CN218333902U - Battery processing equipment - Google Patents

Abstract

The application provides a battery processing device, which comprises a base and a cutting mechanism arranged on the base; the cutting mechanism comprises a cutting fixed seat, a cutting knife arranged on the cutting fixed seat, a cutting driving assembly and a cutting insulating assembly arranged between the cutting fixed seat and the cutting knife; the cutting driving assembly is used for enabling the cutting knife to cut the battery, and the battery processing equipment can guarantee that the left lug and the right lug of the battery are insulated in the cutting process between the cutting fixing seat and the cutting knife, improves the battery processing quality, avoids static electricity generated in the battery shaping process, and damages the battery.

Description

Battery processing equipment

Technical Field

The utility model relates to a processing equipment field especially relates to a battery processing equipment.

Background

The existing battery processing equipment has electrostatic phenomena in the process of cutting and shaping the battery, the static electricity causes short circuit of a battery core diaphragm in the battery due to electrostatic breakdown, the internal damage of the battery is caused, and a large number of defective products are produced in the processing process.

SUMMERY OF THE UTILITY MODEL

Produce static when adding man-hour for the battery to current battery processing equipment, lead to the battery internal damage, a large amount of bad product's problems appear in the course of working, the utility model provides a battery processing equipment.

In order to solve the technical problem, the utility model provides a battery processing device, which comprises a base and a cutting mechanism arranged on the base; the cutting mechanism comprises a cutting fixing seat, a cutting knife arranged on the cutting fixing seat, a cutting driving assembly connected with the cutting knife, and a cutting insulating assembly arranged between the cutting fixing seat and the cutting knife; the cutting driving assembly is used for enabling the cutting knife to cut the battery.

Preferably, the cutting fixing seat comprises an upper fixing seat connected with the cutting driving component and a lower fixing seat arranged on the base; the cutting knife comprises an upper cutting knife and a lower cutting knife arranged opposite to the upper cutting knife, the upper cutting knife is connected with the upper fixing seat, and the lower cutting knife is installed in the lower fixing seat; the cutting insulation assembly comprises a first cutting insulation piece and a lower cutting insulation piece; the first cutting insulating part is arranged at the contact position of the upper cutter and the upper fixed seat; the lower cutting insulating part is arranged between the lower cutter and the lower fixed seat.

Preferably, the cutting mechanism further comprises a cutting pressing block assembly connected with the upper cutter; the cutting insulation assembly is further installed between the upper cutter and the cutting pressing block assembly.

Preferably, the cutting insulation assembly further comprises a second cutting insulation; the cutting and pressing block assembly comprises an upper cutter cushion block, and the upper cutter cushion block is arranged on the upper fixing seat and is positioned above the upper cutter; and the second cutting insulating part is arranged between the upper cutter cushion block and the upper cutter.

Preferably, the cutting and pressing block assembly further comprises an upper cutter position pressing block and a pressing block connecting plate, and the upper cutter position pressing block is mounted on the upper cutter and is opposite to the lower cutter; the pressing block connecting plate is arranged above the upper cutter position pressing block; the cutting insulation assembly further comprises a third cutting insulation piece; and the third cutting insulating part is arranged at the contact position of the upper cutter position pressing block and the pressing block connecting plate.

Preferably, a waste outlet is formed in the base, and the waste outlet is arranged opposite to the cutting mechanism and used for allowing the cutting waste of the battery to pass through.

Preferably, the cutting mechanism further comprises a cutting auxiliary assembly, the cutting auxiliary assembly comprises an auxiliary fixing seat mounted on the base, a slide rail mounted on the auxiliary fixing seat, and a slide block slidably arranged on the slide rail, and the slide block is connected with the upper fixing seat and arranged away from the upper cutter; the mounting direction of the slide rail is the same as the telescopic direction of the output shaft of the cutting driving component.

Preferably, the battery processing equipment further comprises a shaping mechanism arranged on the base, wherein the shaping mechanism comprises an upper flat pressing piece, a lower flat pressing piece arranged opposite to the upper flat pressing piece, an upper flat pressing connecting piece, a shaping driving assembly and a shaping insulating assembly; the lower flat pressing piece is arranged on the upper surface of the base, and the upper flat pressing connecting piece is connected with the shaping driving component; the upper flat pressing piece is mounted on the upper flat pressing piece, and the shaping insulating assembly is used for insulating the upper flat pressing piece from the shaping driving assembly and insulating the lower flat pressing piece from the base.

Preferably, the shaping insulator assembly comprises a first shaping insulator and a second shaping insulator; the first shaping insulator is arranged at the joint between the upper flat pressing connecting piece and the shaping driving component; the second reshaping insulation member is installed between the lower flat pressing member and the base.

Preferably, the shaping mechanism further comprises a shaping guide assembly; the shaping guide assembly comprises a guide rod and an upper flat pressing connecting piece which can vertically move along the guide rod, and the upper flat pressing connecting piece is connected with an output shaft of the shaping driving assembly.

The utility model discloses beneficial effect: the utility model provides a battery processing equipment cut the fixing base with cut the installation between the sword and cut insulating assemblies, can guarantee to cut the left utmost point ear of in-process battery and the right utmost point ear is insulating, improves the battery processing quality, avoids battery plastic process to produce static, damages the battery.

Drawings

FIG. 1 is a schematic diagram of a battery processing apparatus;

FIG. 2 is a schematic view of the battery processing apparatus of FIG. 1 with the housing removed;

fig. 3 is a schematic view of the cutting mechanism of fig. 2;

fig. 4 is a schematic structural view of the cutting mechanism and the trimmer of fig. 2.

The reference numbers in the drawings of the specification are as follows:

10. a base; 11. a waste outlet;

20. a support assembly; 21. a first support member; 22. a second support member;

30. a cutting mechanism; 31. cutting a fixed seat; 311. a lower fixed seat; 312. an upper fixed seat; 32. cutting a pressing block assembly; 321. a cutter feeding cushion block; 322. pressing blocks at the upper cutter positions; 323. a pressing block connecting plate; 33. cutting knife; 331. an upper cutter; 332. a lower cutter; 34. a cutting drive assembly; 35. a cutting auxiliary assembly; 351. An auxiliary fixing seat; 352. a slide rail; 353. a slider; 36. cutting the insulating component; 361. a first cut insulation; 362. a second cut insulation; 363. a third cut insulation; 364. cutting down the insulating part;

40. a shaping mechanism; 41. an upper flat pressing piece; 42. a lower flat pressing part; 43. a shaping guide assembly; 44. a shaping drive component; 45. shaping the insulating component; 451. a first shaping insulator; 452. a second shaping insulator;

50. a housing.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

As shown in fig. 1 to 4, the present invention provides a battery processing apparatus, which comprises a base 10, a supporting component 20 fixed on the base 10, a cutting mechanism 30 and a shaping mechanism 40 installed on the base 10 through the supporting component 20, and a housing 50 covering the cutting mechanism 30 and the shaping mechanism 40.

Specifically, the cutting mechanism 30 includes a cutting holder 31, a cutting blade 33 mounted on the cutting holder 31, a cutting driving assembly 34 connected to the cutting blade 33, and a cutting insulating assembly 36 mounted between the cutting holder 31 and the cutting blade 33; the cutting drive assembly 34 is used to cause the cutting blade 33 to cut the battery.

The utility model provides a battery processing equipment is cutting fixing base 31 and cutting the installation between the sword 33 and cutting insulating assemblies 36, can guarantee to cut the in-process battery left side utmost point ear and the right utmost point ear insulating, improves battery processing quality, avoids battery plastic process to produce static, damages the battery.

Further, the supporting assembly 20 includes two first supporting members 21 fixed on the base 10 side by side and a second supporting member 22 connected with the two first supporting members 21, the two first supporting members 21 fixed on the base 10 side by side are respectively connected with the second supporting member 22 to form an "L" shape, and the cutting mechanism 30 and the shaping mechanism 40 are respectively installed in the two "L" shaped spaces. The cutting mechanism 30 and the shaping mechanism 40 are arranged on the second support member 22 in a penetrating way and fixed on the base 10; the shell 50 is hollow, the base 10 of the shell 50 is matched, the cutting mechanism 30 and the shaping mechanism 40 are contained in the shell 50, and the cutting mechanism 30 and the shaping mechanism 40 are protected and guaranteed to work normally. The batteries referred to in this implementation are pouch batteries (e.g., lithium batteries) and cylindrical batteries.

As an embodiment, as shown in fig. 2 and 3, the cutting fixing base 31 includes an upper fixing base 312 connected to the cutting driving assembly 34 and a lower fixing base 311 installed on the base 10; the cutting knife 33 comprises an upper cutting knife 331 and a lower cutting knife 332 arranged opposite to the upper cutting knife 331, the upper cutting knife 331 is connected with the upper fixing seat 312, and the lower cutting knife 332 is arranged in the lower fixing seat 311; the cutting insulation assembly 36 includes a first cutting insulation 361 and an undercut insulation 364; the first cutting insulator 361 is installed at the contact position of the upper cutter 331 and the upper fixing seat 312; the lower cutter insulator 364 is installed between the lower cutter 332 and the lower holder 311.

In this embodiment, the first cutting insulator 361 is installed at the contact position between the upper cutter 331 and the upper fixing seat 312, and the lower cutting insulator 364 is installed between the lower cutter 332 and the lower fixing seat 311, so as to ensure that the left tab and the right tab of the battery are insulated in the cutting process, improve the processing quality of the battery, and prevent the battery from being damaged due to static electricity generated in the shaping process of the battery. Specifically, the first cutting insulator 361 includes a first insulating plate and a first insulating sleeve, the first insulating plate is installed between the upper cutter 331 and the upper fixing seat 312, the upper cutter 331 and the upper fixing seat 312 are connected by a bolt, and the first insulating sleeve is sleeved on the bolt.

As an embodiment, as shown in fig. 2 and 3, the cutting mechanism 30 further includes a cutting press block assembly 32 connected to the upper cutting knife 331; cutting insulation assembly 36 is also mounted between upper cutter 331 and cutting compact assembly 32. In this embodiment, the cutting insulation component 36 is installed between the upper cutter 331 and the cutting pressing block component 32, so as to achieve overall insulation and ensure better processing quality of the battery.

As an example, as shown in fig. 2 and 3, the cut insulation assembly 36 further includes a second cut insulation 362; the cutting and pressing block assembly 32 comprises an upper knife cushion block 321, and the upper knife cushion block 321 is installed on the upper fixing seat 312 and is positioned above the upper cutter 331; a second cut insulator 362 is mounted between the upper blade block 321 and the upper blade 331. The cutting and pressing block assembly 32 further comprises an upper cutter position pressing block 322 and a pressing block connecting plate 323, wherein the upper cutter position pressing block 322 is arranged on the upper cutter 331 and is opposite to the lower cutter 332; the pressing block connecting plate 323 is arranged above the upper cutter position pressing block 322; the trim insulation assembly 36 further includes a third trim insulation 363; the third cutting insulator 363 is installed at a contact position of the upper blade position pressing block 322 and the pressing block connecting plate 323. Specifically, the third cutting insulator 363 includes a third insulating plate and a third insulating sleeve, the third insulating plate is installed between the upper tool position pressing block 322 and the pressing block connecting plate 323, the upper tool position pressing block 322 and the pressing block connecting plate 323 are connected by a bolt, and the third insulating sleeve is an insulating sleeve sleeved on the bolt.

In this embodiment, the second cutting insulator 362 can insulate the upper tool pad 321 from the upper tool 331, and the third cutting insulator 363 can insulate the upper tool position pressing block 322 from the pressing block connecting plate 323, so as to ensure that the left and right tabs of the battery are insulated when the battery is cut, thereby improving the processing quality of the battery.

As an embodiment, as shown in fig. 4, a waste outlet 11 is provided on the base 10, and the waste outlet 11 is disposed opposite to the cutting mechanism 30 for allowing the cut waste of the battery to pass through. In this embodiment, waste outlet 11 output battery is cut the waste material that produces, realizes waste material automatic collection, improves work efficiency.

As an embodiment, as shown in fig. 4, the cutting mechanism 30 further includes a cutting auxiliary component 35, the cutting auxiliary component 35 includes an auxiliary fixing seat 351 installed on the base 10, a sliding rail 352 installed on the auxiliary fixing seat 351, and a sliding block 353 slidably disposed on the sliding rail 352, the sliding block 353 is connected to the upper fixing seat 312, and is disposed away from the upper cutting knife 331; the mounting direction of the slide rail 352 is the same as the extension and retraction direction of the output shaft of the cutting drive assembly 34. In this embodiment, cut auxiliary assembly 35 can assist and cut 34 output shafts of drive assembly, for cutting 34 output shafts of drive assembly and provide the guide effect, guarantee to cut mechanism 30 normal work and stable.

When the battery processing equipment cuts, the battery is placed on the lower cutter 332; when cutting, the output shaft of the cutting driving assembly 34 drives the upper fixing base 312 to move, and the upper fixing base 312 moves towards the lower fixing base 311 relative to the sliding rail 352 until the upper cutter 331 and the lower cutter 332 cut the battery. After cutting, the output shaft of the cutting driving assembly 34 drives the upper fixing seat 312 to move away from the lower fixing seat 311, and the upper fixing seat 312 moves relative to the sliding rail 352 in the direction away from the lower fixing seat 311, so that the cutting is completed. Illustratively, the cutting drive assembly 34 is a cylinder and the output shaft of the cutting drive assembly 34 is a piston.

As an embodiment, as shown in fig. 2 and 3, the battery processing apparatus further includes a shaping mechanism 40 mounted on the base 10, the shaping mechanism 40 including an upper flat pressing member 41, a lower flat pressing member 42 disposed opposite to the upper flat pressing member 41, an upper flat pressing connector, a shaping driving assembly 44, and a shaping insulating assembly 45; the lower flat pressing piece 42 is arranged on the upper surface of the base 10, and the upper flat pressing connecting piece is connected with the shaping driving component 44; the upper platen 41 is mounted on the upper platen 41, and the truing insulation assembly 45 serves to insulate the upper platen 41 from the truing driving assembly 44, and the lower platen 42 from the base 10. In this embodiment, the battery processing apparatus has the cutting mechanism 30 and the shaping mechanism 40, and the integration is high. The shaping insulation assembly 45 is used for insulating the upper flat pressing piece 41 and the shaping driving assembly 44, insulating the lower flat pressing piece 42 and the base 10, so that the left lug and the right lug of the battery can be insulated during shaping of the battery, the processing quality of the battery is improved, and the phenomenon that the battery is damaged due to static electricity generated in the shaping process of the battery is avoided.

As an example, as shown in fig. 2 and 3, the shaping insulator assembly 45 includes a first shaping insulator 451 and a second shaping insulator 452; a first truing insulator 451 is installed at the connection between the upper flat compression connector and the truing drive assembly 44; a second truing insulator 452 is mounted between the lower platen 42 and the base 10. In this embodiment, the first shaping insulator 451 may insulate the upper flat pressing member from the shaping driving unit 44, and the second shaping insulator 452 may insulate the lower flat pressing member 42 from the base 10, thereby preventing the battery from being damaged due to static electricity generated during the shaping process of the battery. Specifically, the lower flat pressing member 42 is mounted on the upper surface of the base 10, and is arranged side by side with the lower fixing seat 311. The shaping driving assembly 44 is mounted on the second support member 22, and the output shaft thereof is connected with the shaping guide assembly 43; the upper flat pressing member 41 is installed below the shaping guide assembly 43, and a shaping space for accommodating the left and right tabs of the battery is formed between the upper flat pressing member 41 and the lower flat pressing member 42.

As an embodiment, as shown in fig. 2, the shaping mechanism 40 further includes a shaping guide assembly 43; the shaping guide assembly 43 includes a guide rod and an upper platen connecting member vertically movable along the guide rod, and the upper platen connecting member is connected with an output shaft of the shaping driving assembly 44. In this embodiment, the shaping guide assembly 43 plays a guiding role, and ensures that the shaping mechanism 40 works normally.

When the shaping mechanism 40 works, the left tab and the right tab of the battery are placed in the shaping space, and the shaping driving assembly 44 drives the shaping guide assembly 43 and the upper flat pressing member 41 to move towards the direction of the lower flat pressing member 42, so that the left tab and the right tab of the battery are shaped. The shaping insulation component 45 is arranged on the shaping mechanism 40, so that the left lug and the right lug of the battery can be ensured to be insulated.

To sum up, the battery processing equipment provided by the utility model is provided with a cutting mechanism 30 and a shaping mechanism 40, and a cutting insulation component 36 is arranged between a cutting fixing seat 31, a cutting pressing block component 32 and a cutting knife 33; set up plastic insulating assembly 45 on plastic mechanism 40 simultaneously, insulating treatment is comprehensive and effective, can guarantee to cut the insulating of in-process battery left side utmost point ear and right utmost point ear, improves battery processing quality, avoids battery plastic process to produce static, damages the battery.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The battery processing equipment is characterized by comprising a base and a cutting mechanism arranged on the base; the cutting mechanism comprises a cutting fixed seat, a cutting knife arranged on the cutting fixed seat, a cutting driving assembly connected with the cutting knife, and a cutting insulating assembly arranged between the cutting fixed seat and the cutting knife; the cutting driving assembly is used for enabling the cutting knife to cut the battery.

2. The battery processing apparatus of claim 1, wherein the cutting holder includes an upper holder connected to the cutting drive assembly and a lower holder mounted to the base; the cutting knife comprises an upper cutting knife and a lower cutting knife arranged opposite to the upper cutting knife, the upper cutting knife is connected with the upper fixing seat, and the lower cutting knife is installed in the lower fixing seat; the cutting insulation assembly comprises a first cutting insulation piece and a lower cutting insulation piece; the first cutting insulating part is arranged at the contact position of the upper cutter and the upper fixed seat; the lower cutting insulating part is arranged between the lower cutter and the lower fixed seat.

3. The battery processing apparatus of claim 2, wherein the cutting mechanism further comprises a cutting press block assembly connected to the upper cutter; the cutting insulation assembly is further installed between the upper cutter and the cutting pressing block assembly.

4. The battery processing apparatus of claim 3, wherein the trim insulator assembly further comprises a second trim insulator; the cutting and pressing block assembly comprises an upper cutter cushion block, and the upper cutter cushion block is arranged on the upper fixing seat and is positioned above the upper cutter; and the second cutting insulating part is arranged between the upper cutter cushion block and the upper cutter.

5. The battery processing apparatus of claim 4, wherein the cutting press block assembly further comprises an upper knife position press block and a press block connection plate, the upper knife position press block being mounted on the upper knife and opposite the lower knife; the pressing block connecting plate is arranged above the upper cutter position pressing block; the cutting insulation assembly further comprises a third cutting insulation piece; and the third cutting insulator is arranged at the contact position of the upper cutter position pressing block and the pressing block connecting plate.

6. The battery processing apparatus according to any one of claims 2 to 5, wherein a waste outlet is provided in the base, the waste outlet being disposed opposite the cutting mechanism for passing cut waste of the battery therethrough.

7. The battery processing apparatus according to claim 2, wherein the cutting mechanism further comprises a cutting auxiliary assembly, the cutting auxiliary assembly comprises an auxiliary fixing seat mounted on the base, a slide rail mounted on the auxiliary fixing seat, and a slide block slidably disposed on the slide rail, the slide block is connected with the upper fixing seat and disposed away from the upper cutter; the mounting direction of the slide rail is the same as the telescopic direction of the output shaft of the cutting driving component.

8. The battery processing apparatus of claim 1, further comprising a shaping mechanism mounted on the base, the shaping mechanism comprising an upper platen, a lower platen disposed opposite the upper platen, an upper platen connector, a shaping drive assembly, and a shaping insulator assembly; the lower flat pressing piece is arranged on the upper surface of the base, and the upper flat pressing connecting piece is connected with the shaping driving component; the upper flat pressing piece is mounted on the upper flat pressing piece, and the shaping insulating assembly is used for insulating the upper flat pressing piece from the shaping driving assembly and insulating the lower flat pressing piece from the base.

9. The battery processing apparatus of claim 8, wherein the shaping insulator assembly comprises a first shaping insulator and a second shaping insulator; the first shaping insulator is arranged at the joint between the upper flat pressing connecting piece and the shaping driving component; the second reshaping insulation member is installed between the lower flat pressing member and the base.

10. The battery processing apparatus of claim 8, wherein the reforming mechanism further comprises a reforming guide assembly; the shaping guide assembly comprises a guide rod and an upper flat pressing connecting piece which can vertically move along the guide rod, and the upper flat pressing connecting piece is connected with an output shaft of the shaping driving assembly.

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