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CN-224227264-U - Batch electroplating device for electroplating grinding wheels

CN224227264UCN 224227264 UCN224227264 UCN 224227264UCN-224227264-U

Abstract

A batch electroplating device for electroplated grinding wheels comprises a mandrel, at least two isolating rings are arranged on the mandrel, an electroplated grinding wheel matrix is arranged between every two adjacent isolating rings, a left gland and a right gland are respectively arranged on two sides of the electroplated grinding wheel matrix, a drain screen is arranged on the outer side of the circumference of the electroplated grinding wheel matrix, the left side and the right side of the drain screen are respectively matched with the left gland and the right gland, inner holes are respectively arranged in the isolating rings, the electroplated grinding wheel matrix, the left gland and the right gland, and the outer diameter of the mandrel is matched with the diameters of the inner holes of the left gland, the right gland, the isolating rings and the electroplated grinding wheel matrix. The electroplating grinding wheel processed by adopting the technical scheme has the advantages that the processing efficiency is obviously improved, and through experimental detection, the technical parameter index meets the requirements and has good performance.

Inventors

  • ZHAO HUADONG
  • YUAN XUYAO
  • WANG HUAXING
  • ZHANG YATING
  • CHEN BINCHAO

Assignees

  • 郑州郑大智能科技股份有限公司

Dates

Publication Date
20260512
Application Date
20250613

Claims (10)

  1. 1. A batch electroplating device for electroplating grinding wheels is characterized by comprising a mandrel (7), wherein at least two isolating rings are arranged on the mandrel (7), an electroplating grinding wheel matrix is arranged between every two adjacent isolating rings, a left gland (4) and a right gland (3) are respectively arranged on two sides of the electroplating grinding wheel matrix, a leakage net (5) is arranged on the outer side of the circumference of the electroplating grinding wheel matrix, the left side and the right side of the leakage net (5) are respectively matched with the left gland (4) and the right gland (3), inner holes are respectively arranged in the isolating rings, the electroplating grinding wheel matrix, the left gland (4) and the right gland (3), and the outer diameter of the mandrel (7) is matched with the diameters of the left gland, the right gland, the isolating rings and the inner holes of the electroplating grinding wheel matrix.
  2. 2. The batch electroplating device for the electroplated grinding wheel, which is disclosed in claim 1, is characterized in that protrusions (17) are arranged on the left side and the right side of the isolating ring, the protrusions (17) are arranged along the circumferential direction, and grooves are formed in the electroplated grinding wheel substrate and matched with the protrusions (17).
  3. 3. A batch electroplating device for electroplated grinding wheels according to claim 1, wherein bosses (18) are arranged at the bottoms of all electroplated grinding wheel matrixes, and the bosses (18) are matched with left and right connected gland covers or isolating rings.
  4. 4. A batch electroplating device for electroplated grinding wheels according to claim 1, 2 or 3, characterized in that four isolating rings, namely a first isolating ring (13), a second isolating ring (14), a third isolating ring (15) and a fourth isolating ring (16), are arranged on a mandrel (7), a left gland (4) is arranged on the left side of the first isolating ring (13), a right gland (3) is arranged on the right side of the fourth isolating ring (16), a first electroplated grinding wheel matrix (8) is arranged between the first isolating ring (13) and the left gland (4), a second electroplated grinding wheel matrix (9) is arranged between the first isolating ring (13) and the second isolating ring (14), a third electroplated grinding wheel matrix (10) is arranged between the second isolating ring (14) and the third isolating ring (15), a fourth electroplated grinding wheel matrix (11) is arranged between the third isolating ring (15) and the fourth isolating ring (16), and a fifth electroplated grinding wheel matrix (12) is arranged between the fourth isolating ring (16) and the right gland (3).
  5. 5. The batch electroplating device for electroplating grinding wheels, which is characterized in that the left end cover (1) and the right end cover (2) are respectively arranged at the two ends of the mandrel (7), threads are arranged at the two ends of the mandrel (7), and the left end cover (1) and the right end cover (2) are connected to the mandrel (7) through threads.
  6. 6. A batch electroplating device for electroplating grinding wheels according to claim 1, wherein the leakage net (5) comprises two semicircular leakage nets, the two semicircular leakage nets are surrounded to form a circular leakage net, and a locking buckle (19) is arranged between the two semicircular leakage nets.
  7. 7. A batch electroplating device for electroplating grinding wheels according to claim 1, wherein a plurality of small through holes (6) are formed in the circumference of the screen (5).
  8. 8. The batch electroplating device for electroplating grinding wheels, which is characterized in that the left end cover (1), the right end cover (2), the left gland (4) and the right gland (3) are made of PVC hard materials.
  9. 9. A batch electroplating device for electroplating grinding wheels according to claim 1, wherein the isolating ring and the mandrel (7) are made of H62 material.
  10. 10. The batch electroplating device for electroplating grinding wheels according to claim 1, wherein the material of the leakage net (5) is PP.

Description

Batch electroplating device for electroplating grinding wheels Technical Field The utility model relates to the field of electroplated grinding wheel processing, in particular to a tool for a grinding wheel, which is made of an abrasive material and a metal material through electrochemical reaction, of a groove grinding wheel. Background The electroplated grinding wheel has the advantages that the surface of the electroplated grinding wheel is smoother, abrasion-resistant and difficult to drop due to the fact that the abrasive particles are fixedly arranged on the working molded surface of the grinding wheel matrix in an electroplating mode, and the electroplated grinding wheel has the advantages of being simple in manufacturing process, high in grinding precision, long in service life, convenient to apply, cost-saving and capable of fully playing the characteristics of the abrasive particles in high-speed and high-efficiency grinding. Disclosure of utility model The utility model aims to solve the technical problems that the existing grinding wheel electroplating device has low efficiency and inconvenient operation, and adopts a method and a device capable of electroplating grinding wheels in batches. In order to solve the problems, the utility model is realized by the following technical scheme: A batch electroplating device for electroplated grinding wheels comprises a mandrel, at least two isolating rings are arranged on the mandrel, an electroplated grinding wheel matrix is arranged between every two adjacent isolating rings, a left gland and a right gland are respectively arranged on two sides of the electroplated grinding wheel matrix, a drain screen is arranged on the outer side of the circumference of the electroplated grinding wheel matrix, the left side and the right side of the drain screen are respectively matched with the left gland and the right gland, inner holes are respectively arranged in the isolating rings, the electroplated grinding wheel matrix, the left gland and the right gland, and the outer diameter of the mandrel is matched with the diameters of the inner holes of the left gland, the right gland, the isolating rings and the electroplated grinding wheel matrix. Protrusions are arranged on the left side and the right side of the isolating ring and are arranged along the circumferential direction, and grooves are arranged on the electroplating grinding wheel base body and matched with the protrusions. The bottoms of all the electroplating grinding wheel matrixes are provided with bosses which are matched with the left and right gland or the isolating ring which are connected. The mandrel is provided with four isolating rings, namely a first isolating ring, a second isolating ring, a third isolating ring and a fourth isolating ring, wherein a left gland is arranged on the left side of the first isolating ring, a right gland is arranged on the right side of the fourth isolating ring, a first electroplating grinding wheel matrix is arranged between the first isolating ring and the left gland, a second electroplating grinding wheel matrix is arranged between the first isolating ring and the second isolating ring, a third electroplating grinding wheel matrix is arranged between the second isolating ring and the third isolating ring, a fourth electroplating grinding wheel matrix is arranged between the third isolating ring and the fourth isolating ring, and a fifth electroplating grinding wheel matrix is arranged between the fourth isolating ring and the right gland. The two ends of the mandrel are respectively provided with a left end cover and a right end cover, the two ends of the mandrel are provided with threads, and the left end cover and the right end cover are in threaded connection with the mandrel. The leakage net comprises two semicircular leakage nets, the two semicircular leakage nets are surrounded to form a circular ring-shaped leakage net, and a locking buckle is arranged between the two semicircular leakage nets. The circumference of the leakage net is provided with a plurality of leakage nets and small through holes of the leakage net. The left end cover, the right end cover, the left gland and the right gland are made of PVC hard materials. The isolating ring and the mandrel are made of H62 material. The material of the drain net is PP material. Compared with the prior art, the electroplating grinding wheel processed by adopting the technical scheme has the advantages that the processing efficiency is obviously improved, and through experimental detection, the technical parameter index meets the requirements and has good performance. Drawings FIG. 1 is a schematic perspective view of the present utility model; fig. 2 is a schematic view of a three-dimensional semi-sectional structure of the present utility model. Detailed Description The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accomp