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CN-224222030-U - Be used for Xray to detect back electricity core to select separately unloader

CN224222030UCN 224222030 UCN224222030 UCN 224222030UCN-224222030-U

Abstract

The application provides a battery cell sorting and blanking device used after Xray detection, which comprises a mounting frame, a drawer box, sorting drawers and a movable shielding cover plate, wherein the drawer box is mounted on the mounting frame, the upper end of the drawer box is an open end, a plurality of sorting drawers are arranged in the drawer box side by side, the movable shielding cover plate is movably arranged on the open end of the drawer box, and when one of the sorting drawers needs to leave the drawer box, the movable shielding cover plate moves to the upper part of the sorting drawer first and covers the upper part of the sorting drawer. When the sorting drawer needs to leave the drawer box, the movable shielding cover plate moves to the upper part of the sorting drawer to cover the opening end of the sorting drawer, so that an effective radiation shielding layer is formed. This design is effective in preventing leakage of X-ray radiation. In addition, each sorting drawer can independently perform sorting and blanking operations of the battery cells. This parallel operation design significantly improves sorting efficiency.

Inventors

  • ZHOU XIAOYOU
  • He Shuikang
  • YUAN CHUHUI

Assignees

  • 东莞市爱康智能技术股份有限公司

Dates

Publication Date
20260512
Application Date
20250421

Claims (8)

  1. 1. The utility model provides a battery cell sorting unloader after being used for Xray detects, its characterized in that includes mounting bracket, drawer box, selects separately drawer and removes shielding cover plate, the drawer box is installed on the mounting bracket, the upper end of drawer box is the open end, select separately the drawer and be provided with a plurality of to set up side by side in the drawer box, remove shielding cover plate mobilizable setting is on the open end of drawer box, when one of them selects separately the drawer needs to leave the drawer box, remove the shielding cover plate and remove the sorting drawer top earlier to cover the top of selecting separately the drawer.
  2. 2. The device for sorting and discharging cells after Xray detection according to claim 1, wherein the periphery and the bottom of the drawer box are surrounded by lead plates.
  3. 3. The battery cell sorting and blanking device after Xray detection according to claim 1, wherein a drawer self-locking cylinder is arranged on the side edge above the drawer box, and one drawer self-locking cylinder corresponds to one sorting drawer.
  4. 4. The device for sorting and discharging the Xray detected battery cells according to claim 1, wherein a plurality of separation plates are arranged in the sorting drawer, and the separation plates divide the sorting drawer into a plurality of battery cell placing chambers.
  5. 5. The device for sorting and discharging cells after Xray detection of claim 4, wherein the upper portion of the partition plate is provided with a clearance groove.
  6. 6. The device for sorting and blanking the cells after Xray detection of claim 1, wherein a lead plate is arranged in the movable shielding cover plate.
  7. 7. The device for sorting and discharging cells after Xray detection according to claim 1, wherein a full discharge sensor is arranged on the side edge of the drawer box.
  8. 8. The device for sorting and discharging the battery cells after Xray detection according to claim 1, wherein a discharging sensor is arranged at the bottom of the drawer box.

Description

Be used for Xray to detect back electricity core to select separately unloader Technical Field The application relates to the field of battery cell detection equipment, in particular to a battery cell sorting and discharging device after Xray detection. Background With the rapid development of new energy technology, lithium batteries are used as important energy storage elements and widely applied to the fields of electric automobiles, consumer electronics, energy storage systems and the like. The battery core is used as a core component of the lithium battery, and the internal quality of the battery directly determines the performance, the safety and the service life of the battery. Therefore, in the production process of the battery cell, it is important to detect the internal defects of the battery cell efficiently and accurately. The X-ray detection technology is widely applied to the detection of the internal defects of the battery cell due to the advantages of no damage, high precision, high penetrability and the like. However, how to sort and discharge the battery cells efficiently and safely after the X-ray detection is still a problem to be solved. The existing sorting and blanking device has the limitation that after X-ray detection, radiation still exists in the detection equipment, the existing sorting and blanking device lacks effective shielding measures, the risk of radiation leakage exists, and the risk is formed to the health of operators. Disclosure of utility model The application aims to provide the cell sorting and blanking device after X-ray detection, which is efficient, safe and convenient to operate, can effectively shield radiation, improve sorting efficiency, simplify operation flow and adapt to compact production line layout. In order to achieve the above object, the present application provides the following technical solutions: The utility model provides a battery cell selects separately unloader for Xray detects back, includes mounting bracket, drawer box, selects separately the drawer and removes the shielding cover plate, the drawer box is installed on the mounting bracket, the upper end of drawer box is the open end, select separately the drawer and be provided with a plurality of to set up side by side in the drawer box, remove the mobilizable setting of shielding cover plate on the open end of drawer box, when one of them needs to leave the drawer box of selecting separately, remove the shielding cover plate and remove the sorting drawer top earlier to cover the top of selecting separately the drawer. Further, the periphery and the bottom of the drawer box are surrounded by lead plates. Further, a drawer self-locking cylinder is arranged on the side edge above the drawer box, and one drawer self-locking cylinder corresponds to one sorting drawer. Further, a plurality of separation plates are arranged in the separation drawer, and the separation plates divide the separation drawer into a plurality of battery cell placing chambers. Further, a clearance groove is formed in the upper portion of the partition plate. Further, a lead plate is arranged in the movable shielding cover plate. Further, the side of drawer box is provided with full play material inductor. Further, a discharging sensor is arranged at the bottom of the drawer box. The beneficial effects of the application are as follows: When the sorting drawer needs to leave the drawer box, the movable shielding cover plate moves to the upper part of the sorting drawer to cover the opening end of the sorting drawer, so that an effective radiation shielding layer is formed. The design can effectively prevent the leakage of X-ray radiation, protect the health of operators and ensure the safety of working environment. In addition, a plurality of sorting drawers are arranged in the drawer box side by side, and each sorting drawer can independently perform sorting and blanking operations of the battery cells. When one sorting drawer performs blanking, other sorting drawers can still work continuously. The parallel operation design remarkably improves the separation efficiency, reduces the downtime and meets the requirement of mass production. Drawings Fig. 1 is a schematic structural diagram of a discharging device for sorting electrical cores after Xray detection according to an embodiment of the present application; Fig. 2 is a schematic structural diagram of another view angle of a device for sorting and discharging electrical cores after Xray detection according to an embodiment of the present application; Detailed Description Features and exemplary embodiments of various aspects of the present application will be described in detail below, and in order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be described in further detail below with reference to the accompanying drawings and the detailed embodiments. It should be understood that the s