KR101122372B1 - Hose of double structure and Terminal apparatus thereof - Google Patents

Abstract

The present invention relates to a dual-structure hose and its terminal device. In the present invention, a relatively large outer hose 102 and a single hose 100 having a relatively small inner hose 104 in the outer hose 102 is provided. The inner hose 104 is formed longer than the length of the outer hose 102 and at least one support plate 106 is installed between the outer hose 102 and the inner hose 104. And the terminal device 200 is coupled to the final end of the hose 100 of the unitary dual structure is provided. The terminal device 200 is provided with a body 210 in which the first body portion 212 and the second body portion 214 are integrally formed from a direction in which the hose 100 is fitted. Coupled with the outer circumferential surface of the first body portion 212, and when the hose 100 and the terminal device 200 is coupled to prevent the separation O-ring 222 and pressure ring for the airtight with the ring 226 A first cover portion 220 into which the 224 is inserted is provided. The packing member 232 and the extraction unit 234 are sequentially installed at the inlet of the second body 214. The drawing unit 234 has a disc-shaped body 234a and a shaft which penetrates the center of the body 234a and has one end coupled to the inner hose 104 and the other end of which is directed outward of the body 210. 234b is formed. The second cover part 230 is coupled to a part of the outer circumferential surface of the second body part 214 while pressing the drawing unit 234. And an inner hose nipple 230 having one end coupled to the shaft 234b and drawing out a fluid or gas transferred through the inner hose 104 to the outside, and a mounting formed on a portion of the second body 214. Coupling with the ball 216 is provided with an external hose nipple 240 of approximately 'L' shape so that the fluid or gas transported through the outer hose 102 is drawn out. If a control line / power line is built into the inner hose 104, the outer hose nipple does not need to be configured. According to the present invention, the workability is improved because the hose is not twisted when working with a single hose, and the advantage that can be easily separated and drawn out different fluids or gases through the hose and the terminal device There is this.

Welding, Hose, Dual Structure, Termination, Ring, Nipple

Description

Hose of double structure and terminal apparatus

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to hoses, and more particularly, to hoses and terminal devices connected to the hoses that can supply two types of fluids and / or gases or wires and fluids for use in various welding operations.

Generally, two kinds of gases or fluids are used for gas cutting welding, and control lines / power lines and fluids are used for gas arc welding. That is, since the medium used according to the welding method is applied differently, a hose (or cable) corresponding thereto is used.

Hereinafter, the hose that can be applied according to the working method will be described. 1 is a longitudinal sectional view of a typical hose.

First, FIG. 1A is a hose configuration diagram for supplying different fluids or different gases. An example is a hose using oxygen-acetylene gas. 1A, the 1st hose 1 and the 2nd hose 2 are provided, and the 1st hose 1 and the 2nd hose 2 are bundled together by the band 3, etc. In general, the bundle process bundles only a part of the hose or integrates the entire outer circumferential surface of the first hose 1 and the second hose 2 with a separate jacket or tube.

1b shows a hose used in a gas welding process, a hose 5 having a control line 4 for welding control, a hose 7 having a power line 6 for supplying power during welding, and a gas. Like the gas hose 8 for supplying three hoses, the three hoses are bundled together by the band 9 etc., and are integrated.

FIG. 1C is a hose for water-cooled gas welding, comprising a hose sheath 11 covering the outer circumferential surface of the gas hose 10 and a control line 12 and a power line 13 arranged between the gas hose 10 and the hose sheath 11. The first hose 14 consisting of the first hose 14, two water cooling hoses (15) installed separately from the first hose 14, and the water inlet and out, and the first hose 14 and two water cooling hoses (15) ) Is bundled together with the band 16 or the like to be integrated.

However, the structure of the hoses have the following problems.

First, the hoses are bundled to form two or three individual hoses suitable for each purpose in order to transfer different fluids or gases as a single hose, and the outer diameter of the hose is greatly increased as a whole. For example, in the case of gas welding, the control line hose and the power line hose are separately configured, or in the case of the operation in which the high temperature fluid is used, the hose for cooling must be separately configured. In this way, since the individual hoses must be bundled to process a single process, a process that is not related to the actual work may be added, thereby reducing the efficiency of the overall work.

In addition, when the bundle is not processed or only a part of the hose is bundled to work, the hose is twisted, and thus mobility, handling and workability are deteriorated.

1B and 1C, when the control line 4 and the power line 5 are mixed and arranged in the outer portion of the hose, the hose may be easily cut and broken by an external impact or the like. In this case, the control line 4 ) And / or the power line 5 may be short-circuited, preventing the welding operation from being performed normally.

In the past, when a plurality of individual hoses are used, a terminal device for smoothly supplying a fluid or gas transferred through the individual hoses to a destination has to be installed for each individual hose. This increases labor and costs.

Accordingly, it is an object of the present invention to easily separate different fluids and gases, or fluids and wires, while having a relatively small volume than using individual hoses.

Another object of the present invention is to prevent the hose from being deformed by an external impact or the like, and to improve the work stability without any additional measures when working in a predetermined manner.

Still another object of the present invention is to provide a terminal device connected to the end of the hose so that the fluid or gas separated from the hose can be supplied / drawn to the outside without leakage.

According to a feature of the present invention for achieving the above object, the first passage through the inner hose is composed of a dual structure in which a relatively large diameter outer hose and an inner hose of a relatively small diameter is embedded in the outer hose and A hose having a second passage formed between the inner hose and the outer hose; And at least one support plate installed between the outer hose and the inner hose, wherein the inner hose is formed longer than the length of the outer hose.

According to another feature of the invention, the terminal device is coupled to a part of the end of the hose so as to separate the two kinds of fluid or gas transported through the hose having the above-described configuration to the outside is provided, the terminal device The body is formed from the first body portion and the first body portion and the second body portion integrally formed; A first cover part coupled to an outer circumferential surface of the first body part and having a prevention ring inserted therein so as not to separate the hose and the terminal device when the first body part is coupled; A drawing unit mounted at an inlet of the second body part; A second cover part which engages with a part of an outer circumferential surface of the second body part while pressing the drawing unit; A shaft installed at the drawing unit and having one end coupled to the inner hose and the other end facing outward of the body; An inner hose nipple having one end coupled to the shaft and drawing out a fluid or gas transferred through the inner hose to the outside; A mounting hole formed in a portion of the second body portion; And an outer hose nipple having an approximately 'L' shape so as to be coupled to the mounting hole and withdrawn from the fluid or gas transferred through the outer hose to the outside.

According to another feature of the invention, in the case having a wire in the inner hose in the hose having the above configuration, the terminal device coupled to a portion of the end of the hose to separate the fluid and gas and the wire; Provided, the terminal device, the body is formed integrally with the first body portion and the second body portion from the direction in which the hose is fitted; A first cover part coupled to an outer circumferential surface of the first body part and having a prevention ring inserted therein so as not to separate the hose and the terminal device when the first body part is coupled; A drawing unit mounted at an inlet of the second body part; A second cover part which engages with a part of an outer circumferential surface of the second body part while pressing the drawing unit; Installed in the drawing unit, one end is directed toward the outer hose side and the other end of the body to withdraw the fluid / gas transported through the corresponding number of contact pins and the outer hose to draw out the control line / power line A shaft formed to face outward; It is configured to include; a hose nipple coupled to the shaft and one end.

An o-ring and a pressure ring for sealing the fluid or gas which is inserted into the first cover and is conveyed through the hose when the first body and the first cover are fastened; And a packing member installed at an inlet side of the second cover part to prevent leakage of fluid or gas.

When the first cover part is engaged with the first body part, the prevention ring is a dish-shaped spring whose inner diameter is reduced so as to lock in a direction away from the hose while pressing the outer circumferential surface of the outer hose.

In the present invention, a hose having a double concentric structure of an outer hose and an inner hose is provided. Therefore, it is possible to deliver different fluids or gases to a single hose to reduce the volume of the hose, and compared to the conventional work to bundle the individual hose to prevent the twisting of the hose and the like improves workability.

In particular, when transporting a high temperature fluid, if the hot fluid is supplied through the inner hose and the outer hose forms an air layer or a cooling fluid, the outside of the hose rises to a high temperature due to the high temperature fluid even if it is not insulated separately. You can prevent it. In addition, since the support plate is provided between the outer hose and the inner hose, the entire size of the hose is prevented from being damaged by the external impact, it is possible to prevent the flow rate decrease.

And the end of the hose is connected to the terminal device for separating the fluid or gas transported through the outer hose and the inner hose to the outside. Since the terminal device is equipped with various rings for preventing separation between the terminal device and the hose or for airtightness, the terminal device is prevented from being separated from the hose and the fluid or gas transported through the hose is prevented from leaking. Of course, the terminal device can easily separate the fluid and gas transported through the outer hose and the inner hose to take out. If a control line / power line is provided to the inner hose and fluid is transferred through the outer hose, the control line / power line and the fluid may be separated and drawn out.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the dual structure hose and its terminal device according to the present invention as described above will be described in detail.

2A is a longitudinal cross-sectional view of the hose according to the first embodiment of the present invention, and FIG. 2B is a partial side cross-sectional view of FIG. 2A.

2A and 2B, the hose 100 of the present embodiment is a double hose having a relatively large outer hose 102 and an inner hose 104 having a relatively small diameter inside the outer hose 102. It is composed of concentric structures. At least one support plate 106 is installed between the outer hose 102 and the inner hose 104.

In this case, a passage A through the inner hose 104 and a passage B between the outer hose 102 and the inner hose 104 are formed.

The passage A and the passage B may transfer different kinds of fluids or gases. In particular, when transferring a high temperature fluid, the hot fluid is supplied to the 'A' passage to prevent the outside of the hose from rising to the high temperature by the hot fluid, and the 'B' passage forms an air layer or a cooling fluid to be supplied. As a result, the external temperature of the hose can be lowered without additional insulation.

In addition, the support plate 106 serves to support the outer hose 102 and the inner hose 104 to each other, so that the shape of the hose 100 is not deformed. In particular, the support plate 106 can secure the flow path by preventing distortion of the 'B' passage and can supply the first predetermined flow rate when the fluid is supplied through the 'B' passage.

On the other hand, the inner hose 104 is configured to be relatively longer than the outer hose 102. This is to facilitate the coupling with the terminal device to be described below, and to allow the fluid or gas to be transported through the 'A' passage and the 'B' passage to be separated and supplied to the outside.

3 is a perspective view of a terminal device coupled to the hose of FIG. 2, and FIG. 4 is an exploded perspective view of the terminal device shown in FIG. 3.

3 and 4, the terminal device 200 is provided with a body 210 which surrounds a portion of the outer circumferential surface of the hose 100 in a cylindrical shape through which the through hole D is formed by going back and forth inside. The body 210 is formed integrally with the first body portion 212 and the second body portion 214 from the direction in which the hose 100 is fitted. A portion of the outer circumferential surface of the first body portion 212 and the second body portion 214 is formed with a screw thread for coupling with the cover portion described later. In addition, a mounting hole 216 is formed at a predetermined portion of the second body 214. The mounting hole 216 is equipped with an external hose nipple to be described below.

A first cover part 220 is provided to surround a part of the outer surface of the hose 100 and the first body part 212 while screwing the first body part 212. When the first cover portion 220 is completely engaged with the first body portion 212, various rings to be described below are mounted between the inner circumferential surface of the first body portion 212 and the outer circumferential surface of the hose 100. A space 221 (see FIG. 5) to be formed is formed. The O-ring 222, the pressure ring 224, and the prevention ring 226 are located in the space 221. The o-ring 222 and the pressure ring 224 is a ring shape to prevent the fluid or gas transferred through the hose 100 from leaking inside the body 210 to the outside. The prevention ring 226 is for preventing separation of the hose 100 and the terminal device 200. That is, when the first cover part 220 is fastened to the first body part 212, the prevention ring 226 presses the outer circumferential surface of the hose 100, specifically, the outer hose 102, and the outer hose 102. Dish-shaped springs are used in which the inner diameter is reduced to lock in the direction of departure.

A second cover portion 230 which is screwed with the second body portion 214 is provided.

When the second body portion 214 and the second cover portion 230 are fastened by screwing, the second cover portion 230 is press-fitted to the second body portion 214 to provide airtightness. The packing member 232 and the withdrawal unit 234 for withdrawing fluid / gas are provided. The drawing unit 234 has a shaft 234b having a drawing hole formed in the center of the body 234a having a disc having substantially the same size as the second body portion 214 in the horizontal direction. One end of the shaft 234b is coupled to the inner hose 104 and the other end is formed to penetrate the second cover part 230 to the outside.

An inner hose nipple 236 is connected to the other end of the shaft 234b and draws out the fluid / gas transferred through the 'A' passage of the inner hose 104 to the outside.

In combination with the mounting hole 216 is provided an outer hose nipple 240 of approximately 'L' shape to take out the fluid / gas transported through the 'B' passage of the outer hose 102 to the outside.

5 is a partial cross-sectional perspective view of the terminal and the hose are coupled.

As shown in FIG. 5, in order to couple the terminal device 200 to the hose 100, the first cover part 220 is inserted into the hose 100. And the O-ring 222, the pressure ring 224, the prevention ring 226 is inserted into the inner diameter of the first cover portion 220. Then, the first cover portion 220 is coupled to the first body portion 212 while fitting the body 210 to the hose 100.

Then, the packing member 232 is mounted at the end of the second body portion 214, and the second cover portion 230 is fastened to the second body portion 214.

In such a case, a space S is formed between the inner hose 104 and the terminal device 200. Therefore, the fluid / gas transferred through the 'A' passage of the inner hose 104 is drawn out to the outside only through the withdrawal unit 234 and the inner hose nipple 236. The fluid / gas delivered through the 'B' passage of the outer hose 102 is supplied to the space S, and the fluid / gas is drawn out to the outside only through the outer hose nipple 240. .

As such, according to the hose 100 of the present embodiment, different fluids and / or gases may be separated and transported in one unified hose, and the terminal device 200 coupled to the end of the hose 100 may be used. The fluid or / and gas can be easily separated and supplied.

Next, FIG. 6A shows a longitudinal cross-sectional view of a hose according to a second embodiment of the present invention, and FIG. 6B shows a partial side cross-sectional view of FIG. 6A.

The hose described in the second embodiment of the present invention is similar to the hose structure of the first embodiment described above. That is, the hose 300 is composed of a double concentric structure in which a relatively large outer hose 302 and a relatively small inner hose 304 are embedded in the outer hose 302. At least one support plate 306 is installed between the outer hose 302 and the inner hose 304. However, a plurality of control lines / power lines 308 are inserted into the inner hose 304.

Therefore, in the second embodiment, the passage C between the outer hose 302 and the inner hose 304 is used as a transfer path for the fluid or gas. In addition, since the control line / power line is built in the inner hose 304, even if the hose 300 is externally impacted, damage to the control line / power line can be prevented. In addition, the flow path of the passage 'C' may be secured by the support plate 306, thereby reducing the flow rate.

7 is a perspective view of the terminal device coupled to the hose of Figure 6, Figure 8 is an exploded perspective view of the terminal device shown in FIG.

7 and 8, the terminal device 400 is provided with a body 410 that surrounds a portion of the outer circumferential surface of the hose 300 in a cylindrical shape through which the through hole D ′ is formed. The body 410 is formed integrally with the first body portion 412 and the second body portion 414 from the direction in which the hose 300 is fitted. A portion of the outer circumferential surface of the first body portion 412 and the second body portion 414 is formed with a screw thread for coupling with the cover portion described later.

A first cover part 420 is provided to surround a part of the outer surface of the hose 300 and the first body part 412 while screwing the first body part 412. When the first cover part 420 is completely fastened to the first body part 412, a space 421 in which various rings to be described below are mounted between an inner circumferential surface of the first body part 412 and an outer circumferential surface of the hose 421. (See Fig. 9) is formed. The space 421 has an o-ring 422, a pressure ring 424, the prevention ring 426. The o-ring 422, the pressure ring 424, and the prevention ring 426 have the same function and shape as described in the first embodiment.

The second cover part 430 is screwed with the second body part 414 is provided.

When the second cover part 430 is fastened to the second body part 414 by a screw coupling method, the second cover part 430 is press-mounted toward the second body part 414 by the second cover part 430 to provide airtightness. The packing member 432 and the withdrawal unit 434 for withdrawing the fluid / gas is provided. The drawing unit 434 has a shaft 434b having a drawing hole formed in the center of the body 434a having an insulating disc having a size substantially the same as that of the second body part 414. One end of the shaft 434b is positioned on the space S ′ inside the body to be described below, and the other end is formed to penetrate the second cover part 430 to the outside. In addition, a contact pin 434c for arranging a contact point of the control line / power line 308 in the inner hose 304 in the upward direction of the shaft 434b is arranged.

A hose nipple 436 is connected to the other end of the shaft 434b and withdraws the fluid / gas transferred through the 'C' passage of the hose 300 to the outside.

9 is a partial cross-sectional perspective view in which the hose 300 and the terminal device 400 are coupled.

As shown in FIG. 9, to couple the terminal device 400 to the hose 300, the first cover part 420 is inserted into the hose 300. The O-ring 422, the pressure ring 424, and the prevention ring 426 are inserted into the inner diameter of the first cover 420. Then, the first cover portion 420 is fastened to the first body portion 412 while fitting the body 410 to the hose 300. The control line / power line 308 in the inner hose 304 then protrudes out of the first body portion 414.

In such a state, the packing member 432 is positioned at the end of the second body 414, and the contact pin 434c of the lead-out unit 434 and the control line / power line 308 are connected to each other.

Thereafter, the second cover part 430 is fastened to the second body part 414. In such a case, a space S 'communicating with the' C 'passage is formed in the body 410.

Accordingly, the fluid / gas delivered through the 'C' passage is supplied to the space S ', and the fluid / gas is drawn out through the hose nipple 436. In addition, the control line / power line 308 is drawn out through the contact pin 434c, and the control line is drawn out to each signal line by the contact pin 434c.

As such, the second embodiment can prevent the breakage of the control line / power line 308 due to external impact by placing the control line / power line 308 in the inner hose 304 of the hose 300, and the 'C The fluid / gas delivered through the passage is drawn out through the hose nipple 436. That is, the hose 300 separates the fluid and the control line / power line 308 in connection with the terminal device 400 at the final stage.

The scope of the present invention is not limited to the embodiments described above, but is defined by the claims, and various changes and modifications can be made by those skilled in the art within the scope of the claims. It is self evident.

1 is a longitudinal sectional view of a typical hose

Figure 2a is a longitudinal sectional view of the hose according to the first embodiment of the present invention, Figure 2b is a partial side cross-sectional view of Figure 2a

3 is a perspective view of a terminal device coupled to the hose of FIG.

4 is an exploded perspective view of the terminal device shown in FIG.

5 is a partial cross-sectional perspective view of the terminal and the hose coupled according to the first embodiment of the present invention;

Figure 6a is a longitudinal cross-sectional view of the hose according to a second embodiment of the present invention, Figure 6b is a partial side cross-sectional view of Figure 6a

7 is a perspective view of a terminal device coupled to the hose of FIG.

8 is an exploded perspective view of the terminal device shown in FIG.

9 is a partial cross-sectional perspective view in which a terminal and a hose are coupled according to a second embodiment of the present invention;

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

100: hose 102: outer hose 104: inner hose

106: support plate 200: terminal device 210: body

220: first cover portion 230: second cover portion 226: prevention ring

234: withdrawal unit

236: internal hose nipple 240: external hose nipple

Claims (5)

delete A terminal device is coupled to a part of the final end of the hose so that the two kinds of fluid or gas to be separated out to the outside through a hose consisting of an outer hose and an inner hose; The terminal device, A body in which a first body portion and a second body portion are integrally formed from a direction in which the hose is fitted; A first cover part coupled to an outer circumferential surface of the first body part and having a prevention ring inserted therein so as not to separate the hose and the terminal device when the first body part is coupled; A drawing unit mounted at an inlet of the second body part; A second cover part which engages with a part of an outer circumferential surface of the second body part while pressing the drawing unit; A shaft installed at the drawing unit and having one end coupled to the inner hose and the other end facing outward of the body; An inner hose nipple having one end coupled to the shaft and drawing out a fluid or gas transferred through the inner hose to the outside; A mounting hole formed in a portion of the second body portion; And, And an external hose nipple having an approximately 'L' shape so as to be coupled to the mounting hole and withdrawn from the fluid or gas transferred through the external hose to the outside. Provided with a terminal device coupled to the inner end of the hose having a wire, and a part of the final end of the hose consisting of an external hose for transporting fluid / gas, The terminal device, A body in which a first body portion and a second body portion are integrally formed from a direction in which the hose is fitted; A first cover part coupled to an outer circumferential surface of the first body part and having a prevention ring inserted therein so as not to separate the hose and the terminal device when the first body part is coupled; A drawing unit mounted at an inlet of the second body part; A second cover part which engages with a part of an outer circumferential surface of the second body part while pressing the drawing unit; It is installed in the drawing unit, one end to the outer hose side and the other end to the outside of the body to withdraw the fluid / gas transported through the corresponding number of contact pins and the outer hose to draw the control line / power line to the outside A shaft which is formed to face; And, And a hose nipple having one end coupled to the shaft. The method of claim 2 or 3, An o-ring and a pressure ring for sealing the fluid or gas which is inserted into the first cover and is conveyed through the hose when the first body and the first cover are fastened; And, And a packing member installed at an inlet side of the second cover part to prevent leakage of fluid or gas. The method of claim 2 or 3, The prevention ring is a terminal characterized in that the inner diameter is reduced to the locking (locking) in the separation direction of the hose while pressing the outer peripheral surface of the outer hose when the first cover portion and the first body portion, characterized in that Device.

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