CN220450269U - Steel wire galvanization device - Google Patents

Abstract

The utility model discloses a steel wire galvanization device, which comprises a galvanization pool, wherein two guide shafts II are arranged in the galvanization pool; the inside of galvanizing bath rotates there are two (mixing) shafts, two (mixing) shaft one end extends to outside the galvanizing bath, is located outside the galvanizing bath two (mixing) shaft the outside all is fixed with drive wheel one, two the outside cover of drive wheel one is equipped with belt one, the below of galvanizing bath one end is fixed with support one, and motor one is installed to one end of support one, the output shaft of motor one and one end fixed connection of one of them drive wheel one. When the steel wire galvanizing device is used, after the motor I is started, the output shaft of the motor I drives the stirring shaft to rotate through the driving wheel I and the belt, and the stirring shaft is used for mixing galvanized materials in the galvanizing bath in a stirring manner during rotation, so that the uniformity of the materials is improved, and the galvanized materials on the surface of the steel wire are uniform.

Description

Steel wire galvanization device

Technical Field

The utility model relates to the technical field of galvanization equipment, in particular to a steel wire galvanization device.

Background

Galvanization refers to a surface treatment technique of plating a layer of zinc on the surface of metal, alloy or other materials to play roles of beauty, rust prevention and the like. The method mainly adopts hot galvanizing, and when the material is subjected to galvanization, a galvanization device is needed.

Most of the galvanizing devices are galvanizing ponds, zinc materials are in the galvanizing ponds, when steel wires are processed, after steel wires needing galvanizing pass through the galvanizing ponds, a zinc layer is attached to the surfaces of the steel wire materials, after the zinc layer materials on the surfaces of the steel wires are dried and fixed, the surfaces of the steel wires are plated with the zinc materials, so that the steel wire materials have an antirust effect.

After a period of time in the galvanized material, the galvanized material in the steel wire galvanizing device is piled up below under the action of gravity, so that the galvanized material is unevenly mixed, and the problem of uneven galvanized material on the upper surface of the finished steel wire is caused.

Disclosure of Invention

The utility model aims to provide a steel wire galvanizing device, which solves the problems that after a period of time passes in galvanized materials, galvanized materials in the steel wire galvanizing device are accumulated under the action of gravity, so that the galvanized materials are unevenly mixed, and the galvanized materials on the upper surface of the finished steel wire are unevenly plated.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the steel wire galvanization device comprises a galvanization pool, wherein two guide shafts II are arranged in the galvanization pool;

the inside of galvanizing bath rotates there are two (mixing) shafts, two (mixing) shaft one end extends to outside the galvanizing bath, is located outside the galvanizing bath two (mixing) shaft the outside all is fixed with drive wheel one, two the outside cover of drive wheel one is equipped with belt one, the below of galvanizing bath one end is fixed with support one, and motor one is installed to one end of support one, the output shaft of motor one and one end fixed connection of one of them drive wheel one.

Preferably, two guide shafts I are arranged at the left side position only in the galvanized pool, and two guide shafts III are arranged on the right side frame at the top end of the galvanized pool.

Preferably, the surfaces of the first guide shaft, the second guide shaft and the third guide shaft are equidistantly provided with grooves, and the second guide shaft and the third guide shaft are distributed in an up-down staggered mode.

Preferably, a bevel board is arranged below the third guide shaft in the galvanization pool, and the lowest point of the bevel board is positioned at the upper horizontal plane of the second guide shaft below.

Preferably, a third bracket is fixed on the galvanized pool at the right position, three fan blades rotate on the third bracket, a second transmission shaft is fixed above the three fan blades, two second transmission shafts are arranged on the fan blades at the middle position, and a second belt is sleeved between the two second transmission shafts at the horizontal position.

Preferably, a second support is fixed at the position of one end of the third support, a second motor is installed at the top end of the second support, and the output end of the second motor is fixedly connected with the top of one of the transmission shafts.

Compared with the prior art, the utility model has the beneficial effects that:

1. one end of the stirring shaft extends out of the galvanized pool, a first driving wheel is fixed outside the stirring shaft, a first belt is sleeved outside the first driving wheel, a first motor is arranged at one end of the bracket, an output shaft of the first motor is fixedly connected with one end of one driving wheel, after the first motor is started, the output shaft of the first motor drives the stirring shaft to rotate through the first driving wheel and the belt, and the stirring shaft mixes galvanized materials in the galvanized pool in a stirring manner during rotation, so that the uniformity of the materials is improved, and the galvanized materials on the surface of a steel wire are uniform;

2. the fan blade is rotated on the third support, the transmission shaft II is fixed above the fan blade, the transmission shaft II is arranged on the fan blade at the middle position, the belt II is sleeved between the transmission shafts II at the horizontal position, the motor II is installed at the top end of the second support, the output end of the motor II is fixedly connected with the top of one of the transmission shafts II, the motor II is started, the three fan blades are driven to rotate simultaneously through the two groups of the transmission shafts II and the belt II, and the galvanized steel wire can be simply air-dried through the rotation of the fan blades;

3. through the inside inclined plane that is located the guiding axle three below of galvanization pond, inclined plane nadir is located the horizontal plane department on the guiding axle two of below, and the steel wire after just ending galvanization removes along guiding axle three, and the galvanized material of dripping on the steel wire flows back into the galvanizing pond along the inclined plane, reduces extravagant and avoids pollution problem.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of a partially enlarged structure of the present utility model;

FIG. 3 is a schematic top view of the present utility model;

FIG. 4 is a schematic elevational view of the present utility model;

fig. 5 is a schematic side view of the present utility model.

In the figure: 1. a galvanization pool; 2. a first driving wheel; 3. a first belt; 4. a first motor; 5. a first bracket; 6. a guide shaft I; 7. a stirring shaft; 8. a second guide shaft; 9. a guide shaft III; 10. a bevel panel; 11. a fan blade; 12. a transmission shaft II; 13. a second motor; 14. a second bracket; 15. a second belt; 16. and a third bracket.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the steel wire galvanization device comprises a galvanization pool 1, wherein two guide shafts II 8 are arranged in the galvanization pool 1; the second guide shaft 8 is used for winding steel wires and has a tensioning effect. The inside of the galvanizing bath 1 rotates to be provided with two stirring shafts 7, wherein the highest point of the two stirring shafts 7 is positioned below the lowest end of the second guide shaft 8, and the two stirring shafts 7 rotate simultaneously to stir the galvanized material in the galvanizing bath 1. Two (7) one ends of (7) stirring shaft extend to outside of the zinc plating pool (1), a sealing gasket is arranged between the inner wall of the zinc plating pool (1) and the stirring shaft (7), and the sealing gasket is connected with the zinc plating pool (1) and the stirring shaft (7) for assembly by the prior common technology. The outside of two stirring shafts 7 outside the galvanization pool 1 is fixedly provided with a first driving wheel 2, the outside of the two first driving wheels 2 is sleeved with a first belt 3, and the first driving wheel 2 and the first belt 3 form a driving structure. A first bracket 5 is fixed below one end of the galvanized bath 1, and the side of the first bracket 5 is regarded as L-shaped. And one end of the first bracket 5 is provided with a first motor 4, and an output shaft of the first motor 4 is fixedly connected with one end of one of the driving wheels 2. After the motor I4 is started, an output shaft of the motor I4 drives the driving wheel I2 to rotate, and the driving wheel I2 and the belt I3 drive the two stirring shafts 7 to rotate simultaneously; the stirring shaft 7 stirs and mixes the galvanized material in the galvanized bath 1 when rotating, so that the material is more uniform.

Referring to fig. 1-4, two guide shafts 6 are arranged up and down only at the left side position inside the galvanizing bath 1, and the guide shafts 6 play a separate placing state on steel wires. The right side frame at the top end of the galvanizing bath 1 is provided with two guide shafts III 9. The two guide shafts III 9 are arranged in parallel, a certain gap is reserved between the two guide shafts III 9, and the guide shafts III 9 support galvanized steel wires. In addition, grooves are formed in the surfaces of the first guide shaft 6, the second guide shaft 8 and the third guide shaft 9 in an equidistant manner, so that steel wires are separated and placed, two adjacent steel wires are not contacted, and the surface galvanizing effect of the steel wires is not affected. The two guide shafts II 8 are distributed in a vertically staggered way. The steel wire is wound out along the second guide shaft 8 or under the second guide shaft 8, so that a supporting effect is achieved.

Referring to fig. 1, a slant plate 10 is disposed below the guide shaft three 9 in the galvanized pool 1, and the guide shaft three 9 on the right side is disposed above the slant plate 10 on the right side. And the lowest point of the inclined panel 10 is positioned at the upper horizontal plane of the lower guide shaft II 8. After the galvanized material in the galvanizing bath 1 is subjected to surface galvanizing treatment, galvanized material dripped on the surface flows into the galvanizing bath 1 along the inclined panel 10 after the galvanized steel wire is positioned on the guide shaft III 9.

Referring to fig. 1 and 2, a third bracket 16 is fixed on the galvanized bath 1 at the right side, and the third bracket 16 is in an inverted U-shape. Three blades 11 are arranged on the third bracket 16 in a rotating way, the sum of the distances between the three blades 11 is equal to the width of the inside of the galvanizing bath 1, and the galvanized steel wire is air-dried through the three blades 11. The upper parts of the three fan blades 11 are respectively fixed with a second transmission shaft 12, the fan blades 11 positioned at the middle position are provided with two second transmission shafts 12, the upper parts of the fan blades 11 positioned at the middle position are provided with two second transmission shafts 12 up and down, and the two second transmission shafts 12 between the adjacent fan blades 11 are positioned on the same plane. A second belt 15 is sleeved between the second transmission shafts 12 at the horizontal position. The second bracket 14 is fixed at the position of one end of the top of the third bracket 16, the second motor 13 is mounted at the top end of the second bracket 14, the types of the first motor 4 and the second motor 13 can be Y112M-2, and the output end of the second motor 13 is fixedly connected with the top of one of the second transmission shafts 12. The rotation force of the output shaft of the motor II 13 is transmitted to the three fan blades 11 through a belt II 15 transmission structure between the two transmission shafts II 12; and the second motor 13 is started, the output shaft of the second motor 13 drives one of the transmission shafts 12 to rotate, at the moment, the three fan blades 11 are driven to rotate simultaneously through the cooperation of the transmission shafts 12 and the second belt 15, and the galvanized steel wire is subjected to simple air drying treatment through the rotation of the fan blades 11.

Working principle: firstly, putting galvanized materials into a galvanized pool 1, starting a motor I4, driving one driving wheel I2 to rotate by an output shaft of the motor I4, enabling two stirring shafts 7 to simultaneously rotate under the cooperation of a belt I3, stirring and mixing the galvanized materials in the galvanized pool 1 when the stirring shafts 7 rotate, enabling the materials to be more uniform, starting a motor II 13, driving one driving shaft II 12 to rotate by an output shaft of the motor II 13, and simultaneously driving three fan blades 11 to simultaneously rotate under the cooperation of the driving shaft II 12 and a belt II 15; the steel wire to be galvanized penetrates through the guide shaft I6, is tensioned along the guide shaft II 8, is wound on the guide shaft III 9 and penetrates through the bracket III 16; when the steel wire material moves, the galvanized material in the galvanized pool 1 is subjected to surface galvanizing treatment, after the galvanized steel wire is positioned on the guide shaft III 9, the galvanized material dripped on the surface flows into the galvanized pool 1 along the inclined panel 10, and the galvanized steel wire is subjected to simple air drying treatment after being rotated by the fan blades 11.

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

Claims (6)

1. The utility model provides a copper wire galvanization device, includes galvanized bath (1), its characterized in that: two guide shafts II (8) are arranged in the galvanized pool (1);

the inside rotation of galvanized bath (1) has two (7) stirring axle, two (7) one end extends to outside galvanized bath (1), is located outside galvanized bath (1) two (7) outside all is fixed with drive wheel one (2), two the outside cover of drive wheel one (2) is equipped with belt one (3), the below of galvanized bath (1) one end is fixed with support one (5), and motor one (4) are installed to the one end of support one (5), the output shaft of motor one (4) and one end fixed connection of one of them drive wheel one (2).

2. A steel wire galvanization apparatus according to claim 1, characterized by: two guide shafts I (6) are arranged at the left side position only in the galvanized pool (1) up and down, and two guide shafts III (9) are arranged on the right side frame at the top end of the galvanized pool (1).

3. A steel wire galvanization apparatus according to claim 2, characterized in that: the surfaces of the first guide shaft (6), the second guide shaft (8) and the third guide shaft (9) are equidistantly separated from each other and provided with grooves, and the two guide shafts (8) are distributed in an up-down staggered mode.

4. A steel wire galvanization apparatus according to claim 3, characterized in that: the galvanized bath (1) is internally provided with a bevel board (10) below the guide shaft III (9), and the lowest point of the bevel board (10) is positioned at the upper horizontal plane of the guide shaft II (8) below.

5. A steel wire galvanization apparatus according to claim 1, characterized by: the galvanized bath (1) is characterized in that a third bracket (16) is fixed at the right position, three fan blades (11) are rotated on the third bracket (16), two transmission shafts (12) are fixed above the three fan blades (11), two transmission shafts (12) are arranged on the fan blades (11) at the middle position, and a second belt (15) is sleeved between the two transmission shafts (12) at the horizontal position.

6. A steel wire galvanization apparatus according to claim 5, characterized in that: and a second bracket (14) is fixed at the position of one end of the top of the third bracket (16), a second motor (13) is mounted at the top end of the second bracket (14), and the output end of the second motor (13) is fixedly connected with the top of one of the second transmission shafts (12).