may be permanent magnets such as magnets or electromagnets. It will be appreciated that the embodiments described in this application: through the above structure, after the electricity of the remote controller 1000 is used up, the battery module 130 can be directly separated, so that the distance between the first magnetic attraction piece 120 and the second magnetic attraction piece 133 is far enough to be incapable of being adsorbed and fixed, and the weight of the single battery module 130 is reduced by replacing the battery module 130, so that the weight of the remote controller 1000 in use is reduced, and the operation is convenient. The manner of replacing the battery module 130 reduces the weight of the single battery module 130, so as to reduce the weight of the remote controller 1000 when in use, that is, the volume and weight of the battery module 130 do not need to be increased in order to increase the battery capacity, because only another battery needs to be replaced, the manner of design is convenient for reducing the weight of the remote controller 1000 when in use, and the user experience is improved. The remote controller main body 300 is mounted to the mounting rear case 110.

For the above-described mounting rear case 110, please refer to fig. 4, which shows a partially exploded view of a remote control 1000 according to one embodiment of the present application, in combination with other drawings. The mounting rear case 110 is provided with a first wall surface 111, a second wall surface 112 and a third wall surface 113, the first wall surface 111 and the second wall surface 112 are oppositely arranged along the first direction F1, two ends of the third wall surface 113 are respectively connected with the first wall surface 111 and the second wall surface 112, the first wall surface 111, the second wall surface 112 and the third wall surface 113 jointly enclose a containing groove 114, the containing groove 114 is concavely arranged relative to the mounting rear case 110, and the battery module 130 is contained in the containing groove 114. It should be noted that, in the embodiment of the present application, the battery module 100 described in the above embodiment is directly used as the electric energy source of the remote controller main body 300, so the battery module 130 in the above design is accommodated in the accommodating groove 114, and the outer surface of the battery module 130 is flush with or concave in the rear mounting shell 110, so that the appearance of the battery module 100 and the remote controller 1000 is attractive, and the experience of the user is improved.

It should be noted that, in the embodiment of the present application, the remote controller 1000, the remote controller main body 300, the battery module 100, and the mounting rear case 110 are provided. The remote controller 1000 refers to a device that the remote controller 1000 can perform remote control operations after other parts form the remote controller 1000. Alternatively, the remote controller main body 300 may be a device for performing remote control operation independently, and the battery module 100 with the rear case 110 is a component for improving the cruising ability of the remote controller main body 300, that is, the battery module 100 is used as an external power source to form the remote controller 1000 together with the remote controller main body 300; alternatively, the remote controller body 300 is mounted to the mounting rear case 110 to form a unit, and the remote controller body 300 is powered by the battery module 130, thereby forming a complete remote controller 1000. That is, the embodiment of the present application may be directly used as an electric energy source of the remote controller main body 300, or as a standby power source of the remote controller main body 300.

Further, the mounting rear case 110 is provided with a first abutment region 115, the first abutment region 115 is located on the third wall surface 113, the first magnetic attraction piece 120 is at least partially mounted inside the mounting rear case 110, and the first magnetic attraction piece 120 is disposed in the first abutment region 115. The housing 131 is provided with a second abutment region 1312, the second magnetic attraction piece 133 is at least partially mounted inside the housing 131, and the second magnetic attraction piece 133 is provided in the second abutment region 1312. When the battery module 130 is mounted on the mounting rear case 110, the first abutting region 115 and the second abutting region 1312 abut, the first magnetic attraction member 120 and the second magnetic attraction member 133 magnetically attract each other, the first abutting region 115 and the second abutting region 1312 are disposed opposite to each other along the second direction F2, and the second direction F2 is perpendicular to the first direction F1. It should be noted that, in the embodiment of the present application, the mounting rear case 110 is provided with two first abutting regions 115, the battery module 100 includes two first magnetic attraction members 120, and the outer case 131 is provided with two second abutting regions 1312 and two second magnetic attraction members 133. The first abutting region 115 and the second abutting region 1312 are in one-to-one correspondence, and the first magnetic attraction member 120 and the second magnetic attraction member 133 are in one-to-one correspondence. It should be noted that, please refer to fig. 3 in combination with other drawings. The battery module 130 further includes an interface 134, the interface 134 is exposed on a wall surface of the housing 131 in the second direction F2, the interface 134 is electrically connected to the battery core 132, and the interface 134 is used for abutting against a power connector in the remote controller 1000. And the two second abutting regions 1312 and the two second magnetic attraction pieces 133 are oppositely arranged at two sides of the interface 134. By providing a plurality of magnetic attraction members and abutment areas, the battery module 130 is stably mounted with the mounting rear case 110.

Further, please refer to fig. 4 in combination with other drawings. The mounting rear case 110 is provided with a first guide projection 116, and the first guide projection 116 is provided on a side of the first wall surface 111 and/or the second wall surface 112 facing the accommodating groove 114. The case 131 is provided with first guide grooves 1313, the first guide grooves 1313 are provided at both sides of the case 131 in the first direction F1, and the first guide protrusions 116 and the first guide grooves 1313 relatively slide while the battery modules 130 are received in the receiving grooves 114. It is understood that the first guide protrusion 116 extends along the first wall surface 111 and/or the second wall surface 112, and the first guide groove 1313 extends along the outer wall of the battery module 130. The first guide protrusion 116 and the first guide groove 1313 facilitate the mounting of the battery module 130 to the mounting rear case 110 on the one hand, and on the other hand, can restrict the displacement of the battery module 130 in a direction perpendicular to the relative sliding direction of the first guide protrusion 116 and the first guide groove 1313, thereby further fixing the battery module 130 by means of magnetic attraction, guide rails, and guide grooves.

Further, please refer to fig. 4 in combination with other drawings. The mounting rear case 110 is provided with a fourth wall surface 117 and a second guide projection 118, the fourth wall surface 117 is perpendicular to the first wall surface 111, the second wall surface 112 and the third wall surface 113, and the second guide projection 118 is provided on a side of the fourth wall surface 117 facing the receiving groove 114. The housing 131 is provided with a second guiding groove 1314, and the second guiding groove 1314 is disposed on a surface of the housing 131 in the third direction F3, and when the battery module 130 is received in the receiving groove 114, the second guiding protrusion 118 slides relative to the second guiding groove 1314. The third direction F3, the first direction F1 and the second direction F2 are perpendicular to each other, the first direction F1 is a direction in which the first wall surface 111 and the second wall surface 112 are disposed opposite to each other, and the second direction F2 is a direction in which the third wall surface 113 faces. Likewise, the second guide protrusions 118 and the second guide grooves 1314 may facilitate the mounting of the battery module 130 on the mounting rear case 110 on the one hand, and may restrict the displacement of the battery module 130 in a direction perpendicular to the sliding direction of the second guide protrusions 118 and the second guide grooves 1314, thereby further fixing the battery module 130 by means of magnetic attraction, guide rails, and guide grooves, on the other hand, the second guide protrusions 118 and the second guide grooves 1314 may also serve as foolproof structures of the battery module 130, thereby preventing the battery module 130 from being reversely mounted.

For the foregoing remote control 1000, please refer to fig. 3 and 5, wherein fig. 5 shows an exploded view of a stand provided in one embodiment of the present application, in combination with other figures. In the embodiment of the present application, the remote controller 1000 further includes a stand 200. The stand 200 includes: mounting bracket 210, adjustment mechanism 220, and device support 230. The mounting bracket 210 is for detachably mounting to the mounting rear case 110 of the battery module 100. The adjusting mechanism 220 includes a connecting frame 221 and a rotating table 222, one end of the connecting frame 221 is rotatably connected to the mounting bracket 210, the rotating table 222 is rotatably connected to the other end of the connecting frame 221 around a preset direction X, and the rotating table 222 can rotate around a set direction Y relative to the connecting frame 221, where the set direction Y is perpendicular to the preset direction X. The device holder 230 is mounted on the rotary table 222, and the device holder 230 is used for accommodating a mobile terminal. That is, the stand 200 may be detachably mounted on the remote controller 1000 on one hand, and the angle of the device holder 230 may be adjusted by the adjusting mechanism 220 on the other hand, so that the use is facilitated for the user.

For the mounting bracket 210, please refer to fig. 5, in combination with other figures. The mounting bracket 210 includes a mounting bracket body 211 and a screw 212, and the mounting bracket 210 is for screw-coupling to a screw hole of the mounting rear case 110 through the screw 212. By using the screw fixing manner, the mounting stability of the mounting bracket body 211 and the mounting rear case 110 is improved. Alternatively, two or more screw members 212 may be provided to screw the mounting bracket body 211 to the mounting rear case 110, and only one screw member is provided for convenience of assembly and disassembly.

For the above-described device support 230, please refer to fig. 5 in combination with other figures. The device support 230 includes a base 231 and two end caps 232, the two end caps 232 are disposed on two sides of the base 231, at least one of the two end caps 232 is movable relative to the base 231, the base 231 is used for carrying a mobile terminal, and the end caps 232 are used for clamping the mobile terminal. The end cover 232 has a first preset state and a second preset state, and in the first preset state, a distance between the end cover 232 and the base 231 is adjustable; in the second preset state, the two end covers 232 and the base 231 clamp and fix the mobile terminal together. It should be noted that, the distance between the end cover 232 and the seat 231 may be adjustable, that is, a portion of the end cover 232 is inserted into the seat 231, and that portion inserted into the seat 231 may slide along a straight line with respect to the seat 231, so that the distance between the end covers 232 may be adjustable. The two end caps 232 and the base 231 clamp and fix the mobile terminal together, and a hook and a clamping groove (not shown in the figure) and a fastening screw (not shown in the figure) are arranged between one of the end caps 232 and the base 231, so that the distance between the two end caps 232 is fixed, wherein the hook and the clamping groove are clamped to fix the distance between the end caps 232 and the base 231, and the principle of the fastening screw is similar to a vernier caliper, and is not repeated here.

Further, please refer to fig. 5 in combination with other figures. The embodiment of the present application adopts a form that the device support 230 further includes a tension spring 233, one end of the tension spring 233 is connected to the end cover 232, and the other end is connected to the base 231. By utilizing the tension of the tension spring 233, the two end covers 232 and the base 231 clamp and fix the mobile terminal together.

In the embodiment of the present application, please refer to fig. 5 in combination with other drawings. The device holder 230 further includes a silica gel pad 234, and the silica gel pad 234 is disposed on the surface of the base 231 and the both end caps 232 for holding the mobile terminal. The silica gel pad 234 is used for abutting the mobile terminal, and preventing the surface of the bracket 200 from scratching the mobile terminal. It should be noted that, the mobile terminal includes a mobile phone, a tablet computer, a mobile display screen, and the like.

The embodiment of the application provides a battery module 100, battery module 100 is applied to remote controller 1000, remote controller 1000 includes remote controller main part 300, battery module 100 includes: the rear case 110, the first magnetic attraction member 120, and the battery module 130 are mounted. The mounting rear case 110 is used to mount the remote controller main body 300. The first magnetic attraction member 120 is at least partially mounted within the mounting rear housing 110. The battery module 130 includes a housing 131, a battery core 132 and a second magnetic attraction member 133, the housing 131 is provided with a housing cavity 1311, the housing 131 is detachably mounted on the mounting rear housing 110, the battery core 132 and the second magnetic attraction member 133 are both housed in the housing cavity 1311, the battery core 132 is used for storing electric energy, and the polarity of the second magnetic attraction member 133 is opposite to that of the first magnetic attraction member 120. When the battery module 130 is mounted on the mounting rear case 110, the battery core 132 is electrically connected with a circuit in the remote controller 1000, and the first magnetic attraction member 120 and the second magnetic attraction member 133 magnetically attract each other. Through the above structure, after the electricity of the remote controller 1000 is used up, the battery module 130 can be directly separated, so that the distance between the first magnetic attraction piece 120 and the second magnetic attraction piece 133 is far enough to be incapable of being adsorbed and fixed, and the weight of the single battery module 130 is reduced by replacing the battery module 130, so that the weight of the remote controller 1000 in use is reduced, and the operation is convenient.

Based on the same inventive concept, the embodiment of the present application further provides a remote controller 1000, including the battery module 100, the bracket 200 and the remote controller main body 300, where the structure and the function of the battery module 100 are consistent with those described above, and will not be repeated here, so that the remote controller 1000 can also improve the current situation that the weight of the current battery increases, and the weight of the remote controller of the unmanned aerial vehicle increases, which is inconvenient to operate.

It should be noted that the description and drawings of the present application show preferred embodiments of the present application, but the present application may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, which are not to be construed as additional limitations on the content of the present application, but are provided for the purpose of providing a more thorough understanding of the present disclosure. The above-described features are further combined with each other to form various embodiments not listed above, and are considered to be the scope described in the present specification; further, modifications and variations of the present utility model may occur to those skilled in the art in light of the foregoing teachings, and all such modifications and variations are intended to be within the scope of the appended claims.

Claims (12)

1. A battery module, characterized in that is applied to the remote controller, the remote controller includes the remote controller main part, the battery module includes:

a mounting rear case for mounting the remote controller main body;

the first magnetic attraction piece is at least partially arranged in the installation rear shell;

the battery module comprises a shell, a battery core and a second magnetic attraction piece, wherein the shell is provided with an accommodating cavity, the shell is detachably arranged on the rear installation shell, the battery core and the second magnetic attraction piece are accommodated in the accommodating cavity, the battery core is used for storing electric energy, and the polarity of the second magnetic attraction piece is opposite to that of the first magnetic attraction piece;

when the shell is arranged on the rear installation shell, the battery cell is electrically connected with a circuit in the remote controller main body, and the first magnetic attraction piece and the second magnetic attraction piece are mutually magnetically attracted.

2. The battery module according to claim 1, wherein the mounting rear case is provided with a first wall surface, a second wall surface and a third wall surface, the first wall surface and the second wall surface are oppositely arranged along a first direction, two ends of the third wall surface are respectively connected with the first wall surface and the second wall surface, the first wall surface, the second wall surface and the third wall surface jointly enclose a containing groove, the containing groove is concavely arranged relative to the mounting rear case, and the battery module is contained in the containing groove.

3. The battery module according to claim 2, wherein the mounting rear case is provided with a first abutment region on the third wall surface, the first magnetic attraction member is at least partially mounted inside the mounting rear case, and the first magnetic attraction member is provided in the first abutment region;

the shell is provided with a second abutting area, the second magnetic attraction piece is at least partially installed inside the shell, and the second magnetic attraction piece is arranged in the second abutting area;

when the battery module is mounted on the mounting rear case, the first abutting region abuts against the second abutting region, the first magnetic attraction piece and the second magnetic attraction piece magnetically attract each other, the first abutting region and the second abutting region are oppositely arranged along a second direction, and the second direction is perpendicular to the first direction.

4. The battery module according to claim 2, wherein the mounting rear case is provided with a first guide protrusion provided at a side of the first wall surface and/or the second wall surface facing the receiving groove;

the shell is provided with a first guide groove, the first guide groove is arranged on two sides of the shell in the first direction, and when the battery module is contained in the containing groove, the first guide protrusion and the first guide groove slide relatively.

5. The battery module according to claim 4, wherein the mounting rear case is provided with a fourth wall surface perpendicular to the first, second and third wall surfaces and a second guide protrusion provided at a side of the fourth wall surface facing the receiving groove;

the shell is provided with a second guide groove, the second guide groove is arranged on the surface of the shell in the third direction, and when the battery module is accommodated in the accommodating groove, the second guide protrusion and the second guide groove slide relatively;

the third direction, the first direction and the second direction are perpendicular to each other, the first direction is the direction in which the first wall surface and the second wall surface are oppositely arranged, and the second direction is the direction in which the third wall surface faces.

6. The battery module of claim 1, further comprising an interface exposed on a wall of the housing in a second direction, the interface being electrically connected to the electrical core, the interface being for abutting with a power connector in a remote control body.

7. A remote controller comprising a remote controller main body, and the battery module according to any one of claims 1 to 6, the remote controller main body being mounted to the mounting rear case.

8. The remote control of claim 7, further comprising a stand, the stand comprising:

the mounting bracket is used for being detachably mounted on a mounting rear shell of the battery module;

the adjusting mechanism comprises a connecting frame and a rotating table, one end of the connecting frame is rotatably connected to the mounting bracket, the rotating table is rotatably connected with the other end of the connecting frame around a preset direction, the rotating table can also rotate around a set direction relative to the connecting frame, and the set direction is perpendicular to the preset direction;

the equipment support is arranged on the rotary table and used for accommodating the mobile terminal.

9. The remote control of claim 8, wherein the mounting bracket includes a mounting bracket body and a threaded member through which the mounting bracket is adapted to be threaded into the threaded bore of the mounting rear housing.

10. The remote control of claim 8, wherein the remote control comprises a remote control unit,

the equipment support comprises a base and two end covers, wherein the two end covers are oppositely arranged on two sides of the base, at least one of the two end covers can move relative to the base, the base is used for bearing a mobile terminal, and the end covers are used for clamping the mobile terminal;

the end cap has a first preset state and a second preset state,

in the first preset state, the distance between the end cover and the base can be adjusted;

and in the second preset state, the two end covers and the base clamp and fix the mobile terminal together.

11. The remote control of claim 10, wherein the device holder further comprises a tension spring having one end connected to the end cap and another end connected to the base.

12. The remote control of claim 10, wherein the device holder further comprises a silicone pad disposed on a surface of the base and the two end caps for holding the mobile terminal.

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