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CN-224211939-U - Inner fin turntable structure of battery cooler lamination machine

CN224211939UCN 224211939 UCN224211939 UCN 224211939UCN-224211939-U

Abstract

The utility model discloses an inner fin turntable structure of a battery cooler lamination machine, which comprises an equipment frame, wherein a SCARA robot is arranged at the upper part of the equipment frame, a vacuum conveyor is arranged at the output end of the SCARA robot, an inner fin sucker is arranged at the lower part of the vacuum conveyor, a material slideway is arranged on the side surface of the equipment frame, a left servo device and a right servo device are arranged at the bottom of the equipment frame, bearing seats are arranged at the output ends of the left servo device and the right servo device, and a coupling is arranged on the side surface of each bearing seat. The inner fin turntable structure of the battery cooler lamination machine realizes efficient and accurate lamination of the inner fins through accurate mechanical design and automatic control technology, improves the production efficiency, reduces the labor cost and meets the diversified demands of battery cooler production.

Inventors

  • WANG JUN
  • HOU ZONGXIAN
  • Li Xiongcan

Assignees

  • 上海蜀马技术有限公司

Dates

Publication Date
20260508
Application Date
20250620

Claims (6)

  1. 1. The utility model provides an inner fin carousel structure of battery cooler lamination machine, including equipment frame (1), the upper portion of equipment frame (1) is provided with SCARA robot (2) and the output of SCARA robot (2) is provided with vacuum conveyor (4), the lower part of vacuum conveyor (4) is provided with inner fin sucking disc (9), the side of equipment frame (1) is provided with material slide (17), the bottom of equipment frame (1) is provided with left servo (6) and right servo (5), the output of left servo (6) and right servo (5) all is provided with bearing frame (20) and the side of bearing frame (20) is provided with shaft coupling (22), the corresponding position of equipment frame (1) is provided with fixed mounting's supporting seat (21), be provided with lead screw (19) between shaft coupling (22) and supporting seat (21), the surface of lead screw (19) is provided with lifter plate (23) and lifter plate (23) is provided with rotatory carousel (13), the lower part (3) and the cam of cam (3) are cut apart and are connected with the cam (13), the utility model discloses a die-casting machine, including equipment frame (1), including screw rod (19), rotatory carousel (13), frock bottom plate (14), frock bottom plate (15) are provided with optical axis (24) and optical axis (24) run through between lifter plate (23) and equipment frame (1), the surface of rotatory carousel (13) is provided with frock bottom plate (14), the side of frock bottom plate (14) is provided with symmetrical cylinder (16) and the output of symmetrical cylinder (16) is provided with quick clamp (10), the surface of frock bottom plate is provided with imitative fin backing plate (18), the surface of imitative fin backing plate (18) is provided with the feed bin, the power take off end of both sides lifter cylinder (7) and lifter cylinder (7) of equipment frame (1) is provided with the notch that changes type bottom plate (15) inside be provided with imitative fin backing plate (18) mutual matching.
  2. 2. The inner fin turntable structure of a battery cooler lamination machine according to claim 1, wherein six groups of tool bottom plates (14) are arranged and distributed at equal intervals circumferentially.
  3. 3. The structure of claim 1, wherein the slots in the bottom plate (15) are two groups of slots corresponding to the two groups of bins.
  4. 4. The inner fin turntable structure of a battery cooler lamination machine according to claim 1, wherein a junction box (11) is arranged on the side surface of the equipment frame (1), and the junction box (11) is fixedly connected with the equipment frame (1) through bolts.
  5. 5. The inner fin turntable structure of a battery cooler lamination machine according to claim 1, wherein an industrial personal computer (12) is arranged on the side face of the equipment frame (1), and the industrial personal computer (12) is electrically connected with a junction box (11) through a wire.
  6. 6. The inner fin turntable structure of a battery cooler lamination machine according to claim 1, wherein a sensor bracket (8) is arranged at the lower part of the rotary turntable (13), and a sensor is arranged in the sensor bracket (8), and the sensor and the bin correspond to each other.

Description

Inner fin turntable structure of battery cooler lamination machine Technical Field The utility model relates to the technical field of battery cooler lamination machines, in particular to an inner fin turntable structure of a battery cooler lamination machine. Background The battery cooler lamination machine integrates two functions of cooling and lamination, and aims to improve the efficiency and quality of battery production. In the battery manufacturing process, the cooler is responsible for reducing the temperature of the battery to ensure the stability and performance of the battery in the subsequent process, and the lamination machine is responsible for precisely superposing the positive and negative plates of the battery together to form the core part of the battery. The inner fin mounting mechanism of the battery cooler lamination machine cannot adapt to the lamination requirements of different products. Therefore, a new solution is needed. Disclosure of utility model The utility model aims to provide an inner fin turntable structure of a battery cooler lamination machine, which solves the problem that an inner fin mounting mechanism of the battery cooler lamination machine cannot adapt to the lamination requirements of different products. The inner fin turntable structure of the battery cooler lamination machine comprises an equipment frame, wherein a SCARA robot is arranged on the upper portion of the equipment frame, a vacuum conveyer is arranged at the output end of the SCARA robot, an inner fin sucker is arranged on the lower portion of the vacuum conveyer, a material slideway is arranged on the side face of the equipment frame, a left servo device and a right servo device are arranged at the bottom of the equipment frame, a shaft coupling is arranged on the side faces of bearing seats and bearing seats of the left servo device and the right servo device, a supporting seat which is fixedly installed is arranged at the corresponding position of the equipment frame, a screw rod is arranged between the shaft coupling and the supporting seat, a lifting plate is arranged on the surface of the screw rod, a rotary turntable is arranged on the surface of the lifting plate, a cam divider is arranged between the output end of the cam divider and the rotary turntable, optical axes penetrate through the lifting plate and are fixedly connected with the equipment frame, a bottom plate tool is arranged on the surface of the rotary turntable, a fin profile of the bottom plate is arranged on the side face of the bottom plate tool, a symmetrical fin profile of the bottom plate is arranged on the side face of the bottom plate tool, a profile fin profile of the bottom plate is arranged on the bottom plate of the cylinder profile of the profile clamp, and the profile fin profile of the bottom plate is arranged on the surface of the profile fin profile bottom plate. As a preferred implementation mode of the utility model, the tool bottom plate is provided with six groups and is distributed at equal intervals circumferentially. As a preferable implementation mode of the utility model, the notches arranged in the bottom plate are two groups of bins which are respectively corresponding to the two groups of bins. As a preferred embodiment of the utility model, a junction box is arranged on the side face of the equipment frame and is fixedly connected with the equipment frame through bolts. As a preferred embodiment of the present utility model, an industrial personal computer is disposed on a side of the equipment frame, and the industrial personal computer is electrically connected with the junction box through a wire. As a preferred embodiment of the utility model, a sensor bracket is arranged at the lower part of the rotary turntable, and a sensor is arranged in the sensor bracket, and the sensor and the bin correspond to each other. Compared with the prior art, the utility model has the following beneficial effects: The utility model is provided with a SCARA robot at the upper part of a frame of equipment, a vacuum conveyer at the output end of the SCARA robot, an inner fin sucker at the lower part of the vacuum conveyer, a left servo device and a right servo device at the bottom of the frame of equipment, bearing seats at the output ends of the left servo device and the right servo device, a coupler at the side of the bearing seats, a support seat fixedly arranged at the corresponding position of the frame of equipment, a screw rod between the coupler and the support seat, a lifting plate at the surface of the screw rod, a rotary turntable at the surface of the lifting plate, a cam divider at the lower part of the lifting plate, and a connection between the output end of the cam divider and the rotary turntable, the surface at the carousel of rotating is provided with a plurality of groups frock bottom plates and is circumference equidistant distribution, be provided with symmetrical cylinder and symmetrical cylind