CN212426233U - Efficient energy-saving electroplating bath - Google Patents

Abstract

The utility model relates to an electroplate technical field, and disclose a high-efficient energy-saving plating bath, the inslot is provided with the fore-set down, and the fore-set is T type cylinder structure, and the lower extreme and the lower groove cover of fore-set are in the same place, and the upper end and the stopper of fore-set cup joint together, and the fore-set is a magnet, and the lower wall of fore-set is anodal, and the last wall fixed mounting of fore-set has the ball that separates, separates the ball and is semi-cylindrical structure. The plate to be electroplated is placed on the outer circle wall surfaces of the four partition balls, the motor is started, the shaft of the motor rotates to drive the fan blades to rotate, the fan blades rotate to drive solution in the reactor to rotate, the fan blades scatter the sediment to be mixed with the solution in the reactor, the connecting plate moves rightwards, the connecting plate drives the two limiting columns to move simultaneously, when the plate is moved above the two support columns, the inner column moves rightwards, the inner column moves into the lower groove, the inner column weakens the magnetism of the magnetic block and the ejection column, and the plate falls above the support columns and then is drawn out of the two movable columns.

Description

Efficient energy-saving electroplating bath

Technical Field

The utility model relates to an electroplate technical field, specifically be a high-efficient energy-saving plating bath.

Background

Electroplating is a process of plating a thin layer of other metals or alloys on the surface of some metals by using the principle of electrolysis, and is a process of attaching a layer of metal film on the surface of a metal or other material product by using the action of electrolysis, thereby having the effects of preventing metal oxidation (such as corrosion), improving wear resistance, conductivity, light reflection, corrosion resistance (such as copper sulfate and the like), enhancing the appearance and the like. In the electroplating process, materials are required to be placed in an electroplating bath for electroplating, but because the materials are supported by a support frame in the bath, a part of contact part in a plate can not be electroplated during electroplating, and the existing method is mostly to take out the materials for secondary electroplating, which easily causes uneven electroplating of the materials, so that a high-efficiency energy-saving electroplating bath is required.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a to prior art's not enough, the utility model provides a high-efficient energy-saving plating bath possesses advantages such as need not take out secondary electroplating, has solved the problem that traditional mode needs secondary electroplating.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: a high-efficiency energy-saving electroplating bath comprises a reactor, wherein the reactor is of a rectangular hollow structure, an opening is formed in the upper wall surface of the reactor, a support column is fixedly mounted on the right wall surface inside the reactor, a connecting groove is formed in the lower wall surface inside the reactor and is a circular groove, the connecting groove is positioned in the center of the lower wall surface inside the reactor, a bottom groove is formed in the wall surface of the bottom groove of the connecting groove and is a circular groove, the bottom groove is communicated with the support column, a motor is fixedly mounted on the inner bottom wall surface of the bottom groove, a shaft of the motor extends into the reactor through the connecting groove, the outer circle wall surface of the shaft of the motor is attached to the outer circle wall surface of the connecting groove, two fan blades are arranged on the motor, one side wall surface, close to the shaft of the motor, of the two fan blades is fixedly mounted with the outer circle wall surface of the shaft of the motor, the two lower walls are both attached to the inner wall surface of the reactor, the movable hole is internally provided with a movable column, the left wall surface of the movable column is provided with an inner groove, the inner groove is a circular groove, the movable column extends to the outside of the left side of the reactor, the left wall surface of the movable column is fixedly provided with a limiting column, the limiting column is of a circular structure, the inner diameter of the limiting column is the same as the inner diameter of the inner groove, the inner column is internally provided with an inner column, the inner column is of a cylindrical structure and extends to the inside of the inner groove, the limiting column is provided with a connecting plate which is of a rectangular structure, the right wall surfaces of the front side and the rear side of the connecting plate are respectively and fixedly arranged with the left wall surfaces of the two limiting columns, the wall surface of each movable column is provided with two lower grooves, the lower wall surface of the inner part of each lower groove is fixedly provided with a magnetic block which is of a cylindrical structure, the inner wall surface of each lower groove is fixedly provided with a limiting device, the ball separator is of a semi-cylindrical structure.

Preferably, the lower groove is a circular groove, and the lower groove is communicated with the inner groove.

Preferably, the top column is of a T-shaped cylindrical structure, the lower end of the top column is sleeved with the lower groove, and the upper end of the top column is sleeved with the limiting stopper.

Preferably, the support column is of a cylindrical structure, a round angle is formed in the left wall surface of the support column, the number of the support columns is two, and the two support columns horizontally correspond to each other in the front-back direction.

Preferably, the movable columns are cylindrical structures, extend to the inside of the reactor and are sleeved with the movable holes, and the heights of the two movable columns are one millimeter lower than those of the two support columns.

Preferably, the activity hole is circular through-hole, and the activity hole has two, and two activity hole front and back levels correspond, and two activity holes have all communicated the inside of reactor, and the height of two activity holes is the same with the height of two support columns, and stagger about two activity holes and two support columns.

(III) advantageous effects

Compared with the prior art, the utility model provides a high-efficient energy-saving plating bath possesses following beneficial effect:

1. this energy-efficient plating bath, arrange four excircle wall at a distance from the ball in through the board that will electroplate in, starter motor, the rotatory flabellum that drives of axle of motor is rotatory, the solution in the rotatory drive reactor of flabellum is rotatory, the flabellum will deposit and break up and mix with the solution in the reactor, will link the board and move to the right, link the board and drive two spacing posts and move simultaneously, when moving the board to two support column tops, move the interior post in the right direction, the interior post moves down the inslot, the interior post weakens the magnetism of magnetic path and fore-set, two movable posts are taken out after the board falls the top of support column. Compared with the traditional mode, the equipment can ensure that the material does not need to be taken out for secondary electroplating, avoids the problem that the material is not uniformly electroplated due to the secondary electroplating of the material, and improves the coverage uniformity of the material electroplating.

2. This energy-efficient plating bath, arrange four excircle wall at a distance from the ball in through the board that will electroplate in, starter motor, the rotatory flabellum that drives of axle of motor is rotatory, the solution in the rotatory drive reactor of flabellum is rotatory, the flabellum will deposit and break up and mix with the solution in the reactor, will link the board and move to the right, link the board and drive two spacing posts and move simultaneously, when moving the board to two support column tops, move the interior post in the right direction, the interior post moves down the inslot, the interior post weakens the magnetism of magnetic path and fore-set, two movable posts are taken out after the board falls the top of support column. Therefore, the efficiency of electroplating materials is improved, the electroplating time is reduced, the production efficiency is improved, and manpower and material resources are saved.

3. This energy-efficient plating bath, arrange four excircle wall at a distance from the ball in through the board that will electroplate in, starter motor, the rotatory flabellum that drives of axle of motor is rotatory, the solution in the rotatory drive reactor of flabellum is rotatory, the flabellum will deposit and break up and mix with the solution in the reactor, will link the board and move to the right, link the board and drive two spacing posts and move simultaneously, when moving the board to two support column tops, move the interior post in the right direction, the interior post moves down the inslot, the interior post weakens the magnetism of magnetic path and fore-set, two movable posts are taken out after the board falls the top of support column. Thereby enabling the sediment in the reactor to be dispersed and re-diffused in the solution and improving the use efficiency of the solution.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a front sectional view of the structure of the present invention;

FIG. 3 is a partial schematic view of A in FIG. 2;

figure 4 is a side cross-sectional view of the structural reactor of the present invention.

In the figure: the device comprises a reactor 1, a support column 2, a bottom groove 3, a connecting groove 4, a motor 5, fan blades 6, a movable hole 7, a movable column 8, a limiting column 9, a connecting plate 10, an inner groove 11, an inner column 12, a lower groove 13, a magnetic block 14, a top column 15, a limiter 16 and a ball spacer 17.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention relates to a high efficiency energy saving electroplating bath, which comprises a reactor 1, wherein the reactor 1 is a rectangular hollow structure, an electroplating solution is disposed inside the reactor 1, an opening is disposed on an upper wall surface of the reactor 1, a support post 2 is fixedly mounted on a right wall surface inside the reactor 1, the support post 2 is a cylindrical structure, a round corner is disposed on a left wall surface of the support post 2, two support posts 2 are horizontally corresponding to each other, a connecting groove 4 is disposed on a lower wall surface inside the reactor 1, the connecting groove 4 is a circular groove, the connecting groove 4 is located at a center of the lower wall surface inside the reactor 1, a bottom groove 3 is disposed on a wall surface of a bottom groove of the connecting groove 4, the bottom groove 3 is a circular groove, the bottom groove 3 is communicated with the support post 2, a motor 5 is fixedly mounted on the bottom wall surface inside the bottom groove 3, the motor 5 is an existing structure, and will not be described herein, the shaft of the motor 5 extends into the reactor 1 through the connecting groove 4, the outer circular wall surface of the shaft of the motor 5 is attached to the inner circular wall surface of the connecting groove 4, the fan blades 6 are arranged on the motor 5, the fan blades 6 are of the existing structure and are not repeated here, two fan blades 6 are arranged, one side wall surface of the two fan blades 6 close to the shaft of the motor 5 is fixedly installed with the outer circular wall surface of the shaft of the motor 5, the two fan blades 6 are both attached to the inner lower wall surface of the reactor 1, the left wall surface of the reactor 1 is provided with a movable hole 7, the movable hole 7 is a circular through hole, the two movable holes 7 are horizontally corresponding to each other in the front and back direction, the two movable holes 7 are communicated with the inside of the reactor 1, the height of the two movable holes 7 is the same as that of the two support columns 2, the two movable holes 7 are staggered with the two support columns 2 in the left and right directions, a movable, the movable columns 8 extend into the reactor 1, the movable columns 8 are sleeved with the movable holes 7, the height of the two movable columns 8 is one millimeter lower than that of the two support columns 2, the left wall surface of each movable column 8 is provided with an inner groove 11, the inner groove 11 is a circular groove, the movable columns 8 extend out of the left side of the reactor 1, the left wall surface of each movable column 8 is fixedly provided with a limiting column 9, each limiting column 9 is of a circular ring structure, the inner diameter of each limiting column 9 is the same as that of the inner groove 11, an inner column 12 is arranged in the inner column 12, the inner column 12 is of a cylindrical structure, the inner column 12 is made of an electrical soft iron material, the inner groove 12 weakens magnetism to the maximum degree, the inner column 12 extends into the inner groove 11, the limiting columns 9 are provided with connecting plates 10, the connecting plates 10 are of a rectangular structure, the right wall surfaces of the front side and the rear side of each connecting plate 10 are fixedly installed with the left wall surfaces of, two lower grooves 13 are formed in the outer circular wall surface of each movable column 8, each lower groove 13 is a circular groove, each lower groove 13 is communicated with the corresponding inner groove 11, a magnetic block 14 is fixedly mounted on the lower wall surface inside each lower groove 13, each magnetic block 14 is of a cylindrical structure, each magnetic block 14 is a magnet, the upper wall surface of each magnetic block 14 is an anode, a limiter 16 is fixedly mounted on the inner circular wall surface of each lower groove 13, each limiter 16 is of a circular ring structure, a support pillar 15 is arranged in each lower groove 13, each support pillar 15 is of a T-shaped cylindrical structure, the lower end of each support pillar 15 is connected with the corresponding lower groove 13 in a sleeved mode, the upper end of each support pillar 15 is connected with the corresponding limiter 16 in a sleeved mode, each support pillar 15 is a magnet, the lower wall surface of each support pillar 15 is an anode, each separation ball 17 is fixedly mounted on the upper wall surface.

When the electroplating device is used, a plate to be electroplated is placed on the outer circular wall surfaces of the four partition balls 17, the motor 5 is started, the shaft of the motor 5 rotates to drive the fan blades 6 to rotate, the fan blades 6 rotate to drive the solution in the reactor 1 to rotate, the fan blades 6 disperse the sediment and mix with the solution in the reactor 1, the connecting plate 10 moves to the right, the connecting plate 10 drives the two limiting columns 9 to move simultaneously, when the plate is moved above the two support columns 2, the inner column 12 moves to the right, the inner column 12 moves into the lower groove 13, the inner column 12 weakens the magnetism of the magnetic block 14 and the ejection column 15, and the plate falls above the support columns 2 and then is drawn out of the two movable columns 8.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An energy-efficient plating bath, includes reactor (1), its characterized in that: the reactor is characterized in that a support column (2) is fixedly installed on the right wall surface inside the reactor (1), a connecting groove (4) is formed in the lower wall surface inside the reactor (1), a bottom groove (3) is formed in the wall surface of the bottom groove of the connecting groove (4), a motor (5) is fixedly installed on the bottom wall surface inside the bottom groove (3), a fan blade (6) is arranged on the motor (5), a movable hole (7) is formed in the left wall surface of the reactor (1), a movable column (8) is arranged in the movable hole (7), an inner groove (11) is formed in the left wall surface of the movable column (8), a limit column (9) is fixedly installed on the left wall surface of the movable column (8), an inner column (12) is arranged in the inner column (12), a connecting plate (10) is arranged on the limit column (9), two lower grooves (13) are formed in the outer circle wall surface of each movable column (8), and a magnetic block (14) is fixedly installed, a limiter (16) is fixedly installed on the inner circle wall surface of the lower groove (13), a top column (15) is arranged in the lower groove (13), and a separation ball (17) is fixedly installed on the upper wall surface of the top column (15).

2. The plating bath of claim 1, wherein: the reactor is characterized in that the number of the movable holes (7) is two, the front and back of the two movable holes (7) correspond to the horizontal direction, the two movable holes (7) are communicated with the inside of the reactor (1), the heights of the two movable holes (7) are the same as the heights of the two support columns (2), and the two movable holes (7) and the two support columns (2) are staggered left and right.

3. The plating bath of claim 1, wherein: the movable columns (8) extend into the reactor (1), the movable columns (8) are sleeved with the movable holes (7), and the heights of the two movable columns (8) are one millimeter lower than the heights of the two support columns (2).

4. The plating bath of claim 1, wherein: the left wall surface of the support column (2) is provided with a round corner, the number of the support columns (2) is two, and the two support columns (2) horizontally correspond to each other in the front-back direction.

5. The plating bath of claim 1, wherein: the ejection column (15) is of a T-shaped cylindrical structure, the lower end of the ejection column (15) is sleeved with the lower groove (13), and the upper end of the ejection column (15) is sleeved with the limiter (16).

6. The plating bath of claim 1, wherein: the lower groove (13) is communicated with the inner groove (11).

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