Search

CN-224223391-U - Multiple sedimentation separation diversion trench structure of reciprocating chip removal device

CN224223391UCN 224223391 UCN224223391 UCN 224223391UCN-224223391-U

Abstract

The utility model discloses a multiple sedimentation separation diversion trench structure of a reciprocating chip removal device, and belongs to the technical field of machining chip removal. The utility model discloses a multiple sedimentation separation diversion trench structure of a reciprocating chip removal device, which comprises a shell and chip removal chain plates arranged in the shell, wherein the shell comprises a chip removal box and a storage box arranged on one side of the chip removal box, a chip removal assembly used for discharging chips from the chip removal box is arranged in the chip removal box, the chip removal assembly comprises a lifting assembly used for lifting the chips at the bottom of the chip removal box to the surface of the chip removal chain plates, and a degreasing assembly used for removing floating oil on the surface of a cutting fluid is arranged in the storage box.

Inventors

  • CHEN YAKUN
  • XIE XIAOLIN
  • ZHAO HE
  • ZHENG YINGGANG
  • LIANG JUN
  • YOU WENJIE

Assignees

  • 吉凯斯(洛阳)智能装备有限公司

Dates

Publication Date
20260512
Application Date
20250617

Claims (8)

  1. 1. The reciprocating chip removal device multiple sedimentation separation guide groove structure is characterized by comprising a shell (1) and chip removal chain plates (2) arranged in the shell (1), wherein the shell (1) comprises a chip removal box (101) and a storage box (102) arranged on one side of the chip removal box (101), chip removal components used for discharging chips from the inside of the chip removal box (101) are arranged in the chip removal box (101), each chip removal component comprises a lifting component (4) used for lifting the chips at the bottom of the chip removal box (101) to the surface of the chip removal chain plate (2), and oil removal components (7) used for removing floating oil on the surface of cutting fluid are arranged in the storage box (102).
  2. 2. The multiple sedimentation separation channel structure of a reciprocating chip removal device according to claim 1, characterized in that the chip removal assembly further comprises a ramp (3) for depositing chips to the bottom of the lifting assembly (4), said ramp (3) being located at the bottom of the chip removal tank (101).
  3. 3. The multiple sedimentation separation guide groove structure of the reciprocating type chip removal device according to claim 1, wherein the lifting assembly (4) comprises a pipe body (401) fixed at one end of the chip removal box (101) far away from the storage box (102) and a spiral lifting plate (402) rotating inside the pipe body (401), an opening for enabling chips to enter the pipe body (401) is formed in the bottom of the pipe body (401), and two guide plates (403) for guiding the chips to the opening position are symmetrically fixed at the bottom of the pipe body (401).
  4. 4. The multiple sedimentation separation guide groove structure of the reciprocating type chip removal device according to claim 1, wherein a plurality of groups of swinging assemblies (5) are arranged at the bottom of the chip removal box (101) in an array mode, the plurality of groups of swinging assemblies (5) are located at positions, close to the lifting assemblies (4), of the chip removal box (101), each swinging assembly (5) comprises a shifting plate (501) rotating inside the chip removal box (101) and a shifting block (502) fixed at the upper end of the shifting plate (501), the shifting plate (501) is U-shaped, the lower end of the shifting plate (501) is intermittent with the bottom of the chip removal box (101), and the shifting blocks (502) are abutted to the lower surface of the chip removal chain plate (2).
  5. 5. The multiple sedimentation separation guide groove structure of the reciprocating type chip removal device according to claim 1, wherein a communication port (6) is formed in one side, close to the storage tank (102), of the chip removal tank (101), the chip removal tank (101) is communicated with the storage tank (102) through the communication port (6), and the bottommost height of the communication port (6) is higher than the bottom of the chip removal tank (101).
  6. 6. The multiple sedimentation separation guide groove structure of the reciprocating chip removal device according to claim 1, characterized in that the oil removal assembly (7) comprises a filter tank (701) arranged inside the storage tank (102) and an oil storage tank (703) for storing floating oil, wherein the oil storage tank (703) is communicated with the bottom of the filter tank (701) through a hose (702).
  7. 7. The multiple sedimentation separation guide groove structure of the reciprocating chip removal device according to claim 6, wherein the bottom of the oil filtering tank (701) is provided with an inclined plane which facilitates the floating oil to enter the oil filtering tank (701), and the height of the oil filtering tank (701) is level with the height of the cutting fluid.
  8. 8. The multiple sedimentation separation guide groove structure of the reciprocating chip removal device according to claim 7, wherein two guide rods (704) are fixed on the inner side of the storage tank (102), the two guide rods (704) are respectively located on two sides of the communication port (6), sliding blocks (705) are respectively slid on the surfaces of the two guide rods (704), the oil filtering tank (701) is fixed on the surfaces of the two sliding blocks (705), and an air bag (706) is fixed on one side, far away from the communication port (6), of the oil filtering tank (701).

Description

Multiple sedimentation separation diversion trench structure of reciprocating chip removal device Technical Field The utility model relates to the technical field of machining chip removal, in particular to a multiple sedimentation separation diversion trench structure of a reciprocating chip removal device. Background In the machine tool machining process, semi-finished product machining such as turning, milling, grinding, boring and the like is performed, scrap iron is generated in the process, metal scraps and cutting fluid are output to a chip removing machine (such as a scraper chip removing machine) through a machine tool liquid outlet, and the metal scraps are generated in the working process of the metal machine tool through the chip removing machine, so that the scraps are separated from the cutting fluid. When the conventional reciprocating chip removal device is used, the chips and the cutting fluid are separated through the chain plates, the chips are discharged through the chain plates, the cutting fluid flows into the storage tank for recycling, however, small chips are easy to generate during machining, especially in the finish machining process, the small chips easily flow into the storage tank along with the cutting fluid, the recycling of the cutting fluid is affected when excessive accumulation occurs, floating oil is easy to form on the surface of the cutting fluid in the long-time use process, the service life of the cutting fluid is affected, and the conventional reciprocating chip removal device is inconvenient to remove the floating oil in the recycling process. Disclosure of utility model The utility model aims to solve the problems of inconvenient cleaning of scraps and inconvenient cleaning of floating oil in the prior art, and provides a multiple sedimentation separation diversion trench structure of a reciprocating chip removal device. In order to achieve the above purpose, the present utility model adopts the following technical scheme: The reciprocating chip removal device comprises a shell and chip removal chain plates arranged in the shell, wherein the shell comprises a chip removal box and a storage box arranged on one side of the chip removal box, chip removal components used for discharging chips from the chip removal box are arranged in the chip removal box, the chip removal components comprise lifting components used for lifting the chips at the bottom of the chip removal box to the surfaces of the chip removal chain plates, and oil removal components used for removing floating oil on the surfaces of cutting fluids are arranged in the storage box. In some embodiments, the junk assembly further comprises a ramp for depositing chips to the bottom of the lifting assembly, the ramp being located at the bottom of the junk bin. In some embodiments, the lifting assembly comprises a tube body fixed at one end of the chip removal box far away from the storage box and a spiral lifting plate rotating inside the tube body, an opening for enabling chips to enter the tube body is formed in the bottom of the tube body, and two guide plates for guiding the chips to the opening position are symmetrically fixed at the bottom of the tube body. In some embodiments, the chip removal case bottom array is provided with multiunit and sways the subassembly, multiunit sways the subassembly all is located the chip removal case and is close to the position that promotes the subassembly, sways the subassembly and includes rotating the plectrum in the chip removal incasement portion and fix the plectrum in the plectrum upper end, the plectrum is the U-shaped, the plectrum lower extreme keeps intermittent type with the chip removal case bottom, the plectrum is contradicted at chip removal link joint lower surface. In some embodiments, a communication port is formed in one side, close to the storage tank, of the chip removal tank, the communication port communicates the chip removal tank with the storage tank, and the bottommost height of the communication port is higher than the bottom of the chip removal tank. In some embodiments, the oil removal assembly includes a filter tank disposed inside the storage tank and a reservoir for storing the floating oil, the reservoir being in communication with the bottom of the filter tank via a hose. In some embodiments, the bottom of the oil filter tank is provided with a slope which facilitates the entry of floating oil into the oil filter tank, and the height of the oil filter tank is equal to the height of the cutting fluid. In some embodiments, two guide rods are fixed on the inner side of the storage box, the two guide rods are respectively located on two sides of the communication port, the two guide rod surfaces are respectively provided with sliding blocks in a sliding mode, the oil filtering box is fixed on the surfaces of the two sliding blocks, and an air bag is fixed on one side, away from the communication port, of the oil filtering box. Compared w