CN110034260B

CN110034260B - Battery fixing structure

Info

Publication number: CN110034260B
Application number: CN201910361913.9A
Authority: CN
Inventors: 黄盈源; 苏纹毅
Original assignee: Universal Global Technology Kunshan Co Ltd
Current assignee: Universal Global Technology Kunshan Co Ltd
Priority date: 2019-04-30
Filing date: 2019-04-30
Publication date: 2021-11-02
Anticipated expiration: 2039-04-30
Also published as: CN110034260A

Abstract

The invention discloses a battery fixing structure, which comprises: the battery chamber is provided with two parallel first side edges and a second side edge between the two first side edges, the first side edges are provided with a plurality of first buckling grooves, and the second side edges are provided with a plurality of second buckling grooves; a battery cover capable of covering the battery chamber; the battery cover is provided with a plurality of first clamping tenons, the sliding block is provided with a plurality of second clamping tenons, the first clamping tenons can be clamped into the plurality of first clamping grooves, and the second clamping tenons can be clamped into the plurality of second clamping grooves; a linkage mechanism is arranged between the sliding block and the locking connecting rod of each locking mechanism, so that the sliding block and the locking connecting rod are mutually linked, and the first clamping tenon and the second clamping tenon are clamped or separated from the first clamping groove and the second clamping groove.

Description

Battery fixing structure

Technical Field

The present invention relates to a battery fixing structure, and more particularly, to a battery fixing structure for a mobile electronic device such as a tablet computer, a mobile phone, a handheld computer, or the like.

Background

The existing mobile electronic products use batteries as power source. Generally, an electronic product with a replaceable battery usually has a battery chamber for accommodating the battery, and the battery chamber is provided with an openable battery cover for fixing the battery in the battery chamber. Since the battery is fixed by the battery cover, if the battery cover is loosened, the battery is easy to shake, which leads to poor contact, even the battery falls.

Most of the existing battery covers are fixed in a tenon-and-mortise mode, however, in some large-scale electronic products, such as: due to the fact that the size of the battery is large, the battery cover of the tablet computer, the notebook computer or the large-size mobile phone is required to be provided with a plurality of clamping tenons, and the battery cover can be stably positioned. However, in the conventional battery cover, the used tenons are independent structures, so that when the battery is disassembled and replaced, an operator needs to separately open or close the plurality of tenons, which causes inconvenience in use and is limited by space, and the battery cover can only be provided with a limited number of tenons, so that uneven fixing force is easily caused, the battery cover is easily loosened, and the battery is shaken or dropped.

Because of the above reasons, the battery fixing structure of the conventional electronic product has drawbacks, and how to overcome the above drawbacks by improving the structure has become one of the important issues to be solved by the industry.

Disclosure of Invention

The invention aims to solve the technical problem that the battery fixing structure of the existing electronic product is inconvenient to disassemble and assemble and easy to loosen.

In order to solve the above technical problems, an embodiment of the present invention provides a battery fixing structure for fixing a battery of an electronic device, the battery fixing structure including: the battery chamber is arranged on the electronic device and used for accommodating the battery, and is provided with two parallel first side edges and a second side edge which is arranged between the two first side edges and is perpendicular to the two first side edges; the battery cover can be covered in the battery chamber to fix the battery in the battery chamber; the two locking mechanisms are arranged on one side surface of the battery cover facing the battery chamber, each locking mechanism is respectively provided with a sliding block and a locking connecting rod, the locking connecting rod is adjacent to one of the two first side edges, and the sliding block is adjacent to the second side edge; the slide block can be displaced in a reciprocating manner between a first positioning position and a second positioning position along a direction parallel to the second side edge, the locking connecting rod can be displaced in a reciprocating manner between a third positioning position and a fourth positioning position along a direction parallel to the first side edge, a linkage mechanism is arranged between the slide block and the locking connecting rod, the slide block and the locking connecting rod are mutually linked through the linkage mechanism, so that when the slide block is displaced to the first positioning position, the locking connecting rod can be displaced to the third positioning position, and when the slide block is displaced to the second positioning position, the locking connecting rod can be displaced to the fourth positioning position; when the battery cover is arranged on the battery chamber and the locking connecting rod is displaced to the third positioning, the plurality of first clamping tongues can be clamped in the plurality of first clamping grooves, and when the locking connecting rod is displaced to the fourth positioning, the plurality of first clamping tongues can be separated from the plurality of first clamping grooves.

In a preferred embodiment of the present invention, each of the sliding blocks has a plurality of second locking tongues disposed on one side of the second side edge, the battery chamber has a plurality of second locking grooves disposed at positions on the second side edge corresponding to the plurality of second locking tongues, when the battery cover is disposed on the battery chamber and the sliding block is moved to the first position, the plurality of second locking tongues can be locked in the plurality of second locking grooves, and when the sliding block is moved to the second position, the plurality of second locking tongues can be disengaged from the plurality of second locking grooves.

In a preferred embodiment of the present invention, each of the first latching grooves and each of the second latching grooves have an opening, and the position of the opening of each of the first latching grooves corresponds to the position of the first latches when the locking link is shifted to the fourth position, so that each of the first latches can enter or leave the first latching groove from the opening of each of the first latching grooves; the position of the opening of each second clamping groove corresponds to the position of the plurality of second clamping tenons when each sliding block moves to the second positioning position, so that each second clamping tenon can enter or separate from the second clamping groove from the opening of each second clamping groove.

In a preferred embodiment of the present invention, each of the second locking grooves has an inclined surface portion on a side close to the second location, and when each of the sliders is moved to the second location, each of the second locking tongues can be pushed by the inclined surface portion, so as to generate a component force to push the battery cover away from the battery compartment.

In a preferred embodiment of the present invention, the linkage mechanism of each of the locking mechanisms includes a cam groove disposed on the slider and a locking protrusion disposed on the locking link, and the locking protrusion is engaged with the cam groove, so that when one of the two locking links of the slider moves, the locking link can be driven by the locking protrusion and the cam groove.

In a preferred embodiment of the present invention, the two locking mechanisms are symmetrically disposed on the battery cover, when the two sliding blocks move toward the first positioning position, the two sliding blocks move away from each other, and when the two sliding blocks move toward the second positioning position, the two sliding blocks move close to each other.

In a preferred embodiment of the present invention, a toggle portion is respectively disposed on one side of the two sliding blocks opposite to the battery chamber, and two notch portions are disposed on the battery cover corresponding to the toggle portions of the two sliding blocks, and the two toggle portions are respectively accommodated in the two notch portions and exposed from the two notch portions to the outside of the battery cover, so that an operator can touch the two toggle portions with hands.

In a preferred embodiment of the present invention, the battery cover further includes two first guide grooves and a second guide groove, the two first guide grooves are disposed on the battery cover and adjacent to the two first sides, the second guide groove is disposed on a side of the battery cover facing the battery compartment and adjacent to the second side, the two locking connecting rods are respectively accommodated in the two first guide grooves, and the two sliding blocks are respectively accommodated in the second guide groove.

In a preferred embodiment of the present invention, a spring is respectively disposed between each locking link and the battery cover, and when each locking link is moved to the fourth positioning position, the spring can be stretched, and the spring can drive the locking link to move to the third positioning position by the pulling force of the spring.

In a preferred embodiment of the present invention, an ejection member is disposed at a position adjacent to the second side edge of the electronic device, the ejection member is pressed by a spring to protrude in a direction away from the battery chamber, and when the battery cover is covered in the battery chamber, the ejection member can contact the battery cover and is pressed by the battery cover to retract in the direction of the battery chamber.

The invention has the advantages of improving the convenience of the disassembly or the assembly of the battery of the electronic device and improving the stability of the battery fixing structure.

For a better understanding of the features and technical content of the present invention, reference should be made to the following detailed description of the invention and accompanying drawings, which are provided for purposes of illustration and description only and are not intended to limit the invention.

Drawings

Fig. 1 is a perspective assembly view of an electronic product with the battery fixing structure of the invention.

Fig. 2 is a schematic exploded perspective view of an electronic product with a battery fixing structure according to the present invention.

Fig. 3 is a partially enlarged view taken from fig. 2 to reveal a card slot structure of the battery chamber.

Fig. 4 is a perspective view of a battery cover used in the present invention.

Fig. 5 is a perspective view of a locking mechanism used in the present invention.

Fig. 6 is a perspective view of the battery cover and locking mechanism used in the present invention in combination.

Fig. 7 and 8 are schematic plan views of the present invention using a locking mechanism.

Fig. 9 and 10 are schematic perspective views of the locking mechanism of the present invention.

Detailed Description

As shown in fig. 1 and fig. 2, an electronic device 1 with a battery fixing structure according to the present invention is provided, wherein the electronic device 1 has a housing 10, a battery chamber 11 is disposed on a side surface of the housing 10, and a battery 30 of the electronic device 1 can be accommodated in the battery chamber 11. And a battery cover 20 capable of being disposed at the opening of the battery chamber 11 and covering the battery chamber 11 to fix the battery 30 in the battery chamber 11.

As shown in fig. 2 and 3, the inner sidewall of the battery chamber 11 has two parallel first sides 111 and a second side 112 between the two first sides 111 and perpendicular to the two first sides. When the battery 30 is accommodated in the battery chamber 11, the side surfaces of the battery 30 are adjacent to the two first and second sides, respectively. As shown in fig. 3, the casing 10 of the electronic device 1 has a plurality of first fastening grooves 12 on the first side 111, and a plurality of second fastening grooves 13 on the second side 112. In this embodiment, each of the first and

second locking grooves

12 and 13 has a

recessed portion

122 and 132 substantially parallel to the bottom surface of the battery compartment 11, and an

opening

121 and 131 connected to an end of the

recessed portion

122 and 132. In addition, a slope 133 is formed on a side of the second locking groove 13 opposite to the groove 132.

As shown in fig. 4, the battery cover 20 has a flat cover plate 21, and a side of the cover plate 21 facing the battery chamber 11 is defined as a rear surface. Two first guide grooves 212 are disposed on the back surface of the cover plate 21 adjacent to the two first sides 111, and a second guide groove 213 is disposed adjacent to the second side 112, wherein the first guide grooves 212 and the second guide grooves 213 are perpendicular to each other. The first guide groove 212 and the second guide groove 213 function to accommodate the two locking mechanisms 2. The cover 21 is further provided with two notches 211 at positions corresponding to the second guide grooves 213.

As shown in fig. 4 to 6, the battery cover 20 can cover the opening of the battery chamber 11, and two locking mechanisms 2 are disposed on the battery cover 20, so that the battery cover 20 can be fixed on the battery chamber 11 or detached from the battery chamber 11 by the locking mechanisms 2 being capable of engaging with or disengaging from the first snapping grooves 12 on the first side 111 and the second snapping grooves 13 on the second side 112 of the battery chamber 11, respectively. In addition, a plurality of plug-in portions 214 are disposed on a side of the cover plate 21 of the battery cover 20 opposite to the second side, and the plug-in portions 214 can be engaged with a plurality of plug-in notches (not shown) disposed on a side of the battery chamber 11 opposite to the second side 112 for cooperating with the locking mechanism 2 to fix the battery cover 20 at the opening of the battery chamber 11.

As shown in fig. 5 and fig. 6, the two locking mechanisms 2 of the present invention are symmetrically disposed on the back of the battery cover 20, and each locking mechanism 2 includes a sliding block 22 and a locking link 23. As shown in fig. 6, the locking links 23 are respectively received in the two first guide slots 212 on the back of the cover plate 21, and are adjacent to the two first sides 111 of the battery compartment 11, and are parallel to the first sides 111, and the two sliders 22 are respectively received in the second guide slots 213, and are adjacent to the second sides 112 of the battery compartment 11. The two sliders 22 respectively have a toggle portion 221 on one side surface opposite to the battery compartment 11, and as shown in fig. 1 and 2, the toggle portions 221 of the two sliders 22 are respectively accommodated in the two notches 211 of the cover plate 21 and can be exposed from the notches 211, so that an operator can contact the toggle portions 221 with fingers.

As shown in fig. 5, in each set of the locking mechanism 2, one end of the locking link 23 close to the slider 22 has a connecting portion 231 bent toward the slider 22, and the connecting portion 231 and the slider 22 are connected to each other by an interlocking mechanism 25. In this embodiment, the linking mechanism 25 includes a cam groove 222 and a locking protrusion 232. In this embodiment, the cam groove 222 is a sliding groove inclined with respect to the first side 111 or the second side, and the engaging protrusion 232 is disposed on a side surface of the connecting portion 231 close to the slider 22 and is engaged with the cam groove 222 in a manner of being able to slide relative to the cam groove 222. Because the cam groove 222 has an inclination, when the lock link 23 is displaced in a direction parallel to the first side 111, the engaging protrusion 232 can push the cam groove 222 to generate a component force parallel to the second side to push the slider 22 to displace, and when the slider 22 is displaced in a direction parallel to the second side 112, the engaging protrusion 232 can be driven by the cam groove 222 to drive the lock link 23 to displace in a direction parallel to the first side 111. Therefore, the slider 22 and the lock link 23 can be mutually driven by the interlocking mechanism 25, and the purpose of interlocking is achieved.

As shown in fig. 7 to 10, the two sliders 22 of the present invention can be guided by the second guide groove 213 to be reciprocally displaced between a first positioning P1 and a second positioning P2 in a direction parallel to the second side 112, and the lock link 23 can be guided by the first guide groove 212 to be reciprocally displaced between a third positioning P3 and a fourth positioning P4 in a direction parallel to the first side 111. And the interlocking mechanism 25 is arranged to enable the lock link 23 to be displaced to the third positioning P3 (as shown in fig. 7 and 9) by interlocking with the interlocking mechanism 25 when the slider 22 is displaced to the first positioning, and to enable the lock link 23 to be displaced to the fourth positioning P4 (as shown in fig. 8 and 10) when the slider 22 is displaced to the second positioning P2.

And as shown in fig. 6, in the present embodiment, a connection hole 234 is provided at the end of each locking link 23 for connecting a spring 24, the spring 24 is connected between the locking link 23 and the battery cover 20, and the spring 24 is arranged such that when the locking link 23 is displaced to the fourth positioning P4, the spring 24 can be stretched and the locking link 23 can be moved to the third positioning P3 by the pulling force of the spring 24. Therefore, the lock link 23 is allowed to automatically return to the third positioning P3 by the tensile force of the spring 24, and when the lock link 23 returns to the third positioning P3, the slider 22 is also driven to return to the first positioning by the interlocking mechanism 25.

As shown in fig. 5 to 10, a plurality of first latch tongues 233 are disposed on one side of each lock link 23 facing the first side 111, and the positions of the plurality of first latch tongues 233 correspond to the plurality of first latch grooves 12 on the first side 111. And a plurality of second latch tongues 223 are arranged at positions of each slider 22 facing the second side 112, and the positions of the second latch tongues 223 correspond to the plurality of second latch grooves 13 on the second side 112. As shown in fig. 7 and 9, the locking mechanism 2 of the present invention is arranged to be a locked state when the locking link 23 is displaced to the third positioning P3 and the slider 22 is displaced to the first positioning P1, in which the first latch 233 can be latched into the groove portion 122 of the first latch groove 12 and the second latch 223 can be latched into the groove portion 132 of the second latch groove 13, thereby bringing the locking mechanism 2 and the first side 111 and the second side 112 of the battery compartment 11 into a latched state to fix the battery cover 20 to the opening of the battery compartment 11.

And as shown in fig. 8 and 10, the opening 121 of the first catching groove 12 of the present invention is arranged at a position corresponding to the first catching notch 233 when the locking link 23 is displaced to the fourth position, and the second catching groove 13 is arranged at a position corresponding to the second catching notch 223 when the slider 22 is displaced to the second position P2, so that an unlocked state can be achieved when the locking link 23 is displaced to the fourth position P4 and the slider 22 is displaced to the second position P2, in which the first catching notch 233 can be disengaged from the groove portion 122 of the first catching groove 12 and displaced to a position corresponding to the opening 121 of the first catching groove 12, and the second catching notch 223 can be disengaged from the groove portion 132 of the second catching groove 13 and displaced to a position corresponding to the opening 131 of the second catching groove 13, so that the first side 111 and the second side 112 of the locking mechanism 2 and the battery compartment 11 are disengaged, so that the battery cover 20 can be detached.

As shown in fig. 7 and 8, for the convenience of the user to operate, the two locking mechanisms 2 are arranged on the battery cover 20 in a symmetrical manner, and when the two sliders 22 are displaced toward the first positioning P1, the two sliders 22 are away from each other, and when the two sliders 22 are displaced toward the second positioning P2, the two sliders 22 are close to each other, so that when the locking mechanism 2 of the present invention is operated, the user can pull the toggle portion 221 of the two sliders 22 with fingers to displace the two sliders 22 toward the second positioning P2, thereby driving the two locking mechanisms 2 to the unlocking state.

In addition, as shown in fig. 3, 9 and 10, the inclined plane 133 of the second latch grooves 13 of the present invention is disposed at a side close to the second positioning P2, and when the locking mechanism 2 is in the unlocking state and the two sliders 22 are displaced to the second positioning P2, each second latch 223 can abut against the inclined plane 133, and the second latch 223 is pushed by the inclined plane 133, so that a vertical component force in a direction away from the battery compartment 11 is generated, and the second latch 223 and the battery lid 20 are pushed in a direction away from the battery compartment. Therefore, with the above-described design, when the operator unlocks the lock mechanism 2, the battery cover 20 can be pushed up toward the end of the second side 112 by the pushing action of the slope portion 133, so that the operator can easily detach the battery cover 20.

In addition, as shown in fig. 2 and fig. 9, the casing 10 of the electronic device 1 of the present invention is provided with a push-out member 14 at a position adjacent to the second side 112, in this embodiment, the push-out member 14 is a protrusion and is pressed by a spring (not shown) to protrude toward a direction away from the battery chamber 11, and the position of the push-out member 14 corresponds to the edge of the cover plate 21 of the battery cover 20, so that when the battery cover 20 is closed on the battery chamber 11, the push-out member 14 can be pressed by the edge of the cover plate 21 to retract toward the battery chamber 11, and when the locking mechanism 2 is in an unlocked state, the push-out member 14 can push up the battery cover 20 toward one end of the second side 112 to assist the user in detaching the battery cover 20.

To sum up, the design of the battery fixing structure of the present invention enables an operator to control the two locking mechanisms 2 to be in the locking state or the unlocking state only by pulling the two sliders 22 of the locking mechanism 2 with fingers, so that the procedure of detaching or installing the battery cover 20 is simplified and speeded. And the first latch 233 and the second latch 223 of the two locking mechanisms 2 can be evenly arranged near the periphery of the battery cover 20, so that the engaging positions of the battery cover 20 and the battery chamber 11 are evenly distributed around the battery cover, the combination of the battery cover 20 and the battery chamber 11 is more stable, and the reliability of the battery fixing structure is effectively improved.

The disclosure is only a preferred embodiment of the invention and should not be taken as limiting the scope of the invention, so that the invention is not limited by the disclosure of the invention.

Claims

1. A battery fixing structure for fixing a battery of an electronic device, the battery fixing structure comprising:

the battery chamber is arranged on the electronic device and used for accommodating the battery, and is provided with two parallel first side edges and a second side edge which is arranged between the two first side edges and is perpendicular to the two first side edges;

the battery cover can be covered in the battery chamber to fix the battery in the battery chamber;

the two locking mechanisms are arranged on one side surface of the battery cover facing the battery chamber, each locking mechanism is respectively provided with a sliding block and a locking connecting rod, the locking connecting rod is adjacent to one of the two first side edges, and the sliding block is adjacent to the second side edge; the slide block can be displaced in a reciprocating manner between a first positioning position and a second positioning position along a direction parallel to the second side edge, the locking connecting rod can be displaced in a reciprocating manner between a third positioning position and a fourth positioning position along a direction parallel to the first side edge, a linkage mechanism is arranged between the slide block and the locking connecting rod, the slide block and the locking connecting rod are mutually linked through the linkage mechanism, so that when the slide block is displaced to the first positioning position, the locking connecting rod can be displaced to the third positioning position, and when the slide block is displaced to the second positioning position, the locking connecting rod can be displaced to the fourth positioning position;

when the battery cover is arranged on the battery chamber and the locking connecting rod is displaced to the third positioning, the plurality of first clamping tongues can be clamped in the plurality of first clamping grooves, and when the locking connecting rod is displaced to the fourth positioning, the plurality of first clamping tongues can be separated from the plurality of first clamping grooves.

2. The battery fixing structure of claim 1, wherein a plurality of second locking tongues are disposed on one side of each of the sliding blocks facing the second side edge, a plurality of second locking grooves are disposed in the battery chamber at positions corresponding to the plurality of second locking tongues on the second side edge, when the battery cover is disposed in the battery chamber and the sliding block is moved to the first position, the plurality of second locking tongues can be locked in the plurality of second locking grooves, and when the sliding block is moved to the second position, the plurality of second locking tongues can be disengaged from the plurality of second locking grooves.

3. The battery fixing structure according to claim 2, wherein each of the first latching grooves and each of the second latching grooves have an opening, and the position of the opening of each of the first latching grooves corresponds to the position of the first plurality of latches when the locking link is displaced to the fourth position, so that each of the first latches can enter or leave the first latching groove from the opening of each of the first latching grooves; the position of the opening of each second clamping groove corresponds to the position of the plurality of second clamping tenons when each sliding block moves to the second positioning position, so that each second clamping tenon can enter or separate from the second clamping groove from the opening of each second clamping groove.

4. The battery fixing structure of claim 3, wherein each of the second locking grooves has a slope portion on a side thereof adjacent to the second location, and when each of the sliders is moved to the second location, each of the second locking tongues is pushed by the slope portion to generate a component force to push the battery cover away from the battery compartment.

5. The battery fixing structure according to claim 1, wherein the interlocking mechanism of each of the locking mechanisms includes a cam groove provided on the slider and a engaging projection provided on the locking link, the engaging projection being engaged with the cam groove, so that when one of the slider and the locking link is displaced, the interlocking mechanism can be transmitted to each other through the engaging projection and the cam groove.

6. The battery fixing structure according to claim 5, wherein the two locking mechanisms are disposed on the battery cover in a symmetrical manner with respect to each other, and when the two sliders are displaced toward the first positioning, the two sliders are moved away from each other, and when the two sliders are displaced toward the second positioning, the two sliders are moved toward each other.

7. The battery fixing structure according to claim 6, wherein a toggle portion is disposed on one side of each of the two sliding blocks opposite to the battery compartment, and two notches are disposed on the battery cover corresponding to the toggle portions of the two sliding blocks, and the two toggle portions are respectively received in the two notches and exposed to the outside of the battery cover from the two notches, so that an operator can touch the two toggle portions with hands.

8. The battery fixing structure according to claim 7, wherein the battery cover further includes two first guide grooves and a second guide groove, the two first guide grooves are disposed on the battery cover and adjacent to the two first sides, the second guide groove is disposed on a side of the battery cover facing the battery compartment and adjacent to the second side, the two locking links are respectively received in the two first guide grooves, and the two sliding blocks are respectively received in the second guide grooves.

9. The battery fixing structure according to claim 8, wherein a spring is disposed between each of the locking links and the battery cover, and when each of the locking links is displaced to the fourth positioning, the spring can be stretched and the locking link can be moved to the third positioning by the tension of the spring.

10. The battery fixing structure of claim 1, wherein the electronic device is provided with an ejection member adjacent to the second side, the ejection member is pressed by a spring to protrude in a direction away from the battery compartment, and when the battery cover is covered in the battery compartment, the ejection member can contact the battery cover and be pressed by the battery cover to retract in a direction toward the battery compartment.