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CN-224227245-U - Flashboard mounting structure of electrolytic copper foil producing machine

CN224227245UCN 224227245 UCN224227245 UCN 224227245UCN-224227245-U

Abstract

The utility model discloses a plugboard mounting structure of an electrolytic copper foil raw foil machine, which comprises a plurality of buckling pieces, a plugboard, a pressing plate and a fastener, wherein the buckling pieces are mounted on an electrolytic tank of the raw foil machine and are positioned on one side of a liquid return port, a mounting surface of the plugboard is arranged on the upper side of the buckling pieces, a first through hole for allowing the buckling pieces to pass through is formed in the plugboard, the pressing plate is mounted on the upper side of the plugboard, the buckling pieces pass through a second through hole in the pressing plate and are buckled with the upper side of the pressing plate, the fastener passes through the pressing plate and the plugboard from top to bottom and is connected with the electrolytic tank to tightly press the plugboard, the plugboard can be clamped and fixed by arranging the buckling pieces and the pressing plate, and the fixing structure is simple, and complicated steps of tightening a plurality of bolts in a traditional mode are avoided.

Inventors

  • DONG SHAOYUN
  • LI QIMENG
  • Xue Yuni
  • GONG KAIKAI
  • YE CHAO
  • ZHOU GANG

Assignees

  • 九江琥珀新材料有限公司
  • 九江德福科技股份有限公司

Dates

Publication Date
20260512
Application Date
20250528

Claims (6)

  1. 1. The utility model provides an electrolytic copper foil raw foil machine's picture peg mounting structure which characterized in that includes: A plurality of clamping pieces (6) which are arranged on the electrolytic tank (1) of the foil producing machine and are positioned at one side of the liquid return port (4); The mounting surface of the plugboard (7) is arranged on the upper side of the clamping piece (6), and a first perforation (8) for allowing the clamping piece (6) to pass through is arranged on the plugboard (7); The pressing plate (3) is arranged on the upper side of the inserting plate (7), and the clamping piece (6) passes through a second through hole (9) on the pressing plate (3) to be buckled with the upper side of the pressing plate (3); The fastener (5) penetrates through the pressing plate (3) and the plugboard (7) from top to bottom to be connected with the electrolytic tank (1) to press the plugboard (7).
  2. 2. The board mounting structure of electrolytic copper foil producing machine according to claim 1, wherein the fastener (5) comprises a plurality of screws mounted at both ends and in the middle of the pressing board (3).
  3. 3. The structure of claim 1, wherein the second through hole (9) has a width larger than the width of the fastener (6), and the through holes for the fastener (5) to pass through overlap the press plate (3) and the insert plate (7) when the fastener (6) is fastened to the side wall of the second through hole (9).
  4. 4. The inserting plate mounting structure of the electrolytic copper foil producing machine according to claim 1, wherein the bottom of the clamping piece (6) is welded or adhered with the electrolytic tank (1).
  5. 5. The board mounting structure of an electrolytic copper foil producing machine according to any one of claims 1 to 4, wherein the size of the pressing board (3) is smaller than the mounting surface size of the board (7).
  6. 6. The structure for mounting a plugboard of an electrolytic copper foil production machine according to claim 5, wherein the electrolytic tank (1) is formed by grooving on the ground.

Description

Flashboard mounting structure of electrolytic copper foil producing machine Technical Field The utility model relates to the technical field of electrolytic copper foil production equipment, in particular to a plugboard mounting structure of an electrolytic copper foil production machine. Background The electrolytic copper foil is mainly divided into four working procedures of liquid preparation, electrolysis, surface treatment and slitting, and an electrolytic foil producing machine changes Cu 2+ in liquid into copper foil equipment in an electrodeposition mode, wherein a plugboard is a crucial part, the whole plugboard is placed in electrolyte, and hands are required to be stretched into the electrolyte for installation during installation. At present, 6 bolts are needed to be screwed one by one to fix the plugboard by adopting a 6 bolt installation mode, the operation is complex, and the time consumption is long. Meanwhile, bolts are required to be unscrewed one by one when the plugboard is detached, the working procedure is complex, and the maintenance cost is high. In addition, the picture peg installation and dismantlement in-process need be shut down, lead to equipment downtime longer, influence production efficiency. Therefore, the service rate of the machine can be affected due to long installation time of the plugboard, and a lot of waste foils can be generated, even bubbles can be generated due to long time in the electrolyte of hand soaking. Disclosure of utility model The utility model provides a plugboard mounting structure of an electrolytic copper foil production machine, which can solve the problems of long plugboard mounting time, high maintenance cost and long equipment downtime in the prior art, and has important theoretical significance and application value. The utility model provides a plugboard mounting structure of an electrolytic copper foil raw foil machine, which comprises a plurality of buckling pieces, a plugboard, a pressing plate and a fastener, wherein the buckling pieces are arranged on an electrolytic tank of the raw foil machine and are positioned on one side of a liquid return port, the mounting surface of the plugboard is arranged on the upper side of the buckling pieces, a first through hole for allowing the buckling pieces to pass through is arranged on the plugboard, the pressing plate is arranged on the upper side of the plugboard, the buckling pieces pass through a second through hole on the pressing plate and are buckled with the upper side of the pressing plate, the fastener passes through the pressing plate and the plugboard from top to bottom and is connected with the electrolytic tank to compress the plugboard, the plugboard can be clamped and fixed by arranging the buckling pieces and the pressing plate, and the fixing structure is simple, and the complicated step of screwing a plurality of bolts in a traditional mode is avoided. Preferably, the fastener comprises a plurality of screws arranged at the two ends and the middle part of the pressing plate, the screws are easy to install, and the screws do not need to extend into the electrolytic tank to operate. Preferably, the width of the second perforation is larger than that of the buckling piece, when the buckling piece is buckled with one side wall of the second perforation, the through holes for the fastening piece to pass through are overlapped on the pressing plate and the plugboard, the pressing plate can be positioned rapidly, the fastening piece can be conveniently perforated and installed, and the installation operation efficiency is improved. Preferably, the bottom of the clamping piece is welded or adhered with the electrolytic tank, so that the existing electrolytic tank is conveniently modified, and the cost is low. Preferably, the size of the pressing plate is smaller than the size of the mounting surface of the plugboard, the pressing plate is not easy to deform, and the pressing plate can fully act on the plugboard. Preferably, the electrolytic tank is formed by slotting on the ground. Compared with the prior art, the utility model has the beneficial effects that: The installation structure is simple, the plugboard can be clamped and fixed by arranging the clamping pieces and the pressing plates, the number of the fixed structures is relatively small, the complicated steps of tightening a plurality of bolts in the traditional mode are avoided, the installation time is shortened by more than 50%, the maintenance cost is reduced by 30%, and the equipment downtime is reduced. Drawings FIG. 1 is a perspective view of the present utility model; FIG. 2 is a top view of the structure of the present utility model; fig. 3 is a partial cross-sectional structural view of the present utility model. Reference numerals: 1. The electrolytic bath comprises an electrolytic tank body, 2, a titanium roller, 3, a pressing plate, 4, a liquid return port, 5, a fastening piece, 6, a clamping piece, 7, an inserting p