CN-224205574-U - Isolation device

Abstract

The utility model discloses an isolation device, which belongs to the technical field of solar cells and comprises a paper placing material box for placing isolation paper, a sheet collecting material box with a placing space, a sheet picking mechanism and a paper sucking mechanism, wherein the placing space is used for placing a silicon wafer, the sheet picking mechanism is used for conveying the silicon wafer to the placing space, the paper sucking mechanism comprises a moving module and an adsorption assembly connected with the moving module, the moving module drives the adsorption assembly to reciprocate between the paper placing material box and the placing space, and the adsorption assembly is used for adsorbing the isolation paper. The utility model achieves the technical effect of reducing defective rate and production cost.

Inventors

• LIANG FA

Assignees

• 通威太阳能（成都）有限公司

Dates

Publication Date

20260505

Application Date

20250429

Claims (10)

1. 1. The isolation device is characterized by comprising a paper placing material box used for placing isolation paper, a sheet collecting material box with a placing space, a sheet picking mechanism and a paper sucking mechanism, wherein the placing space is used for placing silicon wafers, the sheet picking mechanism is used for conveying the silicon wafers to the placing space, the paper sucking mechanism comprises a movable module and an adsorption assembly connected with the movable module, the movable module drives the adsorption assembly to reciprocate between the paper placing material box and the placing space, and the adsorption assembly is used for adsorbing the isolation paper.
2. 2. The isolation device of claim 1, further comprising a plurality of baffles disposed in the placement space, the plurality of baffles being spaced apart.
3. 3. The isolation device according to claim 1, wherein the wafer picking mechanism comprises a lifting assembly and a transmission assembly with a conveying channel, the transmission assembly is connected with the lifting assembly, the lifting assembly drives the transmission assembly to lift, the conveying channel is communicated with the placing space, and the silicon wafer is conveyed to the placing space through the conveying channel.
4. 4. The isolation device according to claim 3, wherein the transmission assembly comprises a first driver connected with the lifting assembly and a roller assembly connected with the first driver and located in the conveying channel, and the first driver drives the roller assembly to rotate so as to drive the silicon wafer located on the roller assembly to move to the placing space through the conveying channel.
5. 5. The isolation device of claim 4, wherein the roller assembly comprises a plurality of rollers and a rotating shaft connected with the plurality of rollers, the plurality of rollers are located in the conveying channel, the first driver is connected with the rotating shaft, and the first driver drives the rotating shaft to drive the plurality of rollers to rotate along the conveying direction of the conveying channel.
6. 6. The isolation device according to claim 1, wherein the moving module comprises a lateral moving assembly and a vertical moving assembly connected with the lateral moving assembly, the lateral moving assembly comprises a supporting frame and a sliding part arranged on the supporting frame, the vertical moving assembly is connected with the sliding part, the vertical moving assembly moves along the length extending direction of the sliding part, and the paper placing material box and the placing space are located in the range of the length extending direction.
7. 7. The isolation device of claim 6, wherein the sliding component comprises a sliding rail and a second driver disposed on the supporting frame and connected to the vertical movement assembly, the vertical movement assembly is slidably connected to the sliding rail, and the second driver drives the vertical movement assembly to move along the length extension direction.
8. 8. The separator of claim 6, wherein the suction assembly comprises a support base and a suction cup disposed on the support base, the support base is connected to the vertical movement assembly, the vertical movement assembly drives the support base to move vertically, and the suction cup is used for sucking the separator paper.
9. 9. The isolation device of claim 1, further comprising a mainframe end transport assembly comprising a plurality of transport wheels and a transport driver, wherein a rotary rod of the transport driver is coupled to the plurality of transport wheels, and wherein the rotary rod rotates the plurality of transport wheels to transport the silicon wafer on the transport wheels to the wafer picking mechanism.
10. 10. The isolation device of claim 1, wherein the pick-off mechanism further comprises a sensor assembly disposed on the pick-off mechanism for detecting whether the silicon wafer is present on the pick-off mechanism.

Description

Isolation device Technical Field The utility model belongs to the technical field of solar cells, and particularly relates to an isolation device. Background With the continuous development of the photovoltaic industry technology and the aggravation of market competition, the demands of enterprises for cost reduction and efficiency enhancement are increasingly urgent. The silicon chip is used as a core component of the photovoltaic cell, and the quality and the production cost of the silicon chip are directly related to the economic benefit of enterprises. In the prior art, silicon wafers in the THL wet process are transmitted from a host computer to a wafer collecting material box through a wafer picking roller of an automatic system, when the automatic system fails and cannot normally run, if untreated silicon wafers still exist in the host computer, the untreated silicon wafers are removed from the host computer through starting the wafer picking roller and are collected into the material box below the wafer picking roller, but direct contact or collision is easy to occur between the silicon wafers, the risks of scratches, hidden cracks and fragments on the surface of the silicon wafers are increased, the defective product rate of the silicon wafers is improved, and the production cost is increased. Therefore, a new solution is needed to solve the above technical problems. Disclosure of utility model The utility model aims to solve the technical problems of high defective rate and high production cost. In order to solve the technical problems, the utility model provides an isolation device, which comprises a paper placing material box for placing isolation paper, a sheet collecting material box with a placing space, a sheet picking mechanism and a paper sucking mechanism, wherein the placing space is used for placing a silicon wafer, the sheet picking mechanism is used for conveying the silicon wafer to the placing space, the paper sucking mechanism comprises a moving module and an adsorption assembly connected with the moving module, the moving module drives the adsorption assembly to reciprocate between the paper placing material box and the placing space, and the adsorption assembly is used for adsorbing the isolation paper. Optionally, the isolation device further comprises a plurality of baffles arranged in the placement space, and the baffles are arranged at intervals. Optionally, the picking mechanism comprises a lifting component and a transmission component with a conveying channel, wherein the transmission component is connected with the lifting component, the lifting component drives the transmission component to lift, the conveying channel is communicated with the placing space, and the silicon wafer is conveyed to the placing space through the conveying channel. Optionally, the transmission assembly includes with the first driver that lifting assembly is connected, and with the first driver is connected and is located the gyro wheel subassembly of conveying channel, first driver drive gyro wheel subassembly rotates in order to drive the silicon chip that is located on the gyro wheel subassembly is through conveying channel removes to place the space. Optionally, the roller assembly includes a plurality of gyro wheels and with a plurality of the pivot that the gyro wheel is connected, a plurality of the gyro wheels are located the conveying channel, first driver with the pivot is connected, first driver drive the pivot drives a plurality of the gyro wheels are followed the conveying direction of conveying channel carries out the rotation. Optionally, the mobile module includes the lateral shifting subassembly and with the vertical shifting subassembly that the lateral shifting subassembly is connected, the lateral shifting subassembly include the support frame and set up in the sliding part of support frame, the vertical shifting subassembly with sliding part connects, the vertical shifting subassembly is followed sliding part's length extending direction removes, just the blowing magazine with place the space is located length extending direction's scope. Optionally, the sliding part includes the slide rail and set up in the support frame and with the second driver that vertical movement assembly is connected, vertical movement assembly with slide rail sliding connection, the second driver drive vertical movement assembly is followed length extension direction removes. Optionally, the adsorption component includes the supporting seat and set up in the sucking disc of supporting seat, the supporting seat with vertical movement subassembly is connected, vertical movement subassembly drives the supporting seat carries out vertical movement, the sucking disc is used for adsorbing the release paper. Optionally, the isolating device further includes a main bench end conveying assembly, the main bench end conveying assembly includes a plurality of conveying wheels and a conveying driver, a rotating