CN215947440U - Electroplating device for wear-resistant coating on inner surface of copper pipe of crystallizer - Google Patents

Abstract

An electroplating device for wear-resistant coating on the inner surface of a copper pipe of a crystallizer comprises: the electric toothbrush comprises a bottom plate, wherein an operation table is fixedly connected above the bottom plate through a support column, a top plate is horizontally arranged above the operation table, a driving port is formed in one side of the surface of the top plate in a penetrating mode, and a brush rod is vertically arranged above the driving port, so that the electric toothbrush has the following advantages: the brush rod is driven to move up and down through the first electric telescopic rod, so that the inner side wall of the crystallizer copper pipe body is cleaned by bristles on the brush rod, and the situation that the electrolyte is polluted when the electrolyte is introduced to the crystallizer copper pipe body and the subsequent normal use is influenced is avoided; the dust raised around the brush rod is conveniently absorbed through the dust absorption pipe by the dust collector, and the raised dust is prevented from falling onto the inner surface of the copper pipe body of the crystallizer again.

Description

Electroplating device for wear-resistant coating on inner surface of copper pipe of crystallizer

Technical Field

The utility model relates to the technical field of electroplating of crystallizer copper pipes, in particular to an electroplating device for an abrasion-resistant coating on the inner surface of a crystallizer copper pipe.

Background

In the production and processing process of the crystallizer copper pipe, the inner surface of the crystallizer copper pipe needs to be plated with a wear-resistant layer, so that an electroplating device for the wear-resistant coating on the inner surface of the crystallizer copper pipe is needed.

At present, most of electroplating devices for the wear-resistant coating on the inner surface of the copper pipe of the crystallizer are inconvenient to clean the inner surface of the copper pipe of the crystallizer before electroplating, and easily pollute electrolyte when the electrolyte passes through the copper pipe of the crystallizer, so that the subsequent use of the electrolyte is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems that most of the existing electroplating devices for the wear-resistant coating on the inner surface of the crystallizer copper pipe are inconvenient to clean some stubborn stains on the inner surface of the crystallizer copper pipe before electroplating, and easily pollute electrolyte when the electrolyte passes through the crystallizer copper pipe, so that the subsequent use of the electrolyte is influenced.

The technical scheme adopted by the utility model for solving the technical problem is as follows: an electroplating device for wear-resistant coating on the inner surface of a copper pipe of a crystallizer comprises: the bottom plate, the bottom plate top is through support column fixedly connected with operation panel, operation panel top level is equipped with the roof, roof surface one side is run through and is seted up the drive mouth, the vertical brush-holder stud that is equipped with in drive mouth top.

As a preferred technical scheme of the utility model, the top of the brush rod is fixedly connected with a first electric telescopic rod, the top of the first electric telescopic rod is fixedly connected with a mounting frame, the bottom of the mounting frame is fixedly connected with the surface of a top plate, the side wall of the brush rod is fixedly connected with bristles, one end of the surface of an operating platform, which is far away from a driving port, is provided with a crystallizer copper pipe body, four corners of the surface of the operating platform are vertically and fixedly connected with supporting rods, the tops of the supporting rods are vertically and fixedly connected with a second electric telescopic rod, the tops of the second electric telescopic rods are fixedly connected with the bottom of the top plate, an anode is vertically arranged in the crystallizer copper pipe body, the top and the bottom of the anode are fixedly connected with rotating rods, the surface of the top plate is positioned right above the anode and is fixedly connected with a driving motor through a connecting frame, one end, which is far away from the anode, of the rotating rod above the anode passes through the side wall of the top plate and is fixedly connected with the output end of the driving motor, the top plate surface is located crystallizer copper pipe body top and runs through the intercommunication and have a drain pipe No. one, the operation panel bottom is located crystallizer copper pipe body below and runs through the intercommunication and have a feed liquor pipe No. one, the top plate surface is located the other power of having placed of driving motor, power and positive pole electric connection stretch out and draw back through an electric telescopic handle, make the brush-holder stud drive the brush hair on it to hang and sweep crystallizer copper pipe body internal surface, be convenient for clear up the stubborn spot of crystallizer copper pipe body inside wall, avoid the spot to pollute the electrolyte, influence the normal use in electrolyte later stage.

As a preferable technical scheme of the utility model, the surface of the operating platform is positioned under the brush rod and is fixedly connected with the placing plate, the surface of the bottom plate is positioned under the placing plate and is detachably connected with the dust collector, the surface of the placing plate is communicated with the dust collecting pipe in a penetrating way, one end of the dust collecting pipe, far away from the placing plate, penetrates through the side wall of the operating platform and is communicated with the dust collector, raised dust can be conveniently absorbed by the dust collector, and the cleaning efficiency is improved.

According to a preferred technical scheme, four liquid storage tanks are detachably connected to the surface of the bottom plate below the crystallizer copper pipe body, the bottoms of all the four liquid storage tanks are communicated with a second liquid outlet pipe, water pumps and valves are arranged on the four second liquid outlet pipes, one ends, far away from the liquid storage tanks, of the four second liquid outlet pipes are communicated with a first liquid inlet pipe, the tops of all the four liquid storage tanks are communicated with a second liquid inlet pipe, water pumps and valves are arranged on the four second liquid inlet pipes, one ends, far away from the liquid storage tanks, of the four second liquid inlet pipes are communicated with a first liquid outlet pipe, and different operations on the crystallizer copper pipe body can be conveniently and simultaneously performed through different liquids in the four liquid storage tanks.

According to a preferred technical scheme, the surface of the operating platform and the bottom surface of the top plate are positioned at opposite positions of the side wall of the crystallizer copper pipe body, the side wall of the insulating pad is in contact connection with the side wall of the crystallizer copper pipe body, the surface of the operating platform is positioned below the anode and is fixedly connected with an insulating block, the top of the insulating block is rotatably connected with the bottom of a rotating rod at the bottom of the crystallizer copper pipe body, an insulating sleeve is arranged between the side wall of the top plate and the rotating rod above the anode, one side of the insulating sleeve is fixedly connected with the side wall of the top plate, the other side of the insulating sleeve is rotatably connected with the side wall of the rotating rod above the anode, and the safety performance of an electrolysis process is improved conveniently through the insulating sleeve, the insulating block and the insulating pad.

The utility model has the following advantages: the brush rod is driven to move up and down through the first electric telescopic rod, so that the inner side wall of the crystallizer copper pipe body is cleaned by bristles on the brush rod, and the situation that the electrolyte is polluted when the electrolyte is introduced to the crystallizer copper pipe body and the subsequent normal use is influenced is avoided; the dust raised around the brush rod is conveniently absorbed through the dust absorption pipe by the dust collector, and the raised dust is prevented from falling onto the inner surface of the copper pipe body of the crystallizer again.

Drawings

FIG. 1 is a schematic front cut-away view of a preferred embodiment of the present invention;

fig. 2 is a schematic view of a rotating lever coupling structure according to a preferred embodiment of the present invention;

fig. 3 is an enlarged schematic view at a of a preferred embodiment of the present invention.

Description of reference numerals: 1. a base plate; 2. an operation table; 3. a top plate; 4. a drive port; 5. a brush bar; 6. a first electric telescopic rod; 7. a crystallizer copper pipe body; 8. a support bar; 9. a second electric telescopic rod; 10. an anode; 11. a first liquid outlet pipe; 12. a water pump; 13. a first liquid inlet pipe; 14. a liquid storage tank; 15. a second liquid inlet pipe; 16. a second liquid outlet pipe; 17. a vacuum cleaner; 18. a dust collection pipe; 19. placing the plate; 20. a drive motor; 21. a power source; 22. rotating the rod; 23. an insulating block; 24. an insulating sleeve; 25. an insulating pad.

Detailed Description

The technical scheme of the utility model is clearly and completely described in the following with reference to the accompanying drawings. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model will be further explained with reference to the drawings.

Referring to fig. 1-3, the electroplating apparatus for wear-resistant coating on the inner surface of a copper tube of a crystallizer according to the present invention comprises: bottom plate 1, 2 bottoms of operation panel are passed through the spliced pole and are connected with 1 fixed surface of bottom plate, and 3 levels of roof are located 2 tops of operation panel, and drive mouth 4 runs through and sets up in 3 surperficial one sides of roof, and 5 vertical drive mouthful 4 tops that are located of brush-holder stud.

The bottom of an electric telescopic rod 6 is fixedly connected with the top of a brush rod 5, the top of the electric telescopic rod 6 is fixedly connected with a mounting frame, the surface of a top plate 3 is fixedly connected with the bottom of the mounting frame, the surface of the brush rod 5 is fixedly connected with brush hair, a crystallizer copper pipe body 7 is arranged on the surface of an operation table 2 and far away from a driving port 4, the bottoms of four supporting rods 8 are respectively and fixedly connected with four corners of the surface of the operation table 2, the tops of the four supporting rods 8 are respectively and fixedly connected with a second electric telescopic rod 9, the tops of the four second electric telescopic rods 9 are respectively and fixedly connected with the bottom of the top plate 3, an anode 10 is vertically positioned in the crystallizer copper pipe body 7, the bottom and the top of the anode 10 are respectively and vertically and fixedly connected with a rotating rod 22, a driving motor 20 is fixedly connected with the surface of the top plate 3 through a connecting frame and is positioned above the crystallizer copper pipe body 7, and the top of the rotating rod 22 above the anode 10 penetrates through the side wall of the top plate 3 and is fixedly connected with the output end of the driving motor 20, 11 one end pipes of a drain pipe pass 3 lateral walls of roof and are located crystallizer copper pipe body 7 tops, 13 one end of feed liquor pipe runs through 2 lateral walls of operation panel and is located crystallizer copper pipe body 7 below, power 21 places in 3 surfaces of roof and is located driving motor 20 by side, positive pole 10 and power 21 electric connection, drive brush-holder stud 5 through an electric telescopic handle 6 and reciprocate, make the brush hair on the brush-holder stud 5 clean 7 inside walls of crystallizer copper pipe body, avoid making the electrolyte receive the pollution when letting in the electrolyte, influence subsequent normal use.

Place 2 surfaces of board 19 fixedly connected with operation panel and be located brush-holder stud 5 under, dust catcher 17 dismantles and connects and be located 19 below on the bottom plate 1 surface, 18 one ends of dust absorption pipe and 17 intercommunications of dust catcher, 18 other ends of dust absorption pipe pass 2 lateral walls of operation panel and place 19 lateral walls of board and place 19 surface parallel and level of board, be convenient for absorb the dust of raising around the brush-holder stud 5 through dust catcher 17 through 18 dust absorption pipes, the dust of avoiding raising falls on crystallizer copper pipe body 7 internal surface again.

Two insulating pad 25 respectively fixed connection are located 7 lateral walls relative positions of crystallizer copper pipe body in the surface of operation panel 2 and the 3 bottom surfaces of roof, 7 lateral walls of crystallizer copper pipe body all are connected with the contact of two insulating pad 25 lateral walls, insulating block 23 fixed connection is located the positive pole 10 below in the surface of operation panel 2, 23 tops of insulating blocks are connected with the dwang 22 bottom rotation of positive pole 10 below, be equipped with insulating cover 24 in the middle of the dwang 22 of positive pole 10 top and the 3 lateral walls of roof, insulating cover 24 one side is connected with the dwang 22 lateral wall rotation of positive pole 10 top, insulating cover 24 opposite side and 3 lateral walls fixed connection of roof, be convenient for improve the security performance of electrolysis process through insulating block 23 and insulating cover 24 and insulating pad 25.

Four liquid reserve tank 14 dismantles and connects and be located crystallizer copper pipe body 7 below on bottom plate 1 surface, four 14 one ends of liquid reserve tank all communicate No. two drain pipes 16, four No. two drain pipes 16 keep away from 14 one ends of liquid reserve tank all with feed liquor pipe 13 intercommunication No. one, all be equipped with valve and water pump 12 on four No. two drain pipes 16, all communicate No. two feed liquor pipes 15 on No. one drain pipe 11, No. two feed liquor pipes 15 keep away from 11 one ends of drain pipe all with the 14 top intercommunications of liquid reserve tank that correspond, electrolyte, activation liquid, water and degreaser are equipped with respectively in through four liquid reserve tank 14, be convenient for carry out different operations to crystallizer copper pipe body 7, the practicality is higher.

Specifically, when the crystallizer copper tube body 7 is used, the crystallizer copper tube body 7 is placed below the driving motor 20, the upper side and the lower side of the crystallizer copper tube body 7 are in contact connection with the insulating pad 25, then the anode 10 is connected with the power supply 21, the driving motor 20 drives the anode 10 to rotate, the water pumps 12 and valves on the corresponding second liquid inlet tube 15 and the corresponding second liquid outlet tube 16 are opened, liquid in the corresponding liquid storage tanks 14 enters the crystallizer copper tube body 7 through the first liquid inlet tube 13, electrolytes, activating liquid, water and degreasing agents are respectively arranged in the four liquid storage tanks 14, the inner side wall of the crystallizer copper tube body 7 realizes corresponding functions, after the liquid in the crystallizer copper tube body 7 overflows, the liquid enters the liquid storage tanks 14 again from the corresponding second liquid inlet tubes 15 through the first liquid outlet tube 11, and when the crystallizer copper tube body 7 realizes the corresponding functions, place next crystallizer copper pipe body 7 that will handle on placing board 19, then make brush-holder stud 5 reciprocate through electric telescopic handle 6 No. one, clean the stubborn spot of crystallizer copper pipe body 7 inside wall through the brush hair on the brush-holder stud 5, start dust catcher 17 simultaneously, in the dust of the raise of scraping away the brush hair sucked dust catcher 17 from dust absorption pipe 18, further improved the clear effect of crystallizer copper pipe body 7 inside wall.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention.

Other parts of the utility model not described in detail are prior art and are not described in detail herein.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the utility model has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (5)

1. The utility model provides a crystallizer copper pipe internal surface wear-resisting cladding material electroplating device which characterized in that includes: bottom plate (1), bottom plate (1) top is through support column fixedly connected with operation panel (2), operation panel (2) top level is equipped with roof (3), roof (3) surface one side is run through and has been seted up drive mouth (4), drive mouthful (4) top is vertical to be equipped with brush-holder stud (5).

2. The electroplating device for the wear-resistant coating on the inner surface of the copper pipe of the crystallizer according to claim 1, wherein the top of the brush rod (5) is fixedly connected with a first electric telescopic rod (6), the top of the first electric telescopic rod (6) is fixedly connected with a mounting frame, the bottom of the mounting frame is fixedly connected with the surface of the top plate (3), the side wall of the brush rod (5) is fixedly connected with bristles, one end of the surface of the operating platform (2), which is far away from the driving port (4), is provided with a copper pipe body (7) of the crystallizer, four corners of the surface of the operating platform (2) are vertically and fixedly connected with supporting rods (8), the top of each supporting rod (8) is vertically and fixedly connected with a second electric telescopic rod (9), the top of each second electric telescopic rod (9) is fixedly connected with the bottom of the top plate (3), and an anode (10) is vertically arranged in the copper pipe body (7) of the crystallizer, the utility model discloses a crystallizer, including roof, positive pole (10), dwang (22), roof (3), connecting frame fixedly connected with driving motor (20), the dwang (22) of positive pole (10) top is kept away from positive pole (10) one end and is passed roof (3) lateral wall and driving motor (20) output fixed connection directly over positive pole (10), roof (3) surface is located crystallizer copper pipe body (7) top and runs through the intercommunication and have drain pipe (11) No. one, operation panel (2) bottom is located copper pipe body (7) below crystallizer and runs through the intercommunication and have feed liquor pipe (13) No. one, roof (3) surface is located driving motor (20) other power (21) of having placed, power (21) and positive pole (10) electric connection.

3. The electroplating device for the wear-resistant coating on the inner surface of the copper pipe of the crystallizer according to claim 1, wherein a placing plate (19) is fixedly connected to the surface of the operating platform (2) under the brush rod (5), a dust collector (17) is detachably connected to the surface of the bottom plate (1) under the placing plate (19), a dust collecting pipe (18) is communicated with the surface of the placing plate (19) in a penetrating manner, and one end, far away from the placing plate (19), of the dust collecting pipe (18) penetrates through the side wall of the operating platform (2) to be communicated with the dust collector (17).

4. The electroplating device for the wear-resistant coating on the inner surface of the copper pipe of the crystallizer as claimed in claim 2, wherein the surface of the bottom plate (1) is detachably connected with four liquid storage tanks (14) below the copper pipe body (7) of the crystallizer, the bottoms of all the four liquid storage tanks (14) are respectively communicated with a second liquid outlet pipe (16), the four second liquid outlet pipes (16) are respectively provided with a water pump (12) and a valve, one ends of the four second liquid outlet pipes (16) far away from the liquid storage tanks (14) are respectively communicated with a first liquid inlet pipe (13), the tops of all the four liquid storage tanks (14) are respectively communicated with a second liquid inlet pipe (15), the four second liquid inlet pipes (15) are respectively provided with a water pump (12) and a valve, and one ends of the four second liquid inlet pipes (15) far away from the liquid storage tanks (14) are respectively communicated with a first liquid outlet pipe (11).

5. The electroplating device for the wear-resistant coating on the inner surface of the copper pipe of the crystallizer as recited in claim 2, the surface of the operating platform (2) and the bottom surface of the top plate (3) are fixedly connected with insulating pads (25) at opposite positions on the side wall of the crystallizer copper pipe body (7), the side wall of the insulating pad (25) is in contact connection with the side wall of the crystallizer copper pipe body (7), an insulating block (23) is fixedly connected on the surface of the operating platform (2) below the anode (10), the top of the insulating block (23) is rotatably connected with the bottom of a rotating rod (22) at the bottom of the crystallizer copper pipe body (7), an insulating sleeve (24) is arranged between the side wall of the top plate (3) and the rotating rod (22) above the anode (10), insulating cover (24) one side and roof (3) lateral wall fixed connection, insulating cover (24) opposite side is connected with dwang (22) lateral wall rotation above positive pole (10).

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