CN210557421U - Battery steel casing loading attachment - Google Patents

Abstract

The utility model discloses a battery steel shell feeding device, which is characterized by comprising a vibrating disk, wherein a spiral track is arranged on the vibrating disk; the arraying device comprises a screening assembly and an overturning track, the screening assembly comprises a first arraying track and a second arraying track, the first arraying track is connected with the tail end of the spiral track, the second arraying track is connected with the starting end of the overturning track, at least one screening block is arranged between the first arraying track and the second arraying track in a staggered mode, and the screening block is used for screening the orientation of the battery steel shell; the advantage is through screening subassembly realization battery steel casing permutation and orderly and unified orientation, 360 degrees with opening steel casing upset up through the upset track, clears away the debris in the casing.

Description

Battery steel casing loading attachment

Technical Field

The utility model belongs to the technical field of battery steel casing production facility technique and specifically relates to a battery steel casing loading attachment is related to.

Background

The manufacturing of battery box hat need be through the tensile process of multichannel, the first step is that the material area forms hollow and one end opening through the punch press punching press, the cylindric initial box hat of other end confined, initial box hat structure is shown in fig. 2, initial box hat after the punching press is in mixed and disorderly unordered state, when getting into the tensile process of second punching press, it wastes time and energy to adopt artifical permutation, it has the dust to exempt from in the workshop simultaneously, debris fall into initial box hat, it is necessary in fact to provide a battery box hat loading attachment in order to overcome above-mentioned defect.

Disclosure of Invention

An object of the utility model is to provide a battery steel casing loading attachment to initial steel casing is mixed and disorderly among the solution prior art, the problem that contains debris in the casing.

In order to realize the aim, the utility model provides a battery steel shell feeding device, which comprises a vibration disk, a feeding device and a feeding device, wherein the vibration disk is provided with a spiral track; the permutation device, the permutation device is including screening subassembly and upset track, the screening subassembly includes first permutation track and second permutation track, first permutation track with spiral track end-to-end connection, the second permutation track with the track end-to-end connection that overturns, crisscross at least one screening piece that sets up between first permutation track and the second permutation track, the screening piece is used for screening battery steel casing orientation.

Further, the screening subassembly still includes the apron, the apron is fixed to be set up on the vibration dish. The use of a cover plate is preferred which prevents two adjacent steel shells from being pushed against each other, so that the steel shells can be moved in an orderly and even manner into the second alignment track.

Furthermore, a partition plate is arranged between the second alignment rail and the overturning rail, and an opening for passing a battery steel shell is horizontally arranged at the joint of the partition plate and the second alignment rail. The partition plate is arranged to be convenient for fixing the turnover track, the opening is formed in the partition plate, and the steel shell is further improved to be orderly moved into the turnover track in an aligned mode.

Further, the radial widths of the first alignment track, the second alignment track, and the screening block are each more than one time wider than the width of the spiral track. The steel shells are moved from top to the first alignment track, the second alignment track and the screening block which are at least one time wider than the spiral track, and a larger number of steel shells are measured, so that the steel shell screening speed is increased, and the production efficiency is correspondingly improved.

Furthermore, one end of the screening block is fixedly connected to the inner wall of the vibration disc, and the screening block and the first and second alignment tracks are located on the same horizontal plane. The screening block, the first alignment track and the second alignment track are located on the same horizontal plane, so that the up-and-down jolt of the steel shell is reduced, and the steel shell can smoothly move forwards.

Furthermore, the overturning track is formed by surrounding more than 5 metal wires in a spiral direction to form a channel, and the channel is used for overturning the battery steel shell by 360 degrees. The turnover track adopts the metal wires, so that the structure is simple, the material is saved, and meanwhile, the real-time condition of the steel shell in the channel can be observed through the gap between the adjacent metal wires; the steel shell can be overturned for 360 degrees in the channel to pour out the sundries in the steel shell, and the sundries cannot be accumulated in the channel; even if the steel shell of the channel is not smooth to move, the reason can be directly observed, and the maintenance is also convenient.

Further, the vibration dish outer wall sets up the solid fixed ring more than two, the upset track passes solid fixed ring to be fixed on the vibration dish. By the arrangement, the overturning track can be simply and effectively fixed in the fixing ring.

The battery steel shell feeding device realizes the orderly arrangement and uniform orientation of the battery steel shells through the screening assembly, and solves the problem of messy steel shells; the steel shell with the upward opening is overturned for 360 degrees through the overturning track, so that the problem that impurities are contained in the shell is solved. When messy battery steel shells move along the spiral track in a tricky manner through the vibration of the vibration disc, because one end of the cylindrical initial steel shell is opened and the other end is closed, the openings of all the battery steel shells are uniformly upward and well-ordered, and the battery steel shells can be directly punched and stretched when being conveyed to a punching machine; when initial box hat removed the screening piece, if the box hat opening up, closed one end box hat is pressed close to the screening piece and can continue to move forward to the second alignment track, if the box hat opening down, when the screening piece was pressed close to open end box hat, because the box hat loses the support, slides in the vibration dish. When the uniform upward steel shell moves into the turnover track, the turnover track turns the steel shell over for 360 degrees, and sundries in the steel shell fall off from the steel shell under the influence of the gravity of the earth.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 shows a schematic structural diagram of an embodiment of a battery steel shell feeding device according to the present invention;

fig. 2 is a schematic diagram of the initial steel shell structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The embodiment of the application provides a battery steel casing loading attachment, solves among the prior art problem that initial steel casing is disorderly and has no chapter, the casing contains debris.

In order to solve the above problems, the technical solution in the embodiment of the present application has the following general idea:

the screening assembly 2 comprises a first alignment track 20, a screening block 22 and a second alignment track 21, disordered battery steel shells are moved into the first alignment track 20 for alignment through vibration of the vibration disc 1, when the steel shells move to the screening block 22, the steel shell surface at one closed end is close to the screening block 22 when the steel shell opening faces upwards, and can smoothly move to the second alignment track 21, and when the steel shell opening faces downwards, the steel shell at one open end is close to the screening block 22 and falls into the vibration disc 1 due to the fact that the steel shell loses support; the steel shell which is uniformly upward moves into the overturning track 3 from the second alignment track 21, the overturning track 3 overturns the steel shell for 360 degrees, and sundries in the steel shell fall from the steel shell under the gravity of the earth.

For better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the present invention.

As shown in fig. 1, the battery steel shell feeding device comprises a vibration disc 1, wherein a spiral track 10 is arranged on the vibration disc 1, and an alignment device comprises a screening assembly 2 and an overturning track 3, the screening assembly 2 comprises a first alignment track 20 and a second alignment track 21, the first alignment track 20 is connected with the tail end of the spiral track 10, the second alignment track 21 is connected with the starting end of the overturning track 3, four screening blocks 22 are arranged between the first alignment track 20 and the second alignment track 21, the screening blocks 22 are used for screening the battery steel shell orientation, and the number of the screening blocks can be 1, 2, 3 or more; the screening rate is lower if 1 screening piece is arranged on the vibration disc, and the screening rate of the battery steel shell can be greatly improved if a plurality of screening pieces are arranged.

In specific implementation, the screening assembly 2 further comprises a cover plate 23, and the cover plate 23 is fixedly arranged on the vibration disc 1.

Preferably, a partition plate 24 is arranged between the second alignment rail 21 and the overturning rail 3, and an opening 240 for passing a battery steel shell is horizontally arranged at the joint of the partition plate 24 and the second alignment rail 21.

In particular, the radial widths of the first alignment track 20, the second alignment track 21 and the screening block 22 are all more than twice as wide as the width of the spiral track 10.

Preferably, one end of the screening block 22 is fixedly connected to the inner wall of the vibration plate 1, and the screening block 22 is located at the same level with the first alignment rail 20 and the second alignment rail 21.

During specific implementation, 5 or 6 or 7 or more than 7 metal wires can be selected for the overturning track 3 to surround a channel along the spiral direction, and the channel is used for overturning the battery steel shell by 360 degrees. The turnover track 3 can also adopt a sealed spiral channel which is surrounded by metal materials.

Preferably, the outer wall of the vibration disk 1 is provided with more than two fixing rings 11, and the turnover track 3 passes through the fixing rings 11 and is fixed on the vibration disk 1.

In the specific working process, a power source is started, the inner rotary disc of the vibration disc rotates, the battery steel shell is arranged in the vibration disc, the inner rotary disc rotates to enable the battery steel shell to generate centrifugal force, the battery steel shell moves from the center to the edge, the battery steel shell reaching the edge (namely reaching the inner side wall of the inner rotary disc) moves to the spiral track, and the battery steel shell moves forwards along the slope; when the steel shell is moved to the screening block, the steel shell with the upward opening smoothly moves into the second alignment track through the opening to enter the turnover track through the screening block, and finally is sent into a stamping machine for stamping and stretching, and when the steel shell with the downward opening passes through the screening block, the steel shell loses balance due to small stress area of the steel shell, falls into a vibrating disc, and enters the next round of screening.

It is noted that the terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, praise replacement, improvement and the like within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a battery steel casing loading attachment which characterized in that includes:

a vibration disk on which a spiral track is provided;

the permutation device, the permutation device is including screening subassembly and upset track, the screening subassembly includes first permutation track and second permutation track, first permutation track with spiral track end-to-end connection, the second permutation track with the track end-to-end connection that overturns, crisscross at least one screening piece that sets up between first permutation track and the second permutation track, the screening piece is used for screening battery steel casing orientation.

2. The battery steel shell feeding device according to claim 1, wherein the screening assembly further comprises a cover plate, and the cover plate is fixedly arranged on the vibration disc.

3. The battery steel shell feeding device according to claim 2, wherein a partition plate is arranged between the second alignment rail and the overturning rail, and an opening for passing the battery steel shell is horizontally arranged at the joint of the partition plate and the second alignment rail.

4. The battery steel case feeding device according to claim 3, wherein the radial widths of the first alignment track, the second alignment track and the screening block are all more than twice as wide as the width of the spiral track.

5. The battery steel shell feeding device according to claim 4, wherein one end of the screening block is fixedly connected to the inner wall of the vibration disc, and the screening block is located on the same horizontal plane as the first alignment rail and the second alignment rail.

6. The battery steel shell feeding device according to claim 1, wherein the overturning track is formed by surrounding more than 6 metal wires in a spiral direction to form a channel, and the channel is used for overturning the battery steel shell by 360 degrees.

7. The battery steel shell feeding device according to claim 6, wherein the outer wall of the vibration disk is provided with more than two fixing rings, and the overturning track penetrates through the fixing rings and is fixed on the vibration disk.

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