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CN-224199522-U - Conveying mechanism of electroplating equipment and electroplating equipment

CN224199522UCN 224199522 UCN224199522 UCN 224199522UCN-224199522-U

Abstract

The utility model relates to the technical field of electroplating, and discloses a conveying mechanism of electroplating equipment and the electroplating equipment. The conveying mechanism comprises a shell, a conveying device, a water retaining assembly and a suction cutter assembly, wherein the shell is provided with a first material port, a conveying channel and a second material port which are sequentially communicated, the second material port is adjacent to and communicated with an electroplating bath of electroplating equipment, the conveying device is arranged in the conveying channel and used for conveying materials from the first material port to the second material port, a water retaining assembly is arranged between the conveying device and the second material port, a passing gap for the materials to pass through is defined in the water retaining assembly, the suction cutter assembly comprises a pump body, a liquid suction pipeline and a suction cutter body, and the suction cutter body is arranged between the conveying device and the second material port and is adjacent to the water retaining assembly, and the suction cutter body is communicated with the passing gap. The utility model solves the defects of the existing electroplating equipment conveying mechanism in the aspects of overflow liquid recovery, material pollution control, maintenance cost and the like by introducing the suction knife assembly and the dynamic communication design of the suction knife assembly and the passing gap.

Inventors

  • LIANG JIN
  • GUO HONGJIN
  • ZHANG ZHONGHE

Assignees

  • 昆山东威科技股份有限公司

Dates

Publication Date
20260505
Application Date
20250528

Claims (10)

  1. 1. A conveying mechanism of an electroplating apparatus, comprising: A shell (1) is provided with a first material port (11), a conveying channel (13) and a second material port (12) which are sequentially communicated, wherein the second material port (12) is adjacent to and communicated with a plating tank (200) of the plating equipment; The conveying device (2) is arranged in the conveying channel (13) and used for conveying the materials (5) from the first material port (11) to the second material port (12), a water blocking assembly is arranged between the conveying device (2) and the second material port (12), and a passing gap (32) for the materials (5) to pass through is defined in the water blocking assembly; The suction knife assembly comprises a pump body (41), a liquid suction pipeline (42) and a suction knife body (43) which are sequentially communicated, the suction knife body (43) is installed between the conveying device (2) and the second material port (12) and is adjacent to the water retaining assembly, and a water suction port (433) of the suction knife body (43) is communicated with the through gap (32).
  2. 2. The conveying mechanism of electroplating equipment according to claim 1, wherein the water blocking assembly comprises at least two groups of water blocking rollers (31), two water blocking rollers (31) in the same group are oppositely arranged and define the passing gap (32), the water blocking rollers (31) in different groups are arranged at intervals along the conveying direction of materials (5), and a mounting gap (33) communicated with the passing gap (32) is defined between every two adjacent groups of water blocking rollers (31); Wherein, the suction knife body (43) stretches into the installation gap (33) and is communicated with the passing gap (32) through the water suction port (433).
  3. 3. The conveying mechanism of electroplating equipment according to claim 2, wherein the suction blade body (43) comprises a suction blade seat body (431) and a plurality of suction blade bodies (432), the suction blade seat body (431) is connected with the liquid suction pipeline (42), the suction blade bodies (432) are arranged protruding out of the surface of the suction blade seat body (431), and the suction blade bodies (432) extend into the installation gap (33) and form the water suction mouth (433) adjacent to one end of the passing gap (32).
  4. 4. A conveying mechanism of an electroplating apparatus according to claim 3, wherein a groove (434) is formed on a side surface of the suction tool holder body (431) facing the water blocking roller (31), the shape of the groove (434) is matched with that of the water blocking roller (31), and the water blocking roller (31) is in clearance fit in the groove (434).
  5. 5. A conveying mechanism of an electroplating apparatus according to claim 3, wherein the suction blade body (432) is clearance-fitted within the installation gap (33) and spans the entire installation gap (33), the suction blade body (432) and the suction port (433) each extend in a length direction of the installation gap (33), and a width of the suction port (433) is smaller than a width of the suction blade body (432).
  6. 6. The conveying mechanism of electroplating equipment according to claim 5, wherein the suction tool holder body (431) extends along the length direction of the installation gap (33), a side surface of the suction tool holder body (431) facing away from the water retaining roller (31) is provided with a plurality of groups of water outlet ports (435) connected with the liquid suction pipeline (42), each group of water outlet ports (435) comprises a plurality of water outlet ports (435) communicated with the same water suction port (433), and the plurality of water outlet ports (435) in the same group are arranged at intervals along the installation gap (33) from the length direction.
  7. 7. The conveying mechanism of an electroplating apparatus according to any one of claims 1 to 6, wherein the conveying device (2) comprises a plurality of conveying rollers (21) arranged at intervals along a conveying direction of the material (5), each of the conveying rollers (21) being provided with a first roller (22), a third roller (23) and a second roller (24) in order along a length direction thereof, the first roller (22), the second roller (24) and the third roller (23) being respectively for contacting an ineffective area of a glass substrate and supporting the glass substrate.
  8. 8. The conveying mechanism of an electroplating apparatus according to claim 7, wherein a first baffle (25) is provided on a side of the first roller (22) away from the third roller (23), and a second baffle (26) is provided on a side of the second roller (24) away from the third roller (23).
  9. 9. The conveying mechanism of electroplating equipment according to claim 7, wherein a first elastic washer (27) is sleeved outside the first roller (22), a second elastic washer (28) is sleeved outside the second roller (24), and a third elastic washer (29) is sleeved outside the third roller (23).
  10. 10. An electroplating apparatus, comprising: a conveying mechanism (100) of an electroplating apparatus according to any one of claims 1 to 9; Plating tank (200), the quantity of conveying mechanism (100) is two, two conveying mechanism (100) are located respectively plating tank (200) the upper reaches and the low reaches and through second feed opening (12) with plating tank (200) intercommunication.

Description

Conveying mechanism of electroplating equipment and electroplating equipment Technical Field The utility model relates to the technical field of electroplating, in particular to a conveying mechanism of electroplating equipment and the electroplating equipment. Background The conveying mechanism of the existing electroplating equipment mostly adopts roller wheels or steel belt type conveying devices, and a water retaining assembly (such as a water retaining plate or a water retaining roller) is combined to prevent electroplating liquid from overflowing into a conveying channel. However, the water blocking assembly limits the diffusion range of the plating solution only by physical isolation, but cannot actively recover overflowed liquid. When the glass substrate enters and exits the electroplating bath, the electroplating liquid is easy to drip into the conveying channel along the edge to pollute the surface of the glass substrate, and the overflow liquid is required to be cleaned manually frequently after further dripping into the equipment, so that the maintenance cost is increased. In addition, the prior art does not design an efficient recovery path for the overflow liquid, resulting in the plating liquid directly contacting the material surface, damaging its functional coating. The traditional conveying device is easy to cause equipment corrosion due to liquid residue, and the service life of the traditional conveying device can be further shortened. The above-mentioned drawbacks indicate that the existing conveying mechanism has significant shortcomings in the aspect of electroplating solution management, and an improvement scheme capable of dynamically recovering overflow solution, protecting the surface quality of materials and reducing maintenance cost is needed. Disclosure of utility model In view of the above, the present utility model provides a conveying mechanism of an electroplating apparatus and an electroplating apparatus, so as to solve the problem that the electroplating apparatus in the related art is difficult to process overflow liquid when materials enter and exit. In a first aspect, the present utility model provides a conveying mechanism of an electroplating apparatus, comprising: The shell is provided with a first material opening, a conveying channel and a second material opening which are sequentially communicated, wherein the second material opening is adjacent to and communicated with a plating tank of the plating equipment; The conveying device is arranged in the conveying channel and used for conveying materials from the first material port to the second material port, a water blocking assembly is arranged between the conveying device and the second material port, and a passing gap for the materials to pass through is defined in the water blocking assembly; The suction knife assembly comprises a pump body, a liquid suction pipeline and a suction knife body which are sequentially communicated, the suction knife body is installed between the conveying device and the second material opening and is adjacent to the water retaining assembly, and a water suction port of the suction knife body is communicated with the through gap. The conveying mechanism of the electroplating equipment has the beneficial effects that the conveying mechanism of the electroplating equipment solves the defects of the existing conveying mechanism of the electroplating equipment in the aspects of overflow liquid recovery, material pollution control, maintenance cost and the like by introducing the suction knife assembly and the dynamic communication design of the suction knife assembly and the passing gap, and has the following specific advantages: (1) According to the suction knife assembly, the suction pipe is driven by the pump body, negative pressure is formed in the suction knife body, and overflow liquid is recovered directly through communication of the suction port and the through gap. The design can dynamically adapt to liquid dripping generated in the material moving process, avoid liquid polluting the surface of the material, and obviously reduce uneven plating or corrosion risk. (2) The suction knife assembly provided by the utility model can be used for immediately recovering overflow liquid when materials pass through the gap, so that the surface of the materials is ensured to be clean, and the suction knife assembly is especially suitable for materials such as glass substrates or thin circuit boards and the like which are sensitive to surface quality. (3) The suction knife component concentrates overflow liquid to the pump body and flows back to the electroplating tank or the treatment system through a negative pressure recovery mechanism, so that the condition that the liquid drops into the equipment is greatly reduced, the service life of the equipment is prolonged, and the manual intervention requirement is reduced. (4) The suction cutter body is arranged between the conveying device and