KR20100094262A - A double pipe assembly for piping - Google Patents

Abstract

PURPOSE: A double pipe assembly for boiler piping is provided to rapidly heat a floor surface as a reflecting surface is integrated with one side of a sealing block. CONSTITUTION: A double pipe assembly for boiler piping comprises first pipes(110), second pipes(130), a nipple(150), and a sealing block. The second pipes are inserted into the inside of the first pipes. A first pressing plate in contact with the first pipes and a second pressing plate in contact with the second pipes are formed in the body(151) of a nipple. A flow hole(158) is formed inside the second pressing plate to connect the second pipes. A sealing block is formed inside the first pipes to form a sealed space since the second pipes are supported when the second pipes are inserted into the inside of the first pipes.

Description

Double pipe assembly for piping

The present invention relates to a double pipe assembly for a boiler pipe to increase the thermal efficiency of the pipe by directing the heat to the top while simultaneously connecting a plurality of pipes formed so that at least one pipe is inserted into the other inner pipe side as a nipple. will be.

In general, a boiler is a device that heats water with heat generated during combustion of a fuel and circulates the heated water through a heating pipe to perform heating.

The heating pipe is connected to the boiler as an indispensable component in such a boiler, and the heating pipe has been pointed out as a cumbersome problem by considering the arrangement and arrangement of the water supply and the return side.

In order to improve such a problem, Utility Model Registration No. 384620 discloses a heating pipe of a boiler having a double pipe structure, and its configuration is as shown in FIG. 1, and the heating pipe P is provided with a water supply port S and a return port R. ) Is heated in a known boiler (B) is heated through the water supply port and circulated to the return port, the heating pipe (P) is connected to the water supply port (S) of the boiler and its end It is made of an integrated double pipe structure consisting of an outer tube 10 is closed, the inner pipe 20 is connected to the return port (R) of the boiler by a separate connecting member 50, the end is open, the water inlet side Water heated in the boiler is supplied through the first flow path 10a formed between the outer tube and the inner tube by the circulation motor 30 mounted on the recirculation motor 30, and is returned to the second flow passage 20a through the open end of the inner tube. It consists of the configuration.

In addition, at an end of the inner tube, a guide portion 40 is formed in which a portion of the inner tube end is rolled inward by a predetermined angle, and at least one support tool 60 for maintaining a distance between the outer tube and the inner tube. ) Is made of a configuration that is provided.

However, the heating pipe as described above, the inner pipe 20 and the return member (50) after cutting the outer pipe 10 during manufacture in a configuration in which the inner tube 20 and the return member 50 is connected to the inside of the outer shell (10). There is a problem in that the work is cumbersome and cannot be arranged in various shapes.

In addition, the heat dissipated through the inner tube 20 is to be dissipated around the outer appearance 10 as a whole has the disadvantage that it is impossible to concentrate the heat energy.

An object of the present invention for improving the above-described problems, the heat can be concentrated toward the surface of the pipe, the reflection surface can be always downward by the center of gravity so that the heat is concentrated toward the surface of the pipe It is to provide a double pipe assembly for the boiler pipe to facilitate the installation of the double pipe using a common pipe, and to easily connect each pipe by the operation of connecting the nipple.

The present invention to achieve the above object, a plurality of pipes are installed so that at least one pipe is inserted into the other inner diameter side of the pipe; And,

It provides a double pipe assembly for boiler piping consisting of a combination of nipples installed to connect one pipe and another pipe at the same time.

In addition, the present invention provides a double pipe assembly for a boiler pipe consisting of an assembly structure of a sealing block provided with a reflecting surface integrally installed while supporting one pipe when one pipe is inserted into the other pipe inner diameter side. .

According to the present invention as described above, the heat is concentrated toward the surface of the pipe, the reflector is always downward by the center of gravity so that the heat is concentrated toward the surface of the pipe, it is easy to install the double pipe using a general pipe By the operation of connecting the nipples, there is an effect of easily connecting each tube.

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

Figure 3 is a perspective view showing a heating pipe assembly according to the present invention, Figure 4 is an exploded view showing a heating pipe assembly according to the present invention, Figure 5a, b is a cross-sectional view showing a heating pipe assembly according to the present invention, respectively. 6 is a cross-sectional view showing a heating pipe assembly according to another embodiment of the present invention, Figures 7 and 8 are an exploded view and a cross-sectional view showing a heating pipe assembly according to another embodiment of the present invention, respectively.

Piping assembly 100 of the present invention, one pipe 110 and the other pipe 130 and the nipple 150 and the other pipe 130 to which the pipe is connected to the reflective surface 170 is provided Is done as.

The pipe is one pipe 110 and the other pipe 130 is formed to be inserted into the inner diameter side of the pipe (110).

At this time, the one pipe and the other pipe is formed to have a different diameter.

In addition, the other pipe 130, the close contact groove 133 is formed integrally around the end.

The nipple 150 has a first contact plate 153 protruding from one body of the pipe 151 to at least one side thereof, and is spaced around the end of the first contact plate 153. A second contact plate 155 having a hook 155a is provided.

At this time, the nipple 150 is provided with a mounting hole 156 extending on the inner diameter side of the second contact plate 155 and having a sealing member 157, and extending to the mounting hole 156 to flow therethrough. 158 is penetrated.

In addition, a coolant injection line 152 connected to the outside of the nipple 150 is further provided between the first and second contact plates.

On the other hand, the body 151 is separated into a first body 151a and a second body 151b and connected to the flow hole 158 while being coupled to each other as a screw portion 151c while being connected to an external injection pipe 151e. The refrigerant flow chamber 151d is further provided.

The sealing block 170 has a structure in which the reflective surface 173 is integrally provided while the other pipe 130 is installed to be supported by being inserted into the other pipe 130 through the tight groove 175 on the inner diameter side of one pipe 110. Is done.

In addition, the said reflecting surface 173 may be integrally formed in the inner diameter or the outer diameter side of one pipe 110.

The sealing block 170 is installed to form a sealed space at the inner diameter side of one pipe 110.

The operation of the present invention having the above configuration will be described.

As shown in FIGS. 3 to 8, the pipe assembly 100 of the present invention prepares one pipe 110 and another pipe 130 having a smaller diameter and interconnects the pipes. The nipple 150 is prepared.

At this time, the sealing blocks 170 are also prepared to be inserted into one pipe 110 in a state in which the other pipe 130 is mounted, and the contact groove recessed around the other pipe 130 ( 133 is formed in advance.

When the other pipe 130 prepared as described above is pressed into the second contact plate 155 formed in the nipple 150, the other end of the pipe 130 extends inside the second contact plate 155. While supporting the sealing member 157, the support hook 155a extending to the second contact plate 155 is caught by the contact groove 133 to be fixed.

Then, one pipe 110 is in close contact with and connected to the first contact plate 153 formed on the nipple 150.

At this time, one pipe 110 is connected to the first contact plate 153 of the nipple 150 is connected through a separate clamp in close contact with the outer diameter side or via a bonding material.

In addition, the first and second contact plates have a tapered shape in which their fracture surfaces have a tapered shape, and thus the degree of close contact between the first and second contact plates is maintained more closely.

One pipe and the other pipe connected in the above configuration is to be connected to each other on both sides through the nipple 150 to facilitate the flow of fruit through the other pipe.

In addition, a fruit injection line 152 connected to the outside of the nipple 150 is further provided between the first and second contact plates to one pipe 110 by the fruit flowing in the other pipe 130. When heat is transferred, a separate fruit injection is possible through the fruit injection line 152 so that heat transfer is made more quickly.

On the other hand, the body 151 is separated into a first body 151a and a second body 151b and connected to the flow hole 158 while being coupled to each other as a screw portion 151c while being connected to an external injection pipe 151e. The refrigerant flow chamber 151d is configured to be further provided so that a plurality of small pipes can be connected at the same time inside the large pipe.

In addition, it is possible to inject the fruit through the other pipe 130 from the outside through the injection pipe (151e).

In addition, the sealing block 170 is installed to support the other pipe 130 when the other pipe 130 is inserted into the inner diameter side of one pipe 110, the reflective surface 173 on one side thereof In this integrally provided configuration, the heat is not directed downward but is directed upward, so that the floor surface is quickly heated.

In addition, the sealing block 170 is always suspended downward by the center of gravity in the shape of hanging on the other pipe so that the heat is always directed upward only regardless of the installation state of the one pipe 110.

In addition, the sealing block 170, to form a sealed space inside the one pipe 110 to minimize the loss of heat.

Through the above configuration, while the heat by the other pipe 130 is continuously transferred, the heat is directed only to the upper side, thereby enabling efficient use of heat.

1 is a schematic diagram showing a heating pipe of a boiler having a conventional double pipe structure.

2A and 2B are cross-sectional views of main parts of heating pipes respectively applied to a conventional double pipe.

3 is a perspective view showing a heating pipe assembly according to the present invention.

Figure 4 is an exploded view showing a heating pipe assembly according to the present invention.

5A and 5B are cross-sectional views illustrating heating piping assemblies according to the present invention, respectively.

6 is a cross-sectional view showing a heating pipe assembly according to another embodiment of the present invention.

7 and 8 are exploded views and cross-sectional views respectively showing a heating pipe assembly according to another embodiment of the present invention.

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

133.Contact groove 150 ... Nipple

151 Body 156 Mounting Holes

158 Flow fluid 170 Reflector

173.Reflections

Claims (8)

One pipe (110) and the other pipe (130) formed to be inserted into the inner diameter side of the one pipe (110); The first contact plate 153 in which one pipe is in close contact with the body 151 and the second contact plate 155 in which the other pipe is in contact with each other are provided, and the second contact plate 155 is disposed on the inner diameter side of the second contact plate 155. Double pipe assembly for boiler piping consisting of the assembly structure of the nipple 150 is provided with a flow hole 158 connecting one pipe According to claim 1, The pipe, when the other pipe 130 is inserted into the inner diameter side of one pipe 110 to support the other pipe 130 to form a sealed space inside one pipe Double pipe assembly for boiler piping consisting of a sealing block 170 is provided The double pipe assembly of claim 1, wherein the one pipe 110 is provided with a reflective surface 173 at one side thereof. The double pipe assembly of claim 1, wherein the other pipe 130 has a close contact groove 133 formed integrally around the end thereof. The double pipe assembly of claim 1, wherein the second contact plate 155 is spaced around an end thereof and provided with a plurality of support hooks 155a. The double pipe assembly of claim 1, wherein the nipple (150) is provided with a mounting hole (156) extending from the second contact plate (155) to seat the sealing member (157). The double pipe for boiler piping according to claim 1, wherein the nipple (150) is further provided with a refrigerant injection line (152) connected to the outside of the nipple (150) between the first and second contact plates. assembly The method of claim 1, wherein the body 151 is separated into a first body 151a and a second body 151b and coupled as a threaded portion 151c, while an external injection tube 151e and a flow hole 158 are formed. Double pipe assembly for boiler piping characterized in that the refrigerant flow chamber 151d is further provided to be connected

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