KR200449100Y1 - A flux damper for submerged arc welding machine - Google Patents

Abstract

The object of the present invention is to provide a flux damper for a submerged arc welder, which is small in volume and simple, and the operator can conveniently adjust the amount of flux.

In order to achieve the above object, the present invention is a flux damper for a submerged arc welder, a flux receiving part having a flux inlet formed at one side thereof and a flux outlet formed at the other side thereof, and capable of opening and closing the flux outlet. And a flux adjusting means installed on the inside of the flux outlet, wherein the flux adjusting means includes a control plate having a width smaller than the width of the flux outlet, and is fixed to one end of the control plate and has a spiral on some or all of the outer circumference thereof. Comprising a control rod is formed, both ends of the control rod is to be fastened to the screw holes formed on both sides of the flux outlet, characterized in that to adjust the opening degree of the control plate through the rotation of the adjustment rod Flux dampers for submerged arc welders to provide.

Submerged Arc Welders, Flux, Damper

Description

Flux damper for submerged arc welding machine {A FLUX DAMPER FOR SUBMERGED ARC WELDING MACHINE}

The present invention relates to a flux damper for a submerged arc welder, and more particularly, to a flux damper in which an operator can conveniently adjust the amount of flux discharged to a base material according to the size or diameter of an electrode to be welded. will be.

The submerged arc welding method is a method of welding two or more to-be-joined bodies with heat obtained by generating an arc between a consumable electrode and a base material under a granular flux.

According to this welding method, the granular flux is preliminarily stacked on the base material, and the welding is performed by continuously supplying a consumable electrode through which current flows. The flux blocks the atmosphere to protect the welding metal during the refining action. And contribute to weld bead or slag formation.

Accordingly, the smooth supply of flux is very important in the submerged arc welding machine. In the case of the conventional flux supply device, since a certain amount of flux is supplied regardless of the width or diameter of the consumable electrode to be welded, the consumable electrode When the size of the weld bead is small because the width or diameter of the is small, there is a problem that a large amount of flux is consumed unnecessarily.

On the other hand, the submerged arc welding machine requires a variety of auxiliary devices such as a flux supply device and a bead control device using magnetic force, so the occupied space occupied by the welder is large, and thus the amount of flux is further increased through a complicated and bulky structure. The method of control is not desirable.

The present invention was devised to solve the above-mentioned problems of the prior art, and does not require a separate space, and allows a flux damper for a submerged arc welder that allows an operator to easily adjust the amount of flux discharged to a base material during operation. It aims to provide.

The flux damper for a submerged arc welding machine according to the present invention for achieving the above object, the flux receiving portion is formed on the one side and the flux discharge port is formed on the other side, the flux outlet and opening and closing the flux outlet And a flux adjusting means installed inside the flux outlet so that the flux adjusting means has a width smaller than the width of the flux outlet, and is fixed to one end of the control plate and rotated at both sides of the flux outlet. It is made of a control rod that is fixed, it is characterized in that to adjust the opening degree of the control plate through the rotation of the adjustment bar.

Further, in the flux damper according to the present invention, a spiral is formed on a part or all of the outer circumferential portion of the adjusting rod, and a fastening hole is formed on both sides of the flux discharge port and a spiral is formed on the inner side of the flux discharge port, thereby fastening to the fastening hole. The control panel is characterized in that the control plate is rotated by the rotation of the adjustment bar.

According to the flux damper according to the present invention, when the operator rotates the adjusting rod by hand during operation, the opening degree of the adjusting plate is adjusted, so that the amount of flux can be appropriately adjusted according to the size of the weld bead to be produced, thereby reducing the amount of unnecessary flux. Waste can be prevented.

In addition, the flux damper according to the present invention has an advantage that the volume is increased or the manufacturing cost is not excessively increased by attaching a throttle to the inside of the damper, which previously serves to guide the flux to the welding bead.

Hereinafter, the present invention will be described in more detail with reference to preferred embodiments of the present invention. However, the following examples are merely exemplary, various modifications are possible within the technical idea of the present invention, and the present invention is not limited thereto.

1 is a perspective view of a flux damper according to an embodiment of the present invention, Figure 2 is a side cross-sectional view of the flux damper according to an embodiment of the present invention, Figure 3 is a sub-merge equipped with a flux damper according to an embodiment of the present invention A perspective view of a de arc welder head portion.

As shown in the drawings, the flux damper 1 for the submerged arc welder 1 according to the embodiment of the present invention, the flux receiving portion 10 for temporarily receiving the flux supplied from the flux supply device, and the It consists of a flux adjusting means 20 for adjusting the amount of flux discharged from the outlet of the flux receiving portion (10).

As shown in FIGS. 1 and 2, the flux accommodating part 10 has a rectangular parallelepiped shape having an internal space capable of accommodating flux by bending an iron plate. 12, the left side in the drawing, is inclined in cross section to the upper portion, and the discharge part 13 is formed. Flux inlet 14 and gas supply port 15 for supplying flux and gas for flowing the flux are formed on the left and right sides of the upper drawing, respectively, where the upper part 11 and the lower part 12 meet each other. One side is formed to protrude slightly. In addition, two first and second fastening holes 16a and 16b are formed on both side surfaces of the lower part 12 where the lower part 12 starts, and the spiral part for spirally coupling the flux adjusting means 20 is formed.

As shown in FIGS. 2 and 3, the flux adjusting means 20 includes an adjusting rod 21 having a spiral portion 22 formed at both ends thereof, and a welding method such as welding at an outer circumference of the adjusting rod 21. Consists of a control plate 23 that is fixed integrally through. In addition, the control plate 23 is to have a smaller width than the inside so that it can be accommodated in the lower portion 12 of the flux receiving portion (10).

As shown in FIGS. 1 and 2, the flux adjusting means 20 first ends one end of the flux adjusting unit 20 to the first fastening hole 16a inside the point where the inclination of the lower portion 12 of the flux receiving portion 10 starts. After the spiral coupling, the adjustment rod 21 protruding to the outside is rotated so that the other end is helically coupled to the second fastening hole 16b to be fastened to the flux receiving portion 10.

Next, the operation relationship of the flux damper 1 which has the above structure is demonstrated.

When the worker performs the welding operation and the size of the welding bead is reduced by replacing the electrode with a different diameter or width, the operator grips and rotates the end of the control rod 21 protruding to the finger.

Then, the adjusting rod 21 which is helically coupled to the first and second fastening holes 16a and 16b moves along the first and second fastening holes 16a and 16b, wherein the adjusting rod ( The control plate 23, which is integrally fixed to 21, rotates.

As the throttle 23 rotates, the opening degree of the outlet 13 of the flux receiving portion 10 is varied, so that the discharge of the flux is adjusted. When the operator stops the rotation of the adjusting rod 21 when the amount of flux appropriately discharged in accordance with the size of the welding bead, it is fixed as it is.

1 is a perspective view of a flux damper according to an embodiment of the present invention.

2 is a side cross-sectional view of a flux damper according to an embodiment of the present invention.

3 is an exploded perspective view of a flux damper according to an embodiment of the present invention.

Claims (2)

Flux damper for submerged arc welder, It includes a flux receiving portion is formed in the flux inlet on one side and the flux discharge port is discharged on the other side, and the flux control means is installed inside the flux outlet to open and close the flux outlet, The flux adjusting means is composed of a control plate having a width smaller than the width of the flux outlet, and a control rod which is fixed to one end of the control plate and rotatably fixed to both sides of the flux outlet, through the rotation of the control rod Flux damper for submerged arc welder, characterized in that the adjustment of the opening of the throttle. The method of claim 1, wherein a spiral is formed on a part or all of the outer circumferential portion of the adjusting rod, and a fastening hole is formed on both sides of the flux discharge port, the spiral is formed on the inner surface, the rotation of the adjustment rod fastened to the fastening hole Flux damper for a submerged arc welder, characterized in that the control plate is rotated by.

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