KR20030061922A - Coupling method and the device for sewerage pipe - Google Patents

Abstract

PURPOSE: A coupling method for drainpipes is provided to promote work efficiency by connecting drainpipes easily and economically. CONSTITUTION: The coupling method for drainpipes comprises the steps of fusing a joint section of a drainpipe(10) to be inclined or stepped outward and a joint section of another drainpipe(10') to be inclined or stepped inward by using a heating unit(20), then removing the heating unit(20) and contacting/connecting the fused inclines or end projections of both drainpipes(10,10').

Description

Coupling method and the device for sewerage pipe

The present invention relates to a sewer pipe connection method and apparatus thereof, and more particularly, it is possible to connect sewage pipes of the same diameter easily by welding without using a separate connecting member, thereby improving work efficiency. A very economical sewer pipe connection method and apparatus therefor.

In general, water pipes are made of metal in consideration of high water pressure, while sewage pipes are made of synthetic resin.

In addition, the sewer pipe may be classified into a single wall structure and a double wall structure according to its installation environment, and the sewer pipe of the double wall structure may be inserted into a spiral core or spirally inserted therein to increase durability and strength. It includes a structure for forming a helical hollow portion or to fill the vocal resin in the inner space.

On the other hand, the water pipes during construction are made of metal and connected to each other by welding, while the sewer pipes are made of synthetic resin, so that the welding method is mainly used instead of welding.

Part of the present invention relates to a sewer pipe connection method of a double wall structure, and more particularly, to a sewer pipe connection method of a double wall structure having a spiral hollow portion.

Referring to Figures 1 to 4 will be described schematically a conventional double wall sewer pipe formed with a spiral hollow portion and a connection method thereof.

As shown in FIGS. 1 and 2, the double wall sewer pipe 10 having a spiral hollow portion has a spiral structure in which a wall is double structured by a spiral hollow portion 11, and the spiral hollow portion has a cross section. It can be seen that 11) is exposed at least two places.

When the two sewer pipes are connected to each other by welding, the contact cross section is about the thickness of the sewer pipe wall, so if it is easily dropped or used for a long time, it is deformed by various factors and cannot maintain watertightness. As a result, the contact cross section becomes smaller, so that the butt connection method is rarely used.

In view of these problems, when connecting sewer pipes of the same diameter, as shown in Figure 3 both the sewage pipes 10, 10 'in a state in contact with each other wound the heating band and then the heating band When heated, the heating band was melted and welded integrally to both sewer pipes. As shown in FIG. 4, when the sewer pipes P1 and P2 having different diameters were connected to each other, the frame 21 was connected. Using a heating element (20) having a heating plate (22, 22 ') on both sides of the welding method was used.

That is, one heating plate 22 of the heating element 20 melts the outer wall of one sewer pipe P1, and the other heating plate 22 'melts the inner wall of the other sewer pipe P2, and then removes the heating element. One sewer pipe (P1) is to be welded to each other by being inserted into the other sewer pipe (P2).

By the way, the method of using the heating band has a problem of impairing the efficiency of the work process with the increase in the working process with the economical problem of having a separate heating band, the method of using the heating element 20 mainly sewage pipes of different diameters By being used to connect with each other, there is a problem that can not be used for the connection of sewage pipes of the same diameter, which reduces the compatibility.

The present invention has been made to solve the above-mentioned conventional problems, an object of the present invention is to connect the sewer pipe sewage pipe of the same diameter easily without using a separate connecting member to facilitate welding. And the apparatus.

In the method for connecting the sewer pipe of the present invention for achieving the above object, in the method of connecting the double wall sewer pipe of the same diameter having a spiral hollow portion, using a heating element to incline the connection cross section of one side sewer pipe in the outer diameter direction In addition, the end surface of the other sewage pipe is melted inclined in the inner diameter direction, and after the heating element is removed, the molten inclined surfaces of both sewer pipes are contacted and welded.

In addition, the connection between the sewerage system of the present invention is characterized in that the heating element is formed in the outer surface inclined surface is formed on one side of the frame, the heating plate is formed on the other side of the frame is formed inclined surface in the inner diameter direction.

According to the present invention having the above configuration, when both the sewer pipes are brought into contact with the heating elements, the heating plates are heated to be inclined in the direction opposite to the connection cross-sections of the two sewer pipes, and then the both sewer pipes are removed. When the butt is fused, the inclined cross sections are welded to each other, and after welding, the weld cross section is enlarged by the inclined cross section to increase the welding strength, and the weld strength generated by the melting process is filled into the exposed hollow part. Has a further increasing effect.

1 is a cross-sectional view showing a double wall sewer pipe,

2 is a cross-sectional view taken along the line A-A of FIG.

3 and 4 are cross-sectional views showing a conventional connection method,

5 to 7 is a cross-sectional view showing an embodiment of the present invention,

8 and 9 are process cross-sectional views showing another embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

10,10 ', P1, P2: sewer pipe 10a, 10b: slope

10c, 10d: step 11: hollow part

20: heating element 21: frame

22,22 ', 23,23', 24,24 ': Heating plate 23a, 23b: inclined surface

24a, 24b: Dolthe

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

5 to 7 are cross-sectional views illustrating one embodiment of the present invention, and FIGS. 8 to 9 are cross-sectional views illustrating another embodiment of the present invention.

5 to 7 will be described a sewer pipe connection method and an apparatus according to an embodiment of the present invention.

As described above, the sewer pipes 10 and 10 'are double wall sewer pipes having a double structure and the same diameter by the spiral hollow portion 11.

In addition, the device of the present invention is the inclined surface 23a is formed in the outer diameter direction of the sewer pipe 10, the heating plate 23 is installed on one side of the frame 21, the inclined surface 23b is formed in the inner diameter direction of the sewer pipe An electric heating element 20 including a heating plate 23 ′ provided on the other side of the frame 21.

Both heating plates 23 and 23 'are installed in the frame using bolts for easy replacement, and a controller (not shown) for applying and controlling power is, of course, provided.

Both heating plates 23 and 23 'generate heat when power is applied to the heating element 20 in a state where both sewer pipes 10 and 10' are connected to the heating element 20.

Next, when both sewer pipes 10 and 10 'are moved in the direction of the heating element 20 to press and press the heating plates 23 and 23' of the heating element, one end of the sewer pipe 10 is heated. The inclined surface 10a is formed by melting by the inclined surface 23a of the heating plate 23, and the connecting end surface of the other sewer pipe 10 'is melted by the inclined surface 23b of the heated other heating plate 23'. Thus, the inclined surface 10a is formed to face the inclined surface 10a of the one sewer pipe.

At this time, a portion of the molten beads generated in the process of forming the inclined surface (10a) (10b) is filled in the hollow portion 11 exposed to the connection end surface of both sewer pipes to close the hollow portion.

By the formation of the inclined surfaces 10a and 10b, the area of the connecting end surface is greatly enlarged.

When the formation of the inclined surface by melting is completed, both sewer pipes are retracted to remove the heating element 20, and both sewer pipes are moved forward again.

Then, the inclined surface 10b formed on the other side sewer pipe 10 'is brought into contact with the inclined surface 10a formed on one side sewer pipe 10', thereby making a welding connection over time.

In this case, the molten bead is filled in the hollow portion 11 exposed to both sewer pipes, thereby increasing the welding surface and thereby strengthening the welding force and watertightness.

Meanwhile, another embodiment of the present invention will be described with reference to FIGS. 8 and 9.

As shown, another embodiment of the present invention is also a method of enlarging the connection cross-section of both sewer pipes using a heating element.

The heating element 20 is a frame formed by the dolme 24a in the outer diameter direction of the sewer pipe 10, the heating plate 24 is installed on one side of the frame 21, the dolme 24b is formed in the inner diameter direction of the sewer pipe It is the structure containing the heating plate 24 'provided in the other side of (21).

When both of the heating plates 20 and 10 'are connected to the heating element 20 and the power is applied to the heating element 20, both heating plates 24 and 24' generate heat, and both sewers When the pipes 10 and 10 'are moved in the direction of the heating element 20 to contact and pressurize the heating plates 24 and 24' of the heating element, one end of the sewer pipe 10 is connected to the heated one heating plate 24. The stepped portion 10c is formed in the outer diameter direction by melting by the doltte 24a of the c), and the connecting end surface of the other sewer pipe 10 'is melted by the dolthe 24b of the heated other heating plate 24'. Steps 10d are formed in the inner diameter direction.

At this time, a part of the molten beads generated in the process of forming the stepped (10c) (10d) is filled in the hollow portion 11 exposed to the connecting end of both sewer pipes to close the hollow portion, the step of the step By formation, the area of the connection cross section is greatly enlarged.

When the formation of the step is completed by melting, both the sewer pipes are retracted to remove the heating element 20, and the two sewer pipes are moved forward again.

Then, the step 10c formed on the other side sewer pipe 10 'is contacted with the step 10c formed on the one side sewer pipe 10', and the welding connection is made over time.

In this case, the molten bead is filled in the hollow portion 11 exposed to both sewer pipes, thereby increasing the welding surface and thereby strengthening the welding force and watertightness.

As described above, the present invention is capable of welding and connecting sewage pipes having the same diameter by butt welding by expanding and melting the connection sections of both sewage pipes using a heating element, and the molten beads generated during the melting process and the welding process Filling with the exposed hollow portion exerts an effect of expanding the welding surface and increasing the welding strength.

Claims (2)

In the method of connecting the double-walled sewer pipe of the same diameter in which the spiral hollow portion is formed, Melting the connecting section of one side sewer pipe inclined or stepped in the outer diameter direction by using a heating element, and melting the connecting section of the other side sewer pipe in the inner diameter direction, or melting it and removing the heating element and melting both sewer pipes. Sewage pipe connection method characterized in that the welded connection by contacting the slope or stepped. In the device for connecting a double wall sewer pipe of the same diameter formed with a spiral hollow portion, It is a configuration of an electric heating element including a heating plate is formed in the outer diameter direction of the sewer pipe is formed on one side of the frame, the heating plate is installed in one side of the frame, the heating plate is formed in the inner diameter direction of the sewer pipe is installed on the other side of the frame Sewer pipe connection device characterized in that.