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CN-224217495-U - Processing device

CN224217495UCN 224217495 UCN224217495 UCN 224217495UCN-224217495-U

Abstract

The embodiment of the utility model discloses a processing device, wherein a first overturning plate can rotate relative to a base, a first telescopic piece is fixedly connected with the first overturning plate, a first positioning piece can move to a target position relative to the first overturning plate and is fixed, and the first telescopic piece and the first positioning piece are oppositely arranged to form a clamping space. The second overturning plate can rotate relative to the base, the second telescopic piece is fixedly connected with the second overturning plate, the second positioning piece can move to a target position and is fixed relative to the second overturning plate, and the second telescopic piece and the second positioning piece are oppositely arranged to form a clamping space. When the first overturning plate and the second overturning plate rotate in opposite directions, different electric cores are respectively driven to overturn and close. The processing device provided by the embodiment of the utility model has the advantages that the applicable battery cell specification is more abundant, the cost of overall device replacement model can be reduced, and the simple adjustment mode is also beneficial to improving the efficiency of manufacturing the battery.

Inventors

  • WANG WEI

Assignees

  • 欣旺达动力科技股份有限公司

Dates

Publication Date
20260508
Application Date
20250530

Claims (10)

  1. 1. A machining device, characterized in that the machining device comprises: -a base (10), the base (10) having a first direction (X); The first overturning assembly (11), the first overturning assembly (11) comprises a first overturning plate (111), a first telescopic piece (112) and a first positioning piece (113), the first overturning plate (111) is hinged with the base (10) and can rotate around a first direction (X), the first telescopic piece (112) and the first positioning piece (113) are both connected with the first overturning plate (111), and in the first direction (X), the relative positions of the first positioning piece (113) and the first overturning plate (111) are adjustable, and the first telescopic piece (112) and the first positioning piece (113) are oppositely arranged and form a first clamping space (114); The second overturning assembly (12) is opposite to the first overturning assembly (11), the second overturning assembly (12) comprises a second overturning plate (121), a second telescopic piece (122) and a second positioning piece (123), the second overturning plate (121) is hinged to the base (10) and can rotate around the first direction (X), the second telescopic piece (122) and the second positioning piece (123) are both connected with the second overturning plate (121), and in the first direction (X), the relative position of the second positioning piece (123) and the second overturning plate (121) is adjustable, and the second telescopic piece (122) and the second positioning piece (123) are opposite to each other and form a second clamping space (124).
  2. 2. The processing apparatus according to claim 1, wherein, The first overturning plate (111) is provided with a first adjusting structure (1111), the first positioning piece (113) is provided with a first positioning hole (1131), the first positioning hole (1131) is a strip-shaped hole extending along the first direction (X), and/or the first adjusting structure (1111) is a strip-shaped structure extending along the first direction (X), the relative position of the first positioning hole (1131) and the first adjusting structure (1111) is adjustable along the first direction (X); The second overturning plate (121) is provided with a second adjusting structure (1211), the second positioning piece (123) is provided with a second positioning hole (1231), the second positioning hole (1231) is a strip-shaped hole extending along the first direction (X), and/or the second adjusting structure (1211) is a strip-shaped structure extending along the first direction (X), and the relative position of the second positioning hole (1231) and the second adjusting structure (1211) is adjustable along the first direction (X).
  3. 3. The processing device according to claim 2, wherein the first adjustment structure (1111) is a bar-shaped hole extending in the first direction (X), a bar-shaped groove extending in the first direction (X), or a plurality of through holes spaced apart along the first direction (X), and the second adjustment structure (1211) is a bar-shaped hole extending in the first direction (X), a bar-shaped groove extending in the first direction (X), or a plurality of through holes spaced apart along the first direction (X).
  4. 4. The processing apparatus according to claim 1, further comprising two top cover support assemblies (13) arranged at intervals along the first direction (X), each top cover support assembly (13) comprising a top cover support base (131), a top cover telescopic support mechanism (132) and a support block (133); The top cover supporting seat (131) is arranged in a gap between the first overturning assembly (11) and the second overturning assembly (12), the top cover supporting seat (131) is fixedly connected with the base (10), the top cover telescopic supporting mechanism (132) can move to a target position and is fixed relative to the top cover supporting seat (131), and the end part of the top cover telescopic supporting mechanism (132) is connected with the supporting block (133) for supporting the top cover.
  5. 5. The processing device according to claim 4, wherein the top cover supporting base (131) is provided with a third adjusting structure (1311), the top cover telescopic supporting mechanism (132) is provided with a third positioning hole (1321), the third adjusting structure (1311) is a strip-shaped structure extending along the first direction (X), and the third positioning hole (1321) and the third adjusting structure (1311) are relatively movable and fixed along the first direction (X).
  6. 6. The processing device according to claim 5, wherein the third adjustment structure (1311) comprises a strip-shaped hole extending in the first direction (X) or a plurality of through holes arranged at intervals in the first direction (X), wherein the direction of telescopic movement of the top cover telescopic support mechanism (132) is parallel to the first direction (X).
  7. 7. The processing device according to claim 4, wherein the top cover telescopic supporting mechanism (132) is a cylinder, and comprises a cylinder body (132 a) and a push rod (132 b) inserted into the cylinder body (132 a), the supporting block (133) is fixed at an end of the push rod (132 b) far away from the cylinder body (132 a), and the supporting block (133) is provided with a limit groove (1331) for supporting the top cover.
  8. 8. The processing device according to claim 1, wherein the first tilting assembly (11) further comprises a first negative pressure suction cup (115), wherein a surface of the first negative pressure suction cup (115) facing away from the base (10) is a first suction surface (1151), wherein the first negative pressure suction cup (115) is fixedly connected with the first tilting plate (111), and/or wherein, The second overturning assembly (12) further comprises a second negative pressure sucker (125), one surface, deviating from the base (10), of the second negative pressure sucker (125) is a second adsorption surface (1251), and the second negative pressure sucker (125) is fixedly connected with the second overturning plate (121).
  9. 9. A processing apparatus according to claim 1, the processing device is characterized by further comprising: The first driving motor (14), the first driving motor (14) is fixedly connected with the base (10), and an output shaft of the first driving motor (14) is connected with the first overturning plate (111); The first driving motor (14) is fixedly connected with the base (10), and an output shaft of the second driving motor (15) is connected with the second overturning plate (121); The output shafts of the first driving motor (14) and the second driving motor (15) are positioned in a horizontal plane.
  10. 10. Machining device according to claim 1, characterized in that it further comprises a support platform (16), a support column (17), a connection block (18) and a connection shaft (19); the support column (17) is fixedly connected with the support platform (16), and the connecting block (18) is fixed on one surface of the support platform (16) deviating from the support column (17), wherein the connecting block (18) is provided with a mounting groove (181), and an opening of the mounting groove (181) faces one side deviating from the support column (17); one end of the connecting shaft (19) is fixedly connected with the base (10), and the other end of the connecting shaft extends outwards from the base (10) and is partially embedded in the mounting groove (181).

Description

Processing device Technical Field The utility model belongs to the technical field of battery manufacturing, and particularly relates to a processing device. Background During the production of the battery, various processing procedures of the battery cell are involved. For example, one of the working procedures is core combination, and the core combination working procedure specifically refers to respectively placing two electric cores on corresponding clamps, so that the two electric cores are horizontally laid and fixed on the clamps in a lying manner, and then the two clamps are turned over to drive the two electric cores to be turned over, erected, matched and combined together. The fixture part of the processing device used in the core combining procedure is designed for the battery core with one specification and size, and after the size of the battery core is changed, the fixture part cannot be used for the core combining procedure of the battery core with different sizes, so that the structure of the processing device is complicated to change, the replacement cost is high, and the efficiency of manufacturing the battery is reduced. Disclosure of utility model The embodiment of the utility model aims to provide a processing device, which improves the applicability of the processing device to battery cores with different specifications and sizes, reduces the complexity and cost of the structure change of the processing device and improves the efficiency of manufacturing batteries. In order to solve the technical problems, the utility model is realized as follows: The present utility model provides a processing apparatus including: A base having a first direction; The first overturning assembly comprises a first overturning plate, a first telescopic piece and a first positioning piece, wherein the first overturning plate is hinged with the base and can rotate around the first direction, the first telescopic piece and the first positioning piece are both connected with the first overturning plate, in the first direction, the relative positions of the first positioning piece and the first overturning plate are adjustable, and the first telescopic piece and the first positioning piece are oppositely arranged and form a first clamping space; The second turnover assembly is opposite to the first turnover assembly, the second turnover assembly comprises a second turnover plate, a second telescopic piece and a second positioning piece, the second turnover plate is hinged with the base and can rotate around the first direction, the second telescopic piece and the second positioning piece are both connected with the second turnover plate, the relative position of the second positioning piece and the second turnover plate is adjustable in the first direction, and the second telescopic piece and the second positioning piece are opposite to each other and form a second clamping space. Optionally, the first overturning plate is provided with a first adjusting structure, the first positioning piece is provided with a first positioning hole, the first positioning hole is a strip-shaped hole extending along the first direction, and/or the first adjusting structure is a strip-shaped structure extending along the first direction; The second overturning plate is provided with a second adjusting structure, the second positioning piece is provided with a second positioning hole, the second positioning hole is a strip-shaped hole extending along the first direction, and/or the second adjusting structure is a strip-shaped structure extending along the first direction, and the relative position of the second positioning hole and the second adjusting structure is adjustable along the first direction. Optionally, the first adjusting structure is a strip-shaped hole extending along the first direction, a strip-shaped groove extending along the first direction or a plurality of through holes arranged at intervals along the first direction, and the second adjusting structure is a strip-shaped hole extending along the first direction, a strip-shaped groove extending along the first direction or a plurality of through holes arranged at intervals along the first direction. Optionally, the processing device further includes two top cover support assemblies disposed at intervals along the first direction, each top cover support assembly includes a top cover support base, a top cover telescopic support mechanism and a support block; The top cover supporting seat is arranged in a gap between the first overturning assembly and the second overturning assembly, the top cover supporting seat is fixedly connected with the base, the top cover telescopic supporting mechanism is movable to a target position and fixed relative to the top cover supporting seat, and the end part of the top cover telescopic supporting mechanism is connected with a supporting block for supporting the top cover. Optionally, the top cover supporting seat is provided w