KR20140090767A - Method and product of welding torch's contact tip - Google Patents

Abstract

A contact tip for a welding torch and a manufacturing method therefor are disclosed. According to the present invention, the contact tip for the welding torch is mounted on the welding torch and manufactured by forming a cylindrical body by using a copper material, combining a nozzle with the front end of the body by using a forced combining means, and forming a copper coating layer by coating the outer surface of the combined body and nozzle with copper. Accordingly, the contact tip is provided to apply chrome alloy steel to the nozzle while applying a copper material to the body, thereby reducing production costs per unit compared to existing products whose bodies and nozzles are entirely made of chrome alloy steel; and raises durability by applying the chrome alloy steel only to the nozzle which is very easy to deform, thereby preventing deformation of the nozzle.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a contact tip of a welding torch,

More particularly, the present invention relates to a contact tip of a welding torch and a method of manufacturing the same. More particularly, the present invention relates to a contact tip of a welding torch and a method of manufacturing the same, To a contact tip of a welding torch and a method of manufacturing the same, wherein a chromium-zirconium alloy is applied only to the nozzle, which is the most deformable component while lowering the durability of the contact tip.

In general, among the gas welding torches, the welding torch of the carbon dioxide welding machine is welded in an inert gas such as carbon dioxide and argon, so that the molten metal by the welding rod does not come into contact with the atmosphere and oxidation and nitrification can be prevented.

Therefore, it is widely used for welding aluminum, copper, stainless steel and special steel as well as iron.

A carbon dioxide welding torch used for a carbon dioxide welding machine is equipped with a contact tip at which a gas and a flame are discharged at the tip thereof.

The welding rod inserted through the gas pipe is moved to the inside of the contact tip to generate an arc between the base materials. Carbon dioxide which has passed through the gas diffuser is moved to the contact tip, and the welding is performed while the welding part is wrapped.

The shape of the contact tip is sharpened toward the tip, and is made of copper and a copper alloy material having good electrical and thermal conductivity.

A prior art related to this is disclosed in Korean Patent No. 0135484.

The prior art applies an electroless nickel plating method which can uniformly produce a nickel plating film on the surfaces of nozzles and tips of a gas welder, which is a copper and copper alloy material, and the surface characteristics of the nickel plating film are such that, To an electroless nickel plating treatment method of a gas welder nozzle and a tip surface which can be easily removed even when the dirt does not protrude or sprang up, thereby increasing the reusability and reducing the consumption amount and improving the continuous welding workability for a long time.

On the other hand, in the prior art, the contact tip of the welding torch is mainly made of copper, which is low in cost, but the welding part becomes unstable when heated and is short in service life due to breakage.

The contact tip of the conventional welding torch has a short life span and thus needs to be improved. Even in the case of a consumable part, a contact tip composed of a nozzle coupled to the body and the tip of the body has been provided.

The body is made of copper, and the tip is made of a chromium and zirconium alloy material having high heat resistance.

However, this is because the price is too high or the tip is screwed to the body, but the tip is too small to be exchanged, so that it is not recycled properly so that it is too expensive and the nozzle has to be replaced.

The present invention has been conceived to overcome the problems of the prior art described above. The body is made of the same material, but the tip is made of a chromium alloy, so that the unit cost can be lowered than that of the conventional chromium alloy, The present invention also provides a contact tip of a welding torch and a method of manufacturing the same, in which only the tip with the most deformation generated is applied with a chromium-zirconium alloy to enhance durability.

The above object of the present invention can be achieved by a method for manufacturing a contact tip mounted on a welding torch, comprising the steps of: forming a body with a copper material; Coupling the nozzle to the front end of the body; And forming a copper coating layer by coating copper on the outer surface of the combined body and nozzle to form a copper coating layer.

And in the second step, the nozzle is coupled to the body by the force coupling means.

The forcible coupling means may be selected from interference fit, hot press fit, cold press fit, and screw fitting.

According to an aspect of the present invention, there is provided a contact tip mounted on a welding torch, the contact tip having a cylindrical shape, a passageway formed therein, an inlet and an outlet formed at both ends thereof, Formed body; And a nozzle having a coupling portion coupled to the mounting groove and having a conical discharge port formed at the other end thereof with a passage formed therein.

And copper is coated on an outer surface of the coupled body and the nozzle to form a copper coating layer.

The body is a copper or copper alloy, and the nozzle is a chromium-zirconium alloy.

And a mounting portion coupled to the welding torch is formed at one end of the body with an inlet formed thereon.

According to the present invention, since the body is made of copper and the nozzle is made of chromium-zirconium alloy, the cost can be lower than that of the conventional chromium alloy material, and the chromium alloy is applied only to the nozzle, So that the contact tip of the welding torch can be provided.

1 is a view showing the construction of a welding torch according to the present invention,
2 is a flow chart showing a method of manufacturing a contact tip of a welding torch according to the present invention,
3 is a cross-sectional view showing a contact tip of a welding torch according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a flow chart showing a method of manufacturing a contact tip of a welding torch according to the present invention; Fig. 3 is a cross-sectional view of a welding torch according to the present invention; Fig. Sectional view showing the contact tip of the torch.

1, the carbon dioxide welding machine includes a power supply 500, a carbon dioxide gas supply unit 600, a feeding unit 700 for appropriately supplying carbon dioxide and power, and a welding torch 800 , And the welding tip (A) is equipped with a contact tip (A).

2, the contact tip (A) of the welding torch according to an embodiment of the present invention is manufactured by forming a body (100) of a copper material in a cylindrical shape (S1); A second step S2 of coupling the nozzle 200 to the front end of the body 100; (S3) coating the outer surface of the coupled body 100 and the nozzle 200 with copper to form a copper coating layer 300.

The contact tip A is composed of a body 100 such that the overall shape of the contact tip A looks like a bullet, and a nozzle 200 connected to the tip of the body 100 and formed like a sharp point.

The body 100 is a tubular body having a circular or polygonal shape. The body 100 is made of copper or a copper alloy. Inside the body 100, a passage 110 is formed to allow gas to pass therethrough, and inlet ports 120 and outlets 130 are formed at both ends.

The mounting hole 140 is formed in the outlet 130 and a mounting part 150 having a step is formed at one end of the inlet 120. The welding torch A .

The mounting portion 150 may be threaded or formed into a smooth circular rod shape.

Accordingly, when the screw thread is formed, the body 100 and the nozzle 200 are integrally formed by screwing, and in the case of a circular rod shape, the body 100 and the nozzle 200 are coupled by the force coupling means to be described later.

The nozzle 200 is formed in a conical shape so that a passage 210 is formed therein and a coupling portion 220 is formed at one end thereof and is made of chromium and zirconium alloy and is coupled to the body 100 by forced coupling means, So that it is prevented from being separated.

Zirconium alloys are highly resistant to heat and corrosion and are widely used as refractory and high-strength precision ceramic products.

The forcible coupling means may be selected from interference fit, hot press fit, cold press fit, and screw fit.

The interference fit is a method in which the coupling part 220 of the nozzle 200 is forcibly pushed into the mounting groove 140 of the body 100 so as to be hit and strongly coupled.

The hot press-fit is accomplished by fitting the body 100 and the nozzle 200 in a heated state, and cooling the joint.

The cold junction 220 is cooled by the cooling of the nozzle 200 and is then fitted into the mounting groove 140 of the body 100 to thermally expand the joint 220 at room temperature, So that it can be strongly prevented from coming off.

Copper is coated on the outer surface of the coupled body 100 and the nozzle 200 to form a copper coating layer 300.

As shown in FIGS. 2 and 3, the contact tip A of the welding torch according to the present invention completed through the above-described manufacturing method is a contact tip mounted on a welding torch, And an inlet 120 and an outlet 130 are formed at both ends of the body 110. A body 100 having a mounting groove 140 on which the nozzle 200 is mounted is formed in the outlet 130, ); And a nozzle 200 formed with a coupling part 220 coupled to the mounting groove 140 and having a conical discharge port 230 formed at the other end thereof with a passage 110 therein.

Copper is coated on the outer surface of the coupled body 100 and the nozzle 200 to form a copper coating layer 300.

The body 100 is a tubular body having a circular or polygonal shape and is made of copper or a copper alloy. Inside the body 100, a passageway 110 is formed to allow gas to pass therethrough, an inlet 120 and an outlet 130 are formed at both ends, A mounting groove 140 in which the nozzle 200 is mounted is formed in the outlet 130 and a mounting portion 150 having a step is formed at one end of the inlet 120. The inlet 150 is coupled to the welding torch.

The mounting portion 150 may be threaded or formed into a smooth circular rod shape.

Accordingly, when the screw thread is formed, the body 100 and the nozzle 200 are integrally formed by screwing, and in the case of a circular rod shape, the body 100 and the nozzle 200 are coupled by the force coupling means to be described later.

The nozzle 200 is formed in a conical shape so that a passage 210 is formed therein and a coupling portion 220 is formed at one end thereof and is made of chromium and zirconium alloy and is coupled to the body 100 by forced coupling means, So that it is prevented from being separated.

The forcible coupling means may be selected from the group consisting of interference fit, hot press fit, cold press fit, and screw fit.

The contact tip (A) of the present invention thus formed can lower the unit cost of the conventional body and the nozzle made of copper and the chromium-zirconium alloy, respectively, so that the cost competitiveness can be enhanced. Use.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

100: body 110: passage
120: inlet 130; Outlet
140: mounting groove 150; Mounting portion
200: nozzle 220:

Claims (7)

In manufacturing the contact tip mounted on the welding torch,
Step 1 to form the body with a copper material;
A second step of joining a nozzle made of chromium-zirconium alloy to the front end of the body;
Coating a copper on the outer surface of the body and the nozzle to form a copper coating layer;
Wherein the contact tip of the welding torch comprises a plurality of projections. The method according to claim 1,
Wherein the nozzle is coupled to the body by means of force coupling in the second step. 3. The method of claim 2,
Wherein the forcing means is selected from the group consisting of interference fit, hot press fit, cold press fit, and screw fitting. A contact tip mounted on a welding torch,
A body having a cylindrical shape, a passageway formed therein, an inlet and an outlet formed at both ends thereof, and a mounting groove for mounting a tip on the outlet;
A nozzle coupled to the mounting groove and having a conical discharge port formed at the other end thereof with a passage therein;
And the contact tip of the welding torch. 5. The method of claim 4,
And a copper coating layer is formed on the outer surface of the combined body and nozzle to form a copper coating layer. 5. The method of claim 4,
Wherein the body is a copper or copper alloy and the nozzle is chromium and a zirconium alloy. 5. The method of claim 4,
And a mounting portion coupled to the welding torch is formed at one end of the body, the mounting portion being formed at a stepped portion.

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