CN219591580U - Storage battery moving device - Google Patents

Abstract

The utility model discloses a storage battery moving device which is of a cube structure formed by sequentially splicing four single elements, wherein two adjacent sides of any two adjacent single elements are detachably clamped and connected through clamping grooves and clamping plates, and the clamping depths of the matched clamping grooves and clamping plates are adjustable; positive electrode symbols corresponding to the positive electrodes of the storage batteries are arranged on the two single elements positioned on one side of the battery, and the colors of the two single elements on one side of the battery are red; the two single elements on the other side are provided with negative electrode symbols corresponding to the negative electrodes of the storage battery, and the colors of the two single elements on the other side are blue or black. According to the utility model, the size of the box body can be adjusted according to the size of the storage battery, so that each wall of the box body is attached to the outside of the storage battery, and the stability of storage battery placement and carrying is kept.

Description

Storage battery moving device

Technical Field

The utility model relates to the technical field of storage battery moving and carrying equipment. More particularly, the present utility model relates to a battery moving apparatus suitable for carrying batteries of different sizes.

Background

The storage battery for the vehicle has the characteristics of unified standard, large capacitance, stable performance, good safety and the like. Also because of these features, many geophysical prospecting operations use batteries for the power supply of the instrument. In the use of the battery in the investigation work, there are some inconveniences as follows:

1. the size of the positive and negative poles of the storage battery is smaller and is consistent with the color of the storage battery main body, and the positive and negative poles of the storage battery are black, so that the positive and negative poles of the storage battery are distinguished to be required to be paid attention, in addition, in a field operation environment, the storage battery is contacted with more dust and soil, the positive and negative poles of the storage battery are easily marked with dirt, and the dirt is more difficult to distinguish. In the process of connecting the equipment and the storage battery, once the anode and the cathode are reversely connected, the electrode can be burnt out, so that the equipment cannot be supplied with power, and therefore, operators need to take extra care to avoid instrument damage caused by misconnection, and the use experience is poor.

2. The weight of the storage battery is large, and for the investigation work requiring frequent replacement, the carrying and moving of the storage battery are laborious, in the prior art, a movable storage battery bracket or box body is adopted to move the storage battery, for example, a vertical mobile battery box is disclosed in publication number CN108011057a, and can be conveniently moved and stopped by the telescopic pull rod and the universal wheel, however, the structural size of the box body in the above patent document is fixed, and the size of the box body cannot be adjusted according to the size of the battery, so that the application range of the vertical mobile battery box provided in the above patent document is small.

Disclosure of Invention

It is an object of the present utility model to solve at least the above problems and to provide at least the advantages to be described later.

The utility model also aims to provide a storage battery moving device, which is convenient to distinguish by arranging a striking electrode polarity sign outside a box body for accommodating a battery and corresponding to the battery, and avoids damage to the battery caused by reverse insertion of a positive electrode and a negative electrode.

To achieve these objects and other advantages and in accordance with the purpose of the utility model, as embodied and broadly described herein, there is provided a battery moving device having a cubic structure formed by sequentially splicing four unit pieces, two adjacent sides of any adjacent two unit pieces being detachably engaged with each other through a clamping groove and a clamping plate, and the clamping depth of the matched clamping groove and clamping plate being adjustable; positive electrode symbols corresponding to the positive electrodes of the storage batteries are arranged on the two single elements positioned on one side of the battery, and the colors of the two single elements on one side of the battery are red; the two single elements on the other side are provided with negative electrode symbols corresponding to the negative electrodes of the storage battery, and the colors of the two single elements on the other side are blue or black.

Preferably, the battery moving device is provided with a wire clamping column outside at least one unit element.

Preferably, the battery moving device is provided with a traction hanging ring on at least one unit element.

Preferably, in the battery moving device, the hanging ring is yellow.

Preferably, in the battery moving device, a roller is provided on the outer side of each unit piece in a turnover manner.

Preferably, in the battery moving device, each unit element comprises a bottom plate horizontally arranged and an L-shaped side plate arranged on the bottom plate, the bottoms of two right-angle sides of the side plate are respectively connected with two adjacent side edges of the bottom plate, and the bottom plate and the L-shaped side plate are integrally formed;

the bottom plate of the unit element is not connected with one side edge of the side plate, the other side edge is provided with a plugboard, and the plugboard on each unit element is matched with the plugboard on the unit element adjacent to the plugboard; the insertion depth of the plugboard and the matched slot is adjustable;

one end of the side plate of each unit element is provided with a clamping plate, the other end of the side plate of each unit element is provided with a clamping groove, and the clamping plate on each unit element can be clamped in the clamping groove on the unit element adjacent to the clamping plate; the clamping depth of the clamping plate and the matched clamping groove is adjustable.

Preferably, in the battery moving device, elastic saw teeth are arranged on two horizontal side edges of each clamping plate, and tooth grooves for accommodating the saw teeth are arranged on the inner wall of each clamping groove.

Preferably, the battery mobile device, the inside of every cardboard be equipped with first holding chamber, its top and bottom are equipped with the first through-hole of bar with first holding chamber intercommunication respectively, correspond on every cardboard and set up a clamping mechanism, every clamping mechanism includes:

the two movable plates are correspondingly provided with a first through hole, one side of each movable plate is positioned in the first accommodating cavity, the other side of each movable plate can penetrate through the corresponding first through hole to extend to the outside of the first accommodating cavity and protrude out of the side part of the clamping plate, a plurality of sliding blocks are arranged on one side of each movable plate, and sawteeth are arranged on the other side of each movable plate;

the drawing rod is horizontally arranged between the two movable plates, is arranged in parallel with the clamping plate, is respectively provided with wavy sliding grooves on two sides, and is in sliding connection with the inner wall of the first accommodating cavity along the length direction; the sliding blocks on each movable plate are arranged in the corresponding sliding grooves in a sliding manner, all the sliding blocks can be synchronously positioned at the valley bottom or the valley peak of the sliding groove, when all the sliding blocks are synchronously positioned at the valley bottom of the sliding groove, the saw teeth on the other side of the movable plate are accommodated in the corresponding first through holes, and when all the sliding blocks are synchronously positioned at the valley peak of the sliding groove, the saw teeth on the other side of the movable plate penetrate through the corresponding first through holes and protrude out of the side parts of the clamping plates.

Preferably, in the storage battery moving device, a second accommodating cavity communicated with the first accommodating cavity is formed in the single element, a pi-shaped second through hole communicated with the second accommodating cavity is formed in the side wall of the single element, and the second through hole comprises a horizontal part and two vertical parts communicated with the horizontal part;

each of the engagement mechanisms further includes: the free end of one straight edge of the handle is coaxially and rotationally connected with one end, close to the single element, of the drawing rod, the free end of the other straight edge penetrates out of the horizontal part of the second through hole to extend to the outside of the single element, and the other straight edge of the handle can be rotated to be clamped in any vertical part of the second through hole.

The utility model at least comprises the following beneficial effects:

the utility model is suitable for the storage battery with a cuboid structure preferably, the storage battery is convenient to carry and transport by arranging the moving device of the storage battery, in order to be suitable for storage batteries with different sizes, the utility model is provided with four single elements which can be spliced in sequence, the size of the box body can be adjusted according to the size of the storage battery, so that when the storage battery is accommodated in the box body, the inner wall of the box body can be contacted with the outer wall of the storage battery to limit the storage battery, the unnecessary shaking of the storage battery in the box body in the transporting process is avoided, the outer wall of the box body is provided with the corresponding and striking electrode polarity symbols (positive electrode and negative electrode symbols) of the storage battery, when the storage battery is placed in the box body, the storage battery is adjusted to the side where the positive electrode binding post and the single element with the positive electrode symbol are located, and the side where the single element with the negative electrode symbol are located, when the storage battery is connected with equipment, the positive electrode and the negative electrode of the storage battery can be accurately and rapidly distinguished, and the situation that the positive electrode and the negative electrode of the storage battery are reversely connected is avoided; the utility model provides a mobile device for a storage battery, which can adjust the size of a box body according to the size of the battery, can rapidly and accurately identify the anode and the cathode of the storage battery and is convenient for carrying the storage battery.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

Fig. 1 is a schematic view showing a structure of a battery moving apparatus according to an embodiment of the present utility model in a disassembled state;

fig. 2 is a schematic structural view of the battery moving device according to another embodiment of the present utility model in an assembled state;

fig. 3 is a plan view of the battery moving apparatus according to another embodiment of the present utility model in an assembled state;

FIG. 4 is a cross-sectional view of the engaging mechanism in a saw tooth extended state according to another embodiment of the present utility model;

FIG. 5 is a schematic view of a structure of a locking mechanism in a saw tooth extending state according to another embodiment of the present utility model;

FIG. 6 is a cross-sectional view of the engaging mechanism in a saw-tooth receiving state according to another embodiment of the present utility model;

fig. 7 is a schematic structural view of the engaging mechanism in a saw-tooth accommodating state according to another embodiment of the present utility model.

Description of the specification reference numerals: 101-positive electrode symbol, 102-negative electrode symbol; 11-a bottom plate; 121-one of the straight edges of the side plate; 1211-a second accommodation chamber; 122-the other straight edge of the side plate; 21-a clamping groove; 22-clamping plates; 3-clamping wire columns; 41-slots; 42-inserting plates; 5-rolling wheels; 61-a movable plate; 611-saw teeth; 612-sliding blocks; 62-drawing a pull rod; 621-sliding grooves; 631-a horizontal portion of the second through hole; 632-the vertical portion of the second through hole; 64-handle.

Detailed Description

The present utility model is described in further detail below with reference to the drawings and examples to enable those skilled in the art to practice the utility model by referring to the description.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

The experimental methods described in the following embodiments are conventional methods unless otherwise indicated, and the reagents and materials are commercially available.

In the description of the present utility model, the terms "transverse", "longitudinal", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus are not to be construed as limiting the present utility model.

As shown in fig. 1 to 3, the utility model provides a storage battery moving device, which has a cubic structure formed by sequentially splicing four single elements, wherein two adjacent sides of any two adjacent single elements are detachably clamped and connected through clamping grooves and clamping plates, and the clamping depths of the matched clamping grooves and clamping plates are adjustable; the two single elements on one side of the battery are provided with positive electrode symbols 101 corresponding to the positive electrodes of the battery, and the two single elements on one side of the battery are red in color; the two unit elements on the other side are provided with negative electrode symbols 102 corresponding to the negative electrodes of the storage battery, and the colors of the two unit elements on the other side are blue or black.

As shown in fig. 1 to 3, the utility model provides a storage battery moving device, which is of a cube structure formed by sequentially splicing four single elements, wherein the four single elements are spliced into a box structure with an open top, a storage battery can be accommodated in the box, the four single elements are detachably and fixedly connected through clamping grooves and clamping plates, the structure is simple, the splicing and the disassembly are convenient and quick, the clamping depth of the clamping grooves and the clamping plates which are further matched is adjustable, the size of the box structure formed by splicing can be further adjusted according to the size of the storage battery, positive electrode symbols ("+") corresponding to the positive electrode of the storage battery are arranged on two single elements positioned on one side, the single elements with the positive electrode symbols are red, negative electrode symbols ("-") corresponding to the negative electrode of the storage battery are arranged on two single elements positioned on the other side, the single elements with the negative electrode symbols are blue or black, and the distinguishing rate of the storage battery patch cord is improved by arranging the eye-catching electrode symbols and different colors; the positive electrode is red, the negative electrode is blue or black, and the color characteristics of the positive electrode and the negative electrode are universal;

the utility model is suitable for the storage battery with a cuboid structure preferably, the storage battery is convenient to carry and transport by arranging the moving device of the storage battery, in order to be suitable for storage batteries with different sizes, the utility model is provided with four single elements which can be spliced in sequence, the size of the box body can be adjusted according to the size of the storage battery, so that when the storage battery is accommodated in the box body, the inner wall of the box body can be contacted with the outer wall of the storage battery to limit the storage battery, the unnecessary shaking of the storage battery in the box body in the transporting process is avoided, the outer wall of the box body is provided with the corresponding and striking electrode polarity symbols (positive electrode and negative electrode symbols) of the storage battery, when the storage battery is placed in the box body, the storage battery is adjusted to the side where the positive electrode binding post and the single element with the positive electrode symbol are located, and the side where the single element with the negative electrode symbol are located, when the storage battery is connected with equipment, the positive electrode and the negative electrode of the storage battery can be accurately and rapidly distinguished, and the situation that the positive electrode and the negative electrode of the storage battery are reversely connected is avoided; the utility model provides a mobile device for a storage battery, which can adjust the size of a box body according to the size of the battery, can rapidly and accurately identify the anode and the cathode of the storage battery and is convenient for carrying the storage battery.

In another embodiment, the battery moving device is provided with a wire clamping column 3 outside at least one unit element. The single element is provided with the wire clamping columns, which can be used for accommodating the storage battery connecting wire (the wire clamping is a common storage battery connecting wire and is used for series connection and parallel connection of a plurality of storage batteries), and preferably, the two single elements positioned on the same side are respectively provided with one wire clamping column, so that the practical application is not limited to the design scheme, and the number and the positions of the wire clamping columns can be designed according to the specific design number and the layout of the storage battery wire clamping.

In another technical scheme, the storage battery moving device is characterized in that a traction hanging ring is arranged on at least one single element. After the ropes are connected, the movement of the moving device can be pulled, and lifting and carrying are omitted.

In another technical scheme, the storage battery moving device is characterized in that the hanging ring is yellow. The extension of the hanging ring is set to be yellow which is different from the color of the positive electrode and the negative electrode, so that the identification degree of the hanging ring is improved.

In another technical scheme, in the storage battery moving device, the outer side of each unit element is provided with the roller 5 in a turnover mode. The outer side of the box body is provided with a roller structure capable of being turned up and down, the box body can be moved after being turned up and stored down (the box body can be realized according to the prior art means, for example, a roller frame is arranged on the outer wall of the single element through a pin shaft, a roller is arranged on the roller frame, and the roller is turned up and down relative to the single element through the roller frame, so that the up and down turning of the roller is realized). The outer side of the box body is provided with a jack which is matched with the roller bolt for use, so that the roller state is stabilized.

In another technical scheme, each unit element of the storage battery moving device comprises a bottom plate 11 which is horizontally arranged and an L-shaped side plate which is arranged on the bottom plate, wherein the bottoms of two right-angle sides of the side plate are respectively connected with two adjacent side edges of the bottom plate, and the bottom plate 11 and the L-shaped side plate are integrally formed;

the bottom plate of the unit element is not connected with one side edge of the side plate, which is provided with the plugboard 42, the other side edge is provided with the slot 41, and the plugboard 42 on each unit element is matched with the slot 41 on the unit element adjacent to the plugboard 42; the insertion depth of the plugboard 42 and the matched slot 41 is adjustable;

one end of the side plate of each unit element is provided with a clamping plate 22, the other end of the side plate of each unit element is provided with a clamping groove 21, and the clamping plate 22 on each unit element can be clamped in the clamping groove 21 on the unit element adjacent to the clamping plate 22; the engaging depth of the clamping plate 22 and the matched clamping groove 21 is adjustable.

As shown in fig. 1, each unit element is formed by integrally forming a bottom plate and an L-shaped side plate, and forms one vertex angle of a cube structure, two sides of each bottom plate which are not connected with the side plates are provided with inserting plates, and the other side plate is provided with a slot, so that when the two unit elements are spliced, the two bottom plates are connected through the inserting of the slot and the inserting plate; the free end (one end of the side plate) of one straight edge 121 of the side plate is provided with a clamping plate, the free end (the other end of the side plate) of the other straight edge 122 of the side plate is provided with a clamping groove, the temporary fixation of the two single elements is realized through the clamping connection of the clamping groove and the clamping plate, and the clamping depth of the clamping groove and the clamping plate and the inserting depth of the inserting groove and the inserting plate are adjusted when the structural size of the box body is adjusted according to the size of the battery.

In another technical scheme, in the battery moving device, elastic saw teeth are arranged on two horizontal side edges of each clamping plate 22, and tooth grooves for accommodating the saw teeth are arranged on the inner wall of each clamping groove 21. Set up the sawtooth on the cardboard, set up the tooth's socket on the draw-in groove, the sawtooth can hold in the tooth's socket, realize the temporary positioning to cardboard and draw-in groove block, specific accessible prior art means realizes, sawtooth and tooth's socket meshing and adjustability, for example, the principle of belt clamp in the conventional technical means, the cardboard is when inwards draw-in groove interpolation, the sawtooth can be followed the direction of insertion and slided in the draw-in groove, insert the back in place, the sawtooth holds in the tooth's socket in corresponding position, when needs are with box size enlargement, rotate the stirring piece, accomodate the sawtooth, outwards stimulate the cardboard, take out certain distance in the draw-in groove with the cardboard, and then with box size enlargement.

In another technical scheme, the battery mobile device, the inside of every cardboard be equipped with first accommodation chamber 221, its top and bottom are equipped with the bar first through-hole with first accommodation chamber intercommunication respectively, set up a block mechanism on every cardboard 22 corresponds, every block mechanism includes:

two movable plates 61, one movable plate 61 is correspondingly arranged on one first through hole, one side of each movable plate 61 is positioned in the first accommodating cavity, the other side of each movable plate can extend to the outside of the first accommodating cavity through the corresponding first through hole and protrude out of the side part of the clamping plate, a plurality of sliding blocks 612 are arranged on one side of each movable plate, and sawteeth 611 are arranged on the other side of each movable plate;

the drawing rod 62 is horizontally arranged between the two movable plates 61, the drawing rod 62 is arranged in parallel with the clamping plate 22, both sides of the drawing rod 62 are respectively provided with a wavy chute 621, and the drawing rod 62 is in sliding connection with the inner wall of the first accommodating cavity along the length direction; the sliding blocks 612 on each movable plate 61 are slidably disposed in the corresponding sliding grooves 621, all the sliding blocks 612 can be synchronously disposed at the valley or the peak of the sliding groove, when all the sliding blocks 612 are synchronously disposed at the valley of the sliding groove 621, the saw teeth 611 on the other side of the movable plate 61 are accommodated in the corresponding first through holes, and when all the sliding blocks 612 are synchronously disposed at the valley of the sliding groove 621, the saw teeth 611 on the other side of the movable plate 61 pass through the corresponding first through holes and protrude out of the side of the clamping plate.

In the technical scheme, the utility model discloses a specific clamping connection mode of the clamping plate and the clamping groove, so that the clamping depth of the clamping plate and the clamping groove can be adjusted, and the clamping state of the clamping plate and the clamping groove can be temporarily limited through the engagement of the saw teeth and the tooth grooves.

Specifically, in this technical scheme, the inside of every cardboard is hollow structure (forming first holding chamber), and top and bottom run through (top and bottom are equipped with the first through-hole with first holding chamber intercommunication), with the sawtooth setting on the fly leaf, every fly leaf is along vertical direction slip locating first holding intracavity, the reciprocates of fly leaf, by the horizontal push-pull of pull rod drive, the in-process of pull rod horizontal pull, drive the wavy spout horizontal migration of pull rod top and bottom, the horizontal migration of spout, the height position of the vertical direction of slider changes, and then drive the removal of fly leaf, when pull rod horizontal migration arrives, the sawtooth on the fly leaf is accomodate in first holding chamber, the cardboard can be free at draw-in groove level, because of sawtooth and tooth's socket are not mutually interfered, after the insertion depth of cardboard in the draw-in adjusting to the position, remove the pull rod, make all sliders homonymies and the trough peak department of spout, the sawtooth on the fly leaf is released to first holding of tooth's socket, protruding outside the recess, and the sawtooth is realized to the recess, and the snap-in between the snap-gauge is realized, and the snap-gauge is meshed with the saw-gauge element.

In another technical scheme, as shown in fig. 4-7, in the battery moving device, a second accommodating cavity 1211 is formed in the unit element and is communicated with the first accommodating cavity, a pi-like second through hole is formed in the side wall of the unit element and is communicated with the second accommodating cavity, and the second through hole comprises a horizontal portion 631 and two vertical portions 632 communicated with the horizontal portion;

each of the engagement mechanisms further includes: the free end of one straight edge of the handle 64 is coaxially and rotatably connected with one end of the drawing rod 62 close to the single element (rotatably connected through a bearing ring, so that the handle can rotate around the axis of the drawing rod), the free end of the other straight edge penetrates out of the horizontal part of the second through hole to extend to the outside of the single element, and the other straight edge of the handle can rotate to be clamped in any vertical part of the second through hole.

In the technical scheme, the clamping mechanism further comprises a handle with an L-shaped structure, the handle is connected with the drawing rod, the drawing rod is pushed and pulled to drive the drawing rod to horizontally move by holding the handle, a pi-shaped second through hole is further formed, the other straight edge of the handle can be contained in any vertical part, as shown in fig. 5, when the drawing rod is pulled to the position close to the single element, all sliding blocks are located at the valley peak of the sliding groove, the saw teeth protrude out of the clamping plate, the saw teeth can be clamped in the tooth groove, the clamping plate and the clamping groove are fixedly connected, at the moment, the two single elements are spliced in place, the handle is rotated, the other straight edge of the handle is contained in one vertical part far away from the clamping plate, the drawing rod is limited, the saw tooth protruding state is limited, and the clamping stability of the saw teeth and the tooth groove is ensured; when the splicing insertion depth of two single elements is required to be adjusted, the handle is rotated, the other straight edge of the handle is rotated from the vertical part, the limit of the pull rod is released, the pull rod is pushed towards the direction close to the clamping plate, all sliding blocks move to the valley bottom of the sliding groove, the saw teeth are contained in the first containing cavity, the other straight edge of the handle is rotated to the vertical part close to the clamping plate, the pull rod is limited, then the saw teeth and the tooth grooves do not interfere with each other along the axial direction of the pull rod, the clamping plate can be pulled, the clamping depth of the clamping plate and the clamping groove is adjusted, after the clamping plate is adjusted in place, the handle is rotated again, the limit of the vertical part of the second through hole to the handle is released, the handle is pulled, the pull rod is driven to move towards the direction close to the single elements, the saw teeth are pushed out from the second containing groove, the saw teeth are meshed with the tooth grooves, and the temporary positioning of the clamping groove and the clamping plate which are adjusted in place is realized.

The number of equipment and the scale of processing described herein are intended to simplify the description of the present utility model. Applications, modifications and variations of the present utility model will be readily apparent to those skilled in the art.

Although embodiments of the present utility model have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the utility model would be readily apparent to those skilled in the art, and accordingly, the utility model is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (9)

1. The storage battery moving device is characterized in that the moving device is of a cube structure formed by sequentially splicing four single elements, two adjacent sides of any two adjacent single elements are detachably clamped and connected through clamping grooves and clamping plates, and the clamping depths of the matched clamping grooves and clamping plates are adjustable; positive electrode symbols corresponding to the positive electrodes of the storage batteries are arranged on the two single elements positioned on one side of the battery, and the colors of the two single elements on one side of the battery are red; the two single elements on the other side are provided with negative electrode symbols corresponding to the negative electrodes of the storage battery, and the colors of the two single elements on the other side are blue or black.

2. The battery moving apparatus according to claim 1, wherein a grip is provided at an outer side of the at least one unit cell.

3. The battery moving apparatus according to claim 1, wherein a traction link is provided on at least one unit element.

4. The battery mover of claim 3, wherein the hanging ring is yellow in color.

5. The battery moving apparatus as claimed in claim 1, wherein the outside of each unit piece is provided with a roller in a turnover manner.

6. The battery moving apparatus as claimed in claim 1, wherein each unit includes a bottom plate horizontally disposed and an L-shaped side plate provided on the bottom plate, bottoms of two right-angle sides of the side plate being connected to adjacent two side edges of the bottom plate, respectively, the bottom plate and the L-shaped side plate being integrally formed;

the bottom plate of the unit element is not connected with one side edge of the side plate, the other side edge is provided with a plugboard, and the plugboard on each unit element is matched with the plugboard on the unit element adjacent to the plugboard; the insertion depth of the plugboard and the matched slot is adjustable;

one end of the side plate of each unit element is provided with a clamping plate, the other end of the side plate of each unit element is provided with a clamping groove, and the clamping plate on each unit element can be clamped in the clamping groove on the unit element adjacent to the clamping plate; the clamping depth of the clamping plate and the matched clamping groove is adjustable.

7. The battery mover of claim 6, wherein each card has resilient serrations on both horizontal sides thereof, and tooth slots for receiving the serrations are provided on the inner walls of each card slot.

8. The battery moving device according to claim 6, wherein a first accommodating cavity is provided in each of the clamping plates, the top and the bottom of each of the clamping plates are respectively provided with a first through hole in a shape of a bar communicated with the first accommodating cavity, each of the clamping plates is provided with a corresponding clamping mechanism, and each of the clamping mechanisms comprises:

the two movable plates are correspondingly provided with a first through hole, one side of each movable plate is positioned in the first accommodating cavity, the other side of each movable plate can penetrate through the corresponding first through hole to extend to the outside of the first accommodating cavity and protrude out of the side part of the clamping plate, a plurality of sliding blocks are arranged on one side of each movable plate, and sawteeth are arranged on the other side of each movable plate;

the drawing rod is horizontally arranged between the two movable plates, is arranged in parallel with the clamping plate, is respectively provided with wavy sliding grooves on two sides, and is in sliding connection with the inner wall of the first accommodating cavity along the length direction; the sliding blocks on each movable plate are arranged in the corresponding sliding grooves in a sliding manner, all the sliding blocks can be synchronously positioned at the valley bottom or the valley peak of the sliding groove, when all the sliding blocks are synchronously positioned at the valley bottom of the sliding groove, the saw teeth on the other side of the movable plate are accommodated in the corresponding first through holes, and when all the sliding blocks are synchronously positioned at the valley peak of the sliding groove, the saw teeth on the other side of the movable plate penetrate through the corresponding first through holes and protrude out of the side parts of the clamping plates.

9. The battery moving device according to claim 8, wherein a second accommodating cavity communicated with the first accommodating cavity is arranged in the single element, a pi-like second through hole communicated with the second accommodating cavity is arranged on the side wall of the single element, and the second through hole comprises a horizontal part and two vertical parts communicated with the horizontal part;

each of the engagement mechanisms further includes: the free end of one straight edge of the handle is coaxially and rotationally connected with one end, close to the single element, of the drawing rod, the free end of the other straight edge penetrates out of the horizontal part of the second through hole to extend to the outside of the single element, and the other straight edge of the handle can be rotated to be clamped in any vertical part of the second through hole.