CN211828889U - Battery and electronic equipment - Google Patents

Abstract

The utility model relates to a battery and electronic equipment, include: the elastic pressing piece is arranged on the bottom wall of the box cavity of the battery box, and the clamping piece is arranged on the side wall of the battery box in a sliding mode; the battery body can be inserted into the box cavity and elastically abutted against the elastic abutting piece, a track locking mechanism is arranged on the side wall of the battery body and comprises a leading-in rail groove concavely arranged on the side wall of the battery body, a leading-out rail groove communicated with the leading-in rail groove and a locking clamping body arranged between the leading-in rail groove and the leading-out rail groove, when the battery body is pressed for the first time, the clamping piece can slide along the leading-in rail groove and is clamped and fixed with the locking clamping body, and the battery body is clamped into the battery box; when the battery body is pressed again, the clamping piece is separated from the locking clamping body and slides downwards along the guide rail groove to reset, and the battery body is automatically popped out from the battery box.

Description

Battery and electronic equipment

Technical Field

The utility model relates to an electronic equipment technical field especially relates to a battery and electronic equipment.

Background

Electronic devices such as cameras and camcorders are often powered by batteries to ensure reliable use over long periods of time. The battery is generally installed in a fixed or removable manner. For the detachable battery, when the power is used up, the battery needs to be detached from the device main body for charging; after full charge, the device is plugged into the device body again for continuous use. When the battery is assembled and disassembled in the prior art, most of the battery is tightly clamped and embedded in the battery bin, so that the battery can be pulled and taken out only by taking out the battery with great effort by a user, the operation is very inconvenient, and the user experience is poor.

SUMMERY OF THE UTILITY MODEL

Therefore, a need exists for a battery and an electronic device, which are used for solving the problems of inconvenient assembly and disassembly operations of the battery and poor operation experience of a user in the prior art.

The technical scheme is as follows:

in one aspect, the present application provides a battery comprising:

the battery box is provided with a box cavity, the bottom wall of the box cavity is provided with an elastic pressing piece, and the side wall of the battery box is provided with a clamping piece in a sliding mode; and

the battery body can be inserted into the box cavity and elastically abutted against the elastic abutting piece, a track locking mechanism is arranged on the side wall of the battery body and comprises a leading-in rail groove concavely arranged on the side wall of the battery body, a leading-out rail groove communicated with the leading-in rail groove and a locking clamping body arranged between the leading-in rail groove and the leading-out rail groove, when the battery body is pressed for the first time, the clamping piece can slide along the leading-in rail groove and is clamped and fixed with the locking clamping body, and the battery body is clamped into the battery box; when the battery body is pressed again, the clamping piece is separated from the locking clamping body and slides downwards along the guiding rail groove to reset, and the elastic pressing piece pushes the battery body to automatically pop out from the battery box.

The battery of the scheme is applied and installed in electronic equipment of types such as cameras and video cameras, and has the advantages of good waterproof performance, convenient assembly and disassembly and good use experience of users. Specifically, when the battery body is installed, the battery body is inserted into a box cavity of the battery box, then the battery body is pressed with slight force, the battery body starts to move downwards, the elastic abutting piece is gradually compressed in the process of moving downwards of the battery body, and the clamping piece correspondingly moves upwards along the guide-in rail groove and is clamped and fixed with the locking clamping body by virtue of the reset elasticity of the elastic abutting piece, so that the overall assembly of the battery is completed, and the installation operation is convenient and labor-saving; and when the battery body needs to be taken out for charging, only need press the battery body once more, the in-process of one section stroke that the battery body continues to move down, the joint spare breaks away from with the restraint of the locking card body and enters into and derives the rail inslot, after the user releases the battery body, because the elasticity effect that resets of elasticity support piece, this integument of battery pushes away and shifts up by oneself, the joint spare slides along deriving the rail inslot until reseing this moment, when elasticity support piece resumes initial form, at least a part of battery body stretches out in the battery case outside just, so the user only need exert oneself pull battery body can take out it, the dismantlement mode is simple, the simple operation is laborsaving, do benefit to promotion user and use experience.

The technical solution of the present application is further described below:

in one embodiment, the locking clip body is provided with a locking groove, and the clip member is embedded in the locking groove.

In one embodiment, a first limiting stop wall is formed at one end, away from the bottom wall of the battery box, of the guide rail groove.

In one embodiment, a track change stop is provided adjacent one side of the first limit stop wall, the track change stop being offset from the locking groove, the track change stop being disposed closer to the first limit stop wall than the locking groove.

In one embodiment, the guiding-out rail groove is arranged on one side, away from the guiding-in rail groove, of the locking clamp body.

In one embodiment, a second limit stop wall is formed at one end of the guide rail groove far away from the bottom wall of the battery box.

In one embodiment, the battery further comprises a battery cover, the battery cover is connected with the battery body, a sealing member is arranged on the battery cover, and the sealing member is used for being in sealing and abutting joint with the battery box.

In one embodiment, a first clamping groove is concavely arranged on the side wall of the battery cover, and the sealing element is clamped in the first clamping groove.

In one embodiment, a second clamping groove is concavely formed in the bottom wall of the box cavity, and one end of the elastic pressing piece is clamped in the second clamping groove.

In one embodiment, one of the inner wall of the battery cover and the battery body is provided with a clamping body, the other is provided with a clamping position, and the clamping body is connected with the clamping position buckle.

In one of them embodiment, the battery still includes fastener and gland, the outer wall of battery case is equipped with spout and mounting hole, the tank bottom of spout run through be provided with the via hole of box chamber intercommunication, joint spare includes convex body and card post, the card post pass the via hole and with the cooperation of track locking mechanism, the convex body slide set up in the spout, the fastener with the gland is connected the back and is inserted in the mounting hole, the gland will joint spare and the spout covers.

In addition, the application also provides an electronic device which comprises the battery.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification.

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a battery according to an embodiment of the present invention;

FIG. 2 is an exploded view of the cross-section A-A of FIG. 1;

fig. 3 is a schematic structural diagram of a battery body according to an embodiment of the present invention.

Description of reference numerals:

10. a battery case; 11. a chute; 12. a via hole; 13. a second card slot; 14. mounting holes; 20. an elastic pressing member; 30. a clamping piece; 31. a convex body; 32. clamping the column; 40. a battery body; 50. a rail locking mechanism; 51. guiding the rail groove; 52. a locking clamp body; 521. a locking groove; 522. leading in a pointed cone; 53. a first limit retaining wall; 54. a rail transfer stop block; 541. a lead-out slope; 55. leading out the rail groove; 56. a second limit retaining wall; 57. sharing a rail groove; 60. a battery cover; 70. a seal member; 80. a fastener; 90. and (7) pressing the cover.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and the following detailed description. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "secured to," "disposed on" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present; the specific manner of fixedly connecting one element to another element can be implemented by the prior art, and will not be described herein, and preferably, a screw-threaded connection is used.

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 invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the present invention, the terms "first" and "second" do not denote any particular quantity or order, but are merely used to distinguish names.

The application claims an electronic device, which may be but is not limited to a camera, a video camera, etc., and which may be selected according to actual needs. Taking a camera as an example, the camera comprises two main parts, namely a camera main body and a battery. The battery is used for supplying power to the camera main body to ensure normal work; and the camera main body is a direct execution unit for shooting and recording work. Conventionally, a camera body is designed with a slot, and a battery is inserted into the slot to complete installation.

As shown in fig. 1 and 2, a battery according to an embodiment of the present application includes: a battery case 10, a battery body 40, and a battery cover 60. In this embodiment, the battery body 40 is a rechargeable battery, and may specifically be a lithium battery, a nickel-chromium battery, a lead-acid battery, or the like. The battery case 10 is formed with a case cavity for housing the battery body 40. The battery cover 60 can be fastened to the battery case 10 to seal the battery body 40 in the battery case 10, thereby ensuring the safety of the battery body 40.

In order to reduce the number of parts and the difficulty of assembling the battery, the battery body 40 may be assembled with the battery cover 60 in advance. In one embodiment, one of the inner wall of the battery cover 60 and the battery body 40 is provided with a locking body, and the other is provided with a locking portion, and the locking body is connected with the locking portion by a snap fit. Therefore, by adopting a buckle connection mode, the clamping body can be clamped with the clamping position only by inserting the battery body 40 and the battery cover 60, the battery body 40 can be firmly assembled with the battery cover 60 into a whole, the assembly structure is simple, and the assembly and disassembly are convenient. Of course, in other embodiments, the battery body 40 and the battery cover 60 may also adopt other mature connection means in the prior art, such as screwing, bonding, riveting, and the like, and may be specifically selected according to actual needs.

The bottom wall of the cavity of the battery box 10 is provided with an elastic pressing part 20. Alternatively, the elastic pressing element 20 may be, but not limited to, a spring sheet, a rubber column, or the like, and preferably, the elastic pressing element 20 is a spring for providing an elastic pushing force so that the battery body 40 can be pushed to extend out of the opening of the battery box 10 during the detachment, thereby avoiding a difficult pulling operation of a user and improving the convenience of detaching the battery body 40 from the battery box 10.

The battery cover 60 is further provided with a sealing member 70, and when the battery body 40 is press-fitted into the battery case 10, the battery cover 60 can just cover the upper end opening of the battery case, and at this time, the sealing member 70 can be in sealing contact with the inner wall of the battery case 10. Therefore, the installation sealing is formed, and the waterproof capability of the battery after installation can be effectively improved. And the sealing structure realizes the design of a single waterproof point position, has a simple waterproof structure and small potential leakage hidden danger.

In this scheme, the sealing element 70 is a rubber sealing ring, a first locking groove is concavely formed in the side wall of the battery cover 60, and the sealing element 70 is locked in the first locking groove. So can guarantee that rubber seal installs firmly and is difficult for the pine to take off.

Since the elastic pressing member 20 is in deformation switching from compression to extension during the assembly and disassembly of the battery body 40, if the elastic pressing member 20 is displaced or topples over, the operation will fail. In this regard, in a further embodiment of the present application, the bottom wall of the box cavity is concavely provided with a second locking groove 13, and one end of the elastic pressing part 20 is locked in the second locking groove 13. Therefore, the elastic pressing piece 20 can be firmly inserted and fixed in the second clamping groove 13, and the stable posture and no displacement are ensured when the elastic pressing piece 20 is stretched and deformed.

Preferably, in this scheme, the number of the elastic pressing pieces 20 and the second slots 13 is two and is connected in a one-to-one correspondence manner, and the two elastic pressing pieces 20 are uniformly arranged below the battery body 40 at intervals, so that the battery body 40 is uniformly stressed, and the phenomenon of being locked by being inclined toward one side is avoided, so that the battery body 40 cannot be smoothly separated from the battery box 10.

The outer side wall of the battery box 10 is provided with a clamping piece 30 in a sliding way; the battery body 40 can be inserted into the box cavity and elastically abutted against the elastic abutting part 20 or taken out of the box cavity, a rail locking mechanism 50 is arranged on the side wall of the battery body 40, the rail locking mechanism 50 comprises a guide-in rail groove 51 concavely arranged on the side wall of the battery body 40, a guide-out rail groove 55 communicated with the guide-in rail groove 51 and a locking clamping body 52 arranged between the guide-in rail groove 51 and the guide-out rail groove 55, when the battery body 40 is pressed for the first time, the clamping member 30 can slide along the guide-in rail groove 51 relative to the battery body 40 and is clamped and fixed with the locking clamping body 52, and the battery body 40 is clamped into the battery box 10; when the battery body 40 is pressed again, the clip 60 can be separated from the locking clip 52 relative to the battery body 40 and slide down along the guiding track 55 to return, and the elastic pressing member 20 pushes the battery body 40 to be ejected from the battery box 10 automatically.

A common rail groove 57 is further provided below the introduction rail groove 51 and the lead-out rail groove 55, and the common rail groove 57 communicates with both the introduction rail groove 51 and the lead-out rail groove 55. When the battery body 40 is in the initial state of not being clamped or when the battery body is switched from the clamped state to the removed state, the clamping member 60 is located in the common rail groove 57.

To sum up, the implementation of the technical scheme of the application has the following beneficial effects: the battery of the scheme is applied and installed in electronic equipment of types such as cameras and video cameras, and has the advantages of good waterproof performance, convenient assembly and disassembly and good use experience of users. Specifically, when the battery body 40 is mounted, the battery body 40 is inserted into the cavity of the battery box 10, and then the battery body 40 is pressed with a little force, so that the battery body 40 starts to move downwards, the elastic pressing member 20 is gradually compressed in the process that the battery body 40 moves downwards, and the clamping member 30 correspondingly moves upwards from the common rail groove 57 along the guide rail groove 51 and is clamped and fixed with the locking clamping body 52 by virtue of the reset elasticity of the elastic pressing member 20, thereby completing the overall assembly of the battery, and the mounting operation is convenient and labor-saving; when the battery body 40 needs to be taken out for charging, the battery body 40 only needs to be pressed again, and during a section of stroke process that the battery body 40 continues to move downwards, the clamping piece 30 is separated from the constraint of the locking clamping body 52 and enters the guide-out rail groove 55, after the user releases the battery body 40, due to the reset elastic action of the elastic pressing piece 20, the battery body 40 is pushed to move upwards automatically, at the moment, the clamping piece 30 slides along the guide-out rail groove 55 until the clamping piece resets to the common rail groove 57, when the elastic pressing piece 20 recovers the initial form, at least one part of the battery body 40 just stretches out of the battery box 10, so that the user can take the battery body 40 out only by pulling the battery body 40 with slight force, the dismounting mode is simple, the operation is convenient and labor-saving, and the use experience of the.

With reference to fig. 1, in the present embodiment, the battery further includes a fastening member 80 and a pressing cover 90, a sliding groove 11 and a mounting hole 14 are formed in an outer wall of the battery box 10, a through hole 12 communicated with the box cavity is formed through a bottom of the sliding groove 11, the fastening member 30 includes a protrusion 31 and a locking post 32, the locking post 32 passes through the through hole 12 and is matched with the rail locking mechanism 50, the protrusion 31 is slidably disposed in the sliding groove 11, the fastening member 80 is connected with the pressing cover 90 and then inserted into the mounting hole 14, and the pressing cover 90 covers the fastening member 30 and the sliding groove 11. The convex body 31 is matched with the sliding groove 11, and can play a role in guiding and limiting the sliding of the clamping piece 30.

The clamping column 32 can contact with the track locking mechanism 50 after penetrating through the through hole 12, specifically, the clamping column 32 is locked with the track locking mechanism 50, so that the battery body 40 is fixed in the battery box 10 after being pressed for the first time, and meanwhile, the battery cover 60 is in sealing fit with the battery box 10 through the sealing element 70, so that the sealing and waterproof capabilities are ensured while the battery assembly is completed; when the battery cover 60 is pressed again, the clamping column 32 further slides on the track locking mechanism 50, the track locking mechanism 50 can release the locking of the clamping column 32, and the battery body 40 automatically pops upwards under the action of the spring force, so that the battery cover is convenient to disassemble and take out.

And fix gland 90 installation on battery case 10 through fastener 80, can form to joint spare 30 and spout 11 and cover, not only can promote the sealed level of battery case 10, prevent that outside steam from stretching into in the battery from via hole 12, also can promote to a certain extent simultaneously that the battery outward appearance is pleasing to the eye to can also avoid joint spare 30 to take place to interfere the card with outside spare part when sliding in spout 11 and hinder.

In particular, in the present embodiment, the rail locking mechanism 50 is substantially a stepped sliding rail structure, which can form a first sliding guide for the clamping member 30 with the first pressing of the battery cover 60, and finally lock the clamping member 30, so as to ensure that the battery body 40 can be stably retained in the battery box 10; when the battery cover 60 is pressed for the second time, the clamping piece 30 can be separated from the locking constraint, the stepped slide rail structure can form the second sliding guide for the clamping piece 30, the battery body 40 is in a free state at the moment, and under the action of upward elastic force exerted by a spring below, the upper part of the battery body 40 automatically extends out of the opening of the battery box 10 for a certain height, so that a user can conveniently detach and take the battery body 40.

Referring to fig. 3, in an embodiment, the starting end of the guiding rail groove 51 is formed at a position of the battery body 40 near the bottom wall, and is a flaring structure, so that the clamping member 30 can slide into the groove more easily. Then, the guiding rail groove 51 extends to the upper right of the locking clip body 52 and exceeds the top of the locking clip body 52, so that after the clip member 30 slides along the guiding rail groove 51, when the user presses the battery body 40 to feel resistance and loosen the battery body 40, the elastic pressing member 20 is gradually compressed in the downward moving process of the battery body 40, and at this time, the elastic pressing member 20 releases elastic force due to recovery deformation, that is, the elastic pressing member 20 pushes the battery body 40 to move upward, and the corresponding clip member 30 slides downward until contacting with the locking clip body 52. And because the elastic pressing member 20 does not completely recover to deform, the clamping member 30 can be firmly clamped and fixed with the locking clamping body 52 under the condition that the elastic pressing member continuously outputs the elastic pushing force, so that the battery body 40 can be firmly installed in the battery box 10.

The clamping manner of the clamping member 30 and the locking clamping body 52 can be various, in one embodiment, the locking clamping body 52 is provided with a locking groove 521, and the clamping member 30 is clamped and embedded in the locking groove 521. Locking groove 521 specifically is the V type recess, and both sides cell wall can form the side direction spacing to joint spare 30, can effectively retrain the degree of freedom of joint spare 30, prevents that joint spare 30 from deviating from in locking groove 521 by accident, and then leads to battery body 40 to jump out in the unexpected battery case 10 of following of battery. In particular, the notch of the locking groove 521 is opened toward the battery cover 60, so that when the spring exerts an upward elastic force to push the battery body 40, the battery body 40 has an upward movement momentum, and the engaging member 30 can be securely engaged with the locking groove 521, which constitutes a necessary condition for the battery body 40 to be fixed in the battery case 10.

Of course, it should be noted that, in other embodiments, in order to restrain and fix the clamping member 30 after the battery cover 60 is pressed once, in addition to the above-mentioned matching structure of the spring and the locking groove 521, other locking structures in the prior art, such as a magnetic attraction locking structure, a spring plate locking structure, etc., may also be adopted.

With reference to fig. 3, a first limiting wall 53 is formed at an end of the guiding rail 51 away from the bottom wall of the battery box 10. When the joint member 30 slides along the guiding track, the first limit blocking wall 53 can block the joint member 30, so that the joint member 30 is prevented from excessively moving, the battery body 40 and the spring are excessively extruded and damaged, the upward moving stroke of the joint member 30 can be controlled, and the joint member 30 can be clamped into the locking groove 521 more quickly and accurately.

It is further emphasized that the locking clip 52 is formed as a tapered surface toward the lower end of the common rail groove 57, and the tapered surface is inclined toward the lead-out rail groove 55. This structural design can guarantee once when pressing battery body 40, joint spare 30 shifts up from sharing rail groove 57 and can only normally get into leading-in rail groove 51 under the guiding action of the conical surface, and then guarantees that joint spare 30 can realize battery body 40 with the locking groove 521 joint and clamp.

Similarly, referring to fig. 3, a rail-changing stopper 54 is disposed adjacent to one side of the first limit stop wall 53, an end of the rail-changing stopper 54 facing the locking groove 521 is formed into a tapered surface inclined toward the first limit stop wall 53, and the rail-changing stopper 54 is disposed closer to the first limit stop wall 53 than to the locking groove 521. Therefore, when the battery body 40 needs to be removed and the battery cover 60 is pressed for the second time, the spring applies an upward pushing force to the battery body 40, at this time, the clamping member 30 moves upward and contacts with the guiding inclined surface 541 of the track changing stopper 54, and can rapidly move laterally to be separated from the locking groove 521 under the guiding action of the guiding inclined surface 541, so that the constraint of the clamping member 30 on the battery body 40 can be released.

Further, the guide-out rail groove 55 is disposed on a side of the locking clamp body 52 away from the guide-in rail groove 51. When the clamping member 30 is guided out of the locking groove 521 by the guiding-out slope 541, the clamping member can slide into the guiding-out rail groove 55, since the guiding-out rail groove 55 is communicated with the guiding-in rail groove 51, the battery body 40 can be pushed to move up rapidly under the action of the spring force, the corresponding clamping member 30 slides into the guiding-in rail groove 51 along the guiding-out rail groove 55, and finally slides out of the guiding-in rail groove 51, and the battery body 40 can be detached rapidly.

It can be understood that the installation and removal of the battery body 40 correspond to the sliding movement of the engaging member 30 in the sliding groove 11 and the sliding movement in the guide-in rail, the locking groove 521 and the guide-out rail. The sliding of the clip 30 in the slide groove 11 is adapted to the structural shape of the guide-in rail, the locking groove 521 and the guide-out rail groove 55.

With continued reference to fig. 3, a second limit stop wall 56 is formed at an end of the guiding track groove 55 away from the bottom wall of the battery box 10. When the clamping member 30 slides into the guiding-out chute 11 along the inclined surface of the rail-changing stopper 54, the second limiting stopper wall 56 can stop the clamping member 30, so that the clamping member 30 (namely, the battery body 40) is prevented from excessively moving downwards, and meanwhile, the upward moving stroke of the clamping member 30 can be controlled, so that the clamping member 30 can more quickly and accurately fall back and slide into the guiding-out chute 55.

In summary, the assembly and disassembly process of the battery body 40 in this embodiment can be briefly described as follows: when the battery pack is mounted, the battery body 40 is firstly inserted into the battery box 10, and then the battery body 40 is pressed to move to the deep part of the battery box 10, in the process, the clamping column 32 of the clamping and connecting member 30 reversely slides out of the common rail groove 57 and gradually abuts against the first limit stop wall 53 along the guide rail groove 51 (opposite to the moving direction of the battery body 40, the battery body 40 moves downwards, and the clamping column 32 moves upwards), and in the process, the elastic abutting member 20 is compressed by the battery body 40; when the user feels that the battery body 40 is blocked, the battery body 40 is released, at this time, the battery body 40 starts to move upwards under the action of the reset elasticity of the elastic pressing piece 20, and the corresponding clamping column 32 starts to move downwards; until the guiding taper 522 extending out from the right side of the locking clip body 52 guides the clip into the locking groove 521, the clip 32 is firmly clipped in the locking groove 521 by the elastic pushing force of the elastic pressing member 20, and the battery body 40 is completely clipped in the battery box 10, thereby completing the installation operation.

When the battery body 40 needs to be detached, the user only needs to press the battery body 40 again, the battery body 40 moves downwards to press the elastic abutting piece 20, in the process, the clamping column 32 moves upwards and is guided by the guiding inclined plane 541 to enter the guiding rail groove 55, the clamping column 32 moves upwards along the guiding rail groove 55 until the clamping column abuts against the second limiting blocking wall 56, when the user feels that the battery body 40 is blocked, the battery body 40 is loosened, at the moment, the battery body 40 starts to move upwards automatically under the action of the reset elastic force of the elastic abutting piece 20, and the clamping column 32 correspondingly moves downwards along the guiding rail groove 55 and returns to the common rail groove 57; when the elastic pressing member 20 is completely restored to the initial state, a part of the battery body 40 just extends out of the battery box 10, so that the user can conveniently pull out the battery body in a labor-saving manner for charging.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (12)

1. A battery, comprising:

the battery box is provided with a box cavity, the bottom wall of the box cavity is provided with an elastic pressing piece, and the side wall of the battery box is provided with a clamping piece in a sliding mode; and

the battery body can be inserted into the box cavity and elastically abutted against the elastic abutting piece, a track locking mechanism is arranged on the side wall of the battery body and comprises a leading-in rail groove concavely arranged on the side wall of the battery body, a leading-out rail groove communicated with the leading-in rail groove and a locking clamping body arranged between the leading-in rail groove and the leading-out rail groove, when the battery body is pressed for the first time, the clamping piece can slide along the leading-in rail groove and is clamped and fixed with the locking clamping body, and the battery body is clamped into the battery box; when the battery body is pressed again, the clamping piece is separated from the locking clamping body and slides downwards along the guiding rail groove to reset, and the elastic pressing piece pushes the battery body to automatically pop out from the battery box.

2. The battery of claim 1, wherein the locking clip body is provided with a locking groove, and the clip member is inserted into the locking groove.

3. The battery of claim 2, wherein the end of the guide rail groove away from the bottom wall of the battery case is formed with a first stopper wall.

4. The battery of claim 3 wherein a tracking stop is provided adjacent one side of the first limit stop wall, the tracking stop being offset from the locking groove, the tracking stop being disposed closer to the first limit stop wall than the locking groove.

5. The battery of claim 4, wherein the lead-out rail groove is disposed on a side of the locking clip body away from the lead-in rail groove.

6. The battery of claim 5, wherein the end of the guide-out rail groove away from the bottom wall of the battery case is formed with a second stopper wall.

7. The battery of any one of claims 1 to 6, further comprising a battery cover connected to the battery body and having a seal disposed thereon for sealing abutment with the battery compartment.

8. The battery of claim 7, wherein a first slot is recessed in a sidewall of the battery cover, and the sealing element is snap-fitted into the first slot.

9. The battery of claim 8, wherein a second slot is concavely formed in the bottom wall of the box cavity, and one end of the elastic pressing member is clamped in the second slot.

10. The battery as claimed in claim 9, wherein one of the inner wall of the battery cover and the battery body is provided with a locking member, and the other is provided with a locking member, and the locking member is engaged with the locking member.

11. The battery of claim 10, wherein the battery further comprises a fastener and a pressing cover, the outer wall of the battery box is provided with a sliding groove and a mounting hole, a through hole communicated with the box cavity is formed in the bottom of the sliding groove in a penetrating manner, the clamping member comprises a convex body and a clamping column, the clamping column penetrates through the through hole and is matched with the rail locking mechanism, the convex body is slidably arranged in the sliding groove, the fastener is connected with the pressing cover and then inserted into the mounting hole, and the pressing cover covers the clamping member and the sliding groove.

12. An electronic device comprising a battery as claimed in any one of claims 1 to 11.

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