CN219653137U - Feeding mechanism for steel strand hot galvanizing pretreatment assembly line - Google Patents

Abstract

The utility model relates to a feeding mechanism for a steel strand hot galvanizing pretreatment assembly line, which belongs to the technical field of steel strand hot galvanizing pretreatment and comprises a wire inlet box, wherein one end of the wire inlet box, which is close to an acid pickling mechanism, is provided with a spraying assembly, the spraying assembly is positioned above the wire inlet box, and the spraying assembly is used for spraying a water curtain for blocking acid mist into the wire inlet box. The acid mist generating device has the effect that acid mist generated in the acid washing process of the steel strand is not easy to overflow.

Description

Feeding mechanism for steel strand hot galvanizing pretreatment assembly line

Technical Field

The utility model relates to the technical field of steel strand hot galvanizing pretreatment, in particular to a feeding mechanism for a steel strand hot galvanizing pretreatment assembly line.

Background

The galvanized steel strand is a steel product which is formed by twisting a plurality of steel wires together and has high strength, good flexibility, good stability and good reliability, and in order to improve the quality of the galvanized treatment of the steel strand, the steel strand needs to be pre-treated before the galvanized treatment of the steel strand.

The steel strand is generally pretreated by adopting a steel strand hot galvanizing pretreatment assembly line in the prior art, and the steel strand hot galvanizing pretreatment assembly line comprises an acid pickling mechanism, a water washing mechanism and a plating assisting mechanism which are sequentially arranged, but a large amount of acid mist is found in the actual use process, and the acid mist not only causes air pollution, but also seriously affects the health of operators.

Disclosure of Invention

In order to prevent acid mist generated in the acid washing process of the steel strand from overflowing, the utility model provides a feeding mechanism for a steel strand hot galvanizing pretreatment assembly line.

The utility model provides a feeding mechanism for a steel strand hot galvanizing pretreatment assembly line, which adopts the following technical scheme:

the utility model provides a feeding mechanism for steel strand wires hot-galvanize pretreatment assembly line, includes the inlet wire box, the one end that the inlet wire box is close to pickling mechanism is equipped with sprays the subassembly, spray the subassembly and be located the inlet wire box top, spray the subassembly and be used for spraying the water curtain that blocks acid mist towards the inlet wire box.

Through adopting above-mentioned technical scheme, through the setting of spraying the subassembly, can play the effect of locking acid mist on the one hand for acid mist that produces among the pickling mechanism is difficult for overflowing from the intercommunication department of pickling mechanism and inlet wire box, and the surface of steel strand wires probably has the dust on the other hand, and the existence of dust can influence the galvanized quality of steel strand wires, and the water curtain can clear up the dust on steel strand wires surface, promotes the galvanized quality of steel strand wires.

Preferably, the spraying assembly comprises a spraying box, a spraying groove communicated with the incoming line box is formed in the bottom of the spraying box in a penetrating mode, a drainage tube is arranged in the spraying box, the drainage tube is attached to the inner wall of the spraying groove, and water in the spraying box flows towards the incoming line box along the outer wall of the drainage tube to form a water curtain.

Through adopting above-mentioned technical scheme, through the setting of drainage tube, for the water that flows and form the water curtain in the inlet wire box through the spray tank provides the direction, promoted the mobility and the integrality of the water curtain that form.

Preferably, a partition plate is arranged in the spraying box and is attached to the inner wall of the spraying box, the partition plate is positioned at one end of the drainage tube, which is away from the spraying groove, and the height of the partition plate is lower than the end plate of the spraying box in the vertical direction but higher than the drainage tube.

Through adopting above-mentioned technical scheme, through the setting of division board, store earlier in division board one side that deviates from the drainage tube in the water in the box that sprays, when the water level in the box that sprays is higher than the height of division board, the water in the box that sprays can flow towards the drainage tube through the division board earlier, and when the water level between division board and the drainage tube is higher than the height of drainage tube, the water flows towards the inlet wire box under the direction effect of drainage tube, has promoted the stability of water supply and the integrality of the water curtain that forms.

Preferably, the spraying assembly further comprises a water supply box, the spraying box is located between the water supply box and the inlet wire box, a water supply groove communicated with the spraying box is formed in the bottom of the water supply box in a penetrating mode, the water supply groove is located on one side, away from the drainage tube, of the partition plate in the vertical direction, a partition plate is arranged in the water supply box, the partition plate is attached to the inner wall of the water supply box, and the partition plate is lower than the water supply box in the vertical direction.

Through adopting above-mentioned technical scheme, the water in the water supply box is stored in the partition panel back of the body and is from one side of supply tank, and when the water level in the water supply box was higher than the height of partition panel, the water in the water supply box got into the box that sprays through the supply tank, has promoted the water storage that sprays the subassembly, and the water in the water supply box flows in the box through the mode orientation that overflows, has promoted the stability of supplying water.

Preferably, the water supply box is internally provided with a water inlet pipe, one end of the water inlet pipe is connected with the inner wall of the water supply box, the other end of the water inlet pipe penetrates through the water supply box, the water inlet pipe comprises a water inlet hole for water, and a plurality of water outlet holes communicated with the water inlet hole are uniformly formed in the outer wall of the water inlet pipe.

Through adopting above-mentioned technical scheme, the water that lets in the inlet tube flows into in the water supply box from the apopore, when the in-hole water that fills of inlet tube, the play water velocity of every apopore is the same, has promoted the stability that the water level risees in each part of water supply box when leading to water in towards the water supply box.

Preferably, the side wall of the inlet wire box is provided with a water outlet, the inlet wire box is also provided with a circulating pipe, one end of the circulating pipe, which is far away from the inlet wire box, is connected with the water inlet pipe, one end of the circulating pipe is communicated with the water outlet, and the other end of the circulating pipe is communicated with the water inlet hole.

By adopting the technical scheme, under the cooperation of the circulating pipe, the water outlet and the water inlet pipe, the water flowing into the inlet wire box can flow into the circulating pipe through the water outlet and finally returns to the water supply box through the water outlet pipe for recycling, so that resources are saved.

Preferably, a plurality of guide blocks are arranged in the wire inlet box, a plurality of guide grooves for the steel strand to be embedded are formed in the guide blocks, and two of the guide blocks are respectively positioned on two sides of the spraying groove in the vertical direction.

By adopting the technical scheme, the guide block is arranged to provide guide for the sliding of the steel strands towards the pickling mechanism, so that the moving stability of the steel strands is improved, and adjacent steel strands are not easy to collide with each other and damage; through the setting of placing the encryption guide block in spray tank both sides, the steel strand wires are difficult for crooked because of the impact of water curtain, have promoted the stability that the steel strand wires slided.

Preferably, the guide block is detachably connected with the wire inlet box, the wire inlet box is internally provided with the guide box, the guide box comprises a placing groove for placing the guide block, and the guide block is attached to the inner wall of the placing groove.

Through adopting above-mentioned technical scheme, the guide block belongs to wearing and tearing spare in steel strand wires hot-galvanize pretreatment assembly line, is connected through the detachable of guide block and guide box, is convenient for replace the guide block of wearing and tearing, and only need put into the standing groove with the guide block for the installation of guide block can be accomplished with the inner wall laminating of standing groove to the guide block, the loading and unloading of the guide block of being convenient for.

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

1. through the setting of spray assembly, can play the effect of locking acid mist on the one hand for acid mist that produces in the pickling mechanism is difficult for overflowing from the intercommunication department of pickling mechanism and inlet wire box, and on the other hand the surface of steel strand wires probably has the dust, and the galvanized quality of steel strand wires can be influenced in the existence of dust, and the water curtain can clear up the dust on steel strand wires surface, promotes the galvanized quality of steel strand wires;

2. the guide block belongs to the wearing part in the steel strand wires hot galvanizing pretreatment assembly line, is connected through the detachable of guide block and guide box, is convenient for replace the guide block of wearing and tearing, and only need put into the standing groove with the guide block for the installation of guide block can be accomplished with the inner wall laminating of standing groove to the guide block, the loading and unloading of the guide block of being convenient for.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present utility model.

Fig. 2 is a schematic view of a wire feeding box according to an embodiment of the utility model.

Fig. 3 is a schematic view of a water supply cartridge according to an embodiment of the present utility model.

Fig. 4 is a schematic view of a shower box according to an embodiment of the present utility model.

Reference numerals illustrate: 1. a wire inlet box; 11. wire inlet groove; 12. a wire outlet slot; 13. a guide box; 131. a placement groove; 14. a guide block; 141. a guide groove; 15. a circulation pipe; 16. a water outlet; 2. a spray assembly; 21. a spray box; 211. a spray tank; 212. a drainage tube; 213. a partition plate; 22. a water supply box; 221. a water supply tank; 222. a partition panel; 223. a water inlet pipe; 224. a water inlet hole; 225. and a water outlet hole.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-4.

The embodiment of the utility model discloses a feeding mechanism for a steel strand hot galvanizing pretreatment assembly line, which comprises a wire inlet box 1 communicated with a pickling mechanism, wherein one end of the wire inlet box 1, which is far away from the pickling mechanism, is provided with a wire inlet groove 11 in a penetrating manner, one end of the wire inlet box 1, which is close to the pickling mechanism, is provided with a wire outlet groove 12 communicated with the pickling mechanism in a penetrating manner, one end of the wire inlet box 1, which is close to the pickling mechanism, is provided with a spraying component 2, the spraying component 2 is positioned above the wire inlet box 1, and in the process that a steel strand moves towards the pickling mechanism, the spraying component 2 sprays a water curtain for blocking acid mist towards the inside of the wire inlet box 1, so that acid mist generated in the pickling mechanism is not easy to overflow from the communication position of the pickling mechanism and the wire inlet box 1.

Referring to fig. 1 and 2, three guide boxes 13 are fixedly connected in the wire inlet box 1, both ends of each guide box 13 are fixed with the inner wall of the wire inlet box 1, guide blocks 14 are detachably connected to the guide boxes 13, guide grooves 141 for embedding steel strands are formed in one ends of the guide blocks 14 away from the guide boxes 13, the guide boxes 13 comprise placing grooves 131 for placing the guide blocks 14, and the guide blocks 14 are only required to be placed in the placing grooves 131, so that the guide blocks 14 are attached to the inner wall of the placing grooves 131, and the installation of the guide blocks 14 can be completed, so that the guide blocks 14 are convenient to assemble and disassemble; in the embodiment of the utility model, the guide blocks 14 are made of marble or plastic, and the three guide blocks 14 provide guidance for the sliding of the steel strands towards the pickling mechanism and improve the sliding stability of the steel strands.

Referring to fig. 3, the spray assembly 2 comprises a spray box 21 and a water supply box 22, wherein the spray box 21 is positioned between the water supply box 22 and the inlet wire box 1, a water supply groove 221 communicated with the spray box 21 is formed in the bottom of the water supply box 22 in a penetrating manner, a partition plate 222 is arranged in the water supply box 22, the partition plate 222 is attached to the inner wall of the water supply groove 221, and the height of the partition plate 222 is lower than that of the water supply box 22; the water in the water supply box 22 is stored at a side of the partition plate 222 facing away from the water supply tank 221, and when the water level in the water supply box 22 is higher than the height of the partition plate 222, the water in the water supply box 22 enters the shower box 21 through the water supply tank 221.

Referring to fig. 3, a water inlet pipe 223 is fixedly connected in the water supply box 22, the water inlet pipe 223 is positioned at one side of the partition plate 222 away from the water supply groove 221, one end of the water inlet pipe 223 is fixed with the inner wall of the water supply box 22, the other end of the water inlet pipe 223 penetrates through the water supply box 22, the water inlet pipe 223 comprises a water inlet hole 224 for water supply, and a plurality of water outlet holes 225 communicated with the water inlet hole 224 are uniformly formed in the outer wall of the water inlet pipe 223; the water introduced into the water inlet pipe 223 flows into the water supply box 22 from the water outlet holes 225, and when the water inlet holes 224 are filled with water, the water outlet speed of each water outlet hole 225 is the same, so that the stability of the water level rising in the water supply box 22 when water is introduced into the water supply box 22 is improved.

Referring to fig. 1 and 3, a water outlet 16 is formed in the side wall of the inlet wire box 1 in a penetrating manner, a circulating pipe 15 is fixedly connected to the inlet wire box 1, one end of the circulating pipe 15, which is far away from the inlet wire box 1, is fixed to the water inlet pipe 223, one end of the circulating pipe 15 is communicated with the water outlet 16, the other end of the circulating pipe 15 is communicated with the water inlet hole 224, a water pump for pumping water is arranged on the circulating pipe 15, and the water in the inlet wire box 1 is pumped to the water inlet pipe 223 for recycling through the arrangement of the water pump, so that resources are saved.

Referring to fig. 4, the bottom of the spray box 21 is provided with a spray groove 211 communicated with the wire inlet box 1 in a penetrating manner, when the design is performed, one guide box 13 is located at one end of the wire inlet box 1 close to the wire inlet groove 11, the other two guide boxes 13 are respectively located at two sides of the spray groove 211 in the vertical direction, and through the arrangement of the encryption guide boxes 13 arranged at two sides of the spray groove 211, the steel strand is not easy to bend due to the impact of a water curtain, so that the sliding stability of the steel strand is improved.

Referring to fig. 4, a drainage tube 212 is arranged in the spraying box 21, the drainage tube 212 is attached to the inner wall of the spraying groove 211, two ends of the drainage tube 212 are fixed to the inner wall of the spraying box 21, water in the spraying box 21 flows towards the inside of the inlet wire box 1 along the outer wall of the drainage tube 212, and through the arrangement of the drainage tube 212, guidance is provided for water flowing towards the inside of the inlet wire box 1 and forming a water curtain through the spraying groove 211, so that the fluidity and the integrity of the formed water curtain are improved.

Referring to fig. 4, a division plate 213 is fixedly connected in the spray box 21, the division plate 213 is attached to the inner wall of the spray box 21, the division plate 213 is positioned at one end of the drainage tube 212, which is away from the spray groove 211, the height of the division plate 213 is lower than that of the end plate of the spray box 21 but higher than that of the drainage tube 212, the water supply groove 221 is positioned at one side of the division plate 213, which is away from the drainage tube 212, in the vertical direction, when the water level in the spray box 21 is higher than that of the division plate 213, water in the spray box 21 flows towards the drainage tube 212 through the division plate 213 first, and when the water level between the division plate 213 and the drainage tube 212 is higher than that of the drainage tube 212, water flows towards the inlet box 1 under the guiding effect of the drainage tube 212; partition plate 213 in spray box 21 and partition plate 222 in water supply box 22 have promoted the aqua storage volume of spray box 21 and water supply box 22 for the water that forms the water curtain flows towards inlet wire box 1 through the mode that overflows, has promoted the stability and the integrality of the water curtain that forms, thereby has promoted the reliability that blocks the acid mist through the water curtain.

The embodiment of the utility model provides a feeding mechanism for a steel strand hot galvanizing pretreatment assembly line, which comprises the following implementation principle: placing the guide block 14 in the placing groove 131, so that the guide block 14 is attached to the inner wall of the placing groove 131, and installing the guide block 14 is completed; the steel strands are sequentially embedded into the guide groove 141, the steel strands slide towards the direction of the pickling mechanism, the water pump is started, water in the inlet wire box 1 enters the circulating pipe 15 through the water outlet 16 and finally enters the water inlet hole 224, water in the water inlet hole 224 flows into the water supply box 22 through the water outlet hole 225, water in the water supply box 22 enters the spraying box 21 through the water supply groove 221, and water in the spraying box 21 flows towards the inlet wire box 1 through the spraying groove 211 to form a water curtain for blocking acid mist.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. A feed mechanism for steel strand wires hot-galvanize pretreatment assembly line, its characterized in that: including inlet wire box (1), the one end that inlet wire box (1) is close to pickling mechanism is equipped with spray assembly (2), spray assembly (2) are located inlet wire box (1) top, spray assembly (2) are used for spraying the water curtain of locking acid mist in inlet wire box (1).

2. The feed mechanism for a steel strand hot galvanizing pretreatment assembly line according to claim 1, wherein: the spraying assembly (2) comprises a spraying box (21), a spraying groove (211) communicated with the incoming line box (1) is formed in the bottom of the spraying box (21) in a penetrating mode, a drainage tube (212) is arranged in the spraying box (21), the drainage tube (212) is attached to the inner wall of the spraying groove (211), and water in the spraying box (21) flows towards the incoming line box (1) along the outer wall of the drainage tube (212) to form a water curtain.

3. The feed mechanism for a steel strand hot galvanizing pretreatment assembly line according to claim 2, wherein: be equipped with division board (213) in spraying box (21), division board (213) are laminated with the inner wall that sprays box (21), division board (213) are located the one end that drainage tube (212) deviate from spray groove (211), the height of division board (213) is less than the end plate of spraying box (21) but is higher than drainage tube (212) in the vertical direction.

4. A feed mechanism for a steel strand hot galvanizing pretreatment assembly line according to claim 3, wherein: the utility model discloses a water supply box, spray subassembly (2) still include water supply box (22), spray box (21) are located between water supply box (22) and inlet wire box (1), water supply tank (221) with spray box (21) intercommunication are run through to the bottom of water supply box (22), water supply tank (221) are located one side that division board (213) deviate from drainage tube (212) in vertical direction, be equipped with partition panel (222) in water supply box (22), partition panel (222) are laminated with the inner wall of water supply box (22), partition panel (222) are less than water supply box (22) in the vertical direction.

5. The feeding mechanism for a steel strand hot galvanizing pretreatment assembly line according to claim 4, wherein: be equipped with inlet tube (223) in water supply box (22), the one end of inlet tube (223) is connected with the inner wall of water supply box (22), the other end of inlet tube (223) runs through water supply box (22), inlet tube (223) are including inlet opening (224) that are used for leading to water, evenly set up a plurality of apopores (225) with inlet opening (224) intercommunication on the outer wall of inlet tube (223).

6. The feeding mechanism for a steel strand hot galvanizing pretreatment assembly line according to claim 4, wherein: the water inlet box is characterized in that a water outlet (16) is formed in the side wall of the water inlet box (1), a circulating pipe (15) is further arranged on the water inlet box (1), one end, away from the water inlet box (1), of the circulating pipe (15) is connected with a water inlet pipe (223), one end of the circulating pipe (15) is communicated with the water outlet (16), and the other end of the circulating pipe (15) is communicated with a water inlet hole (224).

7. The feed mechanism for a steel strand hot galvanizing pretreatment assembly line according to claim 2, wherein: a plurality of guide blocks (14) are arranged in the wire inlet box (1), guide grooves (141) for the steel strand to be embedded are formed in the guide blocks (14), and two guide blocks (14) are respectively positioned on two sides of the spray groove (211) in the vertical direction.

8. The feed mechanism for a steel strand hot galvanizing pretreatment assembly line according to claim 7, wherein: the guide block (14) is detachably connected with the wire inlet box (1), the guide box (13) is arranged in the wire inlet box (1), the guide box (13) comprises a placing groove (131) used for placing the guide block (14), and the guide block (14) is attached to the inner wall of the placing groove (131).