CN218203144U - Temporary isolation structure of barrel plating production line - Google Patents

Abstract

The utility model relates to a metal barrel plating technical field, concretely relates to interim isolation structure of barrel plating production line, including the water receiving tank, the water receiving tank is located the plating bath top, and the length of water receiving tank is greater than or equal to the length of plating bath, the width of water receiving tank is greater than or equal to the width of plating bath, two long avris of water receiving tank all are provided with the hangers, two hangers opposite sides respectively with two long avris fixed connection of water receiving tank, two hangers hang and locate on the dryer between two adjacent plating baths, the water receiving tank can collect the electroplating solution that the cylinder drips, this application has the reduction electroplating solution and gets into idle plating bath, reduce the effect of wasing idle plating bath.

Description

Temporary isolation structure of barrel plating production line

Technical Field

The application relates to the technical field of metal barrel plating, in particular to a temporary isolation structure of a barrel plating production line.

Background

The electroplating is divided into rack plating, barrel plating, continuous plating and brush plating, etc. the process of adhering a layer of metal film to the surface of metal or other material product usually adopts electroplating mode to prevent metal oxidation, raise the wear resistance, conductivity, light reflection and corrosion resistance of metal product and enhance the appearance.

The barrel plating, namely barrel plating, is to place a certain number of small parts in a special barrel, deposit various metal or alloy coatings on the surfaces of the parts in an indirect conduction mode in a rolling state, the barrel needs to be soaked in plating baths with different components of the plating solution to carry out plating operation in the barrel plating process, and an air duct for exhausting is arranged between adjacent plating baths, so that a traveling crane needs to be used to hoist the barrel from the currently soaked plating bath, move the barrel to the upper part of the plating bath in the next procedure, and then put down the barrel to be soaked in another plating bath.

In view of the above-mentioned related technologies, the inventor believes that, during barrel plating production, a workpiece needs to be barrel plated for multiple times, so that the entire barrel plating production line includes multiple plating tanks, but sometimes a plated part only needs to be soaked by a part of the plating solution in the plating tank, so that a part of the plating tanks in the entire barrel plating production line are idle, when a traveling crane lifts the roller to advance, the residual plating solution on the surface of the roller easily drops into other idle plating tanks, and the work of cleaning other idle plating tanks is increased, so that improvement is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve when the driving crane hoists the cylinder and advances, the remaining plating solution in cylinder surface easily drips to other idle plating baths, increases the problem of wasing other idle plating bath work, and the purpose of this application is to provide a temporary isolation structure of barrel plating production line.

The temporary isolation structure of the barrel plating production line comprises a water receiving tank, wherein the water receiving tank is positioned above an electroplating bath, the length of the water receiving tank is greater than or equal to that of the electroplating bath, and the width of the water receiving tank is greater than or equal to that of the electroplating bath.

Through adopting above-mentioned technical scheme, the water receiving area of water receiving tank is greater than the area of plating bath notch cross section, and the cylinder can be collected to the water receiving tank and the plating solution that drops falls, reduces the plating solution and gets into idle plating bath, reduces the work of wasing idle plating bath, realizes energy saving and emission reduction.

Optionally, the two long sides of the water receiving tank are provided with hanging lugs, the two opposite sides of the hanging lugs are fixedly connected with the two long sides of the water receiving tank respectively, and the two hanging lugs are hung on the air duct between the two adjacent electroplating baths.

Through adopting above-mentioned technical scheme, operating personnel accessible hangers transport water receiving tank to plating bath top, and the hangers is hung and is established the position that can inject the water receiving tank in the dryer top, prevents that the water receiving tank from breaking away from going out the plating bath top.

Optionally, the hangers are arranged in an arc shape, and one side of the hangers, which is far away from the water receiving tank, is abutted against the side wall of the air duct.

By adopting the technical scheme, the hanger can guide the electroplating solution dripped to the edge of the electroplating tank to flow into the water receiving tank, so that the electroplating solution is reduced to enter the idle electroplating tank, the work of cleaning the idle electroplating tank is reduced, the position of the water receiving tank can be limited by the hanger, and the water receiving tank is prevented from being separated out of the upper part of the electroplating tank.

Optionally, the depth of the center of the water receiving tank is greater than the depth of the edge of the water receiving tank.

Through adopting above-mentioned technical scheme, compare in the water receiving tank central depth degree of depth equal to water receiving tank edge degree of depth, the bigger water receiving tank of central depth is the volume of water receiving tank bigger promptly, can collect the plating solution of more capacities.

Optionally, the water receiving tank is provided with a reinforcing plate, and two ends of the reinforcing plate are fixed with two long edges of the water receiving tank respectively.

Through adopting above-mentioned technical scheme, the central degree of depth of water receiving tank is greater than water receiving tank edge degree of depth, and the plating solution drips to the water receiving tank in, and more pressures are born than the edge of water receiving tank in the center of water receiving tank, easily makes the center of water receiving tank sunken, and the reinforcing plate both ends can strengthen the intensity of water receiving tank center department with two long limit fixed connection of water receiving tank.

Optionally, the reinforcing plate is provided with a plurality of through holes.

Through adopting above-mentioned technical scheme, the plating solution of the water receiving tank of reinforcing plate both sides can be convection current each other, makes the water receiving tank of reinforcing plate both sides evenly collect the plating solution, and the even atress of water receiving tank bottom surface can prevent that the water receiving tank from overturning toward one side.

Optionally, a water outlet hole is formed in the side face of the water receiving tank, a water outlet cover is arranged on the water outlet hole, and the water outlet cover can cover the water outlet hole.

Through adopting above-mentioned technical scheme, when the water receiving tank collects the plating solution, the apopore is located to the play water lid, prevents that the plating solution from flowing, and when the water receiving tank finishes collecting the plating solution, the play water lid can break away from the apopore, and the plating solution flows from the apopore, and the unified plating solution of retrieving of being convenient for is used manpower sparingly.

Optionally, a sealing ring is arranged on the water outlet cover, and the edge of the sealing ring is clamped at the edge of the water outlet hole.

Through adopting above-mentioned technical scheme, sealed apopore can be strengthened to the sealing washer, prevents that the plating solution from spilling the water receiving tank.

Optionally, a flow guide plate is arranged outside the water outlet hole.

Through adopting above-mentioned technical scheme, the guide plate can guide the outflow direction of plating solution, the recovery of the plating solution of being convenient for.

Optionally, the bottom surface of the water receiving tank is provided with two layers.

Through adopting above-mentioned technical scheme, strengthen the bottom surface intensity of water receiving tank, the perishable water receiving tank bottom surface of plating solution, when the one deck bottom surface corroded to the appearance can not collect the plating solution, the plating solution can be collected to lower one deck bottom surface and prevent that the plating solution from flowing out the water receiving tank.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the water receiving area of the water receiving tank is larger than the area of the cross section of the notch of the electroplating tank, the water receiving tank can collect electroplating solution dripped from the roller, the electroplating solution entering the idle electroplating tank is reduced, the work of cleaning the idle electroplating tank is reduced, and energy conservation and emission reduction are realized.

2. The hangers are arranged in an arc shape, can guide the electroplating solution dripped to the edge of the electroplating tank to flow into the water receiving tank, reduce the entering of the electroplating solution into the idle electroplating tank and reduce the work of cleaning the idle electroplating tank.

Drawings

FIG. 1 is a schematic view of the overall structure of a temporary isolation structure of a barrel plating production line;

FIG. 2 is a cross-sectional view of a temporary isolation structure of a barrel plating line;

FIG. 3 is a schematic structural view of the water receiving tank in FIG. 1;

in the figure, 10, a plating bath;

1. a drum;

30. an air duct; 31. a groove;

1. a water receiving tank; 41. hanging a lug; 42. a reinforcing plate; 43. a through hole; 44. a water outlet hole;

1. a water outlet cover; 51. a seal ring;

1. a baffle;

1. a thread plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The barrel plating production line contains a plurality of plating baths 10, plating bath 10 is the setting of regular tetragonal body, the side fixed connection of adjacent plating bath 10, but holding plating solution in the plating bath 10, cylinder 20 can soak and electroplate the metalwork in the plating solution of arbitrary plating bath 10, be provided with dryer 30 between the adjacent plating bath 10, plating bath 10 side upper end is connected with dryer 30 lower extreme, dryer 30 side is provided with a plurality of wind gaps, dryer 30 is connected with the tuber pipe, the tuber pipe other end is connected with the motor, dryer 30 accessible wind gap absorbs the volatile toxic gas of plating solution or foul gas, protection operating personnel's personal safety.

Referring to fig. 1, the barrel 20 is placed in the plating bath 10 and immersed in the plating solution to perform a barrel plating operation, and then the barrel 20 is driven by the traveling crane to move to the next plating bath 10 for barrel plating.

The embodiment of the application discloses a temporary isolation structure of a barrel plating production line. Referring to fig. 1 and 2, the water receiving tank 40 is included, the water receiving tank 40 is positioned above the electroplating tank 10, the water receiving tank 40 includes two bottom plates, two side plates and two arc-shaped plates, and the bottom surface of the water receiving tank 40 is composed of two layers of bottom plates; in addition, the bottom surface of the water receiving tank 40 may also be formed by a layer of bottom plate, and the thickness of the bottom plate is greater than or equal to that of the side plate, so as to prolong the service life of the water receiving tank 40.

The two bottom plates are both arranged in an arc shape, and for the whole water receiving tank 40, the depth of the center position of the water receiving tank 40 is larger than the depth of the edge of the water receiving tank 40, namely the bottom plates are arranged in an arched manner towards the direction far away from the notch of the water receiving tank 40; the two side plates are rectangular, and the long edge sides of the two side plates are fixedly connected with the two long edge sides of the bottom plate respectively in a welding mode; two arc one sides are the arc form, and two arc are arc one side respectively with the two short avris of bottom plate through welded mode fixed connection, simultaneously, the minor face of adjacent curb plate and arc passes through welded mode fixed connection to enclose to close and form the water receiving tank 40 that has certain accommodation space.

The lengths of the two side plates and the bottom plate are both larger than or equal to the length of the electroplating bath 10, and after the side plates and the bottom plate are assembled, the water receiving length of the water receiving tank 40 is larger than or equal to the length of the electroplating bath 10; the width of the water receiving tank 40 is greater than or equal to the width of the electroplating tank 10.

The hanging lugs 41 are arranged on the long sides of the two side plates, the hanging lugs 41 are arranged in an arc shape, the long sides of the two hanging lugs 41 are fixedly connected with the long sides of the two side plates in a welding mode respectively, the two hanging lugs 41 are hung on the two adjacent air ducts 30 respectively, and the arc-shaped hanging lugs 41 are beneficial to being attached to the side walls of the air ducts 30; the side of the wind barrel 30 is provided with a groove 31, and the edge of the long side of the two hanging lugs 41 far away from the water receiving tank 40 can be clamped in the groove 31.

The two hanging lugs 41 can be made of elastic metal, when the water receiving tank 40 is carried to the upper part of the electroplating bath 10, the long side of the two hanging lugs 41 far away from the water receiving tank 40 moves in a small range in the direction far away from the water receiving tank 40, when the hanging lugs 41 are hung on the air duct 30 and are partially attached to the outer side wall of the air duct 30, the external force is removed, the long side of the two hanging lugs 41 far away from the water receiving tank 40 resets under the elastic action, and the long side edge of the two hanging lugs 41 far away from the water receiving tank 40 falls into the groove 31.

A reinforcing plate 42 is arranged in the water receiving groove 40, the bottom surface of the reinforcing plate 42 is arranged in an arc shape and is fixedly connected with the bottom plate of the water receiving groove 40, two ends of the reinforcing plate 42 are respectively fixedly connected with the middle point of the long edge of the water receiving groove 40, the bottom surface of the water receiving groove 40 is arranged in an arc shape, the center of the water receiving groove 40 is easy to recess, and the reinforcing plate 42 reinforces the strength of the center of the water receiving groove 40. Three through holes 43 are formed in the reinforcing plate 42, the adjacent through holes 43 are arranged at equal intervals, and the through holes 43 can enable electroplating liquid in the water receiving grooves 40 on two sides of the reinforcing plate 42 to mutually circulate.

Referring to fig. 3, an arc-shaped plate of the water receiving tank 40 is provided with a water outlet hole 44, a water outlet cover 50 is arranged on the water outlet hole 44, a sealing ring 51 is arranged on the water outlet cover 50, a handle can be arranged on the outer side of the water outlet cover 50, so that the water outlet cover 50 can cover or separate from the water outlet hole 44 conveniently, when electroplating solution is collected by the water receiving tank 40, the water outlet cover 50 covers the water outlet hole 44, the edge of the sealing ring 51 is clamped on the edge of the water outlet hole 44, and the electroplating solution is prevented from leaking out of the water receiving tank 40; when the water receiving tank 40 finishes collecting the electroplating solution, the water outlet cover 50 is separated from the water outlet hole 44, and the electroplating solution can flow out of the water outlet hole 44, so that the electroplating solution can be recovered conveniently.

A guide plate 60 and a threaded plate 70 are arranged on the outer side of the arc-shaped plate of the water receiving tank 40, wherein the guide plate 60 and the threaded plate 70 are symmetrically arranged on two sides of the water outlet hole 44, and when the water receiving tank 40 is arranged above the electroplating tank 10 to carry out water receiving work, the guide plate 60 is positioned on the lower side of the threaded plate 70; guide plate 60 can guide the plating solution outflow direction, and the recovery of the plating solution of being convenient for all is provided with the screw thread on guide plate 60 and the thread plate 70, can with the water pipe spiro union, guide plating solution flow direction assigned position, the recovery of the plating solution of being convenient for.

The implementation principle of the embodiment of the application is as follows: when the water receiving tank 40 is conveyed to the position above the electroplating tank 10, the long side of the two hanging lugs 41 far away from the water receiving tank 40 moves towards the direction far away from the water receiving tank 40 in a small range, when the hanging lugs 41 are positioned above the air duct 30, external force is removed, the long side of the two hanging lugs 41 far away from the water receiving tank 40 resets under the elastic action until the edge of the long side of the two hanging lugs 41 far away from the water receiving tank 40 falls into the groove 31; the water outlet cover 50 is covered on the water outlet hole 44, the edge of the sealing ring 51 is clamped on the edge of the water outlet hole 44, the water receiving tank 40 collects electroplating solution dripped by the roller 20, and the through holes 43 on the reinforcing plate 42 enable the electroplating solution in the water receiving tanks 40 on the two sides of the reinforcing plate 42 to mutually circulate; the water outlet cover 50 is separated from the water outlet hole 44, the electroplating solution can flow out from the water outlet hole 44, and the guide plate 60 can guide the electroplating solution to flow out, so that the electroplating solution can be recovered conveniently.

The embodiments of the present invention are preferred embodiments of the present application, and the protection scope of the present application is not limited thereby, wherein like parts are denoted by like reference numerals. Therefore, the method comprises the following steps: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The temporary isolation structure of the barrel plating production line is characterized by comprising a water receiving tank (40), wherein the water receiving tank (40) is positioned above a plating tank (10), the length of the water receiving tank (40) is greater than or equal to that of the plating tank (10), and the width of the water receiving tank (40) is greater than or equal to that of the plating tank (10).

2. The temporary isolation structure of a barrel plating production line according to claim 1, wherein the two long sides of the water receiving tank (40) are provided with hanging lugs (41), opposite sides of the two hanging lugs (41) are fixedly connected with the two long sides of the water receiving tank (40), respectively, and the two hanging lugs (41) are hung on the air duct (30) between two adjacent plating tanks (10).

3. The temporary isolation structure of the barrel plating production line according to claim 2, wherein the hanging lug (41) is arranged in an arc shape, and one side of the hanging lug (41) far away from the water receiving tank (40) is abutted against the side wall of the air duct (30).

4. The temporary isolation structure of a barrel plating production line according to claim 1, wherein the depth of the center of the water receiving groove (40) is greater than the depth of the edge of the water receiving groove (40).

5. The temporary isolation structure of the barrel plating production line according to claim 1, wherein the water receiving tank (40) is provided with a reinforcing plate (42), and two ends of the reinforcing plate (42) are respectively fixed with two long edges of the water receiving tank (40).

6. A temporary isolation structure of a barrel plating production line according to claim 5, characterized in that a plurality of through holes (43) are provided on the reinforcing plate (42).

7. The temporary isolation structure of a barrel plating production line according to claim 1, wherein a water outlet hole (44) is formed in the side surface of the water receiving tank (40), a water outlet cover (50) is arranged on the water outlet hole (44), and the water outlet cover (50) can cover the water outlet hole (44).

8. The temporary isolation structure of a barrel plating production line according to claim 7, wherein the water outlet cover (50) is provided with a sealing ring (51), and the edge of the sealing ring (51) is clamped at the edge of the water outlet hole (44).

9. The temporary isolation structure of a barrel plating production line according to claim 7, characterized in that a deflector (60) is arranged outside the water outlet hole (44).

10. The temporary isolation structure of a barrel plating production line according to claim 1, wherein the bottom surface of the water receiving tank (40) is provided with two layers.

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