CN214166450U - Electricity core centering device - Google Patents

Abstract

The utility model discloses an electric core centering device, which comprises an electric cylinder, an electric cylinder mounting plate, a conveying component and a centering component; the conveying part comprises a material box and a material box mounting plate, the electric core is placed on the material box, the material box is fixed on the material box mounting plate, and a screw rod on the electric cylinder penetrates through the lower part of the material box mounting plate; the centering component comprises a front centering cylinder bracket, a rear centering cylinder bracket, a connecting plate, a front centering cylinder, a rear centering cylinder, a front centering pressing plate, a rear centering pressing plate and a plurality of centering cushion blocks; the two centering cylinder supports are symmetrically arranged front and back, the bottoms of the two centering cylinder supports are fixed on the reference table surface, the upper parts of the two centering cylinder supports are connected into a whole through a connecting plate, and the connecting plate is positioned above the battery cell; the two centering cylinders are horizontally arranged, the side surfaces of the cylinder parts of the two centering cylinders are fixed on the left side surfaces of the front and rear centering cylinder brackets, and the rod parts of the two centering cylinders are opposite to each other front and back; the rod end of the centering cylinder is connected with a centering pressing plate, and the centering pressing plate is fixedly connected with a plurality of centering cushion blocks. The utility model discloses the centering is effectual and can not be with electric core membrane extrusion deformation.

Description

Electricity core centering device

Technical Field

The utility model belongs to the field of machinery, a device that carries out centering treatment to electric core behind the mantle is related to.

Background

After the film is coated on the battery core, the battery core needs to be centered, so that the subsequent film drying process is convenient to perform. The existing centering device is shown in fig. 4, and has the following disadvantages: the method comprises the following steps that firstly, centering processing is carried out on a battery cell by utilizing two guide rod cylinders, a centering insulation plate of the centering insulation plate is a flat plate, and the flat plate can shake when being extruded on a small bulge on the end surface of the battery cell due to the fact that the end surface of the battery cell is provided with the small bulge, so that a centering effect of a centering mechanism is poor, and a battery cell film is easily extruded and deformed; and secondly, the battery core is conveyed through the rotating wheel, so that the blocking phenomenon is easy to occur. Therefore, the prior centering device seriously influences the subsequent film drying process.

Disclosure of Invention

The utility model aims to solve the problem that an electricity core centering device is provided, its centering is effectual and can not be with electric core membrane extrusion deformation. Meanwhile, the smooth conveying of the battery cell can be ensured.

The utility model relates to a cell centering device, which comprises an electric cylinder, an electric cylinder mounting plate, a conveying component and a centering component; the electric cylinder mounting plate is fixed on the reference table board, the electric cylinder is fixed on the electric cylinder mounting plate, the conveying component is connected with the electric cylinder, and the centering components are symmetrically arranged on the front side and the rear side of the electric cylinder; the conveying part comprises a material box and a material box mounting plate, the electric core is placed on the material box, the material box is fixed on the material box mounting plate, and a screw rod on the electric cylinder penetrates through the lower part of the material box mounting plate; the centering component comprises a front centering cylinder bracket, a rear centering cylinder bracket, a connecting plate, a front centering cylinder, a rear centering cylinder, a front centering pressing plate, a rear centering pressing plate and a plurality of centering cushion blocks; the two centering cylinder supports are symmetrically arranged front and back, the bottoms of the two centering cylinder supports are fixed on the reference table surface, the upper parts of the two centering cylinder supports are connected into a whole through a connecting plate, and the connecting plate is positioned above the battery cell; the two centering cylinders are horizontally arranged, the side surfaces of the cylinder parts of the two centering cylinders are fixed on the left side surfaces of the front and rear centering cylinder brackets, and the rod parts of the two centering cylinders are opposite to each other front and back; the rod end of the centering cylinder is connected with a centering pressing plate, and the centering pressing plate is fixedly connected with a plurality of centering cushion blocks.

Furthermore, the centering cushion block is circular, and the position and the size of the centering cushion block are matched with the protrusions on the battery core.

Furthermore, the centering component also comprises a front centering pressing plate mounting plate and a rear centering pressing plate mounting plate, and the centering pressing plate mounting plates are arranged between the rod end of the centering air cylinder and the centering pressing plate and are connected with the rod end of the centering air cylinder and the centering pressing plate.

Furthermore, the conveying component also comprises a diffuse reflection switch bracket, a plurality of photoelectric switches, a left proximity switch, a right proximity switch and a left switch bracket and a right switch bracket; the diffuse reflection switch bracket is fixed in front of the material box mounting plate, and the plurality of photoelectric switches are fixed in front of the diffuse reflection switch bracket at equal intervals; the left proximity switch and the right proximity switch are arranged along the length direction of the electric cylinder, the proximity switches are fixed on the switch support, and the switch support is fixed on the reference table board.

Further, the number of the photoelectric switches is consistent with that of the battery cells.

Further, the conveying part also comprises a front section fixing plate which is fixed on the right surface of the material box mounting plate.

Furthermore, the battery cell centering device also comprises non-return mechanisms which are symmetrically arranged on the front side and the rear side of the electric cylinder and are positioned on the inner side of the centering mechanism; the non-return mechanism comprises a front non-return cylinder and a rear non-return cylinder, the two non-return cylinders are symmetrically and vertically arranged in the front and the rear, and the side surfaces of the cylinder ends of the non-return cylinders are respectively fixed on the opposite surfaces of the front centering cylinder support and the rear centering cylinder support.

Furthermore, the non-return mechanism further comprises a front non-return cylinder connecting block, a rear non-return cylinder connecting block and a front check block, the top of the non-return cylinder end is fixedly connected with the non-return cylinder connecting block, and the check blocks are fixedly connected with the non-return cylinder connecting block.

The utility model discloses electric core centering device's advantage is: when the battery cell is conveyed to the centering device, the two centering cylinders tightly press the battery cell from the front end and the rear end; the centering cushion block is arranged on the centering pressing plate, so that the centering pressing plate is tightly pressed on the small bulge on the side surface of the battery cell without shaking, the centering effect is good, and the battery cell film is not extruded and deformed; and secondly, smooth conveying of the battery cell is ensured by arranging the electric cylinder, the plurality of photoelectric switches and the left and right proximity switches.

Drawings

Fig. 1 is a perspective view of a cell centering device according to the present invention;

fig. 2 is a front view of a cell centering device according to the present invention;

FIG. 3 is a top view of FIG. 2;

fig. 4 is a schematic structural view of a conventional centering device.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings

Example 1

As can be seen from fig. 1, 2 and 3, the cell centering device of the present invention includes an electric cylinder 1, an electric cylinder mounting plate 2, a conveying component, and a centering component; the electric cylinder mounting plate 2 is fixed on the reference table board, the electric cylinder 1 is fixed on the electric cylinder mounting plate 2, the conveying component is connected with the electric cylinder 1, and the centering components are symmetrically arranged on the front side and the rear side of the electric cylinder 1; the conveying part comprises a material box 3 and a material box mounting plate 4, the electric core 19 is placed on the material box 3, the material box 3 is fixed on the material box mounting plate 4, and a screw rod on the electric cylinder 1 penetrates through the lower part of the material box mounting plate 4; the centering component comprises a front centering cylinder bracket 12, a rear centering cylinder bracket 12, a connecting plate 14, a front centering cylinder 16, a rear centering cylinder 16, a front centering pressing plate 17, a rear centering pressing plate 17 and a plurality of centering cushion blocks 18; the two centering cylinder supports 12 are symmetrically arranged front and back, the bottoms of the two centering cylinder supports are fixed on a reference table surface, the upper parts of the two centering cylinder supports are connected into a whole through a connecting plate 14, and the connecting plate 14 is positioned above the battery cell 19; the two centering cylinders 16 are horizontally arranged, the side surfaces of cylinder parts of the two centering cylinders are fixed on the left side surfaces of the front and rear centering cylinder brackets 12, and rod parts of the two centering cylinders 16 are opposite to each other front and rear; the rod end of the centering air cylinder 16 is connected with a centering pressure plate 17, and the centering pressure plate 17 is fixedly connected with a plurality of centering cushion blocks 18.

When the battery cell 19 is conveyed to the centering device of the present invention, the two centering cylinders 16 start to work for centering, and the battery cell 19 is pressed from the front and rear ends; because the centering cushion block 18 is arranged on the centering pressing plate 17, the centering cushion block 18 is tightly pressed on the small bulge on the side surface of the battery cell 19 without shaking, so that the centering effect is good, and the battery cell film is not extruded and deformed.

The centering cushion block 18 is circular, and the position and the size of the centering cushion block are matched with the protrusions on the battery cell 19.

Example 2

As can be seen from fig. 1, fig. 2, and fig. 3, the utility model relates to an electric core centering device: the centering component also comprises a front centering pressing plate mounting plate and a rear centering pressing plate mounting plate 15, wherein the centering pressing plate mounting plates 15 are arranged between the rod end of the centering air cylinder 16 and the centering pressing plate 17 and are connected with the rod end and the centering pressing plate.

The centering component increases the stability during pressing by additionally arranging the centering pressing plate mounting plate 15, and ensures that the electric core film can be pressed during centering.

Example 3

As can be seen from fig. 1, fig. 2, and fig. 3, the utility model relates to an electric core centering device: the conveying component also comprises a diffuse reflection switch bracket 9, a plurality of photoelectric switches 11, a left proximity switch 6, a right proximity switch 6 and a left switch bracket 10 and a right switch bracket 10; the diffuse reflection switch bracket 9 is fixed in front of the material box mounting plate 4, and the photoelectric switches 11 are fixed in front of the diffuse reflection switch bracket 9 at equal intervals; the left proximity switch 6 and the right proximity switch 6 are arranged along the length direction of the electric cylinder 1, the proximity switches 6 are fixed on a switch support 10, and the switch support 10 is fixed on a reference table board.

The photoelectric switches 11 are used for sensing the positions of the cells 19, and the number of the photoelectric switches is consistent with that of the cells 19, namely, one photoelectric switch 11 corresponds to one cell 19; the left and right proximity switches 6 are for sensing the front and rear positions, i.e., the left and right positions, of the magazine 3. The working principle is as follows: when the five photoelectric switches 11 sense that the five battery cells 19 are in place, the electric cylinder 1 stops working, the centering air cylinder 16 works, the battery cells 19 are centered, and the battery cell films are extruded to be flat; after to ending, magazine mounting panel 4 drives electric core 19 through magazine 3 and continues the rearward movement and move left promptly, when proximity switch 6 on the left side senses magazine 3 time magazine stop motion, electric core 19 is grabbed away to the manipulator, then 1 reverse work of electric cylinder, magazine mounting panel 4 drives magazine 3 forward motion and moves right promptly, when proximity switch 6 on the right senses magazine 3 time magazine 3 stop motion, electric core 19 transmits to magazine 3 in, repeated foretell action, guaranteed electric core 19's smooth and easy transport.

Example 4

As can be seen from fig. 1, fig. 2, and fig. 3, the utility model relates to an electric core centering device: the conveying part also comprises a front section fixing plate 13, and the front section fixing plate 13 is fixed on the right surface of the magazine mounting plate 4.

The front section fixing plate 13 has a certain inclination, so that the battery cell 19 is conveniently conveyed to the material box 3 from the production line.

Example 5

As can be seen from fig. 1, fig. 2, and fig. 3, the utility model relates to an electric core centering device: the utility model also comprises a non-return mechanism which is symmetrically arranged at the front and the back of the electric cylinder 1 and is positioned at the inner side of the centering mechanism; the non-return mechanism comprises a front non-return cylinder 8 and a rear non-return cylinder 8, the two non-return cylinders 8 are symmetrically and vertically arranged in the front and the rear, and the side surfaces of the cylinder ends of the non-return cylinders are respectively fixed on the opposite surfaces of the front centering cylinder bracket 12 and the rear centering cylinder bracket 12.

The non-return mechanism is used for preventing the position of the battery cell 19 from being staggered with the centering cushion block 18 due to the fact that the battery cell 19 rolls rightwards in the material box 3, so that when the centering cylinders 16 at the two ends are centered, the centering cushion block 18 is just pressed on the small bulge of the battery cell 19, and the pressing die quality is guaranteed. The working principle of the check mechanism is as follows: when proximity switch 6 on the right senses magazine 3, the rod end of tang cylinder 8 is retracted downwards, and electric core 19 transmits to magazine 3 in, then the rod end of non return cylinder 8 upwards stretches out the right-hand member that keeps off at magazine 3, has carried out spacing electric core 19 that prevents and has moved back to electric core 19, makes centering cushion 18 correspond with electric core 19's little protruding position, has guaranteed the centering effect, can not become electric core membrane extrusion.

Example 6

As can be seen from fig. 1, fig. 2, and fig. 3, the utility model relates to an electric core centering device: the non-return mechanism further comprises a front non-return cylinder connecting block 5, a rear non-return cylinder connecting block 5 and a front stop dog 7, the top of the cylinder end of the non-return cylinder 8 is fixedly connected with the non-return cylinder connecting block 5, and the stop dogs 7 are fixedly connected with the non-return cylinder connecting block 5.

The non-return mechanism has set up non return cylinder connecting block 5, piece fender 7, and the rod end of non return cylinder 8 can pass in the hole of non return cylinder connecting block 5, dog 7 to strengthen the stability of the 8 rod ends of non return cylinder greatly, made non return cylinder 8 can carry out the non return to electric core 19 well.

The utility model discloses electric core centering device's advantage is: the method comprises the following steps that firstly, the battery cell is centered through two centering cylinders, and circular centering cushion blocks are mounted on the cylinders, so that the battery cell is arranged in the middle of a battery cell film, and the battery cell film is prevented from being extruded and deformed by a cylinder centering plate; two, carry out spacing, photoelectric switch response electric core to the material condition, proximity switch response magazine front and back position through two non return cylinders to electric core, through the coordinated action of each cylinder, inductive switch, guaranteed smooth and easy transport of electric core, the card pause phenomenon can not appear.

Claims (8)

1. The utility model provides a battery core centering device which characterized by: the device comprises an electric cylinder (1), an electric cylinder mounting plate (2), a conveying component and a centering component; the electric cylinder mounting plate (2) is fixed on the reference table board, the electric cylinder (1) is fixed on the electric cylinder mounting plate (2), the conveying component is connected with the electric cylinder (1), and the centering components are symmetrically arranged on the front side and the rear side of the electric cylinder (1); the conveying part comprises a material box (3) and a material box mounting plate (4), the electric core (19) is placed on the material box (3), the material box (3) is fixed on the material box mounting plate (4), and a screw rod on the electric cylinder (1) penetrates through the lower part of the material box mounting plate (4); the centering component comprises a front centering cylinder bracket (12), a rear centering cylinder bracket (12), a connecting plate (14), a front centering cylinder (16), a rear centering cylinder (16), a front centering pressing plate (17), a rear centering pressing plate and a plurality of centering cushion blocks (18); the two centering cylinder supports (12) are symmetrically arranged in front and back, the bottoms of the two centering cylinder supports are fixed on a reference table board, the upper parts of the two centering cylinder supports are connected into a whole through a connecting plate (14), and the connecting plate (14) is positioned above the battery cell (19); the two centering cylinders (16) are horizontally arranged, the side surfaces of cylinder parts of the two centering cylinders are fixed on the left side surfaces of the front and rear centering cylinder brackets (12), and rod parts of the two centering cylinders (16) are opposite to each other in the front and rear direction; the rod end of the centering cylinder (16) is connected with a centering pressure plate (17), and the centering pressure plate (17) is fixedly connected with a plurality of centering cushion blocks (18).

2. The cell centering device of claim 1, wherein: the centering cushion block (18) is circular, and the position and the size of the centering cushion block are matched with the protrusions on the battery core (19).

3. The cell centering device of claim 1, wherein: the centering component further comprises a front centering pressing plate mounting plate and a rear centering pressing plate mounting plate (15), and the centering pressing plate mounting plates (15) are arranged between the rod end of the centering air cylinder (16) and the centering pressing plate (17) and are connected with the rod end and the centering pressing plate.

4. The cell centering device of claim 1, wherein: the conveying part also comprises a diffuse reflection switch bracket (9), a plurality of photoelectric switches (11), a left proximity switch (6), a right proximity switch (6) and a left switch bracket (10); the diffuse reflection switch bracket (9) is fixed in front of the material box mounting plate (4), and the photoelectric switches (11) are fixed in front of the diffuse reflection switch bracket (9) at equal intervals; the left proximity switch and the right proximity switch (6) are arranged along the length direction of the electric cylinder (1), the proximity switches (6) are fixed on a switch bracket (10), and the switch bracket (10) is fixed on a reference table board.

5. The cell centering device of claim 1, wherein: the number of the photoelectric switches (11) is consistent with that of the battery cells (19).

6. The cell centering device of claim 1, wherein: the conveying part also comprises a front section fixing plate (13), and the front section fixing plate (13) is fixed on the right surface of the material box mounting plate (4).

7. The cell centering device of claim 1, wherein: the battery cell centering device also comprises non-return mechanisms, wherein the non-return mechanisms are symmetrically arranged on the front side and the rear side of the electric cylinder (1) and are positioned on the inner side of the centering mechanism; the non-return mechanism comprises a front non-return cylinder (8) and a rear non-return cylinder (8), the two non-return cylinders (8) are symmetrically and vertically arranged front and back, and the side surfaces of the cylinder ends of the non-return cylinders are respectively fixed on the opposite surfaces of the front centering cylinder support (12) and the rear centering cylinder support (12).

8. The cell centering device of claim 7, wherein: the non-return mechanism further comprises a front non-return cylinder connecting block (5), a rear non-return cylinder connecting block (5), a front stop block (7), a rear stop block (7), a top fixed connection non-return cylinder connecting block (5) of the cylinder end of the non-return cylinder (8), and the stop blocks (7) fixedly connected to the upper surface of the non-return cylinder connecting block (5).

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