CN213570683U - Shaped steel hot dip galvanizing system - Google Patents

Abstract

The utility model relates to a shaped steel hot-galvanize system belongs to shaped steel hot-galvanize technical field. The technical scheme is as follows: the structural steel (31) to be galvanized is conveyed to the lower part of a feeding electromagnetic chuck device (29) through a feeding roller way (30), the feeding electromagnetic chuck device (29) moves transversely left and right, and the galvanized structural steel is placed on a galvanized joist (12) of the receiving L-hook device (28) after approaching the receiving L-hook device (28); a screw-down mechanism guide rod (8) drives a screw-down beam (10) to move downwards, and the screw-down beam (10) clamps the profile steel to be galvanized; the galvanized joist moving guide rod (6) and the galvanized joist (12) move downwards and are placed in a zinc pot (26) to finish hot galvanizing. The utility model has the advantages that: the labor intensity of workers is reduced, the labor efficiency is improved, the galvanizing time is shortened, and the galvanizing quality is improved.

Description

Shaped steel hot dip galvanizing system

Technical Field

The utility model relates to a shaped steel hot-galvanize system belongs to shaped steel hot-galvanize technical field.

Background

The hot dip galvanizing is one of the most effective means for delaying the environmental corrosion of steel materials, and is to dip the steel products with their surfaces cleaned and activated into molten zinc liquid, and to plate a zinc alloy coating with good adhesion on the steel products through the reaction and diffusion between iron and zinc. At present, hot dip galvanizing of section steel is one of important hot dip galvanizing products. The section steel comprises square steel, round steel, flat steel, angle steel, hexagonal steel, I-shaped steel, channel steel, steel rails, window frame steel and the like. In the process of shaped steel galvanizing process, shaped steel is required to be placed in a galvanizing pot for hot galvanizing, manual operation is mostly adopted due to the fact that special feeding and galvanizing equipment is not available, labor intensity of workers is high, working environment is poor, danger is high, labor efficiency is low, the shaped steel enters the galvanizing pot randomly, galvanizing time is difficult to accurately grasp, galvanizing quality is uneven, the surface galvanizing effect is difficult to guarantee, and production time is long.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a shaped steel hot-galvanize system arranges shaped steel neatly and carries out material loading, zinc-plating, shortens the galvanizing time, improves the galvanizing quality, reduces workman intensity of labour simultaneously, improves labor efficiency, solves the above-mentioned problem that exists among the prior art.

The technical scheme of the utility model is that:

a hot galvanizing system for section steel comprises a galvanizing mechanism beam, a zinc pot, a material receiving L-shaped hook device, a feeding electromagnetic chuck device and a feeding roller way; a zinc pot and a feeding roller way are arranged below the cross beam of the galvanizing mechanism, and a material receiving L-shaped hook device and a feeding electromagnetic chuck device are arranged above the cross beam of the galvanizing mechanism; the feeding electromagnetic chuck device comprises a guide rail, a roller, a feeding mechanism moving guide rod, a feeding mechanism support and an electromagnetic chuck, wherein the transverse guide rail is arranged on a galvanized mechanism beam, the feeding mechanism support moves left and right on the guide rail through the roller, the feeding mechanism moving guide rod which is vertically arranged is arranged on the feeding mechanism support, the electromagnetic chuck is arranged at the bottom end of the feeding mechanism moving guide rod, and the feeding mechanism moving guide rod drives the electromagnetic chuck to move up and down.

The material receiving L-shaped hook device comprises a galvanized joist moving guide rod, a first air cylinder, a pressing mechanism guide rod, a pressing mechanism support, a pressing cross beam and a galvanized joist, wherein the galvanized joist above a zinc pot is provided with the pressing mechanism support; and the electromagnetic chuck of the feeding electromagnetic chuck device sucks the profile steel on the feeding roller way, the profile steel is sent to the galvanized joist of the receiving L-shaped hook device, the crossbeam is pressed down to compress the profile steel, and the profile steel is sent to a zinc pot to finish hot galvanizing.

The multi-set material receiving L hook device and the multi-set material feeding electromagnetic chuck device are arranged on the cross beam of the galvanizing mechanism and are arranged in a staggered mode, the multi-set material feeding electromagnetic chuck device absorbs a set of section steel together, the section steel is placed into the multi-set material receiving L hook device in a moving mode, the multi-set material receiving L hook device compresses the set of section steel together, and then the section steel descends and is placed into a zinc pot to complete hot galvanizing. For example: two sets of material receiving L hook devices and three sets of feeding electromagnetic chuck devices are arranged on a cross beam of the galvanizing mechanism, the two sets of material receiving L hook devices and the three sets of feeding electromagnetic chuck devices are arranged in a staggered mode, the three sets of feeding electromagnetic chuck devices absorb a set of section steel together, the section steel transversely moves to enter between the two sets of material receiving L hook devices, the set of section steel is placed into the two sets of material receiving L hook devices, the two sets of material receiving L hook devices compress the set of section steel together, and then the section steel descends and is placed into a zinc pot to complete hot galvanizing.

The upper surface of the galvanized joist is provided with a plurality of first grooves which are arranged in order, the lower surface of the electromagnetic chuck is provided with a plurality of second grooves which are arranged in order, and the widths of the first grooves and the second grooves are matched with the width of the profile steel to be galvanized; the electromagnetic chuck sucks the profile steel to be galvanized into the second groove, and the plurality of profile steels are arranged in the respective second grooves; the feeding electromagnetic chuck device places the section steel on a galvanized joist of the receiving L-shaped hook device, a plurality of section steels are arranged in respective grooves I, and the section steel is pressed tightly by pressing down the cross beam on the grooves I.

The feeding roller way comprises a feeding roller and a feeding roller support, the feeding roller is arranged on the feeding roller support, and the feeding roller is matched with the electromagnetic chuck of the feeding electromagnetic chuck device above the feeding roller way in position.

The driving mechanism of the galvanized joist movable guide rod is a first gear and rack driving mechanism: the first transmission gear is arranged on the pressing mechanism support, the first transmission rack is arranged on the galvanized joist moving guide rod, and the first transmission gear is matched with the first transmission rack to form a first gear and rack driving mechanism which drives the galvanized joist moving guide rod and the galvanized joist to move up and down. The first transmission gear is driven by a motor reducer.

The driving mechanism of the moving guide rod of the feeding mechanism is a gear and rack driving mechanism II: and a second transmission gear is arranged on the feeding mechanism support, a second transmission rack is arranged on the feeding mechanism moving guide rod, and the second transmission gear is matched with the second transmission rack to form a second gear rack driving mechanism which drives the feeding mechanism moving guide rod and the electromagnetic chuck to move up and down. The transmission gear II is driven by a speed reducer of a lifting motor.

The feeding mechanism is characterized in that a walking motor reducer is arranged on the feeding mechanism support, a transmission rack III is arranged in parallel with the guide rail, a gear matched with the transmission rack III is arranged on the roller, the walking motor reducer is in driving connection with the roller, the gear on the roller is meshed with the transmission rack III, the roller transversely walks along the guide rail left and right to drive the feeding electromagnetic chuck device to transversely walk on a cross beam of the galvanizing mechanism left and right, and the feeding electromagnetic chuck device completes feeding and receiving work after being close to the receiving L-hook device.

And a limiter is arranged on the cross beam of the galvanizing mechanism and used for limiting the left and right transverse walking positions of the feeding electromagnetic chuck device. The limit stop is a known travel switch.

And a guide rod guide sleeve is arranged above the moving guide rod of the feeding mechanism, so that the moving guide rod of the feeding mechanism can vertically move up and down.

The utility model discloses the working process: a group of section steel to be galvanized is conveyed to the lower part of the feeding electromagnetic chuck device through a feeding roller way, the feeding mechanism moves the guide rod to drive the electromagnetic chuck to move downwards, the group of section steel to be galvanized is adsorbed on the electromagnetic chuck and is arranged in the second groove, and one section steel is positioned in the second groove; the feeding electromagnetic chuck device moves transversely left and right, after the feeding electromagnetic chuck device is close to the material receiving L-shaped hook device, the galvanized section steel is placed on a galvanized joist of the material receiving L-shaped hook device, the group of section steel is arranged in the first groove, and one section steel is positioned in one first groove; the guide rod of the pressing mechanism drives the pressing cross beam to move downwards, and the pressing cross beam is tightly pressed on the groove I of the galvanized joist to clamp the profile steel to be galvanized; the galvanized joist movable guide rod and the galvanized joist move downwards and are placed in a zinc pot to finish hot galvanizing.

The quantity of the material receiving L hook devices and the quantity of the feeding electromagnetic chuck devices are multiple sets, the material receiving L hook devices and the feeding electromagnetic chuck devices are arranged in a staggered mode from front to back, the multiple sets of feeding electromagnetic chuck devices absorb a set of profile steel together, the profile steel required to be galvanized is placed into the multiple sets of material receiving L hook devices in a staggered and alternating mode, the multiple sets of material receiving L hook devices are compressed together, and then the profile steel is lowered to be placed into a zinc pot to complete hot galvanizing.

The electromagnetic chuck of the feeding electromagnetic chuck device can adsorb the profile steel to be galvanized after being electrified, loses adsorption force after being electrified, and puts the profile steel to be galvanized into the material receiving L-shaped hook device.

The utility model has the advantages that: the labor intensity of workers is reduced, the labor efficiency is improved, the galvanizing time is shortened, and the galvanizing quality is improved.

Drawings

Fig. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a schematic view from above of FIG. 1;

fig. 3 is a schematic structural diagram of an embodiment of the present invention;

FIG. 4 is a schematic view from above of FIG. 3;

fig. 5 is a schematic view of a material receiving L-hook device according to an embodiment of the present invention;

FIG. 6 is a schematic view from above of FIG. 5;

fig. 7 is a schematic view of a feeding electromagnetic chuck device according to an embodiment of the present invention;

FIG. 8 is a schematic view from above of FIG. 7;

in the figure: the device comprises a galvanizing mechanism beam 1, a motor reducer 2, a first transmission gear 3, a first transmission rack 4, a guide wheel 5, a galvanizing joist moving guide rod 6, a first cylinder 7, a screw-down mechanism guide rod 8, a screw-down mechanism support 9, a screw-down beam 10, a first groove 11, a galvanizing joist 12, a guide rail 13, a third transmission rack 14, a roller 15, a lifting motor reducer 16, a feeding mechanism moving guide rod 17, a second transmission rack 18, a guide rod guide sleeve 19, a feeding mechanism support 20, a limiting stopper 21, a traveling motor reducer 22, an electromagnetic chuck 23, a feeding roller 24, a feeding roller support 25, a zinc pot 26, a second transmission gear 27, a receiving L-shaped hook device 28, a feeding electromagnetic chuck device 29, a feeding roller way 30, a section steel 31, a second groove 32 and a feeding and receiving position 33.

Detailed Description

The present invention will be further explained by way of examples with reference to the accompanying drawings.

A hot galvanizing system for section steel comprises a beam 1 of a galvanizing mechanism, a zinc pot 26, a material receiving L-shaped hook device 28, a feeding electromagnetic chuck device 29 and a feeding roller way 30; a zinc pot 26 and a feeding roller way 30 are arranged below the galvanizing mechanism beam 1, and a material receiving L hook device 28 and a feeding electromagnetic chuck device 29 are arranged on the galvanizing mechanism beam 1; the feeding electromagnetic chuck device 29 comprises a guide rail 13, a roller 15, a feeding mechanism moving guide rod 17, a feeding mechanism support 20 and an electromagnetic chuck 23, the transverse guide rail 13 is arranged on the galvanized mechanism beam 1, the feeding mechanism support 20 moves left and right on the guide rail 13 through the roller 15, the feeding mechanism moving guide rod 17 which is vertically arranged is arranged on the feeding mechanism support 20, the electromagnetic chuck 23 is arranged at the bottom end of the feeding mechanism moving guide rod 17, and the feeding mechanism moving guide rod 17 drives the electromagnetic chuck 23 to move up and down;

the material receiving L-shaped hook device 28 comprises a galvanized joist moving guide rod 6, a cylinder I7, a pressing mechanism guide rod 8, a pressing mechanism support 9, a pressing cross beam 10 and a galvanized joist 12, wherein the galvanized joist 1 above a zinc pot 26 is provided with the pressing mechanism support 9, the pressing mechanism support 9 is provided with the galvanized joist moving guide rod 6 which is vertically arranged, the bottom end of the galvanized joist moving guide rod 6 is provided with the galvanized joist 12, the galvanized joist moving guide rod 6 drives the galvanized joist 12 to move up and down, the pressing mechanism support 9 is also provided with the cylinder I7 and the pressing mechanism guide rod 8 which are vertically arranged downwards, the output end of the cylinder I7 is connected with the pressing mechanism guide rod 8, the bottom end of the pressing mechanism guide rod 8 is provided with the pressing cross beam 10, the cylinder I drives the pressing mechanism guide rod 8 and the pressing cross beam 10 to move up and down, the pressing cross beam 10 is positioned above the galvanized joist 12 and matched with the galvanized joist 12, the galvanized joist moving guide rod 6 and the galvanized joist 12 are integrally of an L-shaped structure; the electromagnetic chuck 23 of the feeding electromagnetic chuck device 29 sucks the section steel 31 on the feeding roller table 30, and sends the section steel to the galvanized joist 12 of the receiving L-shaped hook device 28, presses down the cross beam 10 to compress the section steel, and sends the section steel to the zinc pot 26 to finish hot galvanizing.

The galvanizing mechanism comprises a galvanizing mechanism beam 1, a plurality of sets of material receiving L hook devices 28 and a plurality of sets of feeding electromagnetic chuck devices 29 are arranged on the galvanizing mechanism beam 1, the material receiving L hook devices 28 and the feeding electromagnetic chuck devices 29 are arranged in a staggered mode, the plurality of sets of feeding electromagnetic chuck devices 29 absorb a set of section steel together and are placed into the plurality of sets of material receiving L hook devices 28 in a moving mode, the plurality of sets of material receiving L hook devices 28 compress the set of section steel together, and then the section steel descends and is placed into a zinc pot 26 to complete hot galvanizing. For example: two sets of material receiving L-shaped hook devices 28 and three sets of feeding electromagnetic chuck devices 29 are arranged on a beam 1 of the galvanizing mechanism, the two sets of material receiving L-shaped hook devices 28 and the three sets of feeding electromagnetic chuck devices 29 are arranged in a staggered mode, the three sets of feeding electromagnetic chuck devices 29 together absorb a set of section steel, the section steel transversely moves to enter a space between the two sets of material receiving L-shaped hook devices 28, the set of section steel is placed into the two sets of material receiving L-shaped hook devices 28, the two sets of material receiving L-shaped hook devices 28 jointly compress the set of section steel, and then the section steel descends and is placed into a.

The upper surface of the galvanized joist 12 is provided with a plurality of regularly arranged grooves I11, the lower surface of the electromagnetic chuck 23 is provided with a plurality of regularly arranged grooves II 32, and the widths of the grooves I11 and the grooves II 32 are matched with the width of the section steel 31 needing galvanizing; the electromagnetic chuck 23 sucks the profile steel 31 to be galvanized into the second groove 32, and a plurality of profile steels are arranged in the respective second grooves 32; the feeding electromagnetic chuck device 29 places the section steel on the galvanized joist 12 of the receiving L-shaped hook device 28, a plurality of section steels are arranged in respective first grooves 11, and the section steel is pressed tightly on the first grooves 11 by pressing down the cross beam 10.

The feeding roller way 30 comprises a feeding roller 24 and a feeding roller support 25, the feeding roller 24 is arranged on the feeding roller support 25, and the feeding roller 24 is matched with the electromagnetic chuck 23 of the feeding electromagnetic chuck device 29 above.

The galvanized joist moving guide rod 6 is provided with a first gear and rack driving mechanism, the screw-down mechanism bracket 9 is provided with a first transmission gear 3, the galvanized joist moving guide rod 6 is provided with a first transmission rack 4, and the first transmission gear 3 is matched with the first transmission rack 4 to form the first gear and rack driving mechanism which drives the galvanized joist moving guide rod 6 and the galvanized joist 12 to move up and down. The first transmission gear 3 is driven by the motor reducer 2.

The feeding mechanism moving guide rod 17 is provided with a second gear and rack driving mechanism, the feeding mechanism support 20 is provided with a second transmission gear 27, the feeding mechanism moving guide rod 17 is provided with a second transmission rack 18, and the second transmission gear 27 is matched with the second transmission rack 18 to form the second gear and rack driving mechanism and drive the feeding mechanism moving guide rod 17 and the electromagnetic chuck 23 to move up and down. The second transmission gear 27 is driven by the lifting motor reducer 16.

The feeding mechanism comprises a feeding mechanism support 20, a walking motor reducer 22 is arranged on the feeding mechanism support 20, a transmission rack III 14 is arranged in parallel with a guide rail 13, a gear matched with the transmission rack III 14 is arranged on a roller 15, the walking motor reducer 22 is in driving connection with the roller 15, the gear on the roller 15 is meshed with the transmission rack III 14, the roller 15 transversely walks left and right along the guide rail 13 to drive a feeding electromagnetic chuck device 29 to transversely walk left and right on a cross beam 1 of the galvanizing mechanism, and the feeding electromagnetic chuck device 29 is close to a material receiving L-shaped hook device 28 to complete feeding and material receiving work.

The galvanized mechanism beam 1 is provided with a limiter 21 for limiting the left and right transverse walking positions of the feeding electromagnetic chuck device 29. The limit stop 21 is a known travel switch.

And a guide rod guide sleeve 19 is arranged above the moving guide rod 17 of the feeding mechanism, so that the moving guide rod 17 of the feeding mechanism can vertically move up and down.

The utility model discloses the working process:

a group of section steel 31 to be galvanized is conveyed to the lower part of a feeding electromagnetic chuck device 29 through a feeding roller way 30, a feeding mechanism moving guide rod 17 drives the electromagnetic chuck 23 to move downwards, the group of section steel 31 to be galvanized is adsorbed on the electromagnetic chuck 23 and is arranged in a second groove 32, and one section steel is positioned in the second groove; the feeding electromagnetic chuck device 29 moves transversely left and right, after approaching the receiving L-shaped hook device 28, the galvanized section steel is placed on the galvanized joist 12 of the receiving L-shaped hook device 28, the group of section steel is arranged in the first groove, and one section steel is positioned in one first groove; the screw-down mechanism guide rod 8 drives the screw-down beam 10 to move downwards, and the screw-down beam 10 is tightly pressed on the groove I of the galvanized joist 12 to clamp the section steel to be galvanized; the galvanized joist moving guide rod 6 and the galvanized joist 12 move downwards and are placed in a zinc pot 26 to finish hot galvanizing.

The quantity of the material receiving L hook devices 28 and the quantity of the feeding electromagnetic chuck devices 29 are multiple, the material receiving L hook devices 28 and the feeding electromagnetic chuck devices 29 are arranged in a staggered mode from front to back, the multiple sets of feeding electromagnetic chuck devices 29 absorb a group of section steel together, the section steel enters the multiple sets of material receiving L hook devices 28 in a staggered and inserting mode, the group of section steel needing to be galvanized is placed into the multiple sets of material receiving L hook devices 28, the multiple sets of material receiving L hook devices 28 are compressed together, and then the section steel descends and is placed into the zinc pot 26 to complete hot galvanizing.

The electromagnetic chuck 23 of the feeding electromagnetic chuck device 29 can adsorb the section steel to be galvanized after being electrified, and loses adsorption force after being electrified, and the section steel to be galvanized is placed into the receiving L-shaped hook device 28.

In the embodiment, referring to fig. 2 and 4, there are two sets of the material receiving L-hook devices 28, three sets of the feeding electromagnetic chuck devices 29, the two sets of the material receiving L-hook devices 28 and the three sets of the feeding electromagnetic chuck devices 29 are arranged in a staggered manner, fifteen grooves two 32 are arranged on the lower surface of the electromagnetic chuck 23, fifteen structural steels to be galvanized can be adsorbed at most once, fifteen grooves one 11 are arranged on the galvanized joist 12, and fifteen structural steels to be galvanized can be placed into the zinc pot 26 at most once to complete hot galvanizing.

The right half of the attached drawings 2 and 4 is the original position of three sets of feeding electromagnetic chuck devices 29, a set of profile steel 31 needing galvanizing is absorbed together, and then the profile steel moves transversely towards the two sets of material receiving L-shaped hook devices 28 on the left half of the attached drawings. The left half parts of the attached drawings 2 and 4 are state diagrams of three sets of feeding electromagnetic chuck devices moving to a feeding and receiving position 33, in the left half parts of the attached drawings, three sets of feeding electromagnetic chuck devices 29 move to penetrate two sets of receiving L-shaped hook devices 28, and the three sets of feeding electromagnetic chuck devices 29 and the two sets of receiving L-shaped hook devices 28 are arranged in a front-back staggered mode so as to complete feeding and receiving work conveniently.

The three sets of feeding electromagnetic chuck devices 29 suck a set of profile steel 31 to be galvanized together, the profile steel 31 and the two sets of receiving L hook devices 28 are inserted into the two sets of receiving L hook devices 28 in a staggered mode, the three sets of feeding electromagnetic chuck devices 29 and the two sets of receiving L hook devices 28 are located on the same straight line, the set of profile steel to be galvanized is placed into the two sets of receiving L hook devices 28, the two sets of receiving L hook devices 28 are compressed together, and then the profile steel is descended and placed into the zinc pot 26 to complete hot galvanizing.

Claims (5)

1. The utility model provides a shaped steel hot dip galvanizing system which characterized in that: comprises a galvanizing mechanism beam (1), a zinc pot (26), a material receiving L-shaped hook device (28), a feeding electromagnetic chuck device (29) and a feeding roller way (30); a zinc pot (26) and a feeding roller way (30) are arranged below the galvanizing mechanism beam (1), and a material receiving L-shaped hook device (28) and a feeding electromagnetic chuck device (29) are arranged on the galvanizing mechanism beam (1); the feeding electromagnetic chuck device (29) comprises a guide rail (13), a roller (15), a feeding mechanism moving guide rod (17), a feeding mechanism support (20) and an electromagnetic chuck (23), the transverse guide rail (13) is arranged on the galvanized mechanism beam (1), the feeding mechanism support (20) moves left and right on the guide rail (13) through the roller (15), the feeding mechanism moving guide rod (17) which is vertically arranged is arranged on the feeding mechanism support (20), the electromagnetic chuck (23) is arranged at the bottom end of the feeding mechanism moving guide rod (17), and the feeding mechanism moving guide rod (17) drives the electromagnetic chuck (23) to move up and down;

the material receiving L-shaped hook device (28) comprises a galvanized joist movable guide rod (6), a cylinder I (7), a pressing mechanism guide rod (8), a pressing mechanism support (9), a pressing cross beam (10) and a galvanized joist (12), wherein the galvanized mechanism cross beam (1) above a zinc pot (26) is provided with the pressing mechanism support (9), the pressing mechanism support (9) is provided with the galvanized joist movable guide rod (6) which is vertically arranged, the bottom end of the galvanized joist movable guide rod (6) is provided with the galvanized joist (12), the galvanized joist movable guide rod (6) drives the galvanized joist (12) to move up and down, the pressing mechanism support (9) is also provided with the cylinder I (7) and the pressing mechanism guide rod (8) which are vertically arranged downwards, the output end of the cylinder I (7) is connected with the pressing mechanism guide rod (8), the bottom end of the pressing mechanism guide rod (8) is provided with the pressing cross beam (10), the cylinder I drives the screw-down mechanism guide rod (8) and the screw-down crossbeam (10) to move up and down, the screw-down crossbeam (10) is positioned above the galvanized joist (12) and matched with the galvanized joist (12), and the galvanized joist movable guide rod (6) and the galvanized joist (12) are integrally of an L-shaped structure; an electromagnetic chuck (23) of a feeding electromagnetic chuck device (29) sucks the section steel (31) on a feeding roller way (30), the section steel is sent to a galvanized joist (12) of a receiving L-shaped hook device (28), a cross beam (10) is pressed down to compress the section steel, and the section steel is sent to a zinc pot (26) to finish hot galvanizing.

2. A hot-dip galvanizing system for section steel according to claim 1, characterized in that: the hot galvanizing mechanism is characterized in that a plurality of sets of material receiving L hook devices (28) and a plurality of sets of feeding electromagnetic chuck devices (29) are arranged on the galvanized mechanism beam (1), the material receiving L hook devices (28) and the feeding electromagnetic chuck devices (29) are arranged in a staggered mode, the plurality of sets of feeding electromagnetic chuck devices (29) absorb a set of section steel together, the section steel is moved and placed into the plurality of sets of material receiving L hook devices (28), the plurality of sets of material receiving L hook devices (28) compress the set of section steel together, and then the section steel descends and is placed into a zinc pot (26) to complete hot galvanizing.

3. A hot dip galvanizing system for section steel according to claim 1 or 2, characterized in that: the upper surface of the galvanized joist (12) is provided with a plurality of first grooves (11) which are arranged in order, the lower surface of the electromagnetic chuck (23) is provided with a plurality of second grooves (32) which are arranged in order, and the widths of the first grooves (11) and the second grooves (32) are matched with the width of the section steel (31) to be galvanized; the electromagnetic chuck (23) sucks the profile steel (31) needing to be galvanized into the second groove (32), and a plurality of profile steels are arranged in the respective second grooves (32); the feeding electromagnetic chuck device (29) places the section steel on a galvanized joist (12) of the receiving L-shaped hook device (28), a plurality of section steels are arranged in respective grooves I (11), and the section steel is pressed tightly by pressing down the cross beam (10) on the grooves I (11).

4. A hot dip galvanizing system for section steel according to claim 1 or 2, characterized in that: the feeding roller way (30) comprises a feeding roller (24) and a feeding roller support (25), the feeding roller (24) is arranged on the feeding roller support (25), and the feeding roller (24) is matched with an electromagnetic chuck (23) of an upper feeding electromagnetic chuck device (29).

5. A hot dip galvanizing system for section steel according to claim 1 or 2, characterized in that: the automatic feeding mechanism is characterized in that a walking motor speed reducer (22) is arranged on the feeding mechanism support (20), a transmission rack (14) is arranged in parallel with the guide rail (13), a gear matched with the transmission rack (14) is arranged on the roller (15), the walking motor speed reducer (22) is in driving connection with the roller (15), the gear on the roller (15) is meshed with the transmission rack (14), the roller (15) transversely walks leftwards and rightwards along the guide rail (13) to drive the feeding electromagnetic sucker device (29) to transversely walk leftwards and rightwards on the galvanized mechanism beam (1), and the feeding electromagnetic sucker device (29) is close to the L-shaped hook receiving device (28) and then completes feeding and receiving work.

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