KR200437783Y1 - Device for preventing oxidation of welding - Google Patents

Abstract

The present invention, when welding the steel accumulator shaft tube portion and the copper (Cu) suction tube, the accumulator welding which can prevent the oxidation phenomenon occurring at the welding site by blocking the inflow of oxygen Present an anti-oxidation device.

Accumulator, Welding, Oxidation, Cap, Vortex Area, Copper, Iron

Description

Device for preventing oxidation of welding

1 is a view showing the configuration of a conventional accumulator.

2 is a view showing the configuration of an apparatus for preventing oxidation when welding the shaft portion and the suction tube of the accumulator according to an embodiment of the present invention.

FIG. 3 is a view showing a state in which the shaft tube part and the suction tube of the accumulator are welded using the antioxidant device shown in FIG. 2.

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

10: antioxidant 12: rod

14: Inlet passage 16: Hole

18: cap 20: discharge flow path

22: accumulator 24: shaft portion

26: suction pipe 26a: extension portion

A: vortex area

The present invention relates to an accumulator welding apparatus, and more particularly, to accumulate an accumulator cap to prevent oxidation by preventing oxygen from penetrating into a welded portion by preventing an oxidation cap from an extension of a suction pipe. It relates to a prevention device.

As shown in FIG. 1, a commonly known accumulator 22 is installed at the inlet side of the compressor to filter the unvaporized refrigerant from the refrigerant gas and to vaporize the refrigerant. Several types of accumulators are used.

The accumulator 22 has a main body 22a made of steel, and upper and lower ends of the main body 22a are inclined toward the center. In addition, the center of the end of each of the inclined portion is formed with a copper tube (24, 25) for fixing the refrigerant suction pipe 26 and the discharge pipe 27 made of copper (Cu), respectively, and filter (not shown) inside It is configured to be mounted.

On the other hand, the conventionally known method of manufacturing such an accumulator 22 is a refrigerant suction pipe 26 to each inclined shaft pipe portion 24, 25 with the filter mounted inside the cylindrical body 22a. And the manufacturing method by the welding operation in the state which inserted the discharge pipe 27 is common.

However, when the shaft tube portion 24 of the accumulator 22 made of iron and the suction tube 26 made of copper are welded as described above, external oxygen is generated in the body 22a of the accumulator. Oxidation is generated around the suction pipe 26 made of copper material.

That is, oxygen in the air flows into the welded portion of the accumulator 22 and reacts violently with nitrogen or hydrogen to cause oxidation and embrittlement. Thus, defects are generated at the welded portion of the accumulator 22. There was a problem that occurs easily or breakage due to corrosion.

Accordingly, the present invention is to solve the above problems, its purpose is to completely prevent the oxidation and embrittlement phenomenon of the welded portion by completely blocking the inside of the welded portion from the air when welding the shaft tube and the suction tube of the accumulator An antioxidant device for accumulator welding can be provided.

In addition, another object of the present invention is to provide an antioxidant device for accumulator welding that can prevent the oxidation phenomenon by preventing the penetration of oxygen to the welding portion by covering the cap on the expansion portion of the suction pipe.

In view of achieving the above, the present invention is one end is blocked, the other end is formed in the inlet passage of a predetermined depth, the rod having a plurality of holes along the outer peripheral surface of the inlet passage; Formed in a cylindrical shape, the rod being fitted with a cap to be welded; When welding the rod and the cap, the hole of the rod is blocked from the outside by the cap, a constant gap is formed between the rod and the cap, the expansion portion of the suction pipe between the rod and the cap The present invention proposes an oxidation preventing device for accumulator welding that can prevent the oxidation phenomenon occurring at the welded site by forming the discharge passage.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. In the following description will be presented a representative embodiment in the present invention to achieve the above technical problem. And other embodiments that can be presented in the present invention is replaced by the description in the configuration of the present invention.

In the present invention, when welding the steel accumulator shaft tube portion and the copper (Cu) suction tube, the accumulator welding that can prevent the oxidation phenomenon occurring at the welding site by blocking the inflow of oxygen To implement an anti-oxidation device for.

To this end, a component and its operation that can prevent oxidation by blocking oxygen introduced from the outside when performing a welding operation should be specifically disclosed. In addition, this technical configuration is equally applicable to welding dissimilar metals as well as welding accumulators.

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

2 is a view showing the configuration of the antioxidant device for accumulator welding according to an embodiment of the present invention. The antioxidant device 10 of the present invention is composed of a rod-shaped rod 12, a cylindrical cap 18, a discharge passage 20 and a vortex region A formed by a combination thereof.

Referring to FIG. 2, the rod 12 has a structure in which one portion is blocked and the other portion is bored, and specifically, an inflow passage 14 is formed at the center of one side end of the rod 12. A plurality of holes 16 are formed along the outer circumferential surface of the inflow passage 14.

The cap 18 has an open structure, and the rod 12 described above is fitted into and fixed to the cap 18. That is, the rod 12 is welded in the state of being fitted to the cap 18, wherein the holes 16 of the rod 12 are located inside the cap 18, and eventually the inlet with the hole 16 The passage 14 becomes invisible from the outside.

In other words, as shown in FIG. 3, one end of the rod 12 and the cap 18 is fixed to each other by welding, so that there is a constant gap between the rod 12 and the cap 18. ).

According to this configuration, oxidation occurs at the welding site during the welding operation of the accumulator 22 (preferably when welding the suction pipe 26 made of copper and the shaft tube part 24 made of iron). This will be easily understood by the detailed description of FIG. 3 to be described later.

3 is a cross-sectional view illustrating a process of welding the accumulator 22 using the antioxidant device 10 according to the present invention.

Referring to FIG. 3, the rod 12 is fitted with a welded cap 18 to the extension portion 26a of the suction pipe 26, and then specifically, the extension portion 26a is connected to the cap 18 and the rod. It fits in the gap between (12). Subsequently, the nitrogen gas is injected into the body 22a of the accumulator 22, and at the same time, the welding of the shaft tube part 24 made of iron and the suction tube 26 made of copper is performed.

When the welding operation is performed as described above, nitrogen gas injected into the body 22a of the accumulator flows into the inflow passage 14 of the rod 12 and is discharged to the outside through each hole 16. do. That is, the nitrogen gas is moved along the gap (specifically, the discharge passage 20) formed between the cap 18, the expansion portion 26a, and the rod 12, and eventually the end of the cap 18 It is discharged to the outside through a narrow area formed in the.

At this time, in the narrow region, a large amount of nitrogen gas is discharged to the outside to form the vortex region A, so that external oxygen does not flow into the body 22a of the accumulator. That is, oxygen is not generated by the vortex region A because oxygen is not supplied to the welded portion of the shaft tube 24 and the suction tube 26.

As described above, the present invention can prevent the welding site from being exposed to the air by assisting the action of the inert gas to cover the suction pipe with a separate anti-oxidation cap to weld. As a result, it is possible not only to prevent oxidation of the welded portion in advance, but also to prevent defects or corrosion occurring after welding, and also to prevent damage to the welded portion even when the accumulator is used for a long time. have.

Claims (2)

In the device that can prevent the oxidation phenomenon caused when welding the shaft pipe portion 24 of the accumulator 22 made of iron material and the suction pipe 26 made of copper material, One end is blocked, the other end is formed with an inflow passage 14 of a predetermined depth, the rod 12 having a plurality of holes 16 along the outer circumferential surface of the inflow passage 14; A cap 18 formed in a cylindrical shape and to which the rod 12 is inserted and welded; When the rod 12 and the cap 18 are welded, the holes 16 of the rod 12 are blocked from the outside by the cap 18, and between the rod 12 and the cap 18. There is a constant gap; An extension device (26) of the suction pipe (26) is inserted between the rod (12) and the cap (18) to form an exhaust passage (20). The method of claim 1, Nitrogen gas is injected into the main body (22a) of the accumulator 22, the nitrogen gas is discharged to the outside through the inlet passage 14 and the hole 16 and the discharge passage 20 Antioxidation device for cumulator welding.

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