KR200352716Y1 - The socket absorbed thermal expansion - Google Patents

Abstract

The present invention relates to a thermal expansion absorbing socket, and more particularly, in the longitudinal direction as the temperature of the fluid moved up and down in a pipe connecting a plurality of plastic pipes and sockets to move the fluid from one place to the other The present invention relates to a thermal expansion absorbing socket capable of absorbing and relaxing a length of a pipe expanding and contracting.

According to the present invention, in the pipe connecting the pipe (1) to both sides of the connection socket to move the fluid, grooves (3) (3a) at one end to both sides of the outer cylinder body (100) having the locking jaw (2) formed on both ends of the cylindrical The inner cylinders 200 and 200a having the engaging ends 4 and 4a formed with the pipe grooves 5 and 5a for inserting the pipes 1 at the other ends are formed on both sides of the outer cylinder 100. There is provided a thermal expansion absorbing socket, characterized in that the locking end (4) (4a) is inserted into the locking jaw (2) and part is exposed and sliding.

Description

The socket absorbed thermal expansion}

The present invention relates to a thermal expansion absorbing socket, and more particularly, in the longitudinal direction as the temperature of the fluid moved up and down in a pipe connecting a plurality of plastic pipes and sockets to move the fluid from one place to the other The present invention relates to a thermal expansion absorbing socket capable of absorbing and relaxing a length of a pipe expanding and contracting.

In general, the pipe is mainly used for the transfer of a variety of raw materials, such as gas and powder, such as gas, such as water, such as water, sewage pipes or hydraulic lines such as oil for the transfer of water.

In addition, since the pipe is produced in a limited length, when the entire length of the transfer line is long, the pipe may have a plurality of connection parts in the middle, and the connection part may have a connection structure to maintain airtightness and prevent leakage. Done.

In addition, the pipes may be made of metal pipes such as steel pipes, cast iron pipes, copper pipes, brass pipes, aluminum pipes, pipes, etc., as well as vinyl pipes, reinforced concrete pipes, asbestos cement pipes and conduits ( It is classified into non-metallic pipes such as pipe, pipe, rubber pipe, wood pipe, etc. In recent years, there is no risk of corrosion and the life is semi-permanent, and material cost and construction cost are low, unless artificial damage is applied. In addition, because of its flexibility, plastic pipes are easily used in a complicated place and have various uses.

However, when the fluid or powder is moved after pipes are made of plastic pipes, when the temperature of the fluid or powder is increased or the temperature is lowered, the expansion or contraction may change depending on the temperature change. The plastic pipe has a problem in that the expansion or contraction change in the longitudinal direction causes the pipe to bend or shrink and fail to withstand the expansion or contraction change at the connection portion connected to the pipe at the other end.

The present invention is intended to solve the conventional problems as described above, one end of which is formed on both sides of the outer cylinder formed with a locking jaw and one end of the inner cylinder formed with a pipe on the other side is formed inside the outer cylinder. Insertion and connecting the pipe to the pipe groove formed on the other side to form a pipe to provide a thermal expansion absorption socket that can absorb or relax the length of the pipe while the inner cylinder and the outer cylinder is sliding even if the pipe of the pipe is thermal expansion or shortening. have.

1 is a perspective view of the present invention

2 is a partially cutaway perspective view of the present invention

3 is a cross-sectional view of the present invention

4 is a perspective view of another embodiment of the present invention

5 is a partial cutaway perspective view of another embodiment of the present invention

Figure 6 is a cross-sectional view of another embodiment of the present invention

<Explanation of symbols for main parts of drawing>

100, 100a: outer cylinder 200, 200a: inner cylinder

1: pipe 2: jaw

3, 3a: groove 4, 4a: end

5, 5a: pipe groove 5b: pipe fixing end 6: display

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

In the pipe for connecting the pipe (1) to both sides of the connection socket to move the fluid, the end of the groove (3) (3a) is formed on one side of both ends of the outer cylinder 100, the locking jaw (2) formed on both ends of the cylindrical (4) (4a) is formed and the inner cylinders 200, 200a on which the pipe grooves 5, 5a for inserting the pipe 1 at the other end are fastened to both sides of the outer cylinder 100. The locking end 4 (4a) is inserted into the inside and part is exposed and slides.

In addition, in another embodiment, a pipe fixing end 5b having a pipe 1 fixed to one side thereof is formed, and a locking end having grooves 3 formed on one side of the outer cylinder 100a having the locking jaw 2 formed thereon. 4) is formed and the inner cylinder 200 having the pipe groove 5 for inserting the pipe 1 at the other end is inserted into the engaging jaw 2 of the outer cylinder 100a and part is exposed and slid. It features.

In addition, the display unit 6 is formed on the outer surface of the inner cylinders 200 and 200a.

In the figure, reference numeral 7, 7a is an O-ring.

The present invention is connected between the pipe (pipe) formed by the pipe (1) is spaced apart between the pipe (1) and the pipe (1) and one side of the pipe (1) of the inner cylinder 200 The pipe is inserted into the groove 5 and the other pipe 1 is fixed to the other pipe groove 5a to form a conduit.

At this time, when the pipe 1 is pressurized and fixed to the pipe groove 5 of the inner cylinders 200 and 200a, the inner cylinders 200 and 200a are pulled from the outer cylinder 100 according to the installation season of the pipe. It can be installed by adjusting the length, as shown in Figure 1, in the summer to push the inner cylinder (200, 200a) into the outer cylinder 100 to the display unit 6 to fix the pipe (1), in winter On the contrary, the inner cylinders 200 and 200a are pulled out of the outer cylinder 100 to the display unit 6 and fixed to the pipe 1, and fixed in accordance with the middle of the summer and winter display unit 6 in spring and autumn. As the length of the pipe (1) is expanded, the length of the pipe 1 can be absorbed even if the length of the pipe 1 is increased, and even if the length of the pipe 1 is reduced, the length of the pipe 1 can be increased without affecting the pipeline.

Generally, the pipe 1 is thermally expanded in the longitudinal direction when there is a temperature change. The pipe 1, which is 1 m, expands by 0.28 cm at 23 ° C., and when the temperature changes to 80 ° C., the thermal expansion is about 1 cm. The length becomes longer.

However, if several pipes 1 are connected and the length of the pipe is not long, a big problem does not occur. However, if the length of the pipe is long by using a plurality of pipes 1 and a connection socket, the length of the pipe 1 may be considerably changed according to the temperature change. It expands or contracts.

By the way, the present invention can change the length of the inner cylinder (200, 200a) and the outer cylinder 100 while sliding to each other as described above, if a plurality of pipes connected between the long length of the thermal expansion pipe ( There is an inner cylinder (200, 200a) that can absorb the length of 1) and increase in length when the pipe (1) is contracted to prevent the pipe (1) from bending or breaking.

In addition, the O-rings 7 and 7a are inserted into the recesses 4 and 4a grooves 3 and 3a so that the fluid or powder passing through the pipe 1 is kept airtight so as not to leak outside. In addition, the inner cylinder (200, 200a) and the outer cylinder 100 is also lubricating so that the sliding smoothly with each other.

In addition, it is possible to form the outer cylinder (100a) formed with a pipe fixing end (5b) on one side in the above, this invention is bent using an elbow or angled in the pipe to be expanded in one side only length It is usefully used, the pipe (1) connected to the inner cylinder 200, the pipe groove (5) on the side of the pipe (1) expands in length to accommodate the expansion in the longitudinal direction of the pipe (1) pipe The fixed end 5b can be used in various ways depending on the shape of the pipe by connecting with the pipe 1 on the side of which there is almost no change in length.

In the above, the display unit 6 is displayed on the outer surfaces of the inner cylinders 200 and 200a, for example, when summer and winter are displayed, and when the piping is carried out in summer and winter, the scale is displayed in detail in summer and winter. In addition, the inner cylinders 200 and 200a and the outer cylinders 100 and 100a may be matched to the scale on the display unit 6 according to the kind of fluid and powder or the temperature change.

As such, the present invention is formed of an inner cylinder and an outer cylinder, and when the inner cylinder and the outer cylinder are pulled or pushed together, the inner cylinder and the outer cylinder can slide to each other to change their lengths. By absorbing and relaxing, it prevents the pipe from bending or breaking, improves the safety of the work, and it is easy to construct and shorten the construction time by constructing the pipe at a space in the piping work.

Claims (3)

In the pipe to connect the pipe to both sides of the connection socket to move the fluid, the inner cylinder with a groove formed at one end is formed on both sides of the outer cylinder formed with a locking jaw at both ends and the inner cylinder with a pipe groove for inserting the pipe at the other end A thermal expansion absorbing socket, characterized in that the locking end is inserted into both sides of the outer cylinder and the part is exposed and sliding. A pipe fixing end 5b on which one pipe 1 is fixed is formed, and a locking end 4 having grooves 3 formed on one side is formed on the outer cylinder 100a on which the locking jaw 2 is formed. Thermal expansion absorbing socket, characterized in that the inner cylinder 200 having a pipe groove 5 for inserting the pipe 1 is inserted into the locking projection 2 of the outer cylinder 100a and partially exposed and slides. The method according to claim 1 or 2, Thermal expansion absorbing socket, characterized in that the display portion is formed on the outer surface of the inner cylinder