CN211593895U - Conveying device for battery plate slicing - Google Patents

Abstract

The utility model discloses a conveyor that battery plate burst was used, include: the conveying belt is used for conveying the connected polar plates and comprises a plurality of first conveying chains which are arranged at intervals along the vertical conveying direction and used for forming a conveying surface, first limiting bulges are uniformly arranged on the first conveying chains along the conveying direction, and a clamping groove for placing one connected polar plate is formed between every two adjacent first limiting bulges; the polar plate transfer mechanism is arranged at the input end of the conveying belt and used for transferring the vertically stacked continuous polar plates onto the conveying belt one by one; and the pressing strip stretches across the upper part of the conveying belt and is used for preventing the connected polar plates from jumping to separate from the clamping grooves in the conveying process. The utility model discloses conveyor spanes through the top at the conveyer belt and is equipped with the layering, is linking piece polar plate by polar plate transfer mechanism transfer to the conveyer belt on the back, can restrict even piece polar plate and take place to jump the piece and derail.

Description

Conveying device for battery plate slicing

Technical Field

The utility model relates to a battery production technical field especially relates to a conveyor that battery plate burst was used.

Background

The lead accumulator belongs to reversible DC power supply, and can convert chemical energy into electric energy and also convert electric energy into chemical energy. The lead storage battery mainly comprises electrolyte, a battery jar and a polar group, wherein the electrolyte of the lead storage battery is sulfuric acid solution, the polar group mainly comprises a positive plate, a negative plate and a partition plate, and the partition plate mainly stores the electrolyte and serves as a gas channel for compounding oxygen to prevent active substances from falling off and prevent short circuit between the positive and negative electrodes.

In the production and processing process of the storage battery, the grid is used as a carrier and a conductor of the lead plaster, the lead plaster can be used as a polar plate only after being filled and coated on the grid and cured and dried, the polar plate is the core of the lead storage battery, and the grid is just like a framework and has direct influence on the strength and the service life of the whole polar plate.

When the grid is produced, the grid is generally produced in the form of a connected grid, and then the connected plate is prepared by coating lead paste. The connected polar plate comprises a body formed by connecting a plurality of single polar plates and connecting strips arranged on two sides of the body, and hanging lugs are arranged on the outer sides of the connecting strips.

For example, the utility model discloses a battery even piece grid is announced to mandate No. CN207818779U, including the support bar of both sides and locate a plurality of monomer grids between two support bars, the monomer grid includes the frame rib and locates inside violently, the perpendicular rib of frame rib, has the connecting band between the frame rib of adjacent monomer grid, the through-hole that has the interval to set up on the connecting band. The single plate grid is provided with a lug, the supporting strips are connected with the lug of the single plate grid, the joint is provided with a first lug extending to the lug, the supporting strips are provided with hangers, and the hangers of the two supporting strips are positioned on the same side.

The utility model discloses utility model provides a lead acid battery polar plate burst equipment is granted No. CN205237200U, burst equipment is formed by two sets of or multiunit burst device combination, burst device by: a plurality of or all devices in the conveying device, the cutting device, the limiting device and the pole piece separating and lifting device are combined; the method is characterized in that: the conveying device is mainly formed by combining a conveying chain, a convex hook structure and a power device; the cutting device is mainly formed by combining a cutting gear, a transmission shaft and a power device; the limiting device is composed of limiting baffle plates or limiting baffle plates arranged at two sides of the conveying device; the pole piece separating and lifting device consists of a lifting platform, a transmission shaft, a transmission gear and a power device.

In the prior art, during the slicing process of the connected polar plates, due to the reasons of electrode lug burrs, lead scale caused by sliding in a machine, polar plate deformation and the like, when the polar plates are fed by a sucker, the polar plates are in contact with a moving conveying chain, the phenomenon of chip skipping and derailing often occurs, so that the front and rear polar plates are stacked into a card, and the polar plates are scrapped.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the above-mentioned not enough that exists among the prior art, provide a conveyor that can prevent even piece polar plate emergence jump piece derail when last piece is carried that battery plate burst was used.

The utility model provides a conveyor that battery plate burst was used, the even piece polar plate of treating the burst includes the body that comprises a plurality of monolithic polar plates links to each other and locates the connecting strip of body both sides, and the outside of connecting strip has the hangers, conveyor includes:

the conveying belt is used for conveying the connected polar plates and comprises a plurality of first conveying chains which are arranged at intervals along the vertical conveying direction and used for forming a conveying surface, first limiting bulges are uniformly arranged on the first conveying chains along the conveying direction, and a clamping groove for placing one connected polar plate is formed between every two adjacent first limiting bulges;

the polar plate transfer mechanism is arranged at the input end of the conveying belt and used for transferring the vertically stacked continuous polar plates onto the conveying belt one by one;

and the pressing strip stretches across the upper part of the conveying belt and is used for preventing the connected polar plates from jumping to separate from the clamping grooves in the conveying process.

Preferably, the bottom surface of the pressing strip is lower than the top surface of the first limiting protrusion, but the height difference between the bottom surface of the pressing strip and the conveying surface is greater than the thickness of the connecting plate.

Preferably, the width of the conveying surface formed by the first conveying chains is smaller than the length of the connected polar plate body, the conveying belt further comprises second conveying chains arranged on two sides of the conveying surface formed by the first conveying chains, second limiting bulges are arranged on the second conveying chains at intervals,

the second conveying chain exceeds the first conveying chain in the horizontal direction of the input end, the polar plate transfer mechanism comprises a vacuum chuck for sucking down and releasing vertically stacked continuous polar plates piece by piece, the position where the vacuum chuck releases the continuous polar plates is located in the area where the second conveying chain exceeds the first conveying chain, and during conveying, hanging lugs on two sides of the continuous polar plates are respectively located on the second conveying chain and are pushed by a second limiting bulge to move forwards.

More preferably, a guide inclined plane which is convenient for the connected polar plates to be conveyed from the vertical position between the two second conveying chains to the horizontal position to be clamped into the clamping groove is arranged in the area between the two second conveying chains in front of the input end of the first conveying chain.

More preferably, the upper portion of conveyer belt is equipped with and strides the direction of delivery setting, but horizontal migration's installation pole, be equipped with a plurality of on the installation pole vacuum chuck.

Preferably, the layering includes two that perpendicular direction of delivery arranged, the top surface of layering is equipped with the screw rod of vertical setting, the top of conveyer belt spanes and is equipped with the mounting panel, the screw rod passes the mounting panel sets up, the both sides that lie in the mounting panel on the screw rod are equipped with fixation nut respectively.

More preferably, the mounting plate is provided with a waist-shaped hole perpendicular to the conveying direction, and the screw rod penetrates through the waist-shaped hole.

Preferably, the upstream end of the bead has a chamfer.

The utility model discloses conveyor spanes through the top at the conveyer belt and is equipped with the layering, is linking piece polar plate by polar plate transfer mechanism transfer to the conveyer belt on the back, can restrict even piece polar plate and take place to jump the piece and derail.

Drawings

Fig. 1 is a schematic perspective view of the conveying device of the present invention.

Fig. 2 is a schematic view of the top view structure of the conveying device of the present invention.

Fig. 3 is a schematic perspective view of a connected plate.

Detailed Description

As shown in fig. 1 to 3, a conveying device for battery plate slicing, a to-be-sliced continuous plate 1 includes a body 11 formed by connecting a plurality of single plates and connecting strips 12 arranged at two sides of the body 11, and hanging lugs 13 are arranged at the outer sides of the connecting strips 12. The conveying device comprises: a conveyer belt 2, a polar plate transfer mechanism 3 and a pressing strip 4.

The conveying belt 2 is used for conveying the connected polar plates 1, the conveying belt 2 comprises a plurality of first conveying chains 21 which are arranged at intervals along the vertical conveying direction and used for forming a conveying surface, first limiting bulges 22 are uniformly arranged on the first conveying chains 21 along the conveying direction, and a clamping groove 23 for placing one connected polar plate 1 is formed between every two adjacent first limiting bulges 22. The width of the conveying surface formed by the first conveying chains 21 is smaller than the length of the body 11 of the connected polar plate 1, the conveying belt 2 further comprises second conveying chains 24 arranged on two sides of the conveying surface formed by the first conveying chains 21, and second limiting bulges 25 are arranged on the second conveying chains 24 at intervals. The second conveyor chain 24 extends beyond the first conveyor chain 21 in the horizontal direction of the input end.

The polar plate transfer mechanism 3 is arranged at the input end of the conveyer belt 2 and is used for transferring the vertically stacked continuous polar plates 1 to the conveyer belt 2 one by one. The polar plate transfer mechanism 3 comprises a vacuum sucker 31 for sucking down and releasing the vertically stacked continuous polar plates 1 piece by piece, the position of the vacuum sucker 31 for releasing the continuous polar plates 1 is positioned in the area where the second conveying chain 24 exceeds the first conveying chain 21, and during conveying, the hanging lugs 13 on the two sides of the continuous polar plates 1 are respectively positioned on the second conveying chain 24 and are pushed by the second limiting bulge 25 to move forwards. An installation rod 32 which is arranged across the conveying direction and can move horizontally is arranged above the conveying belt 2, and a plurality of vacuum suction cups 31 are arranged on the installation rod 32. The mounting rod 32 is provided with a vertical mounting plate 33 which is vertically arranged, the vertical mounting plate 33 is provided with a vertical waist-shaped hole 34, the back of the vacuum chuck 31 is provided with a vacuum tube 37 for fixing, and the vacuum tube 37 is connected with a vacuum pump through a pipeline. The vacuum tube 37 has external threads, and is fixed by nuts (not shown) at both sides after extending into the kidney-shaped hole 34, and the position of the vacuum chuck 31 can be adjusted by adjusting the front and back and up and down positions of the vacuum tube 37. The mounting rod 32 can be driven by a cylinder (not shown) to translate, two ends of the mounting rod 32 are respectively provided with a guide rod 35, the guide rods 35 penetrate through the mounting blocks 36, and the mounting blocks 36 are fixed with the frame of the conveyor belt 2 through some brackets or directly fixed with the mounting ground.

The area in front of the input end of the first conveying chain 21 and between the two second conveying chains 24 is provided with a guide inclined plane 6 which is convenient for conveying the connected polar plates 1 from the vertical suspension between the two second conveying chains 24 to the horizontal clamping groove 23. One end of the guide inclined plane 6 close to the input end of the connecting polar plate 1 gradually inclines upwards to one end close to the first conveying chain 21, and the height of one end close to the first conveying chain 21 is consistent with the height of the conveying surface of the first conveying chain 21.

The pressing strip 4 is arranged above the conveying belt 2 in a crossing mode and used for preventing the connected polar plates 1 from jumping to separate from the clamping grooves 23 in the conveying process. The bottom surface of the pressing strip 4 is lower than the top surface of the first limiting protrusion 22, but the height difference between the pressing strip and the conveying surface is greater than the thickness of the connected polar plate 1, so that the pressing strip 4 cannot directly press the connected polar plate 1, but the connected polar plate 1 can be prevented from jumping out of the clamping groove 23.

The layering 4 includes two that the vertical direction of delivery was arranged, and the top surface of layering 4 is equipped with the screw rod 41 of vertical setting, and the top of conveyer belt 2 spanes and is equipped with mounting panel 5, and screw rod 41 passes the mounting panel 5 setting, and the both sides that lie in mounting panel 5 on the screw rod 41 are equipped with fixation nut 42 respectively. The mounting plate 5 is provided with a waist-shaped hole 51 perpendicular to the conveying direction, the screw 41 penetrates through the waist-shaped hole 51, and the height of the batten 4 and the position perpendicular to the conveying direction can be adjusted by adjusting the position of the screw 41. The upstream end of the bead 4 has a chamfer 43.

The utility model discloses a conveyor is at the during operation, even piece polar plate 1 is vertical to be stacked in the upper reaches one end of conveyer belt 2, vacuum chuck 31 is one piece by one piece with even piece polar plate 1 and hold, then even piece polar plate 1 release after horizontal migration one section, the hangers of even piece polar plate 1 both sides that fall just in time hang second spacing arch 25 on second conveyor chain 24, along with the removal of conveyer belt 2, even piece polar plate 1 is by second conveyor chain 24 vertical migration, even piece polar plate 1 bottom is raised gradually under the support of direction inclined plane 6, even piece polar plate 1 changes from vertical direction into horizontal direction and places at last, even piece polar plate 1 leaves direction inclined plane 6 after getting into a draw-in groove 23 on first conveyor chain 21 and carries, even piece polar plate 1 gets into and takes place the piece derail easily in the process on first conveyor chain 21, but under the help of layering 4, even piece polar plate 1's piece of having restricted, the continuous polar plate 1 is conveyed to a downstream slicing mechanism for slicing.

Claims (8)

1. The utility model provides a conveyor that battery plate burst was used, the even piece polar plate of treating the burst includes the body that comprises a plurality of monolithic polar plates links to each other and locates the connecting strip of body both sides, and the outside of connecting strip has the hangers, its characterized in that, conveyor includes:

the conveying belt is used for conveying the connected polar plates and comprises a plurality of first conveying chains which are arranged at intervals along the vertical conveying direction and used for forming a conveying surface, first limiting bulges are uniformly arranged on the first conveying chains along the conveying direction, and a clamping groove for placing one connected polar plate is formed between every two adjacent first limiting bulges;

the polar plate transfer mechanism is arranged at the input end of the conveying belt and used for transferring the vertically stacked continuous polar plates onto the conveying belt one by one;

and the pressing strip stretches across the upper part of the conveying belt and is used for preventing the connected polar plates from jumping to separate from the clamping grooves in the conveying process.

2. The conveying device as claimed in claim 1, wherein the bottom surface of the bead is lower than the top surface of the first limiting protrusion, but has a height difference with the conveying surface which is larger than the thickness of the plate.

3. The conveying device as claimed in claim 1, wherein the width of the conveying surface of the first conveying chain is smaller than the length of the body of the connected polar plate, the conveying belt further comprises second conveying chains arranged on two sides of the conveying surface of the first conveying chain, second limiting protrusions are arranged on the second conveying chains at intervals,

the second conveying chain exceeds the first conveying chain in the horizontal direction of the input end, the polar plate transfer mechanism comprises a vacuum chuck for sucking down and releasing vertically stacked continuous polar plates piece by piece, the position where the vacuum chuck releases the continuous polar plates is located in the area where the second conveying chain exceeds the first conveying chain, and during conveying, hanging lugs on two sides of the continuous polar plates are respectively located on the second conveying chain and are pushed by a second limiting bulge to move forwards.

4. A conveyor according to claim 3, wherein the region of the first conveyor chain in front of the input end of the first conveyor chain between the two second conveyor chains is provided with a guide ramp to facilitate the transport of a web of plates suspended vertically between the two second conveyor chains to be horizontally snapped into the pockets.

5. A conveyor apparatus as in claim 3 wherein a horizontally movable mounting bar is disposed above said conveyor belt and transversely to the direction of conveyance, said mounting bar having a plurality of said vacuum cups disposed thereon.

6. The conveying device as claimed in claim 1, wherein the pressing bar comprises two bars arranged perpendicular to the conveying direction, a vertically arranged screw is arranged on the top surface of the pressing bar, a mounting plate is arranged across the upper portion of the conveying belt, the screw is arranged to penetrate through the mounting plate, and fixing nuts are respectively arranged on the screw at two sides of the mounting plate.

7. The conveyor apparatus of claim 6 wherein said mounting plate is provided with a kidney-shaped hole perpendicular to the direction of conveyance, said screw passing through said kidney-shaped hole.

8. The delivery device of claim 1, wherein an upstream end of the bead has a chamfer.

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