CN219457888U - Battery cell assembly convenient to move - Google Patents

Abstract

The utility model discloses a battery cell assembly convenient to move, which comprises a battery cell body, a clamping module, a lifting module and a moving module; the lifting and placing module is arranged on the moving module, the clamping module is arranged on the lifting and placing module, the lifting and placing module is used for driving the clamping module to move up and down relative to the moving module, and a pulley is arranged at the bottom of the moving module; the clamping module comprises a fixed supporting unit, a sliding clamping unit and a screw rod, wherein the fixed supporting unit and the sliding clamping unit are oppositely arranged, the battery cell body is located between the fixed supporting unit and the sliding clamping unit, the fixed supporting unit is fixedly connected with the lifting and placing module, the sliding clamping unit is in threaded connection with the screw rod, the screw rod is in rotary connection with the lifting and placing module, and the screw rod drives the sliding clamping unit to reciprocate towards the direction of the fixed supporting unit. The battery cell assembly convenient to move solves the problems that the battery cell with relatively large weight and volume is unfavorable for moving and the efficiency of battery cell installation, disassembly and replacement is affected.

Description

Battery cell assembly convenient to move

Technical Field

The utility model relates to the technical field of batteries, in particular to a battery cell assembly convenient to move.

Background

Lithium ion batteries are a highly efficient energy storage device that has the advantages of high voltage, high specific energy and long cycle life. Lithium ion batteries have been widely used in electric vehicles, electric tools, and energy storage power stations. The conventional lithium ion battery is generally formed by stacking a plurality of battery core monomers.

When the battery cell is installed, disassembled or replaced, the battery cell needs to be carried, and in the carrying process, the existing battery cells with large capacity are relatively large in weight and size, so that the battery cells are unfavorable for moving, and the efficiency of installing, disassembling and replacing the battery cells is affected.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a cell assembly which is convenient to move so as to solve the problems.

The technical scheme adopted for solving the technical problems is as follows: a battery cell assembly convenient to move comprises a battery cell body, a clamping module, a lifting module and a moving module;

the lifting and placing module is arranged on the moving module, the clamping module is arranged on the lifting and placing module, the lifting and placing module is used for driving the clamping module to move up and down relative to the moving module, and a pulley is arranged at the bottom of the moving module;

the clamping module comprises a fixed supporting unit, a sliding clamping unit and a screw rod, wherein the fixed supporting unit and the sliding clamping unit are oppositely arranged, the battery cell body is located between the fixed supporting unit and the sliding clamping unit, the fixed supporting unit is fixedly connected with the lifting module, the sliding clamping unit is in threaded connection with the screw rod, the screw rod is in rotary connection with the lifting module, and the screw rod drives the sliding clamping unit to reciprocate in the direction of the fixed supporting unit.

The lifting and placing module comprises a lifting and placing driving motor, a driving gear and an L-shaped mounting seat, wherein the L-shaped mounting seat comprises a longitudinal rack and a horizontal slide rail which are mutually vertical; an output shaft of the lifting driving motor is fixedly connected with the driving gear, and the driving gear is meshed with the longitudinal rack; the sliding clamping unit is in sliding connection with the horizontal sliding rail, and the horizontal sliding rail is parallel to the screw rod.

Optionally, the L-shaped mounting seat further comprises a longitudinal guiding ear, and an opening direction of the longitudinal guiding ear is parallel to the longitudinal rack; the lifting module further comprises a longitudinal guide rod, the longitudinal guide rod is parallel to the longitudinal rack, the longitudinal guide rod penetrates through the longitudinal guide lug and then is fixedly connected with the moving module, and the longitudinal guide rod is in sliding connection with the longitudinal guide lug.

Specifically, the clamping module further comprises a horizontal telescopic guide rod assembly, the length direction of the horizontal telescopic guide rod assembly is parallel to the screw rod, the horizontal telescopic guide rod assembly comprises a sleeve and a connecting rod, the sleeve is connected with the sliding clamping unit, one end of the connecting rod is connected with the L-shaped mounting seat, and the other end of the connecting rod is arranged in the sleeve and is in sliding connection with the sleeve.

Preferably, the fixed supporting unit comprises a supporting seat and a supporting plate, wherein the supporting seat is fixedly connected with the horizontal sliding rail, and the supporting plate is connected with the supporting seat; the sliding clamping unit comprises a clamping seat and a clamping plate, the clamping seat is in sliding connection with the horizontal sliding rail, the clamping seat is in threaded connection with the screw rod, and the clamping plate is connected with the clamping seat; the clamping plate and the supporting plate are oppositely arranged.

It is worth to say that, fixed supporting unit still includes vertical guiding hole and guide bar, the opening direction of vertical guiding hole is parallel to vertical rack, the guide bar passes behind the vertical guiding hole with moving module fixed connection.

Specifically, the surfaces of the supporting plate and the clamping plate are respectively provided with a rubber anti-slip protruding thorn.

Preferably, the mobile module comprises a base and a side plate, the base is connected with the side plate, the pulley is arranged on the lower surface of the base, the guide rod and the longitudinal guide rod are fixedly connected with the base, and the lifting driving motor is connected with the side plate; the base is provided with an avoidance concave part, and the battery cell body reciprocates up and down in the avoidance concave part.

The utility model has the beneficial effects that: in the convenient electric core assembly, after the electric connection between the electric core body and electric equipment or charging equipment is disconnected, the clamping module moves downwards through the lifting and releasing module, so that the electric core body is positioned between the fixed supporting unit and the sliding clamping unit, then the screw rod is rotated, the sliding clamping unit moves towards the direction of the fixed supporting unit, so that the electric core body is clamped to the fixed supporting unit, the clamping module moves upwards through the lifting and releasing module, the clamping module drives the electric core body to move upwards, the electric core body is lifted off, the moving module is pushed to move the whole electric core assembly, and even the electric core body with relatively large weight and volume can be easily moved through the moving module, so that the efficiency of installation, disassembly and replacement of the electric core is improved.

Drawings

FIG. 1 is a schematic view of a clamping module and a lifting module according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a mobile-facilitated cell assembly according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a structure of a battery cell according to an embodiment of the present utility model;

FIG. 4 is a partial schematic view of a clamping module and a lift module in one embodiment of the utility model;

FIG. 5 is a partial schematic view of a lift module according to one embodiment of the utility model;

in the figure: 1, an electric core body; 2, clamping the module; 21 a fixed support unit; 211 a supporting seat; 212 a support plate; 213 longitudinal guide holes; 214 guide bar; 22 a sliding clamping unit; 221 clamping seat; 222 clamping plates; 223 rubber anti-slip thorns; 24 screw rods; 25 clamping the driving motor; 26 a horizontal telescoping guide rod assembly; 261 sleeve; 262 links; 3, lifting and placing the module; 31 lifting and placing a driving motor; 32 drive gears; 33 longitudinal guide rods; 34L-shaped mounting seats; 341 a longitudinal rack; 342 horizontal slide rail; 343 longitudinal guide lugs; 4, moving the module; a 41 base; 42 avoiding the concave part; 43 pulleys; 44 side plates.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings. The description of these embodiments is provided to assist understanding of the present utility model, but is not intended to limit the present utility model. In addition, the technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

As shown in fig. 1-5, a battery cell assembly convenient to move comprises a battery cell body 1, a clamping module 2, a lifting module 3 and a moving module 4; as shown in fig. 3, in this embodiment, the battery core body 1 includes a plurality of battery cores stacked together, and all the battery cores are electrically connected in series;

the lifting and placing module 3 is arranged on the moving module 4, the clamping module 2 is arranged on the lifting and placing module 3, the lifting and placing module 3 is used for driving the clamping module 2 to move up and down relative to the moving module 4, and a pulley 43 is arranged at the bottom of the moving module 4;

the clamping module 2 comprises a fixed supporting unit 21, a sliding clamping unit 22 and a screw rod 24, wherein the fixed supporting unit 21 and the sliding clamping unit 22 are oppositely arranged, the battery cell body 1 is positioned between the fixed supporting unit 21 and the sliding clamping unit 22, the fixed supporting unit 21 is fixedly connected with the lifting module 3, the sliding clamping unit 22 is in threaded connection with the screw rod 24, the screw rod 24 is in rotary connection with the lifting module 3, and the screw rod 24 drives the sliding clamping unit 22 to reciprocate towards the direction of the fixed supporting unit 21.

In the convenient-to-move battery core assembly, after the battery core body 1 is disconnected from the electric connection with electric equipment or charging equipment, the clamping module 2 is enabled to move downwards through the lifting and releasing module 3, so that the battery core body 1 is located between the fixed supporting unit 21 and the sliding clamping unit 22, then the screw rod 24 is rotated, so that the sliding clamping unit 22 moves towards the direction of the fixed supporting unit 21, the battery core body 1 is clamped to the fixed supporting unit 21, then the clamping module 2 is enabled to move upwards through the lifting and releasing module 3, the clamping module 2 drives the battery core body 1 to move upwards, and therefore the battery core body 1 is enabled to be separated from the ground, and the moving module 4 is pushed to enable the whole battery core assembly to move.

It should be noted that the lifting module 3 includes a lifting driving motor 31, a driving gear 32, and an L-shaped mounting seat 34, where the L-shaped mounting seat 34 includes a longitudinal rack 341 and a horizontal sliding rail 342 that are perpendicular to each other; an output shaft of the lifting driving motor 31 is fixedly connected with the driving gear 32, and the driving gear 32 is meshed with the longitudinal rack 341; the slide clamping unit 22 is slidably connected to the horizontal slide rail 342, and the horizontal slide rail 342 is parallel to the screw 24. The output shaft of the lifting driving motor 31 drives the driving gear 32 to rotate, so that the longitudinal rack 341 drives the L-shaped mounting seat 34 to move up and down, and further drives the clamping module 2 to move up and down through the L-shaped mounting seat 34. When the screw 24 drives the sliding clamping unit 22 to move, the sliding clamping unit 22 slides along the horizontal sliding rail 342 in a direction approaching or separating from the fixed supporting unit 21, so that the stability of the sliding clamping unit 22 during movement can be improved.

Optionally, the L-shaped mounting seat 34 further includes a longitudinal guiding lug 343, and an opening direction of the longitudinal guiding lug 343 is parallel to the longitudinal rack 341; the lifting module 3 further comprises a longitudinal guide rod 33, the longitudinal guide rod 33 is parallel to the longitudinal rack 341, the longitudinal guide rod 33 is fixedly connected with the moving module 4 after passing through the longitudinal guide lug 343, and the longitudinal guide rod 33 is slidably connected with the longitudinal guide lug 343. The longitudinal guide tab 343 slides along the length of the longitudinal guide 33 when the L-shaped mounting block 34 moves up and down. In this way, the longitudinal guide lug 343 and the longitudinal guide rod 33 can play a guiding role, so that the L-shaped mounting seat 34 is ensured to always move along the length direction of the longitudinal rack 341 without deviation.

Preferably, the clamping module 2 further includes a horizontal telescopic guide rod assembly 26, the length direction of the horizontal telescopic guide rod assembly 26 is parallel to the screw rod 24, the horizontal telescopic guide rod assembly 26 includes a sleeve 261 and a connecting rod 262, the sleeve 261 is connected with the sliding clamping unit 22, one end of the connecting rod 262 is connected with the L-shaped mounting seat 34, and the other end of the connecting rod 262 is disposed in the sleeve 261 and is in sliding connection with the sleeve 261. When the prime number sliding clamping unit 22 moves close to or away from the fixed supporting unit 21, the connecting rod 262 slides in the same direction in the sleeve 261. In this way, the horizontal telescopic guide rod assembly 26 is provided to perform a guiding function, so that the sliding clamping unit 22 always moves along the length direction of the screw rod 24 without deviation.

It should be noted that the fixed supporting unit 21 includes a supporting seat 211 and a supporting plate 212, the supporting seat 211 is fixedly connected with the horizontal sliding rail 342, and the supporting plate 212 is connected with the supporting seat 211; the sliding clamping unit 22 comprises a clamping seat 221 and a clamping plate 222, the clamping seat 221 is in sliding connection with the horizontal sliding rail 342, the clamping seat 221 is in threaded connection with the screw rod 24, and the clamping plate 222 is connected with the clamping seat 221; the clamping plate 222 and the support plate 212 are disposed opposite to each other. Specifically, the clamping module 2 further includes a clamping driving motor 25, and an output shaft of the clamping driving motor 25 is fixedly connected with the screw rod 24 and drives the screw rod 24 to rotate, so as to drive the clamping seat 221 to move, and further drive the clamping plate 222 to move in a direction approaching or separating from the support plate 212. In this embodiment, the cell body 1 is located between the support plate 212 and the clamping plate 222, and when the clamping plate 222 approaches the support plate 212, the cell body 1 can be clamped to the support plate 212, and then the cell body 1 can be lifted by the lifting module 3.

Specifically, the fixed support unit 21 further includes a longitudinal guide hole 213 and a guide rod 214, the opening direction of the longitudinal guide hole 213 is parallel to the longitudinal rack 341, and the guide rod 214 is fixedly connected to the mobile module 4 after passing through the longitudinal guide hole 213. The longitudinal guide hole 213 and the guide rod 214 are provided to guide the L-shaped mounting seat 34, so that the L-shaped mounting seat can always move along the length direction of the longitudinal rack 341 without deviation.

Preferably, the surfaces of the support plate 212 and the clamping plate 222 are provided with rubber anti-slip protrusions 223. When the battery cell body 1 is clamped by the support plate 212 and the clamping plate 222, the rubber anti-slip protruding thorns 223 are arranged, so that friction between the battery cell body 1 and the rubber anti-slip protruding thorns can be improved, and the battery cell body 1 is prevented from falling off after lifting.

Specifically, the moving module 4 includes a base 41 and a side plate 44, the base 41 is connected with the side plate 44, the pulley 43 is disposed on the lower surface of the base 41, the guide rod 214 and the longitudinal guide rod 33 are fixedly connected with the base 41, and the lifting driving motor 31 is connected with the side plate 44; the base 41 is provided with an avoidance concave portion 42, and the battery cell body 1 reciprocates up and down in the avoidance concave portion 42. The battery cell body 1 is located in the avoidance concave part 42, then the clamping module 2 is lifted by the lifting and placing module 3, so that the battery cell body 1 is lifted, and then the movement of the whole battery cell assembly can be realized by pushing the moving module 4.

The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the utility model, and yet fall within the scope of the utility model.

Claims (8)

1. The utility model provides a convenient electric core subassembly that removes which characterized in that: the device comprises a battery cell body, a clamping module, a lifting and placing module and a moving module;

the lifting and placing module is arranged on the moving module, the clamping module is arranged on the lifting and placing module, the lifting and placing module is used for driving the clamping module to move up and down relative to the moving module, and a pulley is arranged at the bottom of the moving module;

the clamping module comprises a fixed supporting unit, a sliding clamping unit and a screw rod, wherein the fixed supporting unit and the sliding clamping unit are oppositely arranged, the battery cell body is located between the fixed supporting unit and the sliding clamping unit, the fixed supporting unit is fixedly connected with the lifting module, the sliding clamping unit is in threaded connection with the screw rod, the screw rod is in rotary connection with the lifting module, and the screw rod drives the sliding clamping unit to reciprocate in the direction of the fixed supporting unit.

2. A portable electrical cell assembly according to claim 1, wherein: the lifting and placing module comprises a lifting and placing driving motor, a driving gear and an L-shaped mounting seat, wherein the L-shaped mounting seat comprises a longitudinal rack and a horizontal sliding rail which are mutually vertical; an output shaft of the lifting driving motor is fixedly connected with the driving gear, and the driving gear is meshed with the longitudinal rack; the sliding clamping unit is in sliding connection with the horizontal sliding rail, and the horizontal sliding rail is parallel to the screw rod.

3. A portable electrical cell assembly according to claim 2, wherein: the L-shaped mounting seat further comprises a longitudinal guide lug, and the opening direction of the longitudinal guide lug is parallel to the longitudinal rack; the lifting module further comprises a longitudinal guide rod, the longitudinal guide rod is parallel to the longitudinal rack, the longitudinal guide rod penetrates through the longitudinal guide lug and then is fixedly connected with the moving module, and the longitudinal guide rod is in sliding connection with the longitudinal guide lug.

4. A portable electrical cell assembly according to claim 3, wherein: the clamping module further comprises a horizontal telescopic guide rod assembly, the length direction of the horizontal telescopic guide rod assembly is parallel to the screw rod, the horizontal telescopic guide rod assembly comprises a sleeve and a connecting rod, the sleeve is connected with the sliding clamping unit, one end of the connecting rod is connected with the L-shaped mounting seat, and the other end of the connecting rod is arranged in the sleeve and is in sliding connection with the sleeve.

5. The portable electrical cell assembly of claim 4, wherein: the fixed supporting unit comprises a supporting seat and a supporting plate, the supporting seat is fixedly connected with the horizontal sliding rail, and the supporting plate is connected with the supporting seat; the sliding clamping unit comprises a clamping seat and a clamping plate, the clamping seat is in sliding connection with the horizontal sliding rail, the clamping seat is in threaded connection with the screw rod, and the clamping plate is connected with the clamping seat; the clamping plate and the supporting plate are oppositely arranged.

6. A portable electrical cell assembly according to claim 5 wherein: the fixed support unit further comprises a longitudinal guide hole and a guide rod, the opening direction of the longitudinal guide hole is parallel to the longitudinal rack, and the guide rod penetrates through the longitudinal guide hole and is fixedly connected with the mobile module.

7. The portable electrical cell assembly of claim 6, wherein: rubber anti-slip protruding thorns are arranged on the surfaces of the supporting plate and the clamping plate.

8. The portable electrical cell assembly of claim 7, wherein: the movable module comprises a base and a side plate, the base is connected with the side plate, the pulley is arranged on the lower surface of the base, the guide rod and the longitudinal guide rod are fixedly connected with the base, and the lifting driving motor is connected with the side plate; the base is provided with an avoidance concave part, and the battery cell body reciprocates up and down in the avoidance concave part.