CN210136933U

CN210136933U - Battery quick detach structure

Info

Publication number: CN210136933U
Application number: CN201921511685.0U
Authority: CN
Inventors: 何鹏
Original assignee: Goertek Techology Co Ltd
Current assignee: Goertek Techology Co Ltd
Priority date: 2019-09-11
Filing date: 2019-09-11
Publication date: 2020-03-10
Anticipated expiration: 2029-09-11

Abstract

The utility model discloses a quick-release structure for batteries, which comprises a mounting shell, wherein a seesaw mechanism and a mounting groove for accommodating batteries are arranged in the mounting shell, one end of the seesaw mechanism is connected with a first elastic supporting mechanism, and the first elastic supporting mechanism can move upwards to abut against the batteries; the other end of the seesaw mechanism is connected with a second elastic supporting mechanism, the other end of the second elastic supporting mechanism is hinged with a key mechanism, the other end of the key mechanism is hinged with a transmission mechanism, and the other end of the transmission mechanism is hinged with a cover plate; when taking out the battery, press key mechanism, key mechanism drives second elastic support mechanism downstream, drives seesaw mechanism clockwise, drives first elastic support mechanism upward movement through seesaw mechanism, and simultaneously, key mechanism drives the apron and removes to the direction of keeping away from the mounting groove through drive mechanism, and first elastic support mechanism is with battery ejection mounting groove. The utility model discloses a battery rapid disassembly structure convenient operation is swift, but high efficiency's realization battery installation and dismantlement in the mounting groove.

Description

Battery quick detach structure

Technical Field

The utility model relates to a battery installation and dismantlement technical field relate to a battery rapid disassembly structure particularly.

Background

At present, dry batteries are used for providing energy in most game handles, remote controllers and electric toys, because the audiences of the products are wide, the requirements on the disassembly and the assembly of the dry batteries are fast and simple, and the dry batteries are stable and reliable after being assembled. Especially in some amusement places, the installation and the disassembly of the dry battery of the product are more frequent.

The dry battery is usually installed in the installation groove of the product, the positive electrode part of the dry battery is protruded by about 1mm than the installation groove, the nail is used for propping against the protrusion of the positive electrode part of the battery, the battery is slightly retracted towards the negative electrode, and then the nail is used for slightly lifting the battery upwards, so that the battery is separated from the installation groove. The battery mounting and dismounting mode is complicated to operate, and wastes time and labor; the detacher is required to have a fingernail or a smaller fingernail-like tool; the battery has the continuous actions of firstly retracting and then lifting, and the force application continuity of the detacher in two directions is needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a battery rapid disassembly structure to solve the current battery installation and dismantle the complex operation that the process exists, defect that wastes time and energy.

Therefore, the utility model provides a quick-release structure for batteries, which comprises a mounting shell, wherein a seesaw mechanism and a mounting groove for accommodating batteries are arranged in the mounting shell, one end of the seesaw mechanism is connected with a first elastic supporting mechanism, and the first elastic supporting mechanism can move upwards to abut against the batteries; the other end of the seesaw mechanism is connected with a second elastic supporting mechanism, the other end of the second elastic supporting mechanism is hinged with a key mechanism, the other end of the key mechanism is hinged with a transmission mechanism, and the other end of the transmission mechanism is hinged with a cover plate; when the battery is taken out, the key mechanism is pressed, the key mechanism drives the second elastic supporting mechanism to move downwards so as to drive the seesaw mechanism to move clockwise, the first elastic supporting mechanism is driven to move upwards through the seesaw mechanism, meanwhile, the key mechanism drives the cover plate to move towards the direction far away from the mounting groove through the transmission mechanism, and the first elastic supporting mechanism pushes the battery out of the mounting groove; or the cover plate is directly pushed to move towards the direction far away from the mounting groove, the cover plate drives the second elastic supporting mechanism to move downwards through the transmission mechanism and the key mechanism, and therefore the seesaw mechanism drives the first elastic supporting mechanism to move upwards, and the battery is ejected out of the mounting groove.

Preferably, the cover plate is arranged on the top of the mounting shell in parallel and positioned on one side of the opening of the mounting groove; after the battery is placed into the mounting groove, the cover plate covers a part of the battery to limit the battery.

Preferably, the projection of the mounting shell is rectangular and comprises a shell top plate and a shell bottom plate which are arranged in parallel, and a shell side plate is vertically arranged between the shell top plate and the shell bottom plate; the shell side plate is provided with a first through hole, and one side of the shell top plate is provided with a second through hole.

Preferably, the mounting groove and the mounting shell are an integral piece, the projection of the mounting groove is rectangular and comprises a groove bottom plate, and the groove bottom plate is parallel to the shell bottom plate and has a distance with the shell bottom plate; the groove bottom plate is provided with a third through hole; the mounting groove opening is arranged in the middle of the shell top plate.

Preferably, the first elastic supporting mechanism comprises a supporting plate, a supporting rod is vertically arranged at the bottom of the supporting plate, and a first spring is sleeved on the supporting rod; the supporting plate is in clearance fit with the third through hole and can move up and down through the third through hole.

Preferably, the seesaw mechanism comprises a support fixed on the shell bottom plate, a seesaw is hinged to the support, and the seesaw comprises a first seesaw and a second seesaw.

Preferably, the second elastic supporting mechanism comprises a push rod and a second spring fixedly arranged on the shell bottom plate, the upper end of the second spring is abutted to the bottom of the other end of the seesaw, and the lower end of the push rod is abutted to the top of the other end of the seesaw.

Preferably, the key mechanism comprises a key plate which is rotatably arranged in the mounting shell, one end of the key plate extends out of the first through hole, and the top of the ejector rod is hinged with the key plate.

Preferably, the transmission mechanism comprises a transmission rod, and the lower end of the transmission rod is hinged with the other end of the key board.

Preferably, the bottom of the cover plate is hinged with the upper end of the transmission rod.

Compared with the prior art, the utility model discloses an advantage is with positive effect: the utility model provides a quick-release structure for batteries, which comprises a mounting shell, wherein a seesaw mechanism and a mounting groove for accommodating batteries are arranged in the mounting shell, one end of the seesaw mechanism is connected with a first elastic supporting mechanism, and the first elastic supporting mechanism can move upwards to abut against the batteries; the other end of the seesaw mechanism is connected with a second elastic supporting mechanism, the other end of the second elastic supporting mechanism is hinged with a key mechanism, the other end of the key mechanism is hinged with a transmission mechanism, and the other end of the transmission mechanism is hinged with a cover plate; when the battery is taken out, the key mechanism is pressed, the key mechanism drives the second elastic supporting mechanism to move downwards so as to drive the seesaw mechanism to move clockwise, the first elastic supporting mechanism is driven to move upwards through the seesaw mechanism, meanwhile, the key mechanism drives the cover plate to move towards the direction far away from the mounting groove through the transmission mechanism, and the first elastic supporting mechanism pushes the battery out of the mounting groove; or the cover plate is directly pushed to move towards the direction far away from the mounting groove, the cover plate drives the second elastic supporting mechanism to move downwards through the transmission mechanism and the key mechanism, and therefore the seesaw mechanism drives the first elastic supporting mechanism to move upwards, and the battery is ejected out of the mounting groove. The utility model discloses a battery rapid disassembly structure is firm reliable, and convenient operation is swift, can high efficiency realize the installation of battery in the mounting groove and dismantle labour saving and time saving.

Other features and advantages of the present invention will become more apparent from the following detailed description of the invention when read in conjunction with the accompanying drawings.

Drawings

Fig. 1 is an exploded view of an embodiment of a quick release structure for a battery of the present invention;

fig. 2 is a cross-sectional view of an embodiment of the quick release structure of the battery of the present invention;

fig. 3 is a cross-sectional view of an embodiment of the quick release structure of the battery of the present invention;

fig. 4 is a partial cross-sectional view of an embodiment of the quick release structure of the battery of the present invention;

fig. 5 is a partial exploded view of the battery quick release structure according to an embodiment of the present invention.

Detailed Description

The following detailed description of the embodiments of the present invention is provided to illustrate and explain the present invention, and it should be understood that the embodiments described herein are only for the purpose of illustration and explanation, and are not intended to limit the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1-5, the quick release structure of a battery of this embodiment includes a mounting housing, in which a seesaw mechanism and a mounting groove for accommodating the battery 10 are disposed, a first elastic support mechanism is disposed between one end of the seesaw mechanism and the bottom of the mounting groove 16, and the upper end of the first elastic support mechanism can extend into the mounting groove 16 and move up and down; the other end of the seesaw mechanism is provided with a second elastic supporting mechanism, the upper end of the second elastic supporting mechanism is hinged with a key mechanism, the end part of the key mechanism is hinged with a transmission mechanism, and the upper end of the transmission mechanism is hinged with a cover plate 71; the cover plate 71 is disposed in parallel on the top of the mounting case and is located at one side of the opening of the mounting groove 16.

When the battery needs to be taken out, the key-press plate 51 is pressed to enable the key-press mechanism to rotate clockwise, the key-press mechanism presses down the second seesaw of the seesaw mechanism through the second elastic support mechanism, so as to drive the second seesaw 34 and the first seesaw 33 to rotate clockwise, the first seesaw 33 drives the first elastic support mechanism to move upwards, meanwhile, the clockwise rotation of the key-press mechanism drives the cover plate 71 to transversely move to the maximum distance in the direction far away from the installation groove 16 through the transmission mechanism, the limit of the battery 10 is cancelled by the cover plate 71, the first elastic support mechanism pushes the battery 10 upwards out of the installation groove 16, or the cover plate 71 is directly stirred to transversely move to the maximum distance in the direction far away from the installation groove 16, the transmission mechanism and the key-press mechanism drive the seesaw mechanism to rotate clockwise, so as to drive the first elastic support mechanism to move upwards to push the battery out of the installation groove 16, when the battery is taken out, the

compressed springs

23 and 24 are restored to the original state, thereby bringing the cover plate 71 to the position of the normal use state.

When the battery 10 is placed into the mounting groove 16, the cover plate 71 is pushed to move a distance in the direction away from the mounting groove 16, or the key plate 51 is pressed to enable the cover plate 71 to move a distance in the direction away from the mounting groove 16, so that the mounting groove is completely exposed, the battery 10 is placed into the mounting groove, the spring 23 and the spring 42 are in a compressed state, after the battery 10 is placed into the mounting groove, the compressed spring 23 and the spring 42 are restored to an initial state, so that the seesaw mechanism is driven to rotate anticlockwise, the second seesaw 34 drives the second elastic supporting mechanism to move upwards, the cover plate 71 is driven to move to a position close to the mounting groove 16 through the key mechanism and the transmission mechanism, the position of a normal use state is restored, namely, the cover plate 71 covers the right end of the battery 10, the battery 10 is limited, and the. In a normal use state, the cover plate 71 can cover the right end of the battery 10, so as to limit the battery 10 and prevent the battery 10 from falling off from the mounting groove 16, at this time, the

springs

23 and 42 are in an initial state, and the initial states of the

springs

23 and 42 are in a compressed state or a normal undeformed state, so that the cover plate 71 can cover the right end of the battery 10 and keep the right end at the position.

The battery quick detach structure of this embodiment is firm reliable, and convenient operation is swift, can high efficiency realize the installation and the dismantlement of battery 10 in mounting groove 16, labour saving and time saving. When installing battery 10 in mounting groove 16, can promote apron 71 to remove a section distance to the direction of keeping away from mounting groove 16, thereby perhaps press keypad 51 to make apron 71 remove a section distance to the direction of keeping away from mounting groove 16 and make the mounting groove expose completely, spring 23 and spring 42 are in compression state this moment, after putting into battery 10, compressed spring 23 and spring 42 resume initial condition, thereby drive apron 71 resume the position of normal use state, apron 71 covers the battery 10 right-hand member promptly, carry on spacingly to battery 10, avoid battery 10 to drop from mounting groove 16. When the battery 10 is disassembled, the key board 51 is pressed to enable the key mechanism to rotate clockwise, so that the transmission mechanism drives the cover plate 71 to move transversely in a direction away from the mounting groove 16, and the cover plate 71 is not limited to the battery 10 any more; the clockwise rotation of the key mechanism can also enable the second elastic support mechanism to move downwards, so that the seesaw mechanism can drive the first elastic support mechanism to move upwards, and further the battery 10 can be driven to move upwards, and the battery can be taken out conveniently; or directly push the cover plate 71 to the direction lateral shifting far away from the mounting groove 16, make the cover plate 71 no longer spacing to the battery 10, the cover plate 71 still drives the key mechanism through the drive mechanism thereby driving the second elastic support mechanism to move downwards, the second elastic support mechanism drives the first elastic support mechanism to move upwards through the seesaw mechanism, and then can drive the battery 10 to move upwards, be convenient for take out the battery, spring 23 and spring 42 are in the compression state this moment, after taking out the battery 10, the compressed spring 23 and spring 42 resume the initial state, thereby drive the cover plate 71 to resume the position of normal use state, the initial state of spring 23 and spring 42 is the compression state or the normal undeformed state. The projection of the mounting shell is rectangular and comprises a shell top plate 11 and a shell bottom plate 12 which are arranged in parallel, and a shell side plate 13 is vertically arranged between the shell top plate 11 and the shell bottom plate 12; the shell side plate 13 is provided with a first through hole 14, and one side of the shell top plate 11 is provided with a second through hole 15.

The mounting groove and the mounting shell are integrated, the projection of the mounting groove is rectangular and comprises a groove bottom plate 161, and the groove bottom plate 161 is parallel to the shell bottom plate 12 and has a distance; the tank floor 161 is provided with a third through hole 17. Preferably, the mounting groove 16 is opened at a middle position of the case top plate 11.

The first elastic supporting mechanism comprises a supporting plate 21, a supporting rod 22 is vertically arranged at the bottom of the supporting plate 21, and a first spring 23 is sleeved on the supporting rod 22. In this embodiment, the projection of the supporting plate 21 is rectangular, and the number of the supporting rods 22 is two and the two supporting rods are respectively disposed at two ends of the bottom of the supporting plate 21. The cross-sectional shape of the third through hole 17 is T-shaped, the upper ends of the support plate 21 and the support rod 22 can pass through the third through hole 17 and can move up and down, and the third through hole 17 can guide the up and down movement of the support plate 21.

In this embodiment, the bracing piece 22 cover is equipped with first spring 23 and bracing piece 22 and keeps away from the one end of backup pad 21 and connects stopper 24, and stopper 24 can play limiting displacement to first spring 23, avoids first spring 23 to drop from bracing piece 22 bottom. Stop 24 may be engaged with support plate 22, bonded thereto, or attached in a manner common in the art, and is not particularly limited herein.

The seesaw mechanism comprises a bracket 31 fixed on the shell bottom plate 12, and a seesaw is hinged on the bracket 31. In this embodiment, the number of the brackets 31 is two, and the brackets are fixed to the housing bottom plate 12 in parallel, and the fixing manner is a manner common in the art, and is not limited specifically herein. The seesaw is an integrated piece and comprises a connecting sleeve 32, and the connecting sleeve 32 can be rotatably connected between the two brackets 31; a first seesaw 33 and a second seesaw 34 are respectively arranged at two ends of the connecting sleeve 32, the projections of the first seesaw 33 and the second seesaw 34 are rectangular and are mutually vertical, and the first seesaw 33 and the second seesaw 34 have height difference in the vertical direction; the bottom of the support rod 22 rests against the top of the first seesaw 33.

The second elastic support mechanism comprises a top rod 41 and a second spring 42 fixedly arranged on the shell bottom plate 12, the upper end of the second spring 42 is abutted against the bottom of the second seesaw 34, and the lower end of the top rod 41 is abutted against the top of the second seesaw 34. In this embodiment, the vertical guide groove 19 is installed or integrally formed in the installation shell, the ejector rod 41 is in clearance fit in the guide groove 19 and can move up and down, and the guide groove 19 can guide and limit the up and down movement of the ejector rod 41.

In this embodiment, a cylindrical mounting post 18 is fixed to the housing base plate 12, the mounting post 18 is provided with a groove (not shown), and the lower end of the second spring 42 is fixed in the groove.

The key mechanism comprises a key plate 51 which is rotatably arranged in the mounting shell, one end of the key plate 51 extends out of the first through hole 14, and the top of the ejector rod 41 is rotatably connected with the key plate 51. The transmission mechanism includes a transmission rod 61, and a lower end of the transmission rod 61 is rotatably connected to the other end of the key sheet 51.

The cover plate 71 is arranged on one side of the top plate 11 of the housing in parallel, and the bottom of the cover plate 71 is rotatably connected with the upper end of the transmission rod 61.

As shown in fig. 5, in the present embodiment, the upper end of the push rod 41 is provided with a first rotating shaft through hole 43, the key board 51 is provided with a second rotating shaft through hole 52, a third rotating shaft through hole 53 and a fourth rotating shaft through hole 54 in sequence from left to right, the left end and the right end of the transmission rod 61 are respectively provided with a fifth rotating shaft through hole 62 and a sixth rotating shaft through hole 63, and the bottom of the cover plate 71 is provided with a seventh rotating shaft through hole 72. The key sheet 51 is rotatably coupled in the mounting case by a rotation shaft and a third rotation shaft through hole 53. The first rotating shaft through hole 43 at the upper end of the push rod 41 is connected with the fourth rotating shaft through hole 54 of the key board 51 through a rotating shaft, the fifth rotating shaft through hole 62 at the left end of the transmission rod 61 is rotatably connected with the second rotating shaft through hole 52 of the key board 51, and the seventh rotating shaft through hole 72 at the bottom of the cover plate 71 extends into the installation shell from the second through hole 15 and is connected with the sixth rotating shaft through hole 63 at the right end of the transmission rod 61 through a rotating shaft.

As shown in fig. 3, when the battery 10 is installed, the battery 10 is placed in the installation groove 16, the support plate 21 moves downwards into the third through hole 17 under the pressing of the battery 10, and the downward movement of the support plate 21 can cause the first seesaw 33 to move downwards, thereby causing the second seesaw 34 to move upwards, the top rod 41 to move upwards, and the key board 51 to rotate anticlockwise; the key plate 51 can rotate counterclockwise to drive the cover plate 71 to move leftward through the transmission rod 61, that is, the cover plate 71 moves toward the installation groove 16, so that the cover plate 71 can cover the upper portion of the right end of the battery 10, thereby limiting the position of the battery 10 and preventing the battery 10 from being separated from the battery slot 16. When the key sheet 51 rotates clockwise to abut against the upper end of the first through hole 14, the key sheet 51 cannot rotate counterclockwise any more, and the cover 71 moves leftward at the time with the largest displacement.

As shown in fig. 2, when the battery 10 is disassembled, the right end of the key sheet 51 is pulled downward, so that the key sheet 51 rotates clockwise, and the cover plate 71 can be driven by the transmission rod 61 to move rightward, i.e., the cover plate 71 moves away from the mounting groove 16, and the cover plate 71 no longer covers the right end of the battery 10 and no longer limits the battery 10. When the key sheet 51 rotates clockwise to abut against the lower end of the first through hole 14, the key sheet 51 cannot rotate clockwise any more, and the cover 71 moves to the right maximally. The clockwise rotation of the key sheet 51 can also make the push rod 41 move downwards, the second seesaw 34 and the first seesaw 33 rotate clockwise, and the support plate 21 move upwards, and the battery 10 can be driven to move upwards in the process of the upward movement of the support plate 21, so that the battery 10 can be taken out of the mounting groove 16 conveniently.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the following embodiments, it will be apparent to those skilled in the art that the present invention may be modified or equivalents may be substituted for some of the features of the embodiments described below; such modifications and substitutions do not depart from the spirit and scope of the present invention, which is claimed.

Claims

1. A quick release structure of battery is characterized in that it comprises

The mounting shell is internally provided with a seesaw mechanism and a mounting groove for accommodating a battery, one end of the seesaw mechanism is connected with a first elastic supporting mechanism, and the first elastic supporting mechanism can move upwards to abut against the battery;

the other end of the seesaw mechanism is connected with a second elastic supporting mechanism, the other end of the second elastic supporting mechanism is hinged with a key mechanism, the other end of the key mechanism is hinged with a transmission mechanism, and the other end of the transmission mechanism is hinged with a cover plate;

when the battery is taken out, the key mechanism is pressed, the key mechanism drives the second elastic supporting mechanism to move downwards so as to drive the seesaw mechanism to move clockwise, the first elastic supporting mechanism is driven to move upwards through the seesaw mechanism, meanwhile, the key mechanism drives the cover plate to move towards the direction far away from the mounting groove through the transmission mechanism, and the first elastic supporting mechanism pushes the battery out of the mounting groove;

or the cover plate is directly pushed to move towards the direction far away from the mounting groove, the cover plate drives the second elastic supporting mechanism to move downwards through the transmission mechanism and the key mechanism, and therefore the seesaw mechanism drives the first elastic supporting mechanism to move upwards, and the battery is ejected out of the mounting groove.

2. The quick release structure for batteries according to claim 1,

the cover plate is arranged on the top of the mounting shell in parallel and is positioned on one side of the opening of the mounting groove;

after the battery is placed into the mounting groove, the cover plate covers a part of the battery to limit the battery.

3. The quick release structure for batteries according to claim 2,

the projection of the mounting shell is rectangular and comprises a shell top plate and a shell bottom plate which are arranged in parallel, and a shell side plate is vertically arranged between the shell top plate and the shell bottom plate;

the shell side plate is provided with a first through hole, and one side of the shell top plate is provided with a second through hole.

4. The quick release structure for battery according to claim 3,

the mounting groove and the mounting shell are an integral piece, the projection of the mounting groove is rectangular and comprises a groove bottom plate, and the groove bottom plate is parallel to the shell bottom plate and has a distance with the shell bottom plate;

the groove bottom plate is provided with a third through hole; the mounting groove opening is arranged in the middle of the shell top plate.

5. The quick release structure for batteries according to claim 4,

the first elastic support mechanism comprises a support plate, a support rod is vertically arranged at the bottom of the support plate, and a first spring is sleeved on the support rod;

the supporting plate is in clearance fit with the third through hole and can move up and down through the third through hole.

6. The quick release structure for batteries according to claim 5,

the seesaw mechanism comprises a support fixed on the shell bottom plate, a seesaw is hinged to the support and comprises a first seesaw and a second seesaw.

7. The quick release structure for battery according to claim 6,

the second elastic supporting mechanism comprises a push rod and a second spring fixedly arranged on the shell bottom plate, the upper end of the second spring is abutted to the bottom of the other end of the seesaw, and the lower end of the push rod is abutted to the top of the other end of the seesaw.

8. The quick release structure for batteries according to claim 7,

the button mechanism comprises a button plate which is rotatably arranged in the mounting shell, one end of the button plate extends out of the first through hole, and the top of the ejector rod is hinged with the button plate.

9. The quick release structure for batteries according to claim 8,

the transmission mechanism comprises a transmission rod, and the lower end of the transmission rod is hinged with the other end of the key board.

10. The quick release structure for battery according to claim 9,

the bottom of the cover plate is hinged with the upper end of the transmission rod.