KR20050029480A - The high efficient mag-welding torch can control welding voltage - Google Patents

Abstract

A high efficient MAG(Metal Active Gas)-welding torch possible to adjust welding voltage is provided to easily increase or adjust the welding voltage by changing a distance(CTWD, Contact Tip to Work-piece Distance) between a welding tip and a base metal through shifting the welding tip, to remove a post-processing by forming a flat bead without weld defects, and to prevent the welding tip from being melted or burned due to excessive arc heat during welding work. A high efficient MAG-welding torch possible to adjust welding voltage comprises a welding torch body(8) supplying welding voltage to deliver a wire through a liner; a gas nozzle(5) combined with the welding torch body; a gas ejector(2) having a gas ejecting hole(3) in the gas nozzle; a welding tip(1) combined with the gas ejector; and an adjusting hole(4) changing position of the welding tip. The welding tip is recessed in, at least, 5 millimeters more than the distal end portion of the gas nozzle. The gas nozzle is composed of an insulating unit(7) and a water cooling unit(6).

Description

The high efficient MAG-welding torch can control welding voltage}

The present invention relates to a high-efficiency mag welding torch that can adjust the welding voltage, and more particularly, it is possible to adjust the length of the welding tip which is generated from the arc as the wire protrudes from the gas ejector and the filler metal is supplied to the base material.

In general, MAG (Metal Active Gas) welding means that a gas mixed with an inert gas and an active gas is used as a protective gas, and an arc is generated between the wire and the base material through an electric current while continuously supplying the consumed electrode wire to the molten pool. It is a welding method. In such mag welding, the welding rate refers to the amount of wire melting per unit time by arc heat and is a significant measure of the welding efficiency. In general, when the welding rate is 100 g / min or more, it is generally referred to as high efficiency welding, and recently, it is used in industrial sites by being combined with automation equipment including robots.

Since the welding rate is determined by the welding current capable of melting the supplied wire, high efficiency welding can be referred to as a welding technique in which high welding current and high wire feeding are simultaneously performed. On the other hand, the welding voltage has a great influence on the shape of the bead, and the higher the voltage, the higher quality beads are formed. However, the welding machine used in the mag welding has a limitation that it is difficult to change the voltage freely by the user because it shows the voltage characteristics that hardly change even if the current increases or decreases in the output characteristics such as the output and CTWD characteristics of the mag welder shown in FIG. 1. .

In order to solve the above problems, by adjusting the welding tip and the base material (CTWD) to be described later as the adjustment of the welding tip in high efficiency current welding with high welding current and wire can be easily increased or adjusted the welding voltage By providing a welding torch, the object is to form a high quality weld free of weld defects, and in particular to form flat beads to eliminate post processing such as finishing.

In addition, it is another object to provide a welding torch that can prevent the melting or burning of the welding tip by the intense arc heat generated during welding.

Mag welding is used for various products and various welding shapes, from welding of steel structures to pressure vessel welding, due to its excellent mechanical properties and ease of grafting with robots and other automation equipment. High-efficiency mag welding can be applied to all the fields where the general mag welding is used, and it can reduce the number of welding laminations due to the high welding current and wire feeding compared to the general mag welding. High welding production efficiency can be obtained. However, due to the use of high welding current, the working environment is very poor due to the strong arc light and heat.

The high production efficiency of high efficiency mag welding is due to the use of welding current of 300A or more, and the welding rate of 100g / min or more can be obtained by feeding about 11-18mm / min for 1.2mm diameter wire. Due to the current-voltage output characteristics, the voltage cannot be made high enough to increase the current, thereby forming a convex bead having a high bead height.

First, as the conventional MAG welding torch increases in the distance between the gas nozzle and the base material (A), as shown in FIG. 3, simultaneously increases the distance between the welding tip and the base material (CTWD), and the A increases automatically the CTWD. Increasing the welding voltage increases. However, if A is set to 20 mm or more, the welding gas is not properly formed, and thus the welding defect is generated. Therefore, the actual A is not used more than 25mm.

The present invention relates to a torch that can form a flat bead by lowering the bead height by increasing the welding voltage and increasing the spreading property, so that it is possible to reduce the subsequent processes such as securing better welding quality and preventing torch damage due to arc heat and finishing. will be.

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

4 is a structural example of the present invention, the welding efficiency of the high-efficiency mag welding torch according to the present invention, the welding torch body 8, the wire is fed through the liner by supplying a welding power supply, and the welding torch A gas nozzle 5 coupled to the body 8, a gas ejector 2 having a gas ejection opening 3 formed inside the gas nozzle 5, and a welding tip coupled to the gas ejector 2 ( 1), and is formed of a control mechanism (4) for adjusting the position of the welding tip (1).

Here, the gas nozzle 5 has an insulating portion 7 and a water cooling portion 6 formed therein.

The gas nozzle 5 collects the protective gas injected from the gas ejector 2 into the welding part where the arc is generated, and the gas ejector 2 is a part in which the protective gas for protecting the welding part is ejected. Since the internal thread is formed inside, and can move up and down by the external thread formed in the outer side of the control opening 4, the said welding tip 1 moves up and down in the gas nozzle 5, and is moved up and down.

The water cooling unit 6 is a portion in which the coolant is circulated to the cooling unit for preventing the gas nozzle 5 from being melted or damaged due to the welding heat, and the insulating unit 7 connects the gas nozzle 5 to the welding torch body. This part is to insulate from welding power source transmitted from (8).

Hereinafter will be described the operation of the present invention.

The welding voltage is largely dependent on the distance between the welding tip and the base material CTWD, as shown in the CTWD-voltage characteristic diagram of the mag welder shown in FIG. In other words, the larger the CTWD, the larger the welding voltage, and the smaller the CTWD, the larger the welding voltage. Therefore, the present invention utilizes the principle of indirectly increasing or decreasing the welding voltage by adjusting the CTWD.

High-efficiency mag welding torch which can adjust the welding voltage according to the present invention does not change the distance between the gas nozzle 5 and the base material 11, as shown in FIG. By forming the adjusting device 4 to adjust the position, the control device 4 can be freely adjusted by the movement amount of the control device 4 is moved up and down along the gas ejector 2, and as a result, the welding voltage can be adjusted. have.

In the above-described embodiment of the present invention, the regulator 4 can be moved as a male screw outside the regulator 4 along the female screw inside the gas ejector 2, but within the scope of the technical idea of the present invention. Application is possible.

As described above, the high efficiency mag welding torch capable of adjusting the welding voltage according to the present invention

The welding voltage can be easily adjusted only by adjusting the position of the control port, so that the welding quality can be improved and the flat welding bead can be formed, and there is no need for post-process such as finishing, and the welding tip can be melted or burned by excessive arc heat. The productivity can be improved by preventing the welding for a long time.

In addition, by improving the spreadability of the weld, it is possible to reduce the weld melt failure phenomenon.

1 is a current-voltage characteristic diagram of a mag welder

2 is a CTWD-voltage characteristic diagram of a mag welder

Figure 3 is an illustration of the use of a conventional high efficiency mag welding torch

4 is a block diagram of the present invention

5 is an exemplary embodiment of the present invention.

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

1. Welding tip 2. Gas ejector 3. Gas outlet

4. Control port 5. Gas nozzle 6. Water cooling part

7. Insulation 8. Welding Torch Body 9. Arc

10. Bead 11. Base material

Claims (3)

A welding torch body supplying a welding power supply to a wire through a liner, a gas nozzle coupled to the welding torch body, a gas ejector having a gas ejection opening formed inside the gas nozzle, and a welding tip coupled to the gas ejector; High-efficiency mag welding torch with adjustable welding voltage, characterized in that it is formed as a control to adjust the position of the welding tip High-efficiency mag welding torch, in which the welding tip is formed in the shape of recessed at least 5mm from the end of the gas nozzle for controlling the welding voltage. The gas nozzle of claim 1, wherein the gas nozzle has an insulating portion 7 and a water cooling portion 6 formed therein.