CN217709715U - Steel wire electrogalvanizing equipment - Google Patents

Abstract

The utility model discloses a steel wire electrogalvanizing equipment, including the electrolytic bath, electrolytic bath one end middle part position department installs and aerifys the mechanism, it includes mounting panel, air pump, intake pipe, connecting pipe, stand pipe, hollow section of thick bamboo, ejector pin, guiding hole and supporting spring to aerify the mechanism, electrolytic bath one end middle part position department welding has the mounting panel, the utility model discloses a supporting spring is convenient for support the position of ejector pin to through a plurality of ejector pins, be convenient for adjust according to the holistic position of outside steel wire, make the steel wire wholly extrude a plurality of ejector pins, and the ejector pin around the steel wire carries on spacing fixedly to it, prevent that the steel wire from appearing rocking when electroplating, through stand pipe and air pump simultaneously, be convenient for to the inside injected air of hollow section of thick bamboo, the cooperation guiding hole is convenient for derive the bubble, drives the plating solution and turns in the steel wire outer end, makes things convenient for here steel wire and ejector pin contact position to electroplate work, avoids the ejector pin to shelter from the steel wire bottom and electroplates the position.

Description

Steel wire electrogalvanizing equipment

Technical Field

The utility model relates to a steel wire processing technology field specifically is a steel wire electrogalvanizing equipment.

Background

With the development of society, various types of steel wires are increasingly used in various occasions. In particular, galvanized steel wires have smooth surfaces, no cracks or corrosion, uniform galvanized layers, strong adhesive force, durable corrosion resistance and excellent toughness and elasticity, and are mainly applied to planting greenhouses, farms, cotton packing and the manufacture of springs and steel wire ropes;

however, when the steel wire is placed into or pulled out of the electrolytic cell by using the hanger, the steel wire is easy to shake at the bottom of the hanger, so that when the steel wire is placed into the electroplating solution, the electroplating solution is easy to sputter, and needs to be cleaned by workers independently, and the labor intensity is increased.

SUMMERY OF THE UTILITY MODEL

The utility model provides a steel wire electrogalvanizing equipment can effectively solve and put forward in the above-mentioned background art when putting into the steel wire or pulling out the electrolytic bath with the gallows, and the steel wire easily rocks in the gallows bottom, leads to the inside plating solution contact of steel wire and electrolytic bath, and the phenomenon of sputtering easily appears in the plating solution, needs the staff to clear up alone, increases intensity of labour's problem.

In order to achieve the above object, the utility model provides a following technical scheme: a steel wire electrogalvanizing device comprises an electrolytic cell, wherein an inflation mechanism is arranged in the middle of one end of the electrolytic cell and comprises a mounting plate, an air pump, an air inlet pipe, a connecting pipe, a guide pipe, a hollow cylinder, an ejector rod, a guide hole and a support spring;

the welding of electrolytic cell one end middle part position department has the mounting panel, the air pump is installed to mounting panel top symmetry, the intake pipe is installed to air pump one end, intake pipe one end fixedly connected with connecting pipe, connecting pipe outer end one side position department equidistance fixedly connected with stand pipe, the welding of the inside bottom equidistance of electrolytic cell has hollow section of thick bamboo, the inside embedding that slides of hollow section of thick bamboo has the ejector pin, the guiding hole has been seted up to ejector pin outer end equidistance, the spot welding of ejector pin bottom has supporting spring.

Preferably, the guide tube is internally communicated with the hollow cylinder, and the input end of the air pump is electrically connected with the output end of an external power supply.

Preferably, the bottom end of the supporting spring is spot-welded to the bottom end of the interior of the electrolytic cell, and the bottom of the outer end of the ejector rod is matched with the interior of the hollow cylinder.

Preferably, a supporting mechanism is arranged at the top of the outer end of the electrolytic cell and comprises a concave seat, a fixed rod, a sliding plate, a rotating frame, a telescopic spring, a guide rod, a sliding block, a rotating shaft, an arc plate, a rubber base plate, a supporting rod and a supporting plate;

the welding of electrolysis trough outer end top position department has the spill seat, the inside fixed embedding of spill seat has the dead lever, the slide has been cup jointed in the slip of dead lever outer end, the slide top is rotated the embedding and is had the rotating turret, the inside fixed embedding of rotating turret one end has the guide bar, the slider has been cup jointed in the slip of guide bar outer end, the slider bottom is close to guide bar outer end spot welding and has a expanding spring, slider one end middle part position department rotates the embedding and has the pivot, pivot one end welding has the arc, the arc top surface bonds has the rubber backing plate, the welding of electrolysis trough top end side position department has the bracing piece, the welding of bracing piece top has the backup pad.

Preferably, the cross section of the rotating frame is an L-shaped surface, and the outer end of the sliding plate is matched with the inner part of the concave seat.

Preferably, the top surface of the rubber gasket plate is provided with an arc-shaped surface sunken to the bottom end of the arc-shaped plate, and the width of the support plate is the same as the width of the inside of the electrolytic cell.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization:

1. be provided with aeration mechanism, through supporting spring, be convenient for support the position of ejector pin, and through a plurality of ejector pins, be convenient for adjust according to the holistic position of outside steel wire, make the steel wire whole extrude a plurality of ejector pins, and ejector pin around the steel wire carries out spacing fixed to it, prevent that the steel wire from appearing rocking when electroplating, simultaneously through stand pipe and air pump, be convenient for to the inside injected air of hollow cylinder, the cooperation guiding hole, be convenient for derive the bubble, it turns at the steel wire outer end to drive the plating solution, with this make things convenient for steel wire and ejector pin contact position to carry out electroplating work, avoid the ejector pin to shelter from steel wire bottom electroplating position.

2. Be provided with supporting mechanism, through bracing piece and backup pad, be convenient for support steel wire one end, and through the rotating turret, be convenient for adjust the position of arc, cooperation arc and rubber backing plate, be convenient for place the steel wire other end, cooperation expanding spring, the position of the arc of being convenient for supports, the steel wire is whole to be in inclination this moment, make remaining plating solution assemble steel wire one end bottom, simultaneously through guide bar and slide, the position of rotating turret is conveniently removed, the cooperation pivot, make rubber backing plate remove along the steel wire outer end, with this to clearing up remaining plating solution, prevent that the plating solution from scattering everywhere because the removal of steel wire.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the installation structure of the ejector rod of the present invention;

FIG. 3 is a schematic view of the installation structure of the guide tube of the present invention;

FIG. 4 is a schematic view of the installation structure of the rubber pad of the present invention;

reference numbers in the figures: 1. an electrolytic cell;

2. an inflation mechanism; 201. mounting a plate; 202. an air pump; 203. an air inlet pipe; 204. a connecting pipe; 205. a guide tube; 206. a hollow cylinder; 207. a top rod; 208. a guide hole; 209. a support spring;

3. a support mechanism; 301. a concave seat; 302. fixing the rod; 303. a slide plate; 304. a rotating frame; 305. a tension spring; 306. a guide bar; 307. a slider; 308. a rotating shaft; 309. an arc-shaped plate; 310. a rubber pad plate; 311. a support bar; 312. and a support plate.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example (b): as shown in fig. 1-4, the utility model provides a technical solution, a steel wire electrogalvanizing device, comprising an electrolytic cell 1, wherein an inflation mechanism 2 is installed at the middle position of one end of the electrolytic cell 1, and the inflation mechanism 2 comprises a mounting plate 201, an air pump 202, an air inlet pipe 203, a connecting pipe 204, a guide pipe 205, a hollow cylinder 206, a push rod 207, a guide hole 208 and a support spring 209;

the welding of 1 one end middle part position department of electrolytic bath has mounting panel 201, air pump 202 is installed to mounting panel 201 top symmetry, this air pump 202 model is the ET, intake pipe 203 is installed to air pump 202 one end, intake pipe 203 one end fixedly connected with connecting pipe 204, connecting pipe 204 outer end one side position department equidistance fixedly connected with stand pipe 205, the welding of 1 inside bottom equidistance of electrolytic bath has hollow section of thick bamboo 206, the transport of the outside air of being convenient for, stand pipe 205 inside communicates with each other with hollow section of thick bamboo 206 is inside, air pump 202 input and external power supply output electric connection, the inside slip embedding of hollow section of thick bamboo 206 has ejector pin 207, guiding hole 208 has been seted up to ejector pin 207 outer end equidistance, ejector pin 207 bottom spot welding has supporting spring 209, be convenient for support the position of ejector pin 207, supporting spring 209 bottom spot welding is in 1 inside bottom of electrolytic bath, ejector pin 207 outer end agrees with hollow section of thick bamboo 206 is inside.

The top of the outer end of the electrolytic cell 1 is provided with a supporting mechanism 3, and the supporting mechanism 3 comprises a concave seat 301, a fixed rod 302, a sliding plate 303, a rotating frame 304, a telescopic spring 305, a guide rod 306, a sliding block 307, a rotating shaft 308, an arc-shaped plate 309, a rubber base plate 310, a supporting rod 311 and a supporting plate 312;

the welding of 1 outer end top position department of electrolysis trough has concave seat 301, the inside fixed embedding of concave seat 301 has dead lever 302, slide 303 has been cup jointed in the slip of dead lever 302 outer end, slide 303 top is rotated the embedding and has been had rotating turret 304, be convenient for the slip of slide 303, the cross section of rotating turret 304 is the L profile, slide 303 outer end agrees with the inside of concave seat 301, rotating turret 304 one end is fixed to be embedded into has guide bar 306, guide bar 306 outer end is slided and is cup jointed slider 307, slider 307 bottom is close to guide bar 306 outer end spot welding and has expanding spring 305, be convenient for the reposition of slider 307, slider 307 one end middle part position department rotates the embedding has pivot 308, pivot 308 one end welding has arc 309, arc 309 top surface bonding has rubber tie plate 310, welding of 1 top avris position department has bracing piece 311, bracing piece 311 top welding has backup pad 312, be convenient for place outside steel wire, rubber tie plate 310 top surface sets up the arcwall face sunken to arc 309 bottom, backup pad 312 width is the same with 1 inside width.

The utility model discloses a theory of operation and use flow: firstly, a steel wire slowly moves into the electrolytic cell 1 through an external hanger, when the outer end of the steel wire is in contact with the top end of the ejector rod 207, the steel wire drives the ejector rod 207 to slide in the hollow cylinder 206, so that the ejector rod 207 drives the supporting spring 209 to compress, and the position of the ejector rod 207 is conveniently supported due to the cluster of the supporting spring 209, and the adjustment is conveniently carried out according to the integral position of the external steel wire due to the plurality of ejector rods 207, so that the steel wire integrally extrudes the plurality of ejector rods 207, the ejector rods 207 around the steel wire carry out limiting fixation to prevent the steel wire from shaking during electroplating, secondly, the air pump 202 is started, so that external air is led into the connecting pipe 204 by the air pump 202 through the air inlet pipe 203, the air is led into the guide pipe 205 through the connecting pipe 204, then the air is led into the hollow cylinder 206 by the guide pipe 205, then the air forms bubbles to move in the electrolytic cell 1 through the guide holes 208, and at the moment, the bubbles drive the electroplating solution to drive the steel wire to finely shake at the top end of the ejector rod 207 while the contact position of the steel wire, so that the steel wire and the ejector rod 207 can be conveniently turned over;

secondly, after the electroplating is completed, the steel wire is moved again through the external hanger, then the external hanger places one end of the steel wire on the top surface of the supporting plate 312, so as to support one end of the steel wire, the rotating frame 304 is pulled, the rotating frame 304 drives the sliding block 307 to move, when the sliding plate 303 drives the arc-shaped plate 309 to move to the bottom of one end of the steel wire, the other end of the steel wire is placed on the top surface of the rubber base plate 310 through the hanger, the rubber base plate 310 drives the sliding block 307 to move at the outer end of the guide rod 306, the sliding block 307 drives the telescopic spring 305 to compress, and due to the reaction force of the telescopic spring 305, the sliding block 307 is convenient to be supported, so as to support the other end of the steel wire, so that the whole steel wire is at an inclined angle, and the residual electroplating solution is gathered at the bottom of one end of the steel wire, the sliding plate 303 is pulled, so that the sliding plate moves at the outer end of the guide rod 306, so as to facilitate the movement of the rotating frame 304, and due to the action of the rotating shaft 308, the rubber base plate 310 moves along the outer end of the steel wire while adjusting the angle, so as to clean the residual electroplating solution, and prevent the steel wire from scattering around due to the movement.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A steel wire electrogalvanizing equipment comprises an electrolytic cell (1) and is characterized in that: an inflation mechanism (2) is installed in the middle of one end of the electrolytic cell (1), and the inflation mechanism (2) comprises an installation plate (201), an air pump (202), an air inlet pipe (203), a connecting pipe (204), a guide pipe (205), a hollow cylinder (206), a push rod (207), a guide hole (208) and a support spring (209);

electrolytic cell (1) one end middle part position department welding has mounting panel (201), air pump (202) are installed to mounting panel (201) top symmetry, intake pipe (203) are installed to air pump (202) one end, intake pipe (203) one end fixedly connected with connecting pipe (204), connecting pipe (204) outer end one side position department equidistance fixedly connected with stand pipe (205), the welding of electrolytic cell (1) inside bottom equidistance has hollow section of thick bamboo (206), hollow section of thick bamboo (206) inside slip embedding has ejector pin (207), guide hole (208) have been seted up to ejector pin (207) outer end equidistance, ejector pin (207) bottom spot welding has supporting spring (209).

2. The steel wire electrogalvanizing apparatus according to claim 1, characterized in that: the inside and hollow section of thick bamboo (206) communicate with each other of stand pipe (205), air pump (202) input and external power supply output electric connection.

3. The steel wire electrogalvanizing apparatus according to claim 1, wherein: the bottom end of the supporting spring (209) is spot-welded at the bottom end inside the electrolytic cell (1), and the bottom of the outer end of the ejector rod (207) is matched with the inside of the hollow cylinder (206).

4. The steel wire electrogalvanizing apparatus according to claim 1, wherein: a supporting mechanism (3) is installed at the top of the outer end of the electrolytic cell (1), and the supporting mechanism (3) comprises a concave seat (301), a fixed rod (302), a sliding plate (303), a rotating frame (304), a telescopic spring (305), a guide rod (306), a sliding block (307), a rotating shaft (308), an arc-shaped plate (309), a rubber base plate (310), a supporting rod (311) and a supporting plate (312);

electrolytic cell (1) outer end top position department welding has spill seat (301), spill seat (301) inside fixed embedding has dead lever (302), slide (303) have been cup jointed in dead lever (302) outer end slip, slide (303) top is rotated and is embedded into has rotating turret (304), the inside fixed embedding of rotating turret (304) one end has guide bar (306), guide bar (306) outer end slip has cup jointed slider (307), slider (307) bottom is close to guide bar (306) outer end spot welding and has expanding spring (305), slider (307) one end middle part position department rotates the embedding has pivot (308), pivot (308) one end welding has arc (309), arc (309) top surface bonding has rubber backing plate (310), electrolytic cell (1) top avris position department welding has bracing piece (311), bracing piece (311) top welding has backup pad (312).

5. The steel wire electrogalvanizing apparatus according to claim 4, characterized in that: the cross section of the rotating frame (304) is an L-shaped surface, and the outer end of the sliding plate (303) is matched with the inner part of the concave seat (301).

6. The steel wire electrogalvanizing apparatus according to claim 4, wherein: the top surface of the rubber backing plate (310) is provided with an arc surface sunken to the bottom end of the arc plate (309), and the width of the supporting plate (312) is the same as the width of the inside of the electrolytic cell (1).

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