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CN-224222960-U - Processing equipment

CN224222960UCN 224222960 UCN224222960 UCN 224222960UCN-224222960-U

Abstract

The application discloses processing equipment, which is used for processing solid electrolyte, and comprises a processing platform, a laser unit and a first transfer device, wherein the solid electrolyte at least comprises two end faces which are oppositely arranged, the processing platform is used for placing the solid electrolyte, the laser unit is positioned above the processing platform and is used for carrying out laser processing on the solid electrolyte, and the first transfer device is used for driving the solid electrolyte to move along the height direction of the processing equipment and driving the solid electrolyte to turn over so as to enable the unprocessed end face to face the laser unit and enable a gap to be formed between the processed end face and the processing platform. The processing equipment in this embodiment can realize the automatic upset to solid electrolyte through first transfer device, and after driving solid electrolyte upset, can also control its and processing platform between have the clearance to shorten the distance between solid electrolyte and the laser unit, be favorable to improving the machining precision of laser unit to solid electrolyte, improve product quality.

Inventors

  • ZHANG QI
  • JIANG TIANHAO
  • HU PENG
  • BI FEIFEI
  • LAN SHUHUAI

Assignees

  • 苏州治臻新能源装备有限公司

Dates

Publication Date
20260512
Application Date
20250513

Claims (10)

  1. 1. A processing apparatus for processing a solid electrolyte, the processing apparatus comprising: A processing platform, along the thickness direction of the solid electrolyte, the solid electrolyte comprises a first end face and a second end face which are oppositely arranged, the processing platform is used for placing the solid electrolyte, and the first end face can be placed on the processing platform; The laser unit is positioned above the processing platform along the height direction of the processing equipment and is used for carrying out laser processing on the second end face; The first transfer device is used for driving the solid electrolyte to move along the height direction of the processing equipment and driving the solid electrolyte to turn over so as to enable the first end face to face the laser unit, a gap is reserved between the second end face and the processing platform, and the laser unit is further used for carrying out laser processing on the first end face.
  2. 2. The processing apparatus according to claim 1, further comprising a bracket, wherein the first transporting device includes a rotating portion and a first grasping portion connected to the rotating portion, the first grasping portion is configured to be connected to the solid electrolyte, and the rotating portion is rotatable relative to the bracket to drive the first grasping portion and the solid electrolyte to turn over.
  3. 3. The processing apparatus according to claim 2, wherein the rotating portion is connected to the bracket by a rotation driving device including a first driving shaft extending in a horizontal direction of the processing apparatus; The rotating part is connected with the first driving shaft, and the first driving shaft can drive the rotating part to rotate in a vertical plane of the processing equipment.
  4. 4. A processing apparatus according to claim 3, wherein the support comprises a third slide rail extending in a height direction of the processing apparatus, the first transfer device being further capable of sliding along the third slide rail to drive the solid electrolyte to move in the height direction of the processing apparatus.
  5. 5. The processing apparatus of any one of claims 1-4, further comprising a second transfer device, a loading device, and a unloading device, wherein the second transfer device is configured to drive the solid electrolyte to transfer between the loading device and the processing platform, and the first transfer device is further configured to drive the solid electrolyte to transfer between the processing platform and the unloading device.
  6. 6. The processing apparatus of claim 5, further comprising a support including a second slide rail along which the second transfer device is slidable such that the second transfer device is configured to transfer the solid electrolyte between the loading device and the processing platform; the support also comprises a first sliding rail, and the first transfer device can slide along the first sliding rail, so that the first transfer device is also used for driving the solid electrolyte to transfer between the processing platform and the blanking device.
  7. 7. The processing apparatus according to claim 6, wherein the second transfer device includes a swinging portion and a second grasping portion connected to the swinging portion, the second grasping portion being for connecting a solid electrolyte, the swinging portion being swingable relative to the bracket to bring the second grasping portion and the solid electrolyte into swing.
  8. 8. The processing apparatus according to claim 7, wherein the swinging portion is connected to the bracket by a swinging drive device including a second drive shaft extending in a height direction of the processing apparatus; the swinging part is connected with the second driving shaft, and the second driving shaft can drive the swinging part to swing in the horizontal plane of the processing equipment.
  9. 9. The processing apparatus according to claim 7, wherein the swing angle of the swing portion is α, and α satisfies 30 ° Σ.
  10. 10. The processing apparatus of claim 1, wherein the processing platform further comprises an air outlet and a dust collection port, the air outlet and the dust collection port being located on opposite sides of the processing platform, the air outlet being configured to deliver air toward the processing platform, the dust collection port being configured to receive impurities generated during processing.

Description

Processing equipment Technical Field The application relates to the technical field of solid electrolyte processing, in particular to processing equipment. Background The electrolyte layer of the solid oxide fuel cell has an important function, can efficiently conduct ions or protons, and can fully isolate fuel and oxidant so as to ensure the safety of the fuel cell in the working process. In the process of fuel cell operation, in order to avoid the situation that the solid electrolyte generates thermal stress accumulation in a high-temperature environment, workers usually perform laser etching or surface treatment on the surface of the solid electrolyte so as to improve the deformation resistance of the solid electrolyte and prolong the service life of the solid electrolyte. At present, in the process of processing the surface of the solid electrolyte by adopting the existing processing equipment, as the processing equipment can only process the single surface of the solid electrolyte at a time, workers need to repeatedly detach, position and install the solid electrolyte, so that the processing precision of the solid electrolyte is reduced, and the quality of the solid electrolyte is affected. Disclosure of utility model In view of the above, the present application provides a processing apparatus to solve the technical problems in the prior art. The application provides processing equipment which is used for processing solid electrolyte, and comprises a processing platform, a laser unit and a first transfer device, wherein the processing platform is used for placing the solid electrolyte, the first end face can be placed on the processing platform, the laser unit is located above the processing platform in the height direction of the processing equipment and is used for carrying out laser processing on the second end face, and the first transfer device is used for driving the solid electrolyte to move in the height direction of the processing equipment and is used for driving the solid electrolyte to turn over so as to enable the first end face to face the laser unit, a gap is reserved between the second end face and the processing platform, and the laser unit is also used for carrying out laser processing on the first end face. In the embodiment of the application, the solid electrolyte is placed on the processing platform, so that the placement stability of the solid electrolyte can be ensured, the second end face is ensured to be parallel to the horizontal direction of the processing platform, and the processing precision and the processing quality of the second end face by the laser unit are improved. And in the process of processing the solid electrolyte, after the second end face of the solid electrolyte is processed, the first transfer device can turn over the solid electrolyte, so that the first end face of the solid electrolyte faces the laser unit, the second end face of the solid electrolyte faces the processing platform, and the first end face is ensured to be parallel to the horizontal direction of the processing platform, so that the laser unit can accurately process the first end face, and further processing equipment can process different surfaces of the solid electrolyte. Through such design mode, can reduce the number of times of repeatedly installing and removing solid electrolyte in the course of working, be favorable to improving the work efficiency of processing equipment to can avoid solid electrolyte to lead to the great risk of assembly error owing to repeatedly installing and removing, in order to improve solid electrolyte's machining precision and product quality. In one possible embodiment, the processing apparatus further includes a support, the first transferring device includes a rotating portion and a first grabbing portion connected to the rotating portion, the first grabbing portion is used for connecting the solid electrolyte, and the rotating portion can rotate relative to the support to drive the first grabbing portion and the solid electrolyte to turn over. In one possible embodiment, the rotating part is connected with the bracket through a rotating driving device, the rotating driving device comprises a first driving shaft, the first driving shaft extends along the horizontal direction of the processing equipment, the rotating part is connected with the first driving shaft, and the first driving shaft can drive the rotating part to rotate in the vertical plane of the processing equipment. In one possible embodiment, the support includes a third slide rail, the third slide rail extending along a height direction of the processing apparatus, and the first transfer device is further capable of sliding along the third slide rail to drive the solid electrolyte to move along the height direction of the processing apparatus. In one possible implementation manner, the processing device further comprises a second transferring device, a feeding device and a discharging devic