KR200250765Y1 - Flexible branch pipe - Google Patents

Abstract

The present invention relates to a flexible branch pipe, and has a predetermined width and size, and is formed to absorb a shock caused by a displacement in the longitudinal direction and a hydraulic pressure by thermal deformation, and to maintain an airtightness of heating water. 10 and the outer side of the bellows tube 10, it is repeatedly connected to each other by a locking jaw 22 formed on the front and rear of the body 21, and applied to the bellows tube 10 The shock absorbing tube 20 and the buffer pipe 20 to be absorbed by the shock absorber 20, which are located on both sides of the buffer pipe 20, the joint means 30 for connecting the main pipe 40 and the floor pipe 50 to each other Since it is composed of a bell to absorb the displacement and bending displacement in the longitudinal direction generated by the impact of heat deformation and water pressure in the main pipe 40 when connecting the main pipe 40 and the floor pipe 50 during the heating piping work of the building Rose tube (10) and buffer tube (20) in a double branching pipe 100 formed The connection between the connection may be, in the main pipe 40 as in the prior art floor pipe 50. " It is possible to prevent unnecessary expansion of the branch space by connecting in the form of ”.

Therefore, the branching space can be reduced during the construction of the pipe can be increased for the actual use area of the building.

Therefore, it is a very useful design that can improve the merchandise and convenience.

Description

Flexible branch pipe

The present invention relates to a flexible branch pipe, more specifically, in the heating piping of the building, by connecting the branch pipe separating the line from the main pipe to the floor pipe in a straight line to reduce the branching space, expansion and thermal expansion The branch pipe is designed to have a buffering effect even when it is contracted and shocked by water pressure.

In general, the heating pipe line of the building is installed by connecting the branch pipe in the "c" shape when separating the pipes by floor in preparation for new construction and reconstruction.

In general, in the heating piping of the building, the reason why the branch pipe is installed in the 'c' shape from the main pipe to the floor pipe is to prevent the deformation and impact of the pipe caused by the expansion and contraction of heat between the main pipe and the floor pipe. To this end, it is common to form a predetermined branching space and then connect it in a "c" shape.

Therefore, in the heating pipe, it is preferable that the branch pipe connection between the main pipe and the floor pipe is sufficiently secured in consideration of the impact, thermal deformation, etc. generated at the connection part.

In addition, the branch pipe connecting the main pipe and the floor pipe is installed in consideration of the expansion and bending displacement in the longitudinal direction, which may occur due to thermal deformation and the impact of water pressure, as well as preventing the leakage of heating water. It is important.

As described above, in the conventional heating pipe, the branch pipe separated from the main pipe into the floor pipe is usually formed in a "c" shape, and a predetermined interval is considered in consideration of thermal deformation and water pressure shock generated in the pipe. There was a problem that branching space should be secured.

In addition, the branch pipe separated from the main pipe to the floor pipe is formed in the "c" shape, and a predetermined branching space should be secured, so that there was a closed end to increase the piping construction cost.

The purpose of the present invention is to reduce the branching space by connecting a branch pipe separating the line from the main pipe to the floor pipe in a straight line in the building's heating pipe, and to reduce the branching space due to thermal deformation and the impact by the water pressure. It is to provide a flexible branch pipe that can have this buffering effect.

Another object of the present invention is to provide a flexible branch pipe so that the branch pipe is separated by a straight pipe connected to the floor pipe in the main pipe, the branching space is reduced to reduce the piping construction cost.

Another object of the present invention is to provide a flexible branch pipe to improve the commerciality and convenience.

1 is an exploded perspective view showing the shape of the flexible branch pipe of the present invention.

2 is a cross-sectional view showing the internal shape of the flexible branch pipe of the present invention.

Figure 3 is a state diagram showing the state installed by connecting the floor line to the line in the main pipe line using a flexible branch pipe of the present invention in a straight line.

Figure 4 is an enlarged cross-sectional view showing the internal shape of the flexible branch pipe of the present invention.

5 is a state diagram illustrating a state in which a branch pipe is installed from the main pipe line of the conventional building to the floor pipe.

* Explanation of symbols for main parts of the drawings

10: bellows tube 11: bend

20: buffer tube 21: body portion

22: engaging jaw 30: joint means

31 flange 32 spiral part

33: fixing member 34: sealing member

35 male screw member 36 bolt member

40: main piping 50: floor piping

100: flexible branch pipe

An object of the present invention, the bellows pipe 10 is formed to have a predetermined width and size, and is formed so as to absorb the displacement of the longitudinal direction due to thermal deformation and the impact of water pressure, and to maintain the airtightness of the heating water. And, the buffer pipe 20 for absorbing the shock from the outside of the bellows pipe (10); Located at both sides of the buffer pipe 20, and composed of a joint means 30 for connecting the main pipe 40 and the floor pipe 50 to each other; The buffer tube 20 is repeatedly connected to each other by a locking projection 22 formed on the front and rear of the body portion 21, the sliding in the axial center direction is configured to absorb the stretching displacement is achieved.

Therefore, when connecting the main pipe 40 and the floor pipe 50 during the heating piping work of the building, and the bellows pipe 10 to absorb the longitudinal expansion and bending displacement caused by thermal deformation and water pressure shock and Since the buffer pipe 20 can connect the branch pipe 100 formed in two lines in a straight line, the branch between the main pipe 40 and the floor pipe 50 in the conventional pipe connection "c" shaped as necessary conventionally branched This can prevent the space from expanding.

Therefore, the branching space can be reduced during the construction of the pipe can reduce the construction cost.

Therefore, the merchandise and convenience can be improved.

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

1 is an exploded perspective view showing the shape of the flexible branch pipe of the present invention.

2 is a cross-sectional view showing the internal shape of the flexible branch pipe of the present invention.

3 is an installation state diagram showing a state in which the floor pipe lines are connected in a straight line in the main pipe line by using the flexible branch pipe of the present invention.

4 is an enlarged cross-sectional view of the main portion showing the internal shape of the flexible branch pipe of the present invention.

5 shows a state in which a branch pipe is installed from the main pipe line of the conventional building to the floor pipe.

That is, as shown in FIGS. 1 to 4, the body of the flexible branch pipe 100 of the present invention has a predetermined width and size and is formed in a longitudinal direction by thermal deformation. Bellows tube 10 is formed so as to absorb the impact by, and maintain the airtightness of the heating water.

The bellows pipe 10 serves to absorb the expansion and contraction action, that is, the longitudinal displacement in the longitudinal direction by the height of the heat of the heating pipe.

In addition, the bellows pipe 10 also absorbs the impact of the water pressure of the heating water of the heating pipe, and serves to maintain the airtightness of the heating water.

Therefore, since the bent portion 11 is repeatedly formed at predetermined intervals in the shape of the body of the bellows pipe 10, the length generated by the heat deformation due to the temperature rise of the heating pipe and the impact of the hydraulic pressure of the heating water. It can absorb the elastic displacement of the direction.

On the other hand, the bellows pipe 10 has a predetermined shape and the body portion has a bent portion 11 is repeatedly formed, it can also play a role of vibration prevention and noise reduction.

In addition, the outer side of the bellows tube 10 is connected to the engaging jaw 22 formed on the front and rear of the body portion 21 repeatedly to absorb the impact applied to the bellows tube (10) The buffer tube 20 is located.

The buffer tube 20 serves as a kind of protective tube to secondaryly protect the bellows tube 10 from the outside.

As shown in FIG. 4, the shape of the buffer tube 20 is formed such that the body portion 21 is bent at a right angle at a predetermined interval, and the locking jaw is formed at the front and rear surfaces of the body portion 21. (22) is formed.

That is, the body portion 21 of the buffer tube 20 is formed to be symmetrical and bent at a predetermined interval, each body portion 21 is formed on the front and rear of the body portion 21 repeatedly repeatedly Since it is connected to the locking jaw 22, the longitudinal expansion and contraction in the longitudinal direction applied to the bellows pipe 10, in the longitudinal direction by the locking jaw 22 formed on the front and rear of the body portion 21 As it slides, it can absorb longitudinal displacement (shock).

In addition, the buffer tube 20 is located on the outside of the bellows tube 10, and relatively absorbs the bending displacement applied to the bellows tube 10, the ability to absorb the bending displacement (bending displacement) is reduced. It also plays a role.

This is because the body portion 21 of the buffer tube 20 is formed and connected to be bent vertically at a predetermined interval, so that the body portion 21 of the buffer tube 20 is impacted in the bending displacement. The part is the body portion 21 is slide to be gathered with each other, the body portion 21 in the opposite direction can be more effectively absorb the bending displacement because the buffer tube 20 can be varied in a shape that is expanded while being slide. .

Therefore, since the body portion 21 of the shock absorbing tube 20 is formed to be bent vertically at a predetermined interval, the shock absorbed by the bellows pipe 10 when the bending displacement occurs is secondary absorbed to mitigate the impact. It can be done.

On the other hand, the joint means 30 is formed on both sides of the buffer pipe 20 to connect the main pipe 40 and the floor pipe 50 to each other.

The joint means 30 has a fixing member 33 such as a fastening member 31 and a spiral portion 32 so that the branch pipe 100 can be fixed to the main pipe 40 and the floor pipe 50. It is formed, while connecting the main pipe 40 and the floor pipe 50 by using the joint means 30, in order to prevent the leakage of the heating water, including the sealing member 34 in the joint means (30) desirable.

In addition, in the joint means 30, in order to increase the convenience of tightening at the time of piping construction, the joint member 30 of one side is provided with a bolt member 36 and a fastening member 31, respectively. Convenience can be increased.

That is, the male screw member 35 is formed in the joint means 30 formed on the other side, and the bolt member 36 and the tightening member 31 are respectively provided on the other side, so that the worker has a main pipe 40. When installing the branch pipe 100 to the floor pipe 50 in the, the male screw member 35 is fixed to the main pipe 40 or the floor pipe 50, and then the bolt member 36 and the other side Since the fastening operation can be performed using the fastening member 31, it is possible to increase the convenience of the backboard construction.

Therefore, the flexible branch pipe 100 according to the present invention connects the main pipe 40 and the floor pipe 50 in a straight line, and forms a branch pipe in a "c" shape as in the prior art, so that the branching space is unnecessarily enlarged. The buffer tube 20 and the bellows tube 10 can absorb the longitudinal displacement and the bending displacement caused by the heat deformation and the impact of the water pressure of the heating water due to the temperature rise and fall of the heating pipe. Therefore, the piping construction cost can be reduced.

Therefore, the merchandise and convenience can be improved.

According to the present invention as described above, when connecting the main pipe 40 and the floor pipe 50 during the heating piping work of the building, bells for pleating the longitudinal expansion and bending displacement caused by thermal deformation and water pressure shock Since the rose tube 10 and the buffer tube 20 can connect the branch pipe 100 formed in two lines in a straight line, the connection between the floor pipe 50 in the main pipe 40 as in the conventional "c" shaped It is possible to prevent unnecessary expansion of the branch space by connecting to the.

Therefore, the branching space can be reduced during the construction of the pipe can reduce the construction cost.

Therefore, it is a very useful design that can improve the merchandise and convenience.

Claims (1)

A bellows tube (10) formed to have a predetermined width and size, and configured to absorb longitudinal displacement and thermal shock due to thermal deformation and maintain airtightness of the heating water; A shock absorbing tube (20) for absorbing shock from the outside of the bellows tube (10); Located at both sides of the buffer pipe 20, and composed of a joint means 30 for connecting the main pipe 40 and the floor pipe 50 to each other; The buffer tube 20 is repeatedly connected to each other by the engaging jaw 22 formed on the front and rear of the body portion 21, sliding in the axial center direction is configured to absorb the elastic displacement (FLexible) Branch tubes.