A hot galvanizing equipment for steel strand production

By using a fan suction hood system and atomizing nozzles to spray cooling water, the problem of water vapor diffusion during the cooling of high-temperature steel strands was solved, improving the working environment and achieving water resource recycling and energy-saving effects.

CN224394979UActive Publication Date: 2026-06-23GONGYI YUANHUA METAL PRODUCTS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GONGYI YUANHUA METAL PRODUCTS CO LTD
Filing Date
2025-08-07
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

When high-temperature steel strands come into contact with cold water, water vapor is generated, which diffuses throughout the workshop and affects the working environment.

Method used

A fan and a steam suction hood are used to guide water vapor into a condenser for condensation. Water is recycled using a filter plate and a water collection tank. Cooling water is sprayed onto the steel strands through atomizing nozzles.

Benefits of technology

It effectively solved the problem of water vapor diffusion in the workshop, improved the working environment, and achieved the goals of water resource recycling and energy conservation.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224394979U_ABST
    Figure CN224394979U_ABST
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Abstract

The utility model discloses a hot galvanizing equipment for steel strand production belongs to steel strand processing field, including mounting panel, the upper surface of mounting panel is installed with two groups of support leg, and the upper surface of two groups of support leg is connected with cooling platform in common, the upper surface of cooling platform is installed with cooling box, the upper surface of cooling box is provided with fan, and the output of fan is linked with condensing box, and the front of condensing box is linked with first water pipe. The utility model sets up utilize fan and steam suction hood, and the water vapor produced in production is introduced into condensing box and condenses, solves the water vapor in workshop diffusion, has improved the working environment obviously, and simultaneously, the novel equipment is equipped with filter plate, water collecting tank and water pipe, can filter and collect the water after cooling and utilize again, avoids the waste of water resources, improves the resource utilization efficiency, realizes the goal of energy saving and environmental protection more, contributes the strength for the sustainable development.
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Description

Technical Field

[0001] This utility model relates to the field of steel strand processing technology, specifically a hot-dip galvanizing equipment for steel strand production. Background Technology

[0002] Steel strand is a steel product made of multiple steel wires twisted together. The surface of carbon steel can be coated with a zinc layer, zinc-aluminum alloy layer, aluminum cladding layer, copper plating layer, epoxy resin coating, etc., as needed. During the hot-dip galvanizing process, after being treated with high-temperature zinc liquid, the surface temperature of the steel strand is still very high, and a cooling device is required for cooling.

[0003] When water cooling is used, a violent heat exchange occurs when the high-temperature steel strand comes into contact with cold water. The cold water quickly absorbs the heat from the surface of the steel strand, causing the water temperature to rise sharply and partially vaporize, forming water vapor. The water vapor diffuses throughout the workshop through the airflow, affecting the working environment.

[0004] Therefore, this utility model provides a hot-dip galvanizing equipment for steel strand production to solve the above problems. Utility Model Content

[0005] (a) Technical problems to be solved

[0006] This utility model provides a hot-dip galvanizing equipment for steel strand production, which aims to solve the problem that when high-temperature steel strands come into contact with cold water, water vapor is formed and diffuses throughout the workshop, affecting the working environment.

[0007] (II) Technical Solution

[0008] To achieve the above objectives, this utility model provides the following technical solution: It includes an installation plate, on the upper surface of which are mounted two sets of support legs. The upper surfaces of the two sets of support legs are connected to a cooling platform. A cooling box is mounted on the upper surface of the cooling platform. A fan is mounted on the upper surface of the cooling box. The output end of the fan is connected to a condenser box. A first water supply pipe is connected to the front of the condenser box. A steam suction pipe is connected to the input end of the fan. The end of the steam suction pipe away from the fan passes through the cooling box and connects to a steam suction hood. A water pump is located below the cooling platform. The input end of the water pump is connected to a water storage tank. The water storage tank is connected to the end of the first water supply pipe away from the condenser box. A water inlet pipe is connected to the output end of the water pump. The end of the water inlet pipe away from the water pump passes through the cooling box and connects to an installation rod. Multiple atomizing nozzles are mounted on the bottom surface of the installation rod.

[0009] As a preferred technical solution of this application, a filter plate is installed inside the cooling box, and a water collection tank is installed on the bottom surface of the filter plate.

[0010] As a preferred technical solution of this application, the bottom surface of the water collection tank is connected to a second water supply pipe, and the end of the second water supply pipe away from the water collection tank is connected to a water storage tank.

[0011] As a preferred technical solution of this application, two first support columns are installed on the upper surface of the mounting plate, one of which has a first motor installed on its front side, and the output end of the first motor passes through the first support column and is connected to a wire feeding roller.

[0012] As a preferred technical solution of this application, the upper surface of the mounting plate is connected to a galvanizing tank, and a galvanizing roller is rotatably installed inside the galvanizing tank.

[0013] As a preferred technical solution of this application, two sets of fixing blocks are installed on the upper surface of the galvanizing pool, and a conveying roller is rotatably installed on the outer surface of each set of fixing blocks.

[0014] As a preferred technical solution of this application, two second support columns are installed on the upper surface of the mounting plate, one of which has a second motor installed on its front side, and the output end of the second motor passes through the second support column and is connected to a take-up roller.

[0015] (III) Beneficial Effects

[0016] This invention utilizes a fan and a steam suction hood to guide the water vapor generated during production into a condensation box for condensation, solving the problem of water vapor permeating the workshop and significantly improving the working environment. At the same time, this new invention is equipped with a filter plate, a water collection tank, and a water supply pipe, which can filter, collect, and reuse the cooled water, avoiding water waste, improving resource utilization efficiency, and achieving the goal of energy conservation and environmental protection. Attached Figure Description

[0017] Figure 1 A three-dimensional structural diagram of a hot-dip galvanizing equipment for steel strand production;

[0018] Figure 2 This is a schematic diagram of the cooling platform in a hot-dip galvanizing equipment for steel strand production.

[0019] Figure 3 A top view of a hot-dip galvanizing equipment for producing steel strand;

[0020] Figure 4 This is a schematic diagram of the wire feeding roller in a hot-dip galvanizing equipment for steel strand production.

[0021] In the picture:

[0022] 1. Mounting plate; 2. First support column; 3. First motor; 4. Pay-off roller; 5. Galvanizing tank; 6. Conveyor roller; 7. Galvanizing roller; 8. Support leg; 9. Cooling platform; 10. Cooling box; 11. Fan; 12. Steam suction pipe; 13. Steam suction hood; 14. Condensation box; 15. First water supply pipe; 16. Water pump; 17. Water storage tank; 18. Water inlet pipe; 19. Mounting rod; 20. Atomizing nozzle; 21. Filter plate; 22. Water collection tank; 23. Second water supply pipe; 24. Second support column; 25. Second motor; 26. Take-up roller; 27. Fixing block. Detailed Implementation

[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0024] like Figures 1 to 4 As shown, this utility model provides a hot-dip galvanizing equipment for steel strand production, including a mounting plate 1. Two sets of support legs 8 are mounted on the upper surface of the mounting plate 1. A cooling platform 9 is connected to the upper surface of the two sets of support legs 8, providing basic support and a stable platform for the entire equipment. A cooling box 10 is mounted on the upper surface of the cooling platform 9, providing cooling space for the steel strand to pass through. A fan 11 is installed on the upper surface of the cooling box 10. The output end of the fan 11 is connected to a condenser box 14. A first water supply pipe 15 is connected to the front of the condenser box 14. A steam suction pipe 12 is connected to the input end of the fan 11. The end of the steam suction pipe 12 away from the fan 11 passes through the cooling box 10 and connects to... The steam suction hood 13 absorbs and condenses the water vapor generated by the cooling water and the high-temperature steel strand. A water pump 16 is installed below the cooling platform 9. The input end of the water pump 16 is connected to a water storage tank 17 to provide cooling water. The water storage tank 17 is connected to the end of the first water supply pipe 15 away from the condensation box 14, so that the condensed water can be reused. The output end of the water pump 16 is connected to a water inlet pipe 18. The end of the water inlet pipe 18 away from the water pump 16 passes through the cooling box 10 and is connected to a mounting rod 19. Multiple atomizing nozzles 20 are installed on the bottom surface of the mounting rod 19. The atomizing nozzles 20 atomize the cooling water and spray it directly onto the steel strand passing through the cooling box 10 for efficient cooling.

[0025] The cooling box 10 is equipped with a filter plate 21, and a water collection tank 22 is installed on the bottom surface of the filter plate 21. The filter plate 21 intercepts impurities in the cooled water and collects them in the water collection tank 22.

[0026] The bottom surface of the water collection tank 22 is connected to a second water supply pipe 23. The end of the second water supply pipe 23 away from the water collection tank 22 is connected to the water storage tank 17. Water in the water collection tank 22 is returned to the water storage tank 17 through the second water supply pipe 23, so as to realize the recycling of water.

[0027] Two first support columns 2 are installed on the upper surface of the mounting plate 1. A first motor 3 is installed on the front of one of the support columns. The output end of the first motor 3 passes through the first support column 2 and is connected to a wire feeding roller 4. The original steel strand is fed out from the wire feeding roller 4 and driven by the first motor 3.

[0028] The upper surface of the mounting plate 1 is connected to a galvanizing tank 5. A galvanizing roller 7 is rotatably installed inside the galvanizing tank 5. The steel strand is guided by the conveyor roller 6 and enters the galvanizing tank 5. The galvanizing tank 5 is filled with molten zinc. The steel strand is immersed in the molten zinc for hot-dip galvanizing treatment by being guided by the galvanizing roller 7.

[0029] Two sets of fixing blocks 27 are installed on the upper surface of the galvanizing tank 5. Each set of fixing blocks 27 has a conveying roller 6 rotatably mounted on its outer surface. The conveying roller 6 is used to guide the steel strand above the galvanizing tank 5.

[0030] Two second support columns 24 are installed on the upper surface of the mounting plate 1. A second motor 25 is installed on the front of one of the support columns. The output end of the second motor 25 passes through the second support column 24 and is connected to a take-up roller 26, which is used to wind the hot-dip galvanized and cooled steel strand. The take-up roller is driven by the second motor 25 to provide winding power.

[0031] Working principle: First, the steel strand is driven by the first motor 3 and released from the unwinding roller 4. Guided by the conveyor roller 6, the steel strand enters the galvanizing bath 5. With the assistance of the galvanizing roller 7, the wire is immersed in the high-temperature molten zinc liquid to complete the hot-dip galvanizing process, and a zinc layer is formed on the surface. After galvanizing, the high-temperature steel strand enters the cooling box 10. The water pump 16 draws cooling water from the water storage tank 17 and sends it to the atomizing nozzle 20 in the cooling box 10 through the water inlet pipe 18. The nozzle atomizes the water into fine droplets and sprays them directly onto the surface. The steel strand absorbs a large amount of heat to achieve rapid cooling. The fan 11 starts and draws away the generated water vapor through the steam suction hood 13 and the steam suction pipe 12, which enters the condenser box 14 for condensation. Then, it is guided into the water storage tank 17 through the first water supply pipe 15. The cooled water is filtered through the filter plate 21 and enters the water collection tank 22. Finally, it enters the water storage tank 17 through the second water supply pipe 23. The cooled steel strand leaves the cooling box 10 and is finally wound and collected by the take-up roller 26 driven by the second motor 25.

[0032] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A hot-dip galvanizing equipment for producing steel strand, comprising a mounting plate (1), characterized in that: Two sets of support legs (8) are mounted on the upper surface of the mounting plate (1). The upper surfaces of the two sets of support legs (8) are connected to a cooling platform (9). A cooling box (10) is mounted on the upper surface of the cooling platform (9). A fan (11) is provided on the upper surface of the cooling box (10). The output end of the fan (11) is connected to a condenser box (14). The front of the condenser box (14) is connected to a first water supply pipe (15). The input end of the fan (11) is connected to a steam suction pipe (12). The end of the steam suction pipe (12) away from the fan (11) passes through... After passing through the cooling box (10), a steam suction hood (13) is connected. A water pump (16) is installed below the cooling platform (9). The input end of the water pump (16) is connected to a water storage tank (17). The water storage tank (17) is connected to the end of the first water supply pipe (15) away from the condenser (14). The output end of the water pump (16) is connected to a water inlet pipe (18). The end of the water inlet pipe (18) away from the water pump (16) passes through the cooling box (10) and is connected to an installation rod (19). Multiple atomizing nozzles (20) are installed on the bottom surface of the installation rod (19).

2. The hot-dip galvanizing equipment for producing steel strand according to claim 1, characterized in that: The cooling box (10) is equipped with a filter plate (21), and a water collection tank (22) is installed on the bottom surface of the filter plate (21).

3. The hot-dip galvanizing equipment for steel strand production according to claim 2, characterized in that: The bottom surface of the water collection tank (22) is connected to a second water supply pipe (23), and the end of the second water supply pipe (23) away from the water collection tank (22) is connected to the water storage tank (17).

4. The hot-dip galvanizing equipment for steel strand production according to claim 1, characterized in that: Two first support columns (2) are installed on the upper surface of the mounting plate (1). A first motor (3) is installed on the front of one of the support columns. The output end of the first motor (3) passes through the first support column (2) and is then installed with a wire feeding roller (4).

5. The hot-dip galvanizing equipment for producing steel strand according to claim 1, characterized in that: The upper surface of the mounting plate (1) is connected to a galvanizing tank (5), and a galvanizing roller (7) is rotatably installed inside the galvanizing tank (5).

6. The hot-dip galvanizing equipment for producing steel strand according to claim 5, characterized in that: Two sets of fixing blocks (27) are installed on the upper surface of the galvanizing pool (5), and a conveying roller (6) is rotatably installed on the outer surface of each set of fixing blocks (27).

7. The hot-dip galvanizing equipment for producing steel strand according to claim 1, characterized in that: Two second support columns (24) are installed on the upper surface of the mounting plate (1). A second motor (25) is installed on the front of one of the support columns. The output end of the second motor (25) passes through the second support column (24) and is then installed with a take-up roller (26).