KR101491501B1 - Welding method of steel type nut with galvanizing zincing hydraulic seamless precision steel tube - Google Patents

Abstract

The present invention relates to a method to weld a steel type fitting of a galvanized steel pipe for a fluid pipe. The method to weld a steel type fitting of a galvanized steel pipe for a fluid pipe comprises: (S10) a galvanized steel pipe preparing step to prepare a galvanized steel pipe (10) on an outer circumferential surface thereof on a predetermined length; (S20) a bending step to form the prepared galvanized steel pipe (10) with a bender (100) according to standard; (S30) a chemical treatment step to remove zinc from a front end part by submerging the front end part of the galvanized steel pipe (10) bent in the bending step (S20) in a hydrochloric acid tank (30); (S40) a welding step to butt-weld a pitting part (20) to the front end part from which the zinc plating is removed in the chemical treatment step (S30); and (S50) a zinc coating step to coat the front end part welded with the pitting part (20) in the welding step (S40) with zinc in a spraying manner. The method to weld a steel type fitting of a galvanized steel pipe for a fluid pipe can improve the quality more and reduce the manufacturing costs by directly welding the steel type fitting to the galvanized steel pipe to be fastened with an object, and coating the steel type fitting with zinc.

Description

Technical Field [0001] The present invention relates to a method of welding a steel type fitting of a galvanized steel pipe for a fluid pipe,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of welding steel type fittings (fastening nuts or bolts) of zinc plated steel pipes for fluid piping, more specifically, steel type fittings are directly welded to galvanized steel pipes To a method of welding a steel type fitting of a galvanized steel pipe for fluid piping in which quality is improved and manufacturing cost is reduced by zinc coating.

BACKGROUND ART Pipes used in automobiles and various mechanical equipments are bent (molded) into various shapes in accordance with required conditions, and these pipes are manufactured by welding or fixing a fastening structure for fastening with a relative part at both ends thereof.

In the case of steel pipes used for this purpose, galvanized steel pipes are mainly used to prevent corrosion. These galvanizing zincing hydraulic seamless steel tubes (OST) It is difficult to weld the steel type fittings (fastening nuts or bolts) by galvanizing. Therefore, in the case of using steel pipes which are plated with gold, The sleeve is assembled and fixed to the steel pipe so as not to be separated.

However, in the above method, it is required to assemble the nut or bolt to install the nut and the sleeve, then to install the sleeve, and then to press the sleeve portion to the steel pipe to fix it, .

Therefore, a method of plating the entire steel pipe after welding a nut or bolt using a general steel pipe without using a galvanized steel pipe may be used. In this way, a professional expensive equipment is required for the entire steel pipe However, it takes much time for plating and drying, and there is a problem that it is difficult to secure the reliability of the plating. As a result, there is a problem that the steel pipe is easily corroded by plating failure.

KR 10-2001-0048311 A KR 10-0335010 B1

The present invention is conceived to solve the problem of assembling or fitting a fitting part to a conventional steel pipe to fasten a relative part or using a general steel pipe. The steel pipe is welded using a galvanized steel pipe To provide a welding method of a steel type fitting hole of a zinc plated steel pipe for fluid piping which can reduce manufacturing cost and improve welding quality.

The above object of the present invention can be achieved by a method of manufacturing a zinc-coated steel pipe, comprising the steps of: preparing a zinc-plated steel pipe having a predetermined length, A bending step of molding the galvanized steel pipe prepared according to the standard using a bending machine; A chemical treatment step of immersing the tip portion of the zinc-plated steel pipe bent in the bending step in a water bath containing hydrochloric acid to remove zinc plated at the tip portion; A welding step of butt-welding the fitting portion to the front end portion where the zinc plating is removed in the chemical treatment step; And a zinc coating step of coating a tip portion of the fitting portion welded by the spraying method with zinc by the spraying method in the welding step.

In addition, it is preferable that the hydrochloric acid contained in the water tank further includes a corrosion inhibitor in order to prevent corrosion of the iron of the steel pipe in the process of removing the zinc plating.

In this case, the corrosion inhibitor is preferably mixed with 0.1 to 0.5% by weight of hydrochloric acid.

In order to prevent the zinc coating liquid sprayed in the zinc coating step from being sprayed onto the zinc plated portion, the present invention is preferably taped along the boundary between the zinc plated portion and the zinc plated portion.

It is preferable that the fitting portion is formed integrally with a fitting portion which is in contact with the tip of the galvanized steel pipe, and a bolt protruding from one side of the fitting portion and having a thread formed on the outer circumferential surface thereof.

Meanwhile, the present invention is characterized in that the bending machine has a body having a rectangular length; A pair of rails installed on the upper surface of the body along a length thereof; a moving block sliding along the pair of rails; A spindle installed in the movable block and selectively rotated; A fixed chuck installed at the tip of the spindle and having one end of the galvanized steel pipe inserted and fixed; A support shaft installed on one side of the main body and supporting one side of the galvanized steel pipe installed and fixed to the fixing chuck; A fixing block installed at a position opposite to the support shaft and selectively pressing the other side of the zinc plated steel pipe to fix the galvanized steel pipe; A rotating table which is rotated by 90 degrees around the support shaft to bend the galvanized steel tube about the support shaft; And a control unit for controlling the operation of the spindle, the fixed chuck, the fixed block, and the swivel.

In this case, it is preferable that a rotary pressing block for pressing the galvanized steel pipe is provided on the upper portion of the rotating table when the rotating table is rotated.

According to the present invention, since the galvanized steel pipe is used, it is not required to perform plating or coating as a whole on the steel pipe. Accordingly, since expensive dedicated equipment and work space are not required as in the plating operation, The cost of the system is greatly reduced.

Since the present invention uses galvanized steel pipes manufactured by domestic and foreign specialist companies which do not use relatively expensive fittings and sleeves and also conducts the galvanized steel pipes professionally, the reliability of the plating is ensured and as a result, The quality of the product also improves.

1 is a view showing an example of a welding method of a steel type fitting of a galvanized steel pipe for a fluid piping according to the present invention,
2 is a perspective view showing an example where a fitting portion is welded to a galvanized steel pipe of the present invention,
FIG. 3 is a view showing an example in which the galvanized steel pipe of the present invention is put into a water tank to remove the zinc plating,
4 is a view showing an example of welding a fitting portion to a tip portion of a galvanized steel pipe of the present invention,
Fig. 5 is a view showing an example of zinc coating the front end portion of the zinc-plated steel pipe of the present invention,
6 is a perspective view showing an example of a bending machine for bending a galvanized steel pipe according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In the present invention, the fitting portion refers to a fastening bolt or a nut.

The present invention relates to a method of welding a steel type fitting of a galvanized steel pipe for fluid piping, which can reduce manufacturing cost by welding a steel type fitting hole using a galvanized steel pipe, The present invention is characterized in that the zinc-coated steel pipe preparation step (S10), the bending step (S20), the chemical treatment step (S30), the welding step (S40) and the zinc coating step (S50) A product in which the fitting portion 20 is welded to the front end of the plated steel pipe 10 is manufactured. Each of the above steps will be described below.

a. Galvanized steel pipe preparing step (S10)

In this step, a galvanized steel pipe 10 having a predetermined length is prepared on the outer circumferential surface. At this time, a galvanized steel pipe 10 is a commercial product.

b. Bending step S20

In this step, the galvanized steel pipe 10 prepared in the galvanized steel pipe preparing step S10 is cut according to the standard and is bent by using the bending machine 100. At this time, in the present invention, A pair of rails 120 installed along the length of the upper surface of the main body 110, a moving block 130 sliding along the pair of rails 120, A fixed chuck 150 installed at the tip of the spindle 140 and fixed to one end of the galvanized steel pipe 10 by being inserted and fixed to the movable block 130, A support shaft 160 installed on one side of the support shaft 160 and supporting one side of the galvanized steel pipe 10 installed and fixed to the fixing chuck 150, A fixing block 170 for selectively pressurizing the other side surface of the steel pipe 10 to fix the galvanized steel pipe 10, 160 and a rotating table 180 for bending the galvanized steel pipe 10 around the support shaft 160 and a spindle 140, a fixing chuck 150, a fixing block 170, A bending machine 100 including a control unit 190 for controlling the operation of the bending machine 180 is used.

In addition, a rotary pressing block 181 for pressing the galvanized steel pipe 10 is further provided on the upper part of the rotating table 180 when the rotating table 180 is rotated. The zinc plated steel pipe 10 is inserted into and fixed to the support shaft 160 while the fixing block 170 is moved under the control of the controller 190 and the zinc plated steel pipe 10 is tightly fixed to the support shaft 160, The galvanized steel pipe 10 is bent at a predetermined angle along the rotary pressing block 181 while the rotating table 180 is rotated at a predetermined angle.

When the zinc plated steel pipe 10 is bent, the movable block 130 slides along the pair of rails 120 and moves forward so that the bending portion of the galvanized steel pipe 10 reaches the support shaft 160 The spindle 140 is rotated at a predetermined angle to rotate the galvanized steel pipe 10 at a predetermined angle under the control of the controller 190 and then the bending process is resumed do.

The zinc-plated steel pipe 10 having a length by the above-described method is bent into a complicated shape, and the zinc-plated steel pipe 10 bent in this way is subjected to a chemical treatment step (S30) Removed.

c. Chemical treatment step (S30)

In this step, after the zinc-plated steel pipe 10 is bent according to the shape of the product in the bending step S20, the tip portion of the galvanized steel pipe 10 is immersed in the water tank 30 as shown in Fig. 3, So that the surface of the steel pipe is exposed to the outside. At this time, the water tank 30 is filled with hydrochloric acid.

When the zinc-plated steel pipe 10 is inserted into the water tank 30 containing hydrochloric acid, zinc and hydrochloric acid are converted into zinc chloride and hydrogen as shown in the following chemical formula 1, and the zinc plated on the steel pipe is removed.

Zn + 2HCl → ZnCl ₂ + H2

However, in the above process, when zinc is converted into zinc chloride, zinc exposed to the zinc plating is removed, and the exposed iron can be corroded by changing into iron chloride and hydrogen as shown in the following Equation 2. Thus, in the present invention, desirable.

Fe + 2HCl → FeCl ₂ + H2

At this time, corrosion inhibitors are inorganic compounds and organic compounds having a property of inhibiting rust or corrosion of metals. Inorganic inhibitors represented by polyphosphates and chromates are commonly used when the cathode reaction is a reduction reaction of dissolved oxygen , Organic amine inhibitors represented by amines are widely used in acidic solutions and exhibit corrosion inhibition effects by adsorption to metal surfaces or formation of films by reaction with metal ions. In the present invention, organic inhibitors are used.

In the present invention, it is preferable that 0.1 to 0.5% by weight of the corrosion inhibitor is mixed with 0.1 to 0.5% by weight of hydrochloric acid. When the corrosion inhibitor is mixed with 0.1% by weight or less of hydrochloric acid, corrosion inhibition performance is lowered. When 0.5% , The corrosion inhibition performance can not be expected to be greatly changed, and the efficiency with which zinc is removed by hydrochloric acid is relatively inferior.

d. The welding step (S40)

4, after the zinc plating removal part 11 is formed at the tip of the zinc-coated steel pipe 10 in the chemical treatment step S30, the fitting part 20 is welded to the tip part thereof The fitting portion 20 according to the present invention includes a fitting hole 21 to be brought into contact with a tip end of a galvanized steel pipe 10, a bolt 21 which protrudes from one side of the fitting hole 21, (22) are integrally formed.

4, the fitting portion 20 is welded to the front end portion of the galvanized steel pipe 10 with firmness while the welding portion W is formed on the outer peripheral surface of the fitting opening 21 and the zinc plating removing portion 11 .

e. Zinc coating step (S50)

This step is performed by using the spray gun 40 or the like toward the galvanizing remover 11 as shown in FIG. 5 after the fitting portion 20 is welded to the galvanizing remover 11 in the welding step S40 The zinc plating removing part 11 is coated by spraying the zinc coating solution Zinc at a high pressure so that the coating liquid to be sprayed at a high pressure can be coated only on the zinc plating removing part 11, (TP) along the boundary of the base 11.

After the zinc plating removing unit 11 is coated with the zinc coating solution and dried as described above, the taping TP is removed.

As described above, since the galvanized steel pipe is used in the present invention, it is not required to perform plating or coating of the steel pipe as a whole, and accordingly, a relatively expensive dedicated equipment and work space are not required as in the plating operation, Etc., and the quality of the product is also improved.

10: Zinc plated steel pipe 11: Zinc plating removal agent
20: Fitting portion 21: Fitting portion
22: bolt 30: water tank
40: spray gun 100: bending machine
110: main body 120: rail
130: moving block 140: spindle
150: fixed chuck 160: supporting shaft
170: fixed block 180:
181: rotation push block 190:
C: zinc coated part TP: taping
W: Weld

Claims (7)

A zinc-plated steel pipe preparing step (S10) of preparing a zinc-plated steel pipe 10 having a predetermined length on the outer circumferential surface thereof;
A bending step (S20) of molding the galvanized steel pipe (10) prepared according to the standard using the bending machine (100);
A chemical treatment step (S30) of immersing the leading end portion of the zinc-plated steel pipe (10) bent in the bending step (S20) into a water tank (30) containing hydrochloric acid and removing zinc plated at the tip portion;
A welding step (S40) in which the fitting portion (20) is butt welded to the front end portion where the zinc plating is removed in the chemical treatment step (S30);
And a zinc coating step (S50) for coating the tip portion of the fitting portion (20) welded in the welding step (S40) with zinc by a spraying method. The steel type fitting welding method for a galvanized steel pipe for fluid piping Way.
The method according to claim 1,
The method of claim 1, wherein the hydrochloric acid contained in the water tank (30) further includes a corrosion inhibitor to prevent corrosion of the iron of the steel pipe in the process of removing zinc plating.
The method of claim 2,
Wherein the corrosion inhibitor is mixed with 0.1 to 0.5 wt% of hydrochloric acid.
The method according to claim 1 or 2,
Characterized in that in the zinc coating step (S50) taping (TP) is performed along the border between the zinc-plated portion and the zinc plated portion to prevent spraying of the sprayed zinc coating liquid onto the galvanized portion Steel Type Fitting Welding Method of Zinc Plated Steel Pipe.
The method according to claim 1,
The fitting portion 20 includes a fitting hole 21 for contacting the tip of the zinc plated steel pipe 10 and a bolt 22 protruding from one side of the fitting hole 21 and threaded on the outer circumferential surface, Wherein the steel pipe is formed integrally with the steel pipe.
The method according to any one of claims 1 to 3,
The bending machine (100)
A main body 110 having a rectangular length;
A pair of rails 120 installed along the length of the upper surface of the main body 110;
A moving block 130 sliding along the pair of rails 120;
A spindle 140 installed on the moving block 130 and selectively rotated;
A fixing chuck 150 installed at the tip of the spindle 140 and having one end of the zinc plated steel pipe 10 inserted and fixed;
A supporting shaft 160 installed on one side of the main body 110 and supporting one side of the zinc plated steel pipe 10 fixed to the fixing chuck 150;
A fixing block 170 installed at a position opposite to the support shaft 160 and selectively pressing the other side of the zinc plated steel pipe 10 to fix the zinc plated steel pipe 10;
A rotating table 180 rotated by 90 ° around the support shaft 160 to bend the galvanized steel pipe 10 about the support shaft 160;
And a control unit 190 for controlling the operation of the spindle 140, the fixed chuck 150, the fixed block 170, and the swivel 180. The steel type fitting welding method for a galvanized steel pipe for fluid piping .
The method of claim 6,
The galvanized steel pipe for fluid piping as set forth in claim 1, further comprising a rotation block (181) for pressing the galvanized steel pipe (10) when the rotation bar (180) Steel type fitting welding method.

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