KR20100115997A - Tandem torch with variable electrode - Google Patents

Abstract

PURPOSE: A tandem torch with a variable electrode structure is provided to enable application to various welding objects because the position and angle of electrodes can be regulated by a user. CONSTITUTION: A tandem torch with a variable electrode structure comprises a torch body(110), a pair of electrode holders(121,122), and an angle control unit(130). The torch body comprises a nozzle unit(111) surrounding ends of two electrodes(101,102) and a fixing part(112). The electrode holders are coupled to electrode bodies(103,104) and the fixing part to support the electrodes. The angle control unit fastens the electrode holders and the fixing part so that the electrode holders are supported in the fixing part and rotated to regulate the angle between the two electrodes.

Description

Tandem torch with variable electrode

The present invention relates to a tandem torch, and in particular, two electrodes are provided in one nozzle, and the angle or position of the two electrodes can be individually adjusted to provide an optimal welding environment for various welding conditions. An electrode variable structure tandem torch.

In general, welding is one of the joining methods for direct bonding between solids by applying heat and pressure to the same or different kinds of metal materials, and the shipbuilding industry or the automobile industry due to the fast and robust combination of the two metals. It is widely used in various industries.

1 is a conceptual diagram showing the structure of a conventional welding torch.

A welding torch generally used in a welding operation consists of one electrode 20 installed in one nozzle 10, and the nozzle in which the electrode is installed is installed in the torch body 30.

In some cases, a tandem torch is used in which two electrodes are disposed in one nozzle to increase welding speed. As such, when two electrodes exist in one nozzle, since the arrangement of the electrodes has a significant influence on the weldability, the two electrodes are arranged to have an optimal structure in consideration of the characteristics of the welded portion.

However, since the conventional tandem torch has a structure in which two electrodes are fixed at an optimized position in consideration of characteristics of a specific welding portion, it is extremely incompatible to use the welding portion having a different structure, and thus, a dedicated tandem torch is used for each welding portion. Since it must be provided with a problem that causes an increase in equipment costs.

The present invention has been made in consideration of the above problems, and an object of the present invention is to enable the user to adjust the position and angle of the electrode in the tandem torch installed with two electrodes in one nozzle to be applicable to various welding parts An electrode variable structural tandem torch is provided.

The electrode variable structured tandem torch of the present invention, which achieves the above object and performs a task for eliminating the drawbacks of the related art, in a tandem torch having two electrodes in one nozzle, surrounding the ends of the two electrodes. A torch body comprising a nozzle part and a fixing part installed on the nozzle part and fixed to a welding apparatus; A pair of electrode holders coupled to the electrode bodies extending rearward of the respective electrodes and coupled to the fixing part to support the electrodes; And angle adjusting means for adjusting the angles of the two electrodes by combining the electrode holder and the fixing part so that the electrode holder can be rotated while being supported by the fixing part.

Meanwhile, a side surface of the electrode holder is formed in an open structure to form a gap between the electrode holder and the electrode body, so that the electrode can be moved in position, and the electrode is fastened to the electrode holder to penetrate the slit. It is preferable to further include a position adjusting means made of a position adjusting bolt for binding the electrode holder and the electrode body after the adjustment is made.

On the other hand, the angle adjusting means comprises a pair of guide holes formed in the fixing portion to have a structure extending in a direction parallel to the longitudinal direction of the tandem torch; And an angle adjustment bolt inserted through the guide hole and fastened to the electrode holder.

On the other hand, between the torch body and the electrode body while being able to respond to the movement of the electrode inside the bellows of the structure that can pass through the protective gas can be installed.

According to the present invention having the above characteristics, it is possible to freely adjust the angle or position of the two electrodes in accordance with the required conditions, it is possible to increase the compatibility of the tandem torch.

In addition, since it is possible to apply to the welding portion of a variety of structures through the angle and position adjustment of the two electrodes, it is not necessary to have a variety of tandem torch it is possible to prevent the increase in equipment costs.

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

2 is a front view of a tandem torch according to a preferred embodiment of the present invention, FIG. 3 is a side view of a tandem torch according to a preferred embodiment of the present invention, and FIG. 4 is a cross-sectional view of a tandem torch according to a preferred embodiment of the present invention. It is shown.

The tandem torch of the present invention is provided with two electrodes in one nozzle, so that the angle and position of the two electrodes can be adjusted by the user according to the welding conditions. And 110, the electrode holders 121 and 122, the angle adjusting means 130 and the position adjusting means 140.

The torch body 110 is composed of a nozzle portion 111 and the fixing portion 112, wherein the nozzle portion 111 is configured to surround the ends of the two electrodes (101, 102) is formed to supply a protective gas to the welding portion The fixing part 112 has a structure in which one end is fixed to the nozzle part 111, and the other end thereof is extended and fixed to the welding device A. Here, the welding device may correspond to an automatic welding machine or a traveling carriage for welding.

The electrode holders 121 and 122 are coupled to the respective electrodes 101 and 102 to be coupled to the electrode bodies 103 and 104 extending to the rear of the electrode to support the electrodes. Two electrode holders 121 and 122 are provided to support the two electrodes, respectively, and the two electrode holders 121 and 122 provided are independently disposed to support the electrodes 101 and 102.

The angle adjusting means 130 is coupled to the two electrode holders 121 and 122 and the fixing part 112, by combining the electrode holders 121 and 122 and the fixing part 112 so that the two electrode holders 121 and 122 can rotate. It is to allow the user to adjust the angle of the electrodes (101, 102). The angle adjusting means 130 is a pair of guide holes 131 formed in the fixing part 112, and a pair of angle adjusting bolts inserted through the guide holes 131 and fastened to the respective electrode holders 121 and 122 ( 132).

Each of the guide holes 131 is formed to extend in a direction parallel to the longitudinal direction v1 of the tandem torch to move the electrodes 101 and 102 in the longitudinal direction of the tandem torch.

If you want to adjust the angle of the electrode (101, 102) by using the angle adjusting means 130 as described above, by loosening the angle adjusting bolt 132 fastened to the electrode holder (121, 122) requiring adjustment and fixing portion 112 and When the gap between the electrode holders 121 and 122 is generated, the electrode holders 121 and 122 can be freely rotated by the hinge bolt 132 as the hinge, so that the user can properly adjust the angles of the electrodes 101 and 102, By tightening the adjusting bolt 132 to bind the fixing part 112 and the electrode holders 121 and 122, the angle of the electrode is fixed in the adjusted state. In this process of adjusting the angle of the electrode, the position of the electrode may be adjusted in the longitudinal direction v1 of the tandem torch by moving the angle adjusting bolt 132 along the guide hole 131.

The position adjusting means 140 allows the electrodes 101 and 102 to be moved in the longitudinal direction of the electrode (v2: shown in FIG. 8), and there is a gap between the electrode bodies 103 and 104 and the electrode holders 121 and 122. By forming, the position of the electrodes 101 and 102 can be adjusted. The position adjusting means 140 is a slit 141 formed in the electrode holders 121 and 122, and a position adjusting bolt 142 fastened to the electrode holders 121 and 122 to adjust the gap d of the slit 141. Consists of.

5 shows a bottom view of the electrode holder according to the present invention.

The slit 141 is formed in a direction (v2) parallel to the electrode on the side of the electrode holder (121, 122) is formed in a structure that partially open the side of the electrode holder (121, 122).

The position adjusting bolt 142 is fastened to the electrode holders 121 and 122 to penetrate the slit 141 to adjust the distance d of the slit 141, so that the user can adjust the position of the electrode or the position is adjusted. The electrode holders 121 and 122 can fix the prepared electrodes.

If you want to adjust the position of the electrode (101, 102) by using the position adjusting means 140 as described above, loosen the position adjusting bolt 142 of the electrode holder (121, 122) to which the electrode (101, 102) is required to adjust the slit The gap between the electrode bodies 103 and 104 and the electrode holders 121 and 122 is formed by widening the interval 141. Thereafter, the user moves the positions of the electrodes 101 and 102 in consideration of the structure of the welded part, and then tightens the position adjusting bolt 142 to narrow the interval between the slits 141 to adjust the position of the electrodes.

On the other hand, the bellows 150 having a corrugated pipe shape that can be stretched and bent between the torch body 110 and the electrode bodies 103 and 104 in order to supply the protective gas to the electrodes 101 and 102 whose angles or positions are freely adjusted. It is preferable to install.

6 to 8 show a front view showing a state during welding using a tandem torch according to the present invention.

FIG. 5 shows a state in which the angles or heights of the two electrodes 101 and 102 are not adjusted, and the distance between the leading electrode 101 located on the left side and the trailing electrode 102 located on the right side is wide, so that two welding arcs are disposed. It can be seen that is generated.

FIG. 6 illustrates a state in which only the position of the trailing electrode is adjusted, and the trailing electrode 102 forms a welding bead on the welding bead stacked in the preceding electrode 101. In this welding condition, the trailing electrode is formed. By adjusting the position of 102, an optimum welding environment can be realized without replacing the tandem torch.

7 shows a state in which the angles of the two electrodes are adjusted. When the angles of the two electrodes 101 and 102 are adjusted so that the ends of the two electrodes 101 and 102 are gathered, one arc may be generated using the two electrodes. have.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a conceptual diagram showing the structure of a conventional welding torch,

2 is a front view of a tandem torch according to a preferred embodiment of the present invention;

3 is a side view of a tandem torch according to a preferred embodiment of the present invention;

4 is a cross-sectional view of a tandem torch in accordance with a preferred embodiment of the present invention;

5 is a bottom view of an electrode holder according to the present invention;

6 is a state diagram showing a state of welding without adjusting the angle or position of the two electrodes with a tandem torch according to the present invention,

Figure 7 is a state diagram showing a state of welding by adjusting the position of the trailing electrode with a tandem torch according to the present invention,

Figure 8 is a state diagram showing a state of welding by adjusting the angle of the two electrodes with a tandem torch according to the present invention.

<Explanation of symbols for the main parts of the drawings>

(101), (102): electrode (103), (104): electrode body

110: torch body 111: nozzle unit

(112): fixing portion 121, (122): electrode holder

(130): angle adjusting means (131): guide hole

(132): angle adjusting bolt (140): position adjusting means

(141): Slit (142): Positioning bolt

150: bellows

Claims (4)

In a tandem torch having two electrodes 101 and 102 in one nozzle, A torch body 110 including a nozzle part 111 surrounding the ends of the two electrodes 101 and 102 and a fixing part 112 installed at the nozzle part 111 and fixed to the welding device A; A pair of electrode holders 121 and 122 coupled to the electrode bodies 103 and 104 extending to the rear of each of the electrodes 101 and 102 and coupled to the fixing part 112 to support the electrodes 101 and 102; And Angle adjusting means for adjusting the angle of the two electrodes (101, 102) by combining the electrode holder (121, 122) and the fixing portion 112 so that the electrode holder (121, 122) can be rotated while being supported by the fixing portion (112) Electrode variable structured tandem torch, characterized in that it comprises a (130). The method of claim 1, A slit 141 which forms a side surface of the electrode holders 121 and 122 in an open structure to form a gap between the electrode holders 121 and 122 and the electrode bodies 103 and 104 to allow the electrodes 101 and 102 to move in position; Position adjusting means 140 made of a position adjusting bolt 142 which is fastened to the electrode holders 121 and 122 so as to penetrate the slit 141, and then the electrode holders 121 and 122 and the electrode bodies 103 and 104 are bound. Electrode variable structured tandem torch, characterized in that it further comprises a). The method of claim 1 or 2, wherein the angle adjusting means 130, A pair of guide holes 131 formed in the fixing part 112 to have a structure extending in a direction parallel to the longitudinal direction of the tandem torch; And The variable electrode type tandem torch, characterized in that consisting of the angle adjustment bolt 132 is inserted through the guide hole 131 is fastened to the electrode holder (121, 122). The method of claim 1, An electrode variable structured tandem torch between the torch body 110 and the electrode bodies 103 and 104 while having a bellows 150 having a structure through which a protective gas can pass while being able to correspond to movement of the electrode.

Images