CN216442005U - Insulating paper assembly devices for button cell group equipment - Google Patents

Abstract

The utility model discloses an insulating paper assembling mechanism for button battery pack equipment, which comprises a first assembly line; an insulating paper assembling platform and a detecting and sorting mechanism are respectively arranged on two sides of the first assembly line; two sides of the insulating paper assembly platform are provided with insulating paper feed trays, and a cutting assembly is arranged above the insulating paper assembly platform and used for cutting the two insulating papers fed out from the insulating paper feed trays into products; the automatic assembling device comprises a first assembly line, a second assembly line, a detection and sorting mechanism, a third material pushing cylinder, a third material feeding cylinder, a third material pushing cylinder and a third material feeding cylinder, wherein the first assembly line and the second assembly line are respectively provided with the third material pushing cylinder and the third material feeding cylinder, and the third material pushing cylinder and the third material feeding cylinder are respectively used for pushing products onto the insulating paper assembly platform and pushing the products to the detection and sorting mechanism.

Description

Insulating paper assembly devices for button cell group equipment

Technical Field

The utility model relates to an insulating paper assembling mechanism, in particular to an assembling device for a button battery.

Background

Button cells are also called button cells, which are cells with the external dimensions like a small button, generally speaking, the diameter is larger, the thickness is thinner (compared with columnar cells such as No. 5 AA batteries on the market), the button cells are classified from the external aspect, and the equivalent corresponding cells are classified into columnar cells, square cells and special-shaped cells

The button cell needs to finish the operation steps of assembling a battery shell and a lithium battery, injecting liquid, assembling a battery core, assembling a rear cover, sealing and the like in the installation process, and the conventional button cell is mostly processed step by step in sequence by adopting manual operation when the assembly step is carried out, so that the production efficiency is low, the labor cost is high, the assembly quality of the button cell cannot be ensured when the button cell is produced in large batch, and the actual production and processing requirements cannot be met.

Therefore, the automatic assembling equipment for the button is designed, but in the assembling process, an insulating paper assembling mechanism capable of automatically assembling the insulating paper on a product is also lacked, so that the requirement cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide the insulating paper assembling mechanism for the button battery pack equipment, which can automatically assemble the insulating paper into a product and has high production efficiency and assembling quality.

In order to achieve the purpose, the utility model adopts the technical scheme that: an insulating paper assembling mechanism for button battery pack equipment comprises a first production line, an insulating paper assembling platform, two insulating paper feeding disks arranged oppositely, a cutting assembly, a detection and sorting mechanism, a third feeding cylinder and a third pushing cylinder; an insulating paper assembling platform and a detection sorting mechanism are respectively arranged on two sides of the first production line; insulating paper feeding trays are arranged on two sides of the insulating paper assembling platform, and a cutting assembly is arranged above the insulating paper assembling platform and used for cutting two insulating papers fed out from the insulating paper feeding trays into a product; and a third material pushing cylinder and a third material feeding cylinder are respectively arranged on one side of the first assembly line and the insulating paper assembling platform and are respectively used for pushing the product onto the insulating paper assembling platform and pushing the product to the detection and separation mechanism.

Furthermore, the cutting assembly comprises a lifting cylinder, a paper pressing rod, a spring, a paper cutting cylinder, a cutting seat and a limiting boss; the bottom of the lifting cylinder is provided with a paper pressing rod; the paper pressing rod is sleeved with a spring; a paper-cut cylinder connected with a spring is sleeved outside the paper pressing rod; a shearing seat is arranged below the paper shearing cylinder; the top of the paper cutting cylinder is provided with a limiting boss positioned above the cutting seat; a round hole matched with the paper-cut cylinder is formed in the cutting seat; when the paper cutting cylinder enters the round hole, the position of the paper cutting cylinder in the cutting seat is limited by the limiting boss; the transverse direction of the cutting seat is also provided with two paper feeding grooves penetrating through the cutting seat and used for adapting to the insertion of two insulating papers.

Further, the detection and sorting mechanism comprises a first sorting seat, a first sorting cylinder, a CCD detection system and a defective product collecting frame; the first sorting seat is positioned on one side of the first production line, and a defective product collecting frame is arranged below the first sorting seat; a first sorting cylinder is arranged on the upper surface of the first sorting seat; a CCD detection system is arranged above the first sorting cylinder; and when the CCD detection system detects that the product is qualified, the first sorting cylinder pushes the product sent by the third feeding cylinder to the first production line.

Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

the insulating paper assembling mechanism for the button battery pack equipment has a compact integral structure, automatically assembles the products in transmission with the insulating paper, continuously transmits the qualified products after assembly, additionally collects the unqualified products, fully automatically completes the whole process, has stable operation and high production efficiency, reduces the labor cost, ensures the assembly quality and speed of the subsequent button batteries, and meets the actual batch production requirement.

Drawings

The technical scheme of the utility model is further explained by combining the accompanying drawings as follows:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a partial schematic view of the present invention with the CCD detection system omitted;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic perspective view of a cutting assembly;

FIG. 5 is a schematic perspective exploded view of a paper cutting cylinder and a cutting base;

wherein: the device comprises a first production line 1, a first sorting seat 124, a first sorting cylinder 125, a CCD detection system 126, a defective product collection frame 129, an insulating paper feeding disc 130, a third feeding cylinder 131, a third pushing cylinder 132, a lifting cylinder 133, a paper pressing rod 134, a spring 135, a paper cutting cylinder 136, a limiting boss 137, a cutting seat 138, a paper feeding groove 139, an insulating paper assembling platform 140 and an insulating paper roller 141.

Detailed Description

The utility model is described in further detail below with reference to the figures and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not to be construed as limiting the utility model.

Referring to fig. 1-5, the insulating paper assembly mechanism for a button battery pack assembly according to the present invention includes a first assembly line 1, an insulating paper assembly platform 140, two insulating paper feeding trays 130 disposed oppositely, a cutting assembly, a detecting and sorting mechanism, a third feeding cylinder 131 and a third pushing cylinder 132; an insulating paper assembling platform 140 and a detection sorting mechanism are respectively arranged on two sides of the first assembly line 1; the insulating paper feeding trays 130 are arranged on two sides of the insulating paper assembling platform 140; a cutting assembly which can reliably move up and down is arranged above the insulating paper assembling platform 140 and is used for cutting two insulating papers sent out from the insulating paper feeding tray 130 into a product.

In addition, a third material pushing cylinder 132 and a third material feeding cylinder 131 are respectively arranged on one side of the first production line 1 and the insulation paper assembling platform 140, the third material pushing cylinder 132 pushes the products on the first production line 1 onto the insulation paper assembling platform 140, and the third material feeding cylinder 131 pushes the products assembled on the insulation paper assembling platform 140 to a detection and sorting mechanism for detection and sorting.

Specifically, the cutting assembly comprises a lifting cylinder 133, and a paper pressing rod 134 is arranged at the bottom of the lifting cylinder; the paper pressing rod 134 is sleeved with a spring 135; the paper pressing rod 134 is inserted into the paper-cut cylinder 136; the top of the paper cutting cylinder 136 is provided with a limit boss 137 which is arranged above the cutting seat 138; the paper cutting cylinder 136 is inserted downwards into the cutting seat 138; a round hole matched with the paper-cut cylinder is formed in the cutting seat 138; the cutting block 138 further has two parallel paper feeding slots 139 penetrating the cutting block 138 in the transverse direction for accommodating insertion of two insulation papers fed from the insulation paper feed tray 130.

During operation, the third material pushing cylinder 132 pushes the products on the first assembly line 1 to the insulation paper assembling platform 140, and the two insulation paper feeding trays 10 feed the insulation paper to the paper feeding groove of the paper cutting cylinder 136 to form upper and lower layers of insulation paper.

The specific process is as follows: the lifting cylinder 133 in the cutting assembly pushes the paper pressing rod 134 downwards, meanwhile, the paper cutting cylinder 136 is driven by the spring 135 to synchronously move downwards and penetrate through a round hole in the cutting seat 138, the paper cutting cylinder 136 does not penetrate out of the bottom of the round hole, meanwhile, due to the existence of the limiting boss 137, the paper cutting cylinder 136 cuts two layers of insulating paper to be circular and then stops moving downwards, the paper pressing rod 134 continues to move downwards due to the work of the lifting cylinder 133, and therefore the two layers of insulating paper are covered and pressed in the battery case through the paper pressing rod 134.

The two insulating paper feeding trays 130 are respectively fed into the paper feeding groove 139 at the bottom, and then returned to the two insulating paper rollers 141 at one side of the right insulating paper feeding tray 130, and conveyed forward by the two insulating paper rollers 141.

After the insulating paper is assembled, the third feeding cylinder 131 sends the product to a detection and sorting mechanism, and the detection and sorting mechanism comprises a first sorting seat 124, a first sorting cylinder 125, a CCD detection system 126 and a defective product collecting frame 129; the first sorting deck 124 is located at one side of the first process line 1, and the second feed cylinder 128 feeds the products into the first sorting deck 124.

During operation, the CCD detection system 126 detects the product after assembling the insulating paper; if qualified, the first sorting cylinder 125 pushes the product back onto the first process line 1; if the products are not qualified, the first sorting cylinder 125 does not work, and the products are directly conveyed to a defective product collecting frame 129 below the first sorting seat 124 by the third feeding cylinder 131.

The insulating paper assembling mechanism for the button battery pack equipment is compact in overall structure, automatically assembles the transmitted products with the insulating paper, continuously transmits the qualified products after assembly, additionally collects the unqualified products, fully automatically completes the whole process, is stable in operation and high in production efficiency, reduces the labor cost, ensures the assembly quality and speed of the subsequent button batteries, and meets the actual batch production requirement.

The above is only a specific application example of the present invention, and the protection scope of the present invention is not limited in any way. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (3)

1. The utility model provides a button battery equipment is with insulating paper assembly devices which characterized in that: the device comprises a first production line, an insulating paper assembling platform, two insulating paper feeding trays arranged oppositely, a cutting assembly, a detection and sorting mechanism, a third feeding cylinder and a third pushing cylinder; an insulating paper assembling platform and a detection sorting mechanism are respectively arranged on two sides of the first production line; insulating paper feeding trays are arranged on two sides of the insulating paper assembling platform, and a cutting assembly is arranged above the insulating paper assembling platform and used for cutting two insulating papers fed out from the insulating paper feeding trays into a product; and a third material pushing cylinder and a third material feeding cylinder are respectively arranged on one side of the first assembly line and the insulating paper assembling platform and are respectively used for pushing the product onto the insulating paper assembling platform and pushing the product to the detection and separation mechanism.

2. The insulating paper fitting mechanism for button battery pack equipment according to claim 1, wherein: the cutting assembly comprises a lifting cylinder, a paper pressing rod, a spring, a paper cutting cylinder, a cutting seat and a limiting boss; the bottom of the lifting cylinder is provided with a paper pressing rod; the paper pressing rod is sleeved with a spring; a paper-cut cylinder connected with a spring is sleeved outside the paper pressing rod; a shearing seat is arranged below the paper shearing cylinder; the top of the paper cutting cylinder is provided with a limiting boss positioned above the cutting seat; a round hole matched with the paper-cut cylinder is formed in the cutting seat; when the paper cutting cylinder enters the round hole, the position of the paper cutting cylinder in the cutting seat is limited by the limiting boss; the transverse direction of the cutting seat is also provided with two paper feeding grooves penetrating through the cutting seat and used for adapting to the insertion of two insulating papers.

3. The insulating paper fitting mechanism for button battery pack equipment according to claim 1, wherein: the detection and sorting mechanism comprises a first sorting seat, a first sorting cylinder, a CCD detection system and a defective product collecting frame; the first sorting seat is positioned on one side of the first production line, and a defective product collecting frame is arranged below the first sorting seat; a first sorting cylinder is arranged on the upper surface of the first sorting seat; a CCD detection system is arranged above the first sorting cylinder; and when the CCD detection system detects that the product is qualified, the first sorting cylinder pushes the product sent by the third feeding cylinder to the first production line.

Images