CN112918917A

CN112918917A - New energy automobile battery production conveyer based on sealed concatenation type

Info

Publication number: CN112918917A
Application number: CN202110091384.2A
Authority: CN
Inventors: 陆雨
Original assignee: Individual
Current assignee: Hubei Zhixiang Technology Co ltd
Priority date: 2021-01-23
Filing date: 2021-01-23
Publication date: 2021-06-08
Anticipated expiration: 2041-01-23
Also published as: CN112918917B

Abstract

The invention relates to the technical field of battery transportation, in particular to a sealed splicing type new energy automobile battery production and transportation device. The battery protection device comprises an outer protection device, wherein a plurality of battery bearing devices are arranged in the outer protection device along the length direction of the outer protection device, and bottom bearing devices are arranged at the bottoms of the battery bearing devices; the outer protection device comprises a square outer protection shell, and a placing cavity is formed in the outer protection shell at a position close to the middle part; the battery bearing device comprises a bearing buffer device, the inner wall of the bearing buffer device is provided with the bearing device, the bearing buffer device comprises a bearing device, and the position, close to the bottom side, inside the bearing device is provided with the buffer device. The invention mainly solves the problem that when semi-finished batteries are transferred and transported, the semi-finished batteries are not sealed and protected, and partial water vapor enters the inner wall of the container, so that partial semi-finished batteries placed in the container are invalid.

Description

New energy automobile battery production conveyer based on sealed concatenation type

Technical Field

The invention relates to the technical field of battery transportation, in particular to a sealed splicing type new energy automobile battery production and transportation device.

Background

Automobile battery among the new energy automobile is the indispensable partly of car, makes the power source who drives new energy automobile, and automobile battery can transport its semi-manufactured goods battery for production is accomplished in the production process, and at the in-process of transporting semi-manufactured goods battery, the battery can not receive too big vibrations, can not have the inside that moist air such as steam enters into the battery simultaneously to prevent that the battery is at the in-process of transportation, lead to the inside original paper of battery and material inefficacy.

At present when transporting semi-manufactured goods's battery transfer, make to use the insulating band with semi-manufactured goods battery to wrap up with it greatly, will pile up in a container, transporting the container, at the in-process of transporting the battery, do not seal the protection to semi-manufactured goods battery easily, have partial steam to enter into the inner wall of container, make and place the partial semi-manufactured goods battery inefficacy in the container inside to cause the waste of battery raw materials.

Disclosure of Invention

The invention aims to provide a device for producing and transporting a new energy automobile battery based on sealed splicing, which aims to solve the problems in the background technology.

In order to achieve the purpose, the new energy automobile battery production and transportation device based on the sealed splicing type comprises an outer protection device, wherein a plurality of battery bearing devices are arranged inside the outer protection device along the length direction of the outer protection device, and bottom bearing devices are arranged at the bottoms of the battery bearing devices;

the outer protection device comprises a square outer protection shell, and a placing cavity is formed in the outer protection shell at a position close to the middle part;

the battery bearing device comprises a bearing buffer device, the inner wall of the bearing buffer device is provided with a bearing device, the bearing buffer device comprises a bearing device, a buffer device is arranged in the bearing device at a position close to the bottom side, the bearing device comprises a square bearing shell, a battery placing cavity penetrating through the top of the bearing shell is arranged in the bearing shell, the buffer device comprises a square buffer plate matched with the battery placing cavity, the bottom of the buffer plate is fixedly connected with buffer springs in a bilateral symmetry mode along the length direction of the buffer plate, the bearing device comprises a U-shaped bearing frame, upper end sealing covers in an inverted L shape are hinged to the upper side of the bearing frame in a bilateral symmetry mode, one ends of the two upper end sealing covers are attached to each other, and side baffles are fixedly connected to the positions, close to the middle, of the bottoms of the two sides of the bearing frame;

the bottom bearing device comprises a bearing plate which is square and is matched with the placing cavity, and the left and right symmetrical movable wheels are fixedly connected to the four corners of the bottom of the bearing plate.

As a further improvement of the technical scheme, the left and right side walls of the receiving shell close to the upper end are symmetrically and fixedly connected with an upper inclined supporting block in an L shape, the bottom of the upper inclined supporting block is in an inclined triangle shape, the position of the upper side of the upper inclined supporting block close to the edge is evenly and fixedly connected with a hinged frame along the length direction of the upper inclined supporting block, the hinged frame is hinged with a fixed hinge rod, one side of the upper end sealing cover is provided with a rotary hinge rod corresponding to the hinged frame along the length direction of the upper end sealing cover, one end of the rotary hinge rod is fixedly connected with a pulling spring, and one end of the pulling spring is fixedly connected with one end of the fixed hinge rod.

As a further improvement of the technical scheme, one end of the fixed hinge rod is fixedly connected with a hollow tube with a hollow interior, one side of the rotary hinge rod is fixedly connected with an inserting column, the inserting column is arranged in the pulling spring, one end of the inserting column is inserted into the inner wall of the hollow tube, and one end of the pulling spring is sleeved on the hollow tube.

As a further improvement of the technical scheme, the upper end of the side baffle is fixedly connected with an upper baffle, the upper end of the side baffle is contacted with the bottom of the upper end sealing cover, the bottom of the upper baffle is contacted with the side wall of the upper side of the bearing shell, and the position, close to the middle part, of the upper side of the upper baffle is fixedly connected with a lifting handle.

As a further improvement of the technical scheme, the lateral side of the bearing frame close to the bottom is fixedly connected with square lateral sliding blocks in a bilateral symmetry mode, the left side and the right side of the battery placing cavity are symmetrically provided with lateral sliding grooves matched with the lateral sliding blocks in a front-back symmetry mode close to the position of the bottom of the battery placing cavity, the bearing frame is arranged inside the battery placing cavity, and one end of each lateral sliding block is inserted into the lateral sliding groove in a splicing mode.

As a further improvement of the technical scheme, a plurality of spring limiting columns corresponding to the buffer springs are fixedly connected to the side wall of the bottom of the battery placing cavity along the left-right symmetry direction of the battery placing cavity, and the buffer springs are sleeved on the spring limiting columns.

As a further improvement of the technical scheme, the position fixedly connected with that the front end and the rear end of the buffer plate are close to the middle part is provided with a square buffer sliding block, the positions of the front side and the rear side of the battery placing cavity, which are close to the bottom, are provided with buffer sliding grooves matched with the buffer sliding blocks, and one end of each buffer sliding block is inserted into the corresponding buffer sliding groove.

As a further improvement of the technical scheme, a plurality of pulling sliding grooves corresponding to the rotary hinge rods are formed in the side wall of the upper end sealing cover along the length direction of the upper end sealing cover, a pulling sliding block is connected to the inside of each pulling sliding groove in a sliding mode, and one end of each pulling sliding block is hinged to one end of each rotary hinge rod.

As a further improvement of the technical scheme, the four corners of the upper side of the bearing plate are bilaterally symmetrically provided with limiting grooves, the four corners of the bottom of the bearing shell are bilaterally symmetrically and fixedly connected with bottom convex balls, and one ends of the bottom convex balls are inserted into the limiting grooves.

As a further improvement of the technical scheme, a group of moving rails is fixedly connected to the left and right sides of the bottom side of the inner part of the placing cavity in a symmetrical mode, the bottom bearing device is arranged on the inner wall of the placing cavity, one end of the moving wheel is arranged inside the moving rails, the placing cavity is symmetrically provided with upper inclined grooves close to the upper side in a symmetrical mode, the battery bearing device is arranged inside the placing cavity, and the upper inclined grooves are in contact with the bottoms of the upper inclined supporting blocks.

Compared with the prior art, the invention has the beneficial effects that:

1. in the sealed splicing type new energy automobile battery production and transportation device, the arranged bearing device is used for bearing and collecting semi-finished batteries, meanwhile, the bearing device for bearing the semi-finished batteries is arranged on the bearing buffer device, the bearing buffer device is used for extruding and positioning the bearing device, the bearing device and the bearing buffer device are used for sealing the semi-finished batteries, so that water vapor cannot enter the semi-finished batteries in the transportation process of the semi-finished batteries, and the semi-finished batteries cannot lose efficacy.

2. In this based on sealed concatenation type new energy automobile battery production conveyer, the sealed upside of the sealed lid of upper end of the upset of setting is sealed the device of holding, makes semi-manufactured goods battery fixed in holding the device, simultaneously through accepting the extrusion of buffer to the sealed lid of upper end, makes the one end of two sealed lids of upper end closely paste each other and apply, avoids steam to enter into the inside of holding the device.

3. In this based on sealed concatenation type new energy automobile battery production conveyer, the fixed hank pole that sets up and rotatory hank pole drag through dragging of dragging the spring, make the in-process that holds the device and drag the sealed lid of upper end at the rising, make the sealed lid of upper end open, the operating personnel of being convenient for takes out or puts into semi-manufactured goods battery in holding the device.

4. In this based on sealed concatenation type new energy automobile battery production conveyer, the bottom receiving device that sets up accepts the battery and holds the dress device, makes the battery hold the dress device and be convenient for remove, and the outer protector that sets up simultaneously carries out spacing protection to the position of battery hold the dress device, makes the battery that holds dress semi-manufactured goods battery hold the dress device and can be stable place in the transportation, the transportation of the semi-manufactured goods battery of being convenient for.

Drawings

FIG. 1 is a schematic view of the entire structure of embodiment 1;

FIG. 2 is an overall sectional structural view of embodiment 1;

FIG. 3 is a schematic cross-sectional view of the outer shield apparatus according to embodiment 1;

FIG. 4 is a schematic structural view of a battery housing apparatus according to embodiment 1;

FIG. 5 is a schematic view of a receiving buffer device according to embodiment 1;

FIG. 6 is a schematic cross-sectional view of a receiving buffer device according to embodiment 1;

FIG. 7 is a schematic sectional view showing a receiving apparatus according to embodiment 1;

FIG. 8 is a schematic sectional view showing a shock absorber according to embodiment 1;

FIG. 9 is a schematic structural view of a mounting device according to embodiment 1;

FIG. 10 is a schematic view of the structure at A in example 1;

fig. 11 is a schematic structural view of a bottom receiving device according to embodiment 1.

The various reference numbers in the figures mean:

1. an outer guard; 11. an outer protective shell; 12. a placement chamber; 13. an upper chute; 14. a moving track;

2. a battery housing device;

21. a receiving buffer device;

211. a receiving device; 2111. a bearing shell; 21111. a spring limiting post; 2112. a battery placement cavity; 2113. an upper inclined supporting block; 2114. a hinged frame; 2115. fixing the twisting rod; 2116. a hollow tube; 2117. a side chute; 2118. a bottom convex ball; 2119. a buffer chute;

212. a buffer device; 2121. a buffer plate; 2122. a buffer spring; 2123. a buffer slide block;

213. a carrying handle;

22. a bearing device; 221. a bearing frame; 222. an upper end sealing cover; 223. a side dam; 224. an upper baffle plate; 2241. lifting a handle; 225. a side slider; 226. pulling the chute; 227. pulling the sliding block; 228. rotating the twisting rod; 229. a pulling spring; 2291. inserting a column;

3. a bottom take-up device; 31. a bearing plate; 32. a moving wheel; 33. and a limiting groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

Referring to fig. 1-11, a new energy automobile battery production transportation device based on a sealed splicing type is provided, which includes an outer protection device 1, a plurality of battery bearing devices 2 are arranged inside the outer protection device 1 along the length direction of the outer protection device 1, and a bottom supporting device 3 is arranged at the bottom of the battery bearing devices 2;

the outer protection device 1 comprises a square outer protection shell 11, and a placing cavity 12 is formed in the outer protection shell 11 and is close to the middle of the outer protection shell;

the battery bearing device 2 comprises a bearing buffer device 21, a bearing device 22 is arranged on the inner wall of the bearing buffer device 21, the bearing buffer device 21 comprises a bearing device 211, a buffer device 212 is arranged in the position, close to the bottom side, of the inside of the bearing device 211, the bearing device 211 comprises a square bearing shell 2111, a battery placing cavity 2112 penetrating through the top of the bearing shell 2111 is formed in the bearing shell 2111, the buffer device 212 comprises a buffer plate 2121 matched with the battery placing cavity 2112 in a square shape, the bottom of the buffer plate 2121 is fixedly connected with buffer springs 2122 in a bilateral symmetry mode along the length direction of the buffer plate 2121, the bearing device 22 comprises a U-shaped bearing frame 221, upper end sealing covers 222 in an inverted L shape are hinged to the upper side of the bearing frame 221 in a bilateral symmetry mode, one end of each of the two upper end sealing covers 222 are attached to each other, and side baffles 223 are fixedly connected to the positions;

the bottom bearing device 3 comprises a bearing plate 31 which is square and is matched with the placing cavity 12, and moving wheels 32 are fixedly connected at the four corners of the bottom of the bearing plate 31 in a bilateral symmetry mode.

In the device of the embodiment, when in use, the pulling handle 2241 is held and lifted upwards, the pulling handle 2241 drives the containing device 22 to move upwards, the side slide block 225 slides in the side slide groove 2117 during the process of moving upwards the containing device 22, meanwhile, when the containing device 22 moves upwards, the pulling spring 229 starts to contract to pull the rotating hinge rod 228, the pulled rotating hinge rod 228 drags the pulling slide block 227 to move, the pulling slide block 227 moves along the track of the pulling slide groove 226 in the pulling slide groove 226 along with the continuous upward movement of the containing device 22, one end of the rotating hinge rod 228 rotates around the position hinged with the pulling slide block 227, one end of the fixed hinge rod 2115 rotates around the position hinged with the hinge frame 2114, the inserting column 2291 slides in the hollow tube 2116, one end of the upper end sealing cover 222 rotates at one end of the containing frame 221, after the containing device 22 is opened, the semi-finished battery is placed in the containing device 22, after the semi-finished battery is placed, one end of the upper end sealing caps 222 is pinched and pulled to make the two upper end sealing caps 222 approach each other, the housing unit 22 moves toward the inside of the housing buffer unit 21 while the upper end sealing caps 222 rotate, the pulling spring 229 is elongated, the side slider 225 slides in the side groove 2117, the bottom of the housing unit 22 contacts the buffer plate 2121, the buffer spring 2122 supports and buffers the housing unit 22 to reduce the vibration of the semi-finished battery when the battery housing unit 2 transports the semi-finished battery, the housing buffer unit 21 and the housing unit 22 seal the semi-finished battery when one ends of the two upper end sealing caps 222 are attached to each other, after the battery housing unit 2 is mounted, the battery housing unit 2 is placed in the bottom housing unit 3, and in order to facilitate the movement of the battery housing unit 2, handles 213 are hinged to both sides of the housing 2111, one end of the bottom convex ball 2118 is inserted into the limiting groove 33, so that the battery bearing device 2 and the bottom bearing device 3 are connected together, the mounted battery bearing device 2 and the bottom bearing device 3 are placed in the outer protection device 1, the moving wheel 32 slides in the moving track 14, the battery bearing device 2 is fixed in the outer protection device 1, and the semi-finished battery cannot lose efficacy when being transported.

Furthermore, the left and right side walls of the receiving shell 2111 near the upper end are symmetrically and fixedly connected with an L-shaped upper inclined supporting block 2113, the bottom of the upper inclined supporting block 2113 is in an inclined triangle shape, the position of the upper side near the edge of the upper inclined supporting block 2113 is uniformly and fixedly connected with a hinge frame 2114 along the length direction of the upper inclined supporting block 2113, the hinge frame 2114 is hinged with a fixed hinge rod 2115, one side of the upper end sealing cover 222 is provided with a rotary hinge rod 228 corresponding to the hinge frame 2114 along the length direction of the upper end sealing cover 222, one end of the rotary hinge rod 228 is fixedly connected with a pulling spring 229, one end of the pulling spring 229 is fixedly connected with one end of the fixed hinge rod 2115, one end of the fixed hinge rod 2115 is fixedly connected with a hollow tube 2116 with a hollow inside, one side of the rotary hinge rod 228 is fixedly connected with a plug 2291, the plug 2291 is arranged inside the pulling spring 229, one end, one end of a pulling spring 229 is sleeved on the hollow tube 2116, the four corners of the upper side of the receiving plate 31 are bilaterally symmetrically provided with limiting grooves 33, the four corners of the bottom of the receiving shell 2111 are bilaterally symmetrically and fixedly connected with bottom convex balls 2118, one end of each bottom convex ball 2118 is inserted into the limiting groove 33, the side wall of the upper end sealing cover 222 is provided with a plurality of pulling chutes 226 corresponding to the rotating hinge rod 228 along the length direction of the upper end sealing cover 222, the inside of each pulling chute 226 is slidably connected with a pulling slider 227, one end of each pulling slider 227 is hinged with one end of each rotating hinge rod 228, the arranged fixed hinge rod 2115 pulls the rotating hinge rod 228 through the pulling spring 229, so that the rotating hinge rod 228 drives the pulling slider 227 to move, the receiving device 22 is lifted, the receiving device 22 is opened outwards, and a semi-finished battery can be conveniently placed in and taken out from the.

Specifically, an upper baffle 224 is fixedly connected to the upper end of the side baffle 223, the upper end of the side baffle 223 contacts with the bottom of the upper end sealing cover 222, the bottom of the upper baffle 224 contacts with the upper side wall of the receiving shell 2111, a lifting handle 2241 is fixedly connected to a position, close to the middle, of the upper side of the upper baffle 224, and the bearing device 22 is lifted out of the receiving buffer device 21 by moving the lifting handle 2241, so that the semi-finished product battery can be conveniently placed into the bearing device 22.

In addition, the side edge of the support frame 221 near the bottom is fixedly connected with a square side sliding block 225 in a bilateral symmetry manner, the left and right sides inside the battery placing cavity 2112 are provided with side sliding grooves 2117 matched with the side sliding block 225 in a front-back symmetry manner near the bottom of the battery placing cavity 2112, the support frame 221 is arranged inside the battery placing cavity 2112, one end of the side sliding block 225 is inserted inside the side sliding groove 2117, the side wall of the bottom of the battery placing cavity 2112 is fixedly connected with a plurality of spring limiting columns 21111 corresponding to buffer springs 2122 in a bilateral symmetry manner along the length direction of the battery placing cavity 2112, the buffer springs 2122 are sleeved on the spring limiting columns 21111, the front and back ends of the buffer plate 2121 near the middle are fixedly connected with a square buffer sliding block 2123 in a position, the front and back sides inside the battery placing cavity 2112 are provided with buffer sliding grooves 2119 matched with the buffer sliding block 2123 in a position near the bottom, one end of the buffer sliding block 2123, the bearing device 22 is supported by the arranged buffer device 212, so that the buffer device 212 buffers the bearing device 22, and the vibration of the bearing device 22 in the transportation process is reduced.

Further, place the inside bottom side bilateral symmetry fixedly connected with of chamber 12 and remove track 14, bottom supporting device 3 sets up the inner wall of placing chamber 12, the one end setting of removal wheel 32 is in the inside of removing track 14, it is provided with chute 13 to place chamber 12 and be close to upside position bilateral symmetry, battery holds dress device 2 and sets up the inside of placing chamber 12, the bottom contact of chute 13 and last bearing block 2113 goes up, hold dress device 2 through bottom supporting device 3 and accept battery, make battery hold dress device 2 be convenient for put into the inside of outer protector 1, it is spacing to hold dress device 2 through outer protector 1, make battery hold dress device 2 can not take place to rock at the in-process of transportation, guarantee the security of semi-manufactured goods battery transportation.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. Based on the sealed splicing type new energy vehicle battery production and transportation device, comprising an outer protective device (1), characterized in that: the inside of the outer protective device (1) is provided along the direction of the length of the outer protective device (1) with a plurality of battery receiving devices (2), the bottom of the battery receiving devices (2) is provided with a bottom receiving device (3);

The outer protective device (1) comprises a square outer protective shell (11), and a placement cavity (12) is provided inside the outer protective shell (11) at a position close to the middle;

The battery receiving device (2) includes a receiving buffer device (21), the inner wall of the receiving buffer device (21) is provided with a receiving device (22), and the receiving buffer device (21) includes a receiving device (211) , a buffer device (212) is provided inside the receiving device (211) near the bottom side, and the receiving device (211) includes a square receiving shell (2111), and the inside of the receiving shell (2111) is open There is a battery placement cavity (2112) penetrating through the top of the receiving shell (2111), and the buffer device (212) includes a square-shaped buffer plate (2121) adapted to the battery placement cavity (2112), and the buffer plate (2121) A buffer spring (2122) is fixedly and symmetrically connected to the bottom of the buffer plate (2121) along the length of the buffer plate (2121). ) is hinged symmetrically from left to right with an upside-down L-shaped upper end sealing cover (222), one end of the two upper end sealing covers (222) is attached to each other, and the bottoms of the two sides of the bearing frame (221) are close to the middle The position of the side plate (223) is fixedly connected;

The bottom receiving device (3) comprises a square receiving plate (31) which is adapted to the placement cavity (12), and the four corners of the bottom of the receiving plate (31) are fixedly connected with moving wheels (32) symmetrically from left to right.

2. The sealed splicing type new energy vehicle battery production and transportation device according to claim 1, characterized in that: the left and right side walls of the receiving shell (2111) close to the upper end are symmetrically and fixedly connected with an L-shaped upward slope A support block (2113), the bottom of the upper inclined support block (2113) is in the shape of an inclined triangle, and the position of the upper side of the upper inclined support block (2113) near the edge is along the direction of the length of the upper inclined support block (2113) A hinged frame (2114) is evenly and fixedly connected, a fixed hinge rod (2115) is hinged on the hinged frame (2114), and one side of the upper end sealing cover (222) is arranged along the direction of the length of the upper end sealing cover (222) There is a rotating winch (228) corresponding to the hinge frame (2114), one end of the rotating winch (228) is fixedly connected with a tension spring (229), and one end of the tension spring (229) is connected to the fixed hinge. One end of the rod (2115) is fixedly connected.

3. The sealed splicing type new energy vehicle battery production and transportation device according to claim 2, characterized in that: one end of the fixed twist rod (2115) is fixedly connected with an internally hollow hollow tube (2116), and the One side of the rotating twist rod (228) is fixedly connected with a post (2291), the post (2291) is arranged inside the tension spring (229), and one end of the post (2291) is inserted into the hollow tube (2116), one end of the pulling spring (229) is sleeved on the hollow tube (2116).

4. The sealed splicing type new energy vehicle battery production and transportation device according to claim 1, characterized in that: an upper baffle (224) is fixedly connected to the upper end of the side baffle (223), and the side baffle (223) is fixedly connected with an upper baffle (224). The upper end of the plate (223) is in contact with the bottom of the upper end sealing cover (222), the bottom of the upper baffle plate (224) is in contact with the upper side wall of the receiving shell (2111), and the upper baffle plate (224) A lifting handle (2241) is fixedly connected to the position near the middle of the side.

5. The sealed splicing type new energy vehicle battery production and transportation device according to claim 1, characterized in that: a square side slider is fixedly connected to left and right symmetrically on the side edge of the bearing frame (221) close to the bottom (225), the left and right sides inside the battery placement cavity (2112) close to the bottom of the battery placement cavity (2112) are symmetrically provided with side sliding grooves (2117) that are adapted to the side sliders (225), so The receiving frame (221) is arranged inside the battery placement cavity (2112), and one end of the side slider (225) is inserted into the inside of the side sliding slot (2117).

6. The sealed splicing type new energy vehicle battery production and transportation device according to claim 1, characterized in that: the side walls of the bottom of the battery placement cavity (2112) are left and right along the direction of the length of the battery placement cavity (2112). A plurality of spring limit posts (21111) corresponding to the buffer springs (2122) are symmetrically and fixedly connected, and the buffer springs (2122) are sleeved on the spring limit posts (21111).

7. The sealed splicing type new energy vehicle battery production and transportation device according to claim 1, characterized in that: the front and rear ends of the buffer plate (2121) are fixedly connected with a square buffer slider at the position close to the middle (2123), a buffer chute (2119) adapted to the buffer slider (2123) is provided on the front and rear sides of the battery placement cavity (2112) near the bottom. One end is inserted into the buffer chute (2119).

8. The device for producing and transporting batteries for new energy vehicles based on a sealed splicing type according to claim 2, characterized in that: a side wall of the upper end sealing cover (222) is opened along the direction of the length of the upper end sealing cover (222). There are a plurality of pulling chutes (226) corresponding to the rotating strands (228), and a pulling sliding block (227) is slidably connected inside the pulling sliding groove (226), and one end of the pulling sliding block (227) is One end of the rotating strand (228) is hinged.

9. The sealed splicing type new energy vehicle battery production and transportation device according to claim 1, characterized in that: limiting grooves (33) are symmetrically provided at the four corners of the upper side of the receiving plate (31), so that Bottom convex balls (2118) are fixedly connected symmetrically and fixedly at the bottom four corners of the receiving shell (2111), and one end of the bottom convex ball (2118) is inserted into the interior of the limiting groove (33).

10. The sealed splicing type new energy vehicle battery production and transportation device according to claim 2, characterized in that: a set of moving rails (14) are fixedly connected to the bottom side of the inside of the placement cavity (12) symmetrically and symmetrically. The bottom receiving device (3) is arranged on the inner wall of the placement cavity (12), one end of the moving wheel (32) is arranged in the interior of the moving track (14), and the placement cavity (12) is symmetrically arranged near the upper side. There is an upper inclined groove (13), the battery receiving device (2) is arranged inside the placement cavity (12), and the upper inclined groove (13) is in contact with the bottom of the upper inclined support block (2113).