CN211276931U

CN211276931U - Numerical control plasma cutting machine for waste lithium battery treatment

Info

Publication number: CN211276931U
Application number: CN201922006642.3U
Authority: CN
Inventors: 李森; 李攀; 黄心荣
Original assignee: Jiangxi Ruida New Energy Technology Co ltd
Current assignee: Jiangxi Ruida New Energy Technology Co ltd
Priority date: 2019-11-20
Filing date: 2019-11-20
Publication date: 2020-08-18
Anticipated expiration: 2029-11-20

Abstract

The utility model discloses a numerical control plasma cutting machine for waste lithium battery treatment relates to the battery field, the base is installed to the bottom of organism, and the top of organism installs the workstation, the last surface mounting of workstation has the baffle, be fixed with first slide rail on the both sides outer wall of organism. The utility model discloses the slider is under the effect of first slide rail, can make the slider take the crossbeam, and displacement around plasma emitter and the plasma cutting head of installation on the crossbeam, plasma emitter also can control the displacement on the crossbeam under the effect of second slide rail, so the plasma emitter of this equipment can carry the plasma cutting head and cut each position of battery board on the workstation, can adjust the place height of crossbeam through the hydraulic stem lift, thereby the interval of indirect adjustment plasma cutting head and battery board, so can be fine when using correspond the panel of different thickness.

Description

Numerical control plasma cutting machine for waste lithium battery treatment

Technical Field

The utility model relates to a battery field specifically is a numerical control plasma cutting machine is used in old and useless lithium cell processing.

Background

A small battery is scrapped, if the small battery is randomly discarded, a large land or a large piece of fresh water can be influenced, the environment is gradually worsened nowadays, people see the environmental protection problem more and more, and therefore the problem of the battery pollution environment is also paid more attention to.

Consequently, the numerical control plasma cutting machine for waste lithium battery treatment has appeared on the market, and this kind of machine on the market can not be fine when cutting the lithium cell fix the panel, can't be fine when using go to adjust the distance of cutting head and battery.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an old and useless lithium cell is handled and is used numerical control plasma cutting machine to the numerical control plasma cutting machine for old and useless lithium cell is handled has appeared on the market that proposes in solving above-mentioned background, and this kind of machine on the market is fixed the panel that can not be fine when cutting the lithium cell, the unable fine problem of adjusting the distance of cutting head and battery when using.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a numerical control plasma cutting machine for waste lithium battery treatment, includes the organism, the base is installed to the bottom of organism, and the top of organism installs the workstation, the last surface mounting of workstation has the baffle, be fixed with first slide rail on the both sides outer wall of organism, and one side of first slide rail installs the slider, the inside of slider is inlayed and is had the hydraulic stem, and installs the crossbeam in the top of hydraulic stem, install the second slide rail on the both sides outer wall of crossbeam, the externally mounted of crossbeam has plasma emitter, and plasma emitter's bottom installs the plasma cutting head.

As a further aspect of the present invention: the partition plates are arranged in a plurality and are uniformly distributed on the upper surface of the workbench.

As a further aspect of the present invention: the clamping groove is formed in the partition plate and provided with a plurality of clamping grooves, the clamping blocks are embedded in the clamping grooves, the sleeve rods are installed at the tail ends of the clamping blocks, springs are installed inside the sleeve rods, and pressing plates are fixed to the other ends of the sleeve rods.

As a further aspect of the present invention: the loop bar is of a telescopic structure, and the telescopic length of the loop bar is equal to the deformation of the spring.

As a further aspect of the present invention: the first sliding rail is connected with the sliding block in a sliding mode, and the moving distance of the sliding block is equal to the length of the first sliding rail.

As a further aspect of the present invention: the hydraulic rods are respectively fixed at the bottoms of the two ends of the cross beam, and the telescopic distance of the hydraulic rods is smaller than the height of the sliding block.

As a further aspect of the present invention: the plasma emitter is connected with the cross beam in a sliding mode through the second sliding rail, and the connecting line of the second sliding rail and the first sliding rail forms an I-shaped structure.

Compared with the prior art, the beneficial effects of the utility model are that:

1. firstly, pulling up a pressing plate, then clamping the battery panel between the pressing plate and a clamping block, buckling the battery panel by the pressing plate under the action of a spring in a loop bar, mounting the pressing plate and the clamping block on two sides of the battery panel, then placing the mounted battery panel on a workbench, and mounting the clamping block on a clamping groove of a partition plate, so that the battery panel can be well fixed on the workbench of the equipment;

2. the slider is under the effect of first slide rail, can make the slider take the crossbeam, and displacement around plasma emitter and the plasma cutting head of installation on the crossbeam, plasma emitter also can control the displacement on the crossbeam under the effect of second slide rail, so the plasma emitter of this equipment can carry the plasma cutting head to cut each position of battery board on the workstation, the place height of crossbeam can be adjusted through the hydraulic stem lift, thereby the interval of indirect adjustment plasma cutting head and battery board, so can be fine when using deal with the panel of different thickness.

Drawings

FIG. 1 is a front view of a numerical control plasma cutting machine for processing waste lithium batteries;

FIG. 2 is a schematic structural diagram of a clamping block of a numerical control plasma cutting machine for waste lithium battery treatment;

FIG. 3 is a schematic diagram of a separator of a numerical control plasma cutting machine for waste lithium battery treatment.

In the figure: 1. a body; 2. a base; 3. a work table; 4. a partition plate; 5. a card slot; 6. a clamping block; 7. a loop bar; 8. a spring; 9. pressing a plate; 10. a first slide rail; 11. a slider; 12. a hydraulic lever; 13. a cross beam; 14. a second slide rail; 15. a plasma emitter; 16. a plasma cutting head.

Detailed Description

Please refer to fig. 1-3, in the embodiment of the utility model, an old and useless lithium cell processing uses numerical control plasma cutting machine, including organism 1, base 2 is installed to the bottom of organism 1, and workstation 3 is installed at the top of organism 1, the last surface mounting of workstation 3 has baffle 4, be fixed with first slide rail 10 on the both sides outer wall of organism 1, and slider 11 is installed to one side of first slide rail 10, the inside of slider 11 is inlayed and is had hydraulic stem 12, and crossbeam 13 is installed to the top of hydraulic stem 12, install second slide rail 14 on the both sides outer wall of crossbeam 13, the externally mounted of crossbeam 13 has plasma emitter 15, and plasma cutting head 16 is installed to plasma emitter 15's bottom.

This equipment is through being fixed in the panel between fixture block 6 and clamp plate 9, fixture block 6 will be fine with clamp plate 9 and fix the panel under the effect of spring 8, be connected fixture block 6 again with draw-in groove 5 on baffle 4, so just can be fine be fixed in the workstation 3 of this equipment with the panel, can adjust the position of this equipment plasma emitter 15 and plasma cutting head 16 through slider 11 and second slide rail 14, can adjust the height in place of crossbeam 13 through the lift of hydraulic stem 12, thereby the interval of indirect adjustment plasma cutting head 16 and panel, so can be fine when using the panel of handling different thickness.

Baffle 4 is provided with a plurality ofly altogether, and 4 evenly distributed of baffle have seted up draw-in groove 5 on the baffle 4 on the upper surface of workstation 3, and draw-in groove 5 is provided with a plurality ofly, and the inside of draw-in groove 5 is inlayed and is had fixture block 6, and the end of fixture block 6 installs loop bar 7, and the internally mounted of loop bar 7 has spring 8, and the other end of loop bar 7 is fixed with clamp plate 9, and loop bar 7 is extending structure, and the flexible length of loop bar 7 equals the deformation volume of spring 8.

Pull up earlier clamp 9, press from both sides the panel between clamp plate 9 and fixture block 6 again, clamp plate 9 will withhold the panel under the effect of the inside spring 8 of loop bar 7, all install clamp plate 9 and fixture block 6 with the panel both sides, place the panel of installing on workstation 3 again, install fixture block 6 on draw-in groove 5 of baffle 4, so just can be fine be fixed in the workstation 3 of this equipment with the panel.

The first slide rail 10 is connected with the slide block 11 in a sliding mode, the moving distance of the slide block 11 is equal to the length of the first slide rail 10, the hydraulic rods 12 are respectively fixed to the bottoms of the two ends of the cross beam 13, the telescopic distance of the hydraulic rods 12 is smaller than the height of the slide block 11, the plasma emitter 15 is connected with the cross beam 13 in a sliding mode through the second slide rail 14, and the connecting line of the second slide rail 14 and the first slide rail 10 forms an I-shaped structure.

Slider 11 is under the effect of first slide rail 10, can make slider 11 take crossbeam 13, and the displacement around plasma emitter 15 and the plasma cutting head 16 of installation on crossbeam 13, plasma emitter 15 also can be on crossbeam 13 displacement about the effect of second slide rail 14, so the plasma emitter 15 of this equipment can carry plasma cutting head 16 to the cutting of each position of battery board on workstation 3, the place height of crossbeam 13 can be adjusted through the lift of hydraulic stem 12, thereby the interval of indirect adjustment plasma cutting head 16 and battery board, so can be fine when using correspond the panel of different thickness.

The utility model discloses a theory of operation is: when the utility model is used, the pressing plate 9 is firstly pulled upwards, then the battery plate is clamped between the pressing plate 9 and the clamping block 6, the pressing plate 9 is buckled under the action of the spring 8 in the loop bar 7, the pressing plate 9 and the clamping block 6 are arranged on both sides of the battery plate, then the installed battery plate is placed on the workbench 3, the clamping block 6 is arranged on the clamping groove 5 of the clapboard 4, the device is connected with an external power supply, the sliding block 11 is opened, the sliding block 11 can be driven with the beam 13 under the action of the first sliding rail 10, the plasma emitter 15 arranged on the beam 13 and the plasma cutting head 16 can move forwards and backwards, the plasma emitter 15 can also move leftwards and rightwards on the beam 13 under the action of the second sliding rail 14, so that the plasma emitter 15 of the device can carry the plasma cutting head 16 to cut each position of the battery plate on the workbench 3, and under the action of the hydraulic rod 12, the distance between the plasma cutting head 16 and the battery plate can be adjusted by adjusting the height of the beam 13.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a waste lithium battery handles and uses numerical control plasma cutting machine, includes organism (1), its characterized in that: base (2) are installed to the bottom of organism (1), and workstation (3) are installed at the top of organism (1), the last surface mounting of workstation (3) has baffle (4), be fixed with first slide rail (10) on the both sides outer wall of organism (1), and one side of first slide rail (10) installs slider (11), the inside of slider (11) is inlayed and is had hydraulic stem (12), and installs crossbeam (13) above hydraulic stem (12), install second slide rail (14) on the both sides outer wall of crossbeam (13), the externally mounted of crossbeam (13) has plasma emitter (15), and plasma cutting head (16) are installed to the bottom of plasma emitter (15).

2. The numerical control plasma cutting machine for processing the waste lithium batteries as claimed in claim 1, wherein a plurality of the partition plates (4) are arranged in total, and the partition plates (4) are uniformly distributed on the upper surface of the workbench (3).

3. The numerical control plasma cutting machine for waste lithium battery treatment according to claim 1, characterized in that a plurality of clamping grooves (5) are formed in the partition plate (4), a clamping block (6) is embedded in each clamping groove (5), a loop bar (7) is installed at the tail end of each clamping block (6), a spring (8) is installed in each loop bar (7), and a pressing plate (9) is fixed at the other end of each loop bar (7).

4. The numerical control plasma cutting machine for processing the waste lithium batteries as claimed in claim 3, wherein the loop bar (7) is of a telescopic structure, and the telescopic length of the loop bar (7) is equal to the deformation amount of the spring (8).

5. The numerical control plasma cutting machine for processing the waste lithium batteries according to claim 1, wherein the first slide rail (10) is connected with the slide block (11) in a sliding manner, and the moving distance of the slide block (11) is equal to the length of the first slide rail (10).

6. The numerical control plasma cutting machine for processing the waste lithium batteries according to claim 1, wherein the hydraulic rods (12) are respectively fixed at the bottoms of the two ends of the cross beam (13), and the telescopic distance of the hydraulic rods (12) is smaller than the height of the sliding block (11).

7. The numerical control plasma cutting machine for processing the waste lithium batteries as claimed in claim 1, wherein the plasma emitter (15) is connected with the cross beam (13) in a sliding manner through a second slide rail (14), and a connecting line of the second slide rail (14) and the first slide rail (10) forms an I-shaped structure.