CN210551691U - Adjusting and quantifying mechanism for upper tool rest for slitting of pole piece of power battery - Google Patents

Abstract

The utility model discloses a power battery pole piece cuts top rest adjustment quantization mechanism, including lower knife rest mechanism, top rest mechanism, electron sword mechanism and amesdial fine-tuning, but top rest mechanism includes lateral shifting's planer-type workstation, electron sword mechanism and passes through linear guide fixed mounting on the workstation, electron sword mechanism passes through the position that accurate parts such as cylinder, rack and pinion, differential head removed, realizes the quantization data of top rest during operation. Compared with the prior art, the utility model the advantage lie in: the problem of relying on manual experience in the industry is solved, and labor cost is saved.

Description

Adjusting and quantifying mechanism for upper tool rest for slitting of pole piece of power battery

Technical Field

The utility model relates to a cutting machine technical field specifically indicates a power battery pole piece cuts top rest adjustment quantization machanism.

Background

The pole piece slitting of the power lithium ion battery is the most critical process in the production process of the power battery, and particularly, the pole piece slitting is influenced by the chemical components of a material coating, the thickness of a foil and other factors, so that a defective product is generated in the production process. Particularly, the optimal cutting state of the upper and lower cutters needs to be determined by manual experience when the positions of the upper and lower cutters are adjusted. Has the defects of long adjusting time and much waste of materials.

The technique of cutting is essential process in the lithium cell trade production process, also is the key process of each item performance such as direct influence battery quality, output, based on this, the utility model designs a be used for full-automatic power battery to cut sword adjustment quantization machanism to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming above technical defect, providing a power battery pole piece cuts top rest adjustment quantization machanism, improves artifical work efficiency, practices thrift raw and other materials.

In order to solve the technical problem, the utility model provides a technical scheme does: the utility model provides a power battery pole piece cuts top rest adjustment quantization machanism, includes lower tool rest mechanism, electron knife mechanism, top rest mechanism and micrometer fine-tuning, be provided with driver plate and right branch frame in the lower tool rest mechanism, lower tool rest mechanism passes through outside power drive driver plate and lower tool shaft subassembly, driver plate and lower tool shaft subassembly rotate through outside power, form independent power drive, workstation left branch fagging, workstation right branch fagging are connected in right branch frame, left branch fagging and the top rest mechanism, top rest mechanism includes workstation bottom plate, linear guide, rack and magnetic grid chi system, linear guide and rack are arranged from top to bottom and are installed on the workstation bottom plate, gear assembly pivot, slider combination manual transmission in linear guide, rack and the electron knife mechanism, including top knife shaft subassembly, protection dust absorption subassembly, electron knife mechanism, Fine setting subassembly, accurate differential head horizontal runout fine setting subassembly, accurate differential head upper and lower runout fine setting subassembly, adjustable cylinder and accurate guide rail around the forked tail, adjustable cylinder, sensor, gear shaft subassembly are installed on the cylinder connecting plate, the flexible end at adjustable cylinder is installed to accurate guide rail, upper and lower slider cross the cab apron, the lateral wall at the slider fixed plate is installed to accurate guide rail, go up arbor subassembly, protection dust absorption subassembly, servo motor cutter subassembly and protection dust absorption subassembly and install on last arbor subassembly, servo motor cutter subassembly and the synchronous belt drive for last arbor subassembly, amesdial fine setting mechanism includes amesdial, accurate ball, lead screw adjustment handle, guide rail locking screw and guide rail latch segment, accurate ball's flexible displacement transmits for the amesdial.

Compared with the prior art, the utility model the advantage lie in: the utility model provides a when the position of arbor about adjusting, need rely on artificial experience to confirm the best state that the upper and lower sword was cut, effectual improvement manual work efficiency practices thrift raw and other materials for customer's producer.

As a refinement, the sensor is a precision touch sensor.

As an improvement, the sensor is adjusted in position on the precision guide rail through a handle.

As an improvement, the magnetic grid ruler system transmits data signals fed back by the gear rotating shaft assembly and the rack through manual transverse movement to a display to display accurate position data.

As an improvement, one side of the lower cutter shaft assembly is provided with a transmission dial, and the lower cutter shaft assembly is driven by the transmission dial.

Drawings

Fig. 1 is the utility model discloses a power battery pole piece cuts upper slitter frame adjustment quantization machanism's schematic structure diagram.

Fig. 2 is the utility model discloses a power battery pole piece cuts lower tool rest mechanism structure sketch map of top rest adjustment quantization mechanism.

Fig. 3 is the structural schematic diagram of the electronic knife mechanism of the upper knife rest adjustment and quantization mechanism for slitting the pole pieces of the power battery.

Fig. 4 is the utility model discloses a power battery pole piece cuts top rest adjustment quantization machine's top rest mechanism structure sketch map.

Fig. 5 is the utility model discloses a micrometer fine-tuning structure of power battery pole piece cuts knife rest adjustment quantization mechanism's amesdial schematic diagram.

As shown in the figure 1, an upper tool rest mechanism, 101, a component bottom plate component, 102, a lower tool shaft component, 103, a tool rest adjusting guide roller component, 104, a drive plate, 105, a right support frame, 106, a left support frame, 2, an electronic tool mechanism, 201, an upper tool shaft component, 202, a protective dust collection component, 203, a dovetail front and back fine adjustment component, 204, a precise differential head left and right deflection fine adjustment component, 205, a precise differential head upper and lower deflection fine adjustment component, 206, a cylinder connecting plate, 207, an adjustable cylinder, 208, a precise guide rail, 209, a servo motor, 210, a sensor, 211, a sliding block, 212, an upper and lower sliding block transition plate, 213, a gear rotating shaft component, 214, a sliding block fixing plate, 3, an upper tool rest mechanism, 301, a workbench bottom plate component, 302, a linear guide rail, 303, a rack, 304, a magnetic grid ruler system, 305, a workbench right support plate, 306, a workbench left support plate, 4 and, 401. the device comprises a dial indicator 402, a precision ball screw 403, a screw rod adjusting handle 404, a guide rail locking screw 405 and a guide rail locking block.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The utility model provides a power battery pole piece cuts top rest adjustment quantization mechanism, includes lower tool rest mechanism 1, electron knife mechanism 2, top rest mechanism 3 and amesdial fine-tuning 4, be provided with driver plate 104 and right support frame 105 in the lower tool rest mechanism 1, lower tool rest mechanism 1 passes through outside power drive driver plate 104 and lower tool shaft subassembly 102, driver plate 104 and lower tool shaft subassembly 102 rotate through outside power, form independent power drive, workstation left support plate 305, workstation right branch fagging 306 are connected in right support frame 105, left support frame 106 and the top rest mechanism 3, top rest mechanism 3 includes workstation bottom plate 301, linear guide 302, rack 303 and magnetic grid ruler system 304, linear guide 302 and rack 303 arrange from top to bottom and install on workstation bottom plate 301, linear guide 302, rack 303 and gear spindle subassembly 213 in the electron knife mechanism 2, The sliding block 211 is combined for manual transmission, the electronic knife mechanism 2 comprises an upper knife shaft assembly 201, a protective dust suction assembly 202, a dovetail front-back fine adjustment assembly 203, a precise differential head left-right deflection fine adjustment assembly 204, a precise differential head upper-lower deflection fine adjustment assembly 205, an adjustable air cylinder 207 and a precise guide rail 208, the adjustable air cylinder 207, a sensor 210 and a gear rotating shaft assembly 213 are installed on an air cylinder connecting plate 206, the precise guide rail 208, an upper sliding block transition plate and a lower sliding block transition plate 212 are installed at the telescopic end of the adjustable air cylinder 207, the precise guide rail 208 is installed on the side wall of a sliding block fixing plate 214, the upper knife shaft assembly 201, the protective dust suction assembly 202, a servo motor cutter assembly 209 and the protective dust suction assembly 202 are installed on the upper knife shaft assembly 201, the servo motor cutter assembly 209 and the upper knife shaft assembly 201 are driven by synchronous belts, and the dial gauge fine adjustment mechanism, A screw rod adjusting handle 403, a guide rail locking screw 404 and a guide rail locking block 405, wherein the telescopic displacement of the precision ball screw 402 is transmitted to the dial indicator 401.

The sensor 210 is a precision touch sensor.

The sensor 210 is position adjusted on the precision rail 208 by a handle.

The magnetic scale system 304 is transmitted to a display to display accurate position data through a data signal fed back by manually and transversely moving the gear rotating shaft assembly 213 and the rack 303.

A drive dial 104 is mounted on one side of the lower spindle assembly 102, and the lower spindle assembly 102 is driven by the drive dial 104.

The utility model discloses when concrete implementation, the material contains the material with the cylinder tube-shape and the mode that the coil stock section of thick bamboo passes through the physiosis is fixed on unwinding mechanism, through driving roller mechanism, it cuts to get into branch cutter mechanism, the in-process of cutting is according to the material condition of difference, adjust adjustable cylinder 207 in the electron sword mechanism, the blade depth of eating that cuts the bottom knife is cut into in the regulation, adjust 204 accurate differential head horizontal deflection mechanism, adjust the left and right side longitudinal angle of controlling that the blade cut into, adjust 205 the angle that the blade transverse cross-section was cut into to the top and bottom deflection fine setting subassembly of accurate differential head, the adjustable flat offset to the bottom knife central point of fine setting subassembly around the adjustment 203 forked tail.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (5)

1. The utility model provides a power battery pole piece cuts top rest adjustment quantization mechanism which characterized in that: the automatic numerical control milling machine comprises a lower tool rest mechanism (1), an electronic tool rest mechanism (2), an upper tool rest mechanism (3) and a micrometer fine adjustment mechanism (4), wherein a drive plate (104) and a right support frame (105) are arranged in the lower tool rest mechanism (1), the lower tool rest mechanism (1) drives the drive plate (104) and a lower tool shaft assembly (102) through external power, the drive plate (104) and the lower tool shaft assembly (102) rotate through the external power to form independent power drive, the right support frame (105) and the left support frame (106) are connected with a left workbench support plate (305) and a right workbench support plate (306) in the upper tool rest mechanism (3), the upper tool rest mechanism (3) comprises a workbench bottom plate (301), a linear guide rail (302), a rack (303) and a magnetic grid ruler system (304), the linear guide rail (302) and the rack (303) are vertically arranged on the workbench bottom plate (301), linear guide rail (302), rack (303) and electronic sword mechanism (2) in gear pivot subassembly (213), slider (211) combination manual transmission, including last arbor subassembly (201), protection dust absorption subassembly (202), forked tail front and back fine setting subassembly (203), accurate minute head side to side beat fine setting subassembly (204), accurate minute head top and bottom beat fine setting subassembly (205), adjustable cylinder (207) and accurate guide rail (208) in electronic sword mechanism (2), adjustable cylinder (207), sensor (210), gear pivot subassembly (213) are installed on cylinder connecting plate (206), the flexible end at adjustable cylinder (207) is installed in accurate guide rail (208), upper and lower slider transition plate (212), the lateral wall at slider fixed plate (214) is installed in accurate guide rail (208), go up arbor subassembly (201), protection dust absorption subassembly (202), Servo motor cutter unit (209) and protection dust absorption subassembly (202) are installed on last arbor subassembly (201), synchronous belt drive is used in servo motor cutter unit (209) and last arbor subassembly (201), amesdial fine-tuning (4) are including amesdial (401), accurate ball (402), lead screw adjustment handle (403), guide rail locking screw (404) and guide rail latch segment (405), the flexible displacement of accurate ball (402) transmits for amesdial (401).

2. The adjusting and quantifying mechanism for the upper cutter frame of the slitting machine of the pole piece of the power battery according to claim 1, characterized in that: the sensor (210) is a precision contact sensor.

3. The adjusting and quantifying mechanism for the upper cutter frame of the slitting machine of the pole piece of the power battery according to claim 1, characterized in that: the sensor (210) is position-adjusted on the precision rail (208) by means of a handle.

4. The adjusting and quantifying mechanism for the upper cutter frame of the slitting machine of the pole piece of the power battery according to claim 1, characterized in that: the magnetic grid ruler system (304) is transmitted to a display to display accurate position data through a data signal fed back by manually and transversely moving the gear rotating shaft assembly (213) and the rack (303).

5. The adjusting and quantifying mechanism for the upper cutter frame of the slitting machine of the pole piece of the power battery according to claim 1, characterized in that: and a transmission dial plate (104) is arranged on one side of the lower cutter shaft assembly (102), and the lower cutter shaft assembly (102) is driven by the transmission dial plate (104).

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