KR19990002774U - Dressing point adjustment of tip dresser for automotive welding gun - Google Patents

Abstract

An object of the present invention relates to a dressing point adjusting device for a tip dresser for an automotive welding gun which can improve the welding quality by dressing the tip portion at regular intervals during the tip dressing operation of the standing spot welding gun in the automobile production line.

According to the present invention, the second link 26 is vertically extended to one side of the vertical first link 24 which is operated by the air cylinder 22 of the tip dresser 20, and thus the air cylinder 22 is driven. The first and second links 24 and 26 are interlocked up and down so that the up and down side flow of the tip dresser 20 is prevented.

Description

Dressing point adjustment of tip dresser for automotive welding gun

The present invention relates to a dressing point adjusting device of a tip dresser for a standing spot welding gun in an automobile production line, and more particularly, to improve the welding quality by dressing the tip portion at regular intervals during tip dressing of the welding gun. A dressing point adjuster for a tip dresser for an automotive welding gun.

In general, welding is a permanent bonding method in which two metals are joined by heating above the melting temperature. In recent years, due to the remarkable development of the technology, it is widely used not only for mechanical parts, structures, ships, but also for mechanical parts manufactured by casting and forging. great.

And there is no limitation in the thickness of the plate used, and the number of processes can be reduced, the production cost is cheap, and there is an advantage to reduce the weight, but the high heat occurs when welding is easy to deform, the residual stress is left the material is changed.

As a heat source for welding, gas, arc, electrical resistance heat, frictional heat, and the like are used.

On the other hand, high strength materials having high heat resistance and corrosion resistance have recently been used a lot of poor solubility with a high melting point and high energy density welding method of high energy density per unit area is used for welding of these special materials.

Types of welding include gas welding, arc welding, electron beam welding, laser welding and plasma welding.

The gas welding is a method of welding using a high temperature combustion heat generated by the combination of gas and oxygen.

There are various kinds of arc welding, such as metal arc welding, atomic hydrogen arc welding, carbon arc welding, etc., but double metal arc welding is most widely used. Welding is performed by generating an arc by applying a large amount of current at a low voltage.

The electron beam welding uses the principle that heat is generated in the metal when the electron beam is irradiated to the metal.

The laser welding is capable of high power welding of several tens of kilowatts by using a laser of a kind of light having a very short wavelength, and thus is widely used for welding metals, ceramics, wood, fibers, and the like.

Finally, plasma welding is a method in which a gas atom moves actively when a gas reaches a high temperature of 5000KW or more, and is used as a working matrix to rapidly weld a metal joint locally.

The conventional stationary welding gun 100 is provided with one hinge point A-1 at a constant distance with the air cylinder 22 installed in a vertical direction on one side of the tip dresser 200 as shown in FIG. 2. There is a problem that the driving of the air cylinder 22 and the driving of the motor are severely generated, and the rotation angle is severe.

More specifically, the tip dresser 200 of the stationary welding gun 100 has a high flow of the air cylinder 22 and the motor, which are driving devices, in the up, down, left, and right directions as shown in FIG. θ-1) has a severe curved surface, making it difficult to set the dressing point of the tip 120, and at the same time, there is a problem in that welding quality is deteriorated due to problems such as deterioration in quality.

The present invention has been made in consideration of the above circumstances, and its purpose is to tip the wear of a tip spot of a standing spot welding gun in a car production line by dressing the tip portion at regular intervals to improve welding quality. It is to provide a dressing point control device of the dresser.

In order to achieve the above object, the present invention vertically extends the second link to one side of the vertical first link operated by the air cylinder of the tip dresser, so that the first and second links are moved up and down according to the driving of the air cylinder. It is achieved by providing a dressing point adjusting device for a tip dresser for an automotive welding gun, which is to be linked downward to prevent the up and down flow and side flow of the tip dresser.

1 is a side view of a tip dresser according to the present invention.

2 is a side view of the tip dresser.

* Description of the symbols for the main parts of the drawings *

10: welding gun

12: Tips

20: tip dresser

22: air cylinder

24; first link

26: second link

A, B, C, D: Hinge Point

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

1 shows a dressing point adjusting device for a tip dresser for an automotive welding gun according to the present invention, and the dressing point adjusting device for a tip dresser for an automotive welding gun is a part of the upper and lower tips 12 after the work of the welding gun 10. By preventing the up, down and left and right flow of the tip dresser 20 for dressing the wear at regular intervals, the tip dresser 20 is a vertical air cylinder 22 and the top and bottom of the air cylinder 22. According to the following operation, the first link 24 is interlocked with the second link 26 is interlocked with the first link 24.

The first link 24 has the same direction as the air cylinder 22 and is coupled to the stop portion, the rod front end of the air cylinder 22 and the first hinge A.

The second hinge B of the first link 24 is coupled to the lower body to the tip dresser 20 supporting the air cylinder 22, and the fourth hinge D is the upper body of the tip dresser 20. Are coupled to each.

The lower portion of the second link 26 is coupled to the lower body of the tip dresser 20 by the third hinge C, and the upper portion thereof is coupled to the upper body of the tip dresser 20 by the fourth hinge E, respectively. do.

The first link 24 and the second link 26 are installed side by side in parallel to the vertical.

According to the present invention configured as described above, the operation of the tip dresser 20 causes the air cylinder 22 to operate, and then the first link 24 moves the hinge point A to rotate the hinge point B. Hinge point (D) is to rotate the hinge point (C).

Then, the hinge point E is moved by the rotation of the hinge point C. At this time, a portion of the hinge contact point D and the smooth contact angle formed by the hinge points D and E is formed. It will move parallel along.

Therefore, the conventional side flow is improved in strength and naturally resolved by the application of the first link 24 and the second link 26, and the difficulty of setting the dressing point with severe up and down rotation angles is a rotation point distribution in a straight line. It will be close to prevent the flow of up, down and left and right.

Thus, it is possible to dress the tip 12 at regular intervals.

In other words, the second link 26 is vertically extended to one side of the vertical first link 24 operated by the air cylinder 22 of the tip dresser 20, so that the first link is driven according to the driving of the air cylinder 22. And second and second links 24 and 26 to move up and down to prevent side flow and up and down flow of the tip dresser 20.

Next, the effect will be described with reference to FIG. 1.

Dual first and second links 24 and 26 are applied between the upper body and the lower body of the tip dresser 20 to improve strength and prevent left and right flow, and the first and second flows. Due to the distribution of the hinge points A, B, C, D, and E of the links 24 and 26, the rotation angle is close to a straight line to prevent the up and down flow.

Accordingly, the dual link and the plurality of hinge points eliminate the strength and lateral flow, and prevent the up and down flow, so that the tip 12 can be more precisely processed to improve the welding quality.

Claims (1)

A tip dresser for standing spot welding guns used in automotive production lines; The second link is vertically extended to one side of the vertical first link operated by the air cylinder of the tip dresser so that the first and second links are interlocked up and down according to the driving of the air cylinder, so that the side flow of the tip dresser Dressing point adjustment device for a tip dresser for an automotive welding gun, characterized in that to prevent the flow up and down.