KR101251471B1 - Structure for assembly plasma torch and guard cap - Google Patents

Abstract

The present invention relates to a coupling structure of the plasma torch and the guide cap, and more particularly, to a coupling structure of the plasma torch and the guide cap which can prevent the plasma torch from being easily damaged due to frequent replacement of the guide cap, which is a consumable.
Combination structure of the plasma torch and the guide cap of the present invention, the plasma torch; A first O-ring mounted on an outer circumferential surface of the plasma torch; The first cap is wrapped around the first O-ring and made of a guide cap screwed to the outer peripheral surface of the torch, the guide cap, while the first cap is wrapped around the first O-ring of the hollow cylinder shape of the screw to the outer peripheral surface of the plasma torch A fixed cap part; A second O-ring mounted on an outer circumferential surface of the other end of the fixed cap part; One end is screwed to the other end of the fixed cap portion surrounding the second O-ring, and the other end is composed of a separation cap portion formed with a through hole through which the plasma generated by the plasma torch is discharged, and the separation cap portion is detachable from the fixed cap portion. It is characterized by being coupled to.

Description

Combined Structure of Plasma Torch and Guide Cap {STRUCTURE FOR ASSEMBLY PLASMA TORCH AND GUARD CAP}

The present invention relates to a coupling structure of the plasma torch and the guide cap, and more particularly, to a coupling structure of the plasma torch and the guide cap which can prevent the plasma torch from being easily damaged due to frequent replacement of the guide cap, which is a consumable.

Plasma torches are widely used for workpiece processing, such as cutting, piercing and / or marking of metallic materials (eg, metal elements, metal alloys, etc.).

Plasma torch generally has an electrode mounted in the body of the torch (e.g., the torch body), a nozzle having a plasma outlet mounted in the torch body, an electrical connection, a fluid passage for the coolant, and a fluid shield. And a fluid arc control unit, a swirl ring for controlling a fluid flow pattern in the plasma chamber formed between the electrode and the nozzle, and a power supply.

The torch produces a plasma arc, which is a compressed ionization jet (eg, an ionized plasma gas flow stream) of plasma gas with high temperature and high momentum.

The gases used in the plasma torch may be non-oxidizing (eg argon or nitrogen) or oxidizing (eg oxygen or ambient air).

1 is a cross-sectional view illustrating a coupling structure of a conventional plasma torch and a guide cap.

As shown in FIG. 1, a guide cap 20 is mounted on an outer circumferential surface of the plasma torch 10, and the guide cap 20 is damaged by the plasma torch 10 due to the plasma gas. It is mounted to prevent it.

The guide cap 20 and the plasma torch 10 are screwed together to replace the guide cap 20 when the guide cap 20 is a consumable.

However, in the related art, the guide cap 20 to be replaced is directly screwed to the plasma torch 10, so that the life of the thread formed in the plasma torch 10 decreases during frequent replacement of the guide cap 20. There was a disadvantage to replace the entire expensive plasma torch 10.

In addition, in order to prevent foreign matter from flowing into the threaded portion of the guide cap 20 and the plasma torch 10, the threads of the guide cap 20 and the plasma torch 10 are densely formed, and a large number therebetween. O-rings (30) are arranged, it was very inconvenient when replacing the guide cap 20, which is a consumable.

The present invention is to solve the above-mentioned problems, to prevent expensive plasma torch is replaced by frequent replacement of the guide cap, the plasma torch and the guide can be easily separated and replaced from the plasma torch The purpose is to provide a coupling structure of the cap.

In order to achieve the above object, the coupling structure of the plasma torch and the guide cap of the present invention includes a plasma torch; A first O-ring mounted on an outer circumferential surface of the plasma torch; The first cap is wrapped around the first O-ring and made of a guide cap screwed to the outer peripheral surface of the torch, the guide cap, while the first cap is wrapped around the first O-ring of the hollow cylinder shape of the screw to the outer peripheral surface of the plasma torch A fixed cap part; A second O-ring mounted on an outer circumferential surface of the other end of the fixed cap part; One end is screwed to the other end of the fixed cap portion surrounding the second O-ring, and the other end is composed of a separation cap portion formed with a through hole through which the plasma generated by the plasma torch is discharged, and the separation cap portion is detachable from the fixed cap portion. It is characterized by being coupled to.

The density of the first screw thread to which the fixed cap and the separation cap are screwed together is less than the density of the second screw thread to which the fixed cap and the plasma torch are screwed together.

The fixed cap portion, and the pressing portion surrounding the first O-ring; A first coupling part protruding from one end of the pressing part in an outer circumferential direction; The second coupling part is formed to protrude in the direction of the outer peripheral surface from the other end of the pressing portion, the inner peripheral surface of the first coupling portion is formed with a first screw thread for coupling with the plasma torch, the separation on the outer peripheral surface of the second coupling portion A second screw thread is formed to engage the cap portion.

The separation cap portion, and a fastening portion that is screwed while covering the other end of the fixed cap portion; The inclined portion is formed to be inclined in the direction of the through hole from the fastening portion, the inner peripheral surface of the fastening portion is formed with a recess groove for receiving the other end of the fixed cap portion is formed concave, the second O-ring is the fastening portion in the mounting groove portion In contact with the inner circumferential surface, the screw coupling portion of the inner circumferential surface of the fastening portion and the other end of the fixing cap is located closer to the inclined portion than the second O-ring.

According to the coupling structure of the plasma torch and the guide cap of the present invention as described above has the following effects.

Since the guide cap is composed of a fixed cap part fixedly coupled to the plasma torch and a detachable cap part detachably coupled to the fixed cap part, the threads formed on the outer circumferential surface of the plasma torch are worn out and damaged even if the separating cap part, which is a consumable, is frequently replaced. Can be prevented.

In addition, since the density of the first screw thread to which the fixed cap and the separation cap are screwed together is less than the density of the second screw thread to which the fixed cap and the plasma torch are mutually screwed together, the coupling force of the first screw thread is second. It is weaker than the coupling force of the screw thread so that the separation cap can be easily separated from the fixed cap and replaced.

1 is a cross-sectional structural view showing a coupling structure of a conventional plasma torch and a guide cap;
Figure 2 is a cross-sectional structure showing a coupling structure of the plasma torch and the guide cap according to an embodiment of the present invention,
3 is an exploded perspective view of a guide cap according to an embodiment of the present invention;
Figure 4 is a cross-sectional view of the guide cap separated state according to an embodiment of the present invention,

Figure 2 is a cross-sectional structural view showing a coupling structure of the plasma torch and the guide cap according to an embodiment of the present invention, Figure 3 is an exploded perspective view of the guide cap according to an embodiment of the present invention, Figure 4 is an embodiment of the present invention Cross-sectional view of the guide cap is removed.

2 to 4, the coupling structure of the plasma torch and the guide cap of the present invention includes a plasma torch 100, a first O-ring 120, and a guide cap 200.

The plasma torch 100 has the same structure as the conventional one, and a detailed description thereof will be omitted.

The first O-ring 120 is mounted on an outer circumferential surface of the plasma torch 100.

To this end, a first O-ring groove 110 is formed on the outer circumferential surface of the plasma torch 100 for mounting the first O-ring 120.

In the present embodiment, two first o-ring grooves 110 are formed to be spaced apart from each other, and the first o-ring grooves 120 are formed of two first o-ring grooves 110.

In this case, the thickness of the first O-ring 120 is greater than the depth of the first O-ring groove 110, the first O-ring 120 is seated in the first O-ring groove 110 in the first O-ring 120 is protruded.

The guide cap 200 has one end coupled to the outer circumferential surface of the torch 100 while surrounding the first O-ring 120.

The guide cap 200 is composed of a fixed cap portion 210, a second O-ring 220, and a separation cap portion 230.

The fixing cap 210 is formed in the shape of a hollow cylinder to surround the first O-ring 120, one end is screwed to the outer peripheral surface of the plasma torch 100.

The fixing cap 210 is preferably fixed so as not to be separated once it is coupled to the plasma torch 100.

The fixed cap portion 210 is composed of a pressing portion 211, the first coupling portion 212, the second coupling portion 213.

The pressing unit 211 is formed in a hollow cylindrical shape and surrounds the first O-ring 120 while pressing in the direction of the first O-ring groove 110.

The first coupling portion 212 is formed in a hollow cylindrical shape that protrudes slightly in the direction of the outer circumferential surface from one end of the pressing portion 211.

The second coupling portion 213 is formed in a hollow cylindrical shape extending slightly protruded in the direction of the outer peripheral surface from the other end of the pressing portion 211.

The first coupling part 212 and the second coupling part 213 protruding toward the outer circumferential direction means that the first coupling part 212 and the second coupling part 213 are larger than the pressing part 211 than the plasma torch. It is spaced further away from 100.

A first screw thread 214 is formed on the inner circumferential surface of the first coupling part 212 to screw the plasma torch 100 together.

That is, a first screw thread 214 is formed on the inner circumferential surface of the first coupling part 212 and the outer circumferential surface of the plasma torch 100 for screwing together.

When the first screw thread 214 is formed in the first coupling portion 212 formed at one end of the pressing portion 211, when the fixing cap 210 is coupled to the plasma torch 100 The first O-ring 120 is not exposed to the outside by the pressing unit 211 and the first screw thread 214.

In addition, a second screw thread 215 is formed on the outer circumferential surface of the second coupling part 213 to couple with the separation cap 230.

The second O-ring 220 is mounted on the outer peripheral surface of the other end of the fixing cap 210.

In detail, a second O-ring groove 216 is formed on the outer circumferential surface of the second coupling part 213 to allow the second O-ring 220 to be seated, and the second O-ring groove 216 is the second screw thread. It is formed at a position closer to the pressing portion 211 than at 215.

The separating cap portion 230, one end is screwed to the other end of the fixed cap portion 210 while surrounding the second O-ring 220, the other end is a through hole through which the plasma generated from the plasma torch 100 is discharged 234 is formed.

The separation cap 230 is detachably coupled to the fixed cap 210.

To this end, a screw thread is formed on the inner circumferential surface of the separation cap 230 to be detachably coupled to each other by the outer circumferential surface of the second coupling part 213 and the second screw thread 215.

At this time, the density of the first screw thread 214, the fixing cap 210 and the separation cap 230 is screwed to each other, the second screw thread is screwed to the fixing cap 210 and the plasma torch 100 It is made smaller than the density of (215).

As described above, since the density of the first screw thread 214 is smaller than the density of the second screw thread 215, between the fixing cap 210 and the plasma torch 100 by the second screw thread 215. Coupling force is greater than the coupling force of the fixed cap portion 210 and the separation cap 230 by the first screw thread (214).

Since the separation cap 230 can be easily separated from the fixing cap 210 because of the small coupling force of the first screw thread 214, and the separation cap 230 is separated from the fixing cap 210. The fixing cap 210 may be prevented from being separated from the plasma torch 100 arbitrarily.

The separation cap 230 is a fastening portion 231 which is screwed while covering the other end of the fixed cap portion 210, and the inclined portion 233 inclined in the direction of the through hole 234 in the fastening portion 231 )

On the inner circumferential surface of the fastening part 231, a seating groove 232 in which the other end of the fixing cap 210 is seated is concave.

The second O-ring 220 mounted on the outer circumferential surface of the second coupling part 213 is coupled to the fastening part in the seating groove part 232 when the fixed cap part 210 and the separation cap part 230 are coupled to each other. It is in contact with the inner peripheral surface of 231).

The inner circumferential surface of the fastening portion 231 and the screw coupling portion at the other end of the fixed cap portion 210 are located closer to the inclined portion 233 than the second O-ring 220.

When the separation cap 230 is screwed to the fixing cap 210 by the seating groove 232 as described above, the end of the second coupling portion 213 is a stepped portion of the seating groove 232. It comes in contact with the stopper.

In addition, the first O-ring 120 and the second O-ring 220 through the gap between the fixed cap portion 210 and the separation cap 230 may block foreign matter from entering the interior of the guide cap 200. have.

On the other hand, breakage and wear of the guide cap 200 occurs most around the through hole 234 through which the plasma is discharged.

At this time, in the present invention, the guide cap 200 is composed of a fixed cap portion 210 and a separation cap portion 230, by separating only the separation cap portion 230 formed with the through-hole 234 from the fixed cap portion 210 The cost of replacement can be reduced.

In addition, when rotating to separate the separation cap 230, the coupling force of the fixed cap portion 210 and the plasma torch 100 is greater than the coupling force of the separation cap 230 and the fixed cap portion 210, Even when the separation cap 230 is rotated, the fixing cap 210 may be prevented from being separated from the plasma torch 100.

In addition, since the density of the first screw thread 214 is smaller than the density of the second screw thread 215, the fixed cap part 210 may be replaced even if the separating cap part 230 is largely replaced from the fixing cap part 210. The first screw thread 214 formed in the) is not easily broken, and the fixing cap 210 is coupled to the outer circumferential surface of the plasma torch 100 as it is. It is possible to prevent the screw thread formed on the outer peripheral surface thereof from being damaged.

The coupling structure of the plasma torch and the guide cap of the present invention is not limited to the above-described embodiment, and may be variously modified and implemented within the scope of the technical idea of the present invention.

100: plasma torch, 110: first O-ring groove, 120: first O-ring,
200: guide cap,
210: fixed cap portion, 211: pressing portion, 212: first coupling portion, 213: second coupling portion, 214: first screw thread, 215: second screw thread, 216: second o-ring groove,
220: second o-ring,
230: separating cap portion, 231: fastening portion, 232: seating groove portion, 233: inclined portion, 234: through hole,

Claims (4)

delete A plasma torch;
A first O-ring mounted on an outer circumferential surface of the plasma torch;
While wrapping the first O-ring one end is made of a guide cap screwed to the outer peripheral surface of the torch,
The guide cap,
A hollow cap-shaped fixing cap having one end screwed to an outer circumferential surface of the plasma torch while surrounding the first O-ring;
A second O-ring mounted on an outer circumferential surface of the other end of the fixed cap part;
One end is screwed to the other end of the fixed cap portion surrounding the second O-ring, the other end is composed of a separation cap portion formed with a through hole through which the plasma generated by the plasma torch is discharged,
The separation cap portion is detachably coupled to the fixed cap portion,
The density of the first screw thread to which the fixed cap and the separation cap are screwed together is smaller than the density of the second screw thread to which the fixed cap and the plasma torch are mutually screwed together. . The method of claim 2,
The fixed cap portion,
A pressing part surrounding the first O-ring;
A first coupling part protruding from one end of the pressing part in an outer circumferential direction;
At the other end of the pressing portion is made of a second engaging portion formed to extend in the direction of the outer peripheral surface,
A first screw thread is formed on an inner circumferential surface of the first coupling part to couple with the plasma torch.
A coupling structure of the plasma torch and the guide cap on the outer circumferential surface of the second coupling portion is provided with a second screw thread for coupling with the separation cap portion. The method of claim 2,
The separation cap portion,
A fastening part screwed to cover the other end of the fixed cap part;
The inclined portion formed to be inclined in the direction of the through hole in the fastening portion,
The inner circumferential surface of the fastening portion is formed with a recessed groove portion for receiving the other end of the fixing cap portion is concave,
The second O-ring is in contact with the inner peripheral surface of the fastening portion in the seating groove,
The screw coupling portion of the inner peripheral surface of the fastening portion and the other end of the fixing cap portion, the coupling structure of the plasma torch and the guide cap, characterized in that located closer to the inclined portion than the second O-ring.

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