KR20170138744A - Articulated TIG torch - Google Patents

Abstract

The present invention is advantageous in that smooth welding is able to be performed under any circumstances by enabling movement of a straight section and a curved section of a small-diameter pipe through a structure in which a plurality of bit members having a joint structure are rotatably connected. To this end, the present invention comprises: a torch head portion, a connection portion, a spacer, a bit member, a body member, and an engagement member.

Description

Articulated TIG torch < RTI ID = 0.0 >

The present invention relates to a refractory type tig torch having a multi-joint structure. More specifically, the present invention relates to a refractory type tig torch having a multi-joint structure for welding the inside of a small diameter pipe by welding, An insertion hole 210 is formed in a lower portion of the torch head portion 100 and a tungsten rod (not shown) is inserted into one side of the torch head portion 100, and a multiple hose 10 A connecting member 200 to which a plurality of hose fixing members 220 are inserted and fixed and a plurality of first hose inserting holes 200 to which a plurality of hoses 10 are inserted, A spacer 300 including a first connection hole 320 in which an inner circumferential surface having a curved surface tapering inward is formed at a lower portion of the spacer 300, A second multiple hose insertion hole 410 is formed in which the multiple hoses 10 are inserted, And a second connection hole 430 in which an inner circumferential surface having a curved surface tapered in the inner direction is formed is formed in a lower portion of the coupling protrusion 420. The coupling protrusion 420 is formed with an outer circumferential surface having a curved surface tapered in the upper direction, And a fixing groove 510 in which the bit member 400 at the lowermost portion is seated and fixed is formed in the bottom of the fixing member 400. The polygonal fixing groove And a slip ring engaging member 600 having a fixing protrusion 610 which is coupled to the lower portion of the body member 500 and is inserted into the fixing groove 520, The present invention relates to a multi-jointed articulated teg torch.

In general, welding refers to joining joining members of the same kind or other types of solid (metal, glass, plastic, etc.) as members to be joined.

This kind of welding is provided in a very wide variety of ways, and thus the configuration of the apparatus for welding also differs.

The most common types of welding are gas welding, resistance welding, special welding, arc welding, etc. Among them, arc welding is a method of welding joints by arc heat.

When the material to be welded is an active metal having a high reactivity with air or a metal having a high melting point, such an arc welding is preferably carried out by using an active gas such as carbon dioxide or the like such as argon or helium A welding operation is performed in a chamber to which an inert gas is supplied, or a welding operation is performed while spraying active or inert gas onto the welding portion through a nozzle.

Among these arc welding processes, a welding operation is carried out while gas such as argon or helium or a mixture of two gases is sprayed onto a welding site, and a welding operation is performed using a tungsten (TIG) Gas welding.

The above-mentioned tig welding is one of widely used welding methods because it can be used for welding aluminum, magnesium, titanium and heat resistant metal, is also suitable for welding of thin metal, and ensures a high quality and clean surface of the welded part.

In order to perform such a tig welding operation, a teg welding machine is used. In such a teg welding machine, a torch for a welding machine equipped with a nozzle for discharging a gas used for welding and a tungsten electrode for applying electricity is provided.

On the other hand, in the case of a small-diameter thin pipe, a method of fixing to the corresponding plane through welding of the base material of each joint without insertion of additional material is used. In this way, various small-diameter thin pipes are fixed to produce various pipe products.

In particular, in the case of a thin-walled tube, the use of various semi-automatic welding equipments is becoming common since the current voltage used is not high and a good quality welding result can be obtained even in short time welding. As an example, "TIG welding torch (Korean Registered Patent No. 10-0763566)" of Patent Document 1 is published.

The "TIG welding torch" of Patent Document 1 has a structure in which the head portion 11 and the body portion 13 are integrally formed and the argon gas passage 15 is formed in the body portion 13, And a sintered metal filter 21 is disposed on the seating portion 17 to form a welded portion 17 and a welded portion 17 is formed on the body portion 13, By opening the valve of the argon gas pipe for the operation, the argon gas is hit by the sintered metal filter and then passed slowly, thereby preventing the argon gas from being suddenly discharged at a large pressure from the torch head. there was.

However, the "TIG welding torch" of Patent Document 1 is a one-piece type structure in which the head portion 11 and the body portion 13 are elongated in the longitudinal direction. In the case of a small-sized pipe having a long length, The outer end portion of the small tubular section having the curved line has a problem that the linear torch can not be used due to spatial interference of the field structure or the structure.

Patent Document 1: Korean Patent Registration No. 10-0763566

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a small diameter pipe which can move a straight line section and a curved section through a structure in which a plurality of bit members having a bar- The present invention provides a refractory type tug torch having a multi-joint structure capable of performing a smooth welding operation even in a situation.

In order to solve the above problems, the articulated tug torch of the articulated structure according to the present invention is a articulated articulated tug torch (1) for welding the inside of a small-diameter tube for welding, A torch head part 100 in which a tongue 110 is formed in the lower part of the torch head 100 and an insertion hole 210 in which a tungsten rod (not shown) is inserted into a lower part of the torch head part 100, A connecting member 200 having a plurality of hoses 10 and a plurality of hoses 10 installed therein and having a plurality of hose fixing parts 220 formed thereon and a plurality of hoses 10 inserted therein, A spacer 300 including a first connection hole 320 in which a first multi-hose insertion hole 310 is formed and an inner circumferential surface having a curved surface tapered inward is formed in a lower portion of the spacer 300, A plurality of hoses 10 are inserted into the lower portion of the hose 10, A plurality of hose insertion holes 410 are formed in the upper portion of the hose 410 and a connecting protrusion 420 having an outer circumferential surface having a curved surface tapered in the upper portion is formed on the upper portion and an inner circumferential surface having a curved surface tapered inward in the lower portion is formed. A seating groove 510 in which the bit member 400 at the lowermost portion is seated and fixed is coupled to the bit member 400 at the lowermost portion, And a fixing protrusion 610 which is coupled to a lower portion of the body member 500 and is inserted into the fixing groove 520 at an upper portion of the body member 500, And a slip ring engaging member 600 on which the slip ring engaging member 600 is formed.

A first fixing groove section 411 in which a part of the surface of the cooling water supply hose 11 is seated and a second fixing groove section 411 in which the surface of the shielding gas supply hose 12 is fixed are formed on the inner circumferential surface of the first and second multi- A third fixing groove section 413 in which a portion of the surface of the cooling water recovery hose 13 is fixed and a second fixing groove section 413 in which a part of the surface of the power supply line 14 is fixed 4 fixed groove sections 414 are formed.

A fifth fixing groove section 415 in which a part of the surface of the shielding gas supply hose 12 is seated is formed on the inner circumferential surface of the first and second multiple hose insertion holes 410, A seventh fixing groove section 417 in which a part of the surface of the cooling water supply hose 11 in which the power supply line 14 is provided is mounted, Is formed.

The curvature of the outer circumferential surface of the coupling protrusion 420 is formed to be larger than the curvature of the inner circumferential surface of the first coupling hole 320 or the second coupling hole 430, The lower end of the spacer 300 or the bit member 400 and the uppermost end face of the bit member 400 are spaced apart from each other by a predetermined rotation angle (a) is formed.

The upper portion of the multiple hose 10 is fixed by the connecting member 200 and the lower portion of the multiple hose 20 is fixed by the slip ring connecting member 600, And the elastic member 700 is formed in the body member 500 to closely contact the plurality of bit members 400 connected to each other using an elastic force. The body member 500 fixes the bit member 400 at the lowermost portion so that the rotation efficiency of the body member 500 is prevented and the body member 500 and the slip ring engagement member 600 are configured to rotate together, And a shielding gas spraying hole 211 is formed around the hole 210 so that the shielding gas supplied to the inside of the connecting member 200 is sprayed to the outside.

As described above, according to the present invention, it is possible to move the straight section and the curved section of the small diameter pipe through the structure in which the bit members of the bar structure are rotatably connected to each other. .

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing the entire articulated articulated tug torch according to a preferred embodiment of the present invention; Fig.
FIG. 2 is an internal view showing an internal view of the articulated articulated tug torch according to a preferred embodiment of the present invention.
FIG. 3 is an exploded internal view showing a disassembled state of the articulated articulated tug torch according to a preferred embodiment of the present invention.
FIG. 4 is a schematic view showing a state in which the bit member is rotated in the structure of the articulated articulated tug torch according to the preferred embodiment of the present invention.
FIG. 5 is a plan view showing details of first and second multi-hose insertion holes in the configuration of the articulated articulated tug torch according to the preferred embodiment of the present invention.
6 is a plan view showing details of the first and second multi-hose insertion holes in the structure of the articulated articulated tug torch according to another preferred embodiment of the present invention.

Hereinafter, the articulated articulated tug torch according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that, in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

2 and 3, the articulated articulated tug torch 1 according to an embodiment of the present invention includes a torch head 100, a connecting member 200, a spacer 300, A bit member 400, a body member 500, and a slip ring engaging member 600. [

First, the torch head portion 100 will be described. 1 or 2, the torch head 100 is a component to which a tungsten rod (not shown) installed vertically to a connecting member 200 to be described later is inserted, and a tungsten rod (not shown) The spray nozzle 110 for spraying an arc generated from the spray nozzle 110 is formed.

The torch head 100 is made of a ceramic material and provides an insulating effect. At this time, the torch head 100 can be rotated freely while fixing the torch head 100 with bolts or the like. It is preferable to prepare for the breakage of the part 100. [

Next, the connecting member 200 will be described. As shown in FIG. 2 or 3, the connecting member is coupled to a lower portion of the torch head 100, and has an insertion hole 210 through which a tungsten rod (not shown) is inserted. A plurality of hose fixing parts 220 are formed in which the multiple hoses 10 are inserted and fixed.

The upper portion of the multiple hose 10 is fixed by the connecting member 200 and the lower portion of the multiple hose 20 is fixed by a slip ring connecting member 600 to be described later, The absolute length of the bit member 400 can be formed.

Meanwhile, a shielding gas ejection hole 211 may be formed around the insertion hole 210 so that the shielding gas supplied to the inside of the connection member 200 may be ejected to the outside.

Next, the spacer 300 will be described. 2 or 3, the spacer 300 is coupled to a lower portion of the connecting member 200, and a first multi-hose insertion hole 310 into which the multi-hose 10 is inserted is formed And a first connection hole 320 in which an inner circumferential surface having a curved surface tapered in the inner direction is formed in the lower portion.

Next, the bit member 400 will be described. 2, 3, or 4, the bit member 400 may include a plurality of spacers 300 connected to the lower portion of the spacer 300 such that the multiple hoses 10 are inserted therein, A hose inserting hole 410 is formed, a connecting protrusion 420 having an outer circumferential surface having a curved surface tapered in the inner direction is formed on the upper portion, and a second connecting portion 420 having an inner circumferential surface having a curved surface tapered inward And a hole 430 is formed.

A first fixing groove section 411 in which a part of the surface of the cooling water supply hose 11 is fixed is formed on the inner circumferential surface of the first and second multiple hose insertion holes 410 and a surface of the shielding gas supply hose 12 A third fixing groove section 413 in which a part of the surface of the cooling water recovery hose 13 is fixed and a fourth fixing section 413 in which a part of the surface of the power supply line 14 is fixed, The shielding gas supply hose 12, the coolant recovery hose 13 and the power supply line 14 (see FIG. 14) are formed in the groove section 414 when the bit member 400 is rotated. The bit member 400 and the hoses 11, 12, 13 and 14 are separated from each other so that the bit member 400 and the bit member 400 are separated from each other, Thereby preventing the rotation efficiency from being reduced.

As shown in FIG. 6, in another embodiment of the inner circumferential surface of the first and second multi-hose insertion holes 410, a fifth fixing groove section (a second fixing groove section) in which a part of the surface of the shielding gas supply hose 12 is seated A sixth fixing groove section 416 in which a part of the surface of the cooling water recovery hose 13 is fixed and a part of the surface of the cooling water supply hose 11 in which the power supply line 14 is provided, It is possible to reduce the number of hoses installed inside the first and second multiple hose insertion holes 410 and to reduce the cooling effect of the power source line 14 by forming the seventh fixing groove section 417, Can also be provided.

The curvature of the outer circumferential surface of the coupling protrusion 420 may be greater than the curvature of the inner circumferential surface of the first coupling hole 320 or the second coupling hole 430, The lower end of the spacer 300 or the bit member 400 and the uppermost end face of the bit member 400 are spaced apart from each other by a predetermined rotation angle (a) is formed, thereby enabling each bit member 400 to be arbitrarily rotated within a predetermined radius of curvature.

Next, the body member 500 will be described. 2 or 3, the body member 500 includes a seating groove 510, which is coupled to the bit member 400 at the lowermost portion and is fixed to the bottom portion of the bit member 400, And a polygonal fixing groove 520 is formed in the lower portion.

Meanwhile, an elastic member 700 is formed in the body member 500 to closely contact the plurality of bit members 400, which are connected to each other, using an elastic force.

At this time, it is preferable that the body member 500 is configured to fix the bit member 400 at the lowermost part so as to prevent the rotation efficiency of the elastic member 700 from being reduced.

Next, the slip ring engagement member 600 will be described. The slip ring engaging member 600 is a component that is coupled to a lower portion of the body member 500 and has a fixing protrusion 610 inserted into the fixing groove 520 at an upper portion thereof, And is engaged with a slip ring (not shown).

At this time, due to the configuration of the fixing protrusion 610, the fixing protrusion 610 is engaged with the fixing groove 520, so that the body member 500 and the slip ring engaging member 600 are rotated together It becomes possible.

It is preferable that the diameter of the components of the articulated articulated tug torch 1 of the present invention is formed to be about 10% smaller than the inner diameter of the pipe for welding.

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1: articulated, articulated teak torch
10: Multiple hoses
11: Hose for supplying cooling water 12: Hose for supplying shielding gas
13: Cooling water collection hose 14: Power line
100: torch head part 110: injection nozzle
200: connecting member 210: insertion hole
211: Shielding gas spouting hole 220: Multiple hose fixing part
300: spacer 310: first multi-hose insert hole
320: first connection hole
400: bit member 410: second multiple hose insert hole
411: first fixing groove section 412: second fixing groove section
413: third fixing groove section 414: fourth fixing groove section
415: fifth fixing groove section 416: sixth fixing groove section
417: the seventh fixing groove section
420: connection protrusion 430: second connection hole
440: first stopping motion
500: body member 510: seat groove
520: fixing groove 530: second locking projection
600: slip ring engaging member 610:
a: connection bit member rotation angle
700: elastic member

Claims (5)

An articulated tug torch (1) having a multi-joint structure for welding the inside of a small-diameter pipe by welding,
A torch head part 100 formed with a spray nozzle 110 formed inside thereof;
A plurality of hose fixing parts (not shown) which are coupled to the lower part of the torch head part 100 and have insertion holes 210 into which tungsten rods (not shown) are inserted, 220) are formed;
A first multi-hose insertion hole 310 is formed in the lower portion of the connecting member 200 and the multi-hose 10 is inserted therein, and an inner circumferential surface having a curved surface tapered inward in the lower portion is formed. A spacer 300 including one connection hole 320;
A plurality of second hose insertion holes 410 are formed in the lower portion of the spacer 300 so as to be continuously rotatably connected to the hose 10, A bit member 400 in which a connection protrusion 420 having an outer peripheral surface is formed and a second connection hole 430 having an inner circumferential surface having a curved surface tapered inward is formed at a lower portion;
Wherein the bit member 400 is coupled to the lowermost bit member 400 and has a seating groove 510 in which the bit member 400 at the lowermost portion is seated and fixed and a polygonal fixing groove 520 is formed at the bottom, (500);
And a slip ring engaging member 600 coupled to a lower portion of the body member 500 and having a fixing protrusion 610 inserted into the fixing groove 520 at an upper portion thereof. Refractive type teg torch (1). The method according to claim 1,
On the inner circumferential surface of the first and second multiple hose insertion holes 410,
A first fixing groove section 411 in which a part of the surface of the cooling water supply hose 11 is fixed,
A second fixing groove section 412 in which a part of the surface of the shielding gas supply hose 12 is fixed,
A third fixing groove section 413 in which a part of the surface of the cooling water returning hose 13 is fixed,
And a fourth fixing groove section (414) in which a part of the surface of the power supply line (14) is held is formed. The method according to claim 1,
On the inner circumferential surface of the first and second multiple hose insertion holes 410,
A fifth fixing groove section 415 in which a part of the surface of the shielding gas supply hose 12 is fixed,
A sixth fixing groove section 416 in which a part of the surface of the cooling water recovering hose 13 is fixed,
And a seventh fixing groove section (417) in which a part of the surface of the cooling water supply hose (11) having the power supply line (14) is mounted is formed in the inside of the refractory tig torch ). The method according to any one of claims 2 to 5,
The curvature of the outer peripheral surface of the coupling protrusion 420 is formed to be larger than the curvature of the inner peripheral surface of the first coupling hole 320 or the second coupling hole 430,
When the connection protrusion 420 is inserted into the first connection hole 320 or the second connection hole 430 and the lower end of the spacer 300 or the bit member 400 and the bit member 400 ) Are spaced apart from each other to form a predetermined rotation angle (a). The method according to claim 4,
The upper portion of the multiple hose 10 is fixed by the connecting member 200 and the lower portion of the multiple hose 20 is fixed by the slip ring connecting member 600, Is formed,
An elastic member 700 is formed inside the body member 500 to closely contact the plurality of bit members 400 connected to each other using an elastic force,
The body member 500 fixes the bit member 400 at the lowermost portion so as to prevent the rotation efficiency of the elastic member 700 from being reduced,
The body member 500 and the slip ring engagement member 600 are configured to rotate together,
And a shielding gas ejection hole (211) is formed around the insertion hole (210) so that the shielding gas supplied into the connection member (200) is ejected to the outside. (One).

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