KR101039817B1 - A pipe - Google Patents

Abstract

PURPOSE: A connection method of a supply and drain pipe integrated with a one-end collar is provided to simultaneously perform melting and integral combination by using a pipe melting part and melting connecting part to an one-end collar melting device. CONSTITUTION: A connection method of a supply and drain pipe integrated with a one-end collar is as follows. A fuse connection part(22) is located on one side of a separate sill(23) and is heated in the inside diameter fusion part in 190~240°C for 8~10 minutes. A pipe fusion part(11) is located at one end of the supply and drain pipe. The pipe fusion part is heated along with the fuse connection part in the external diameter fusing part in 190~240°C for 8~10 minutes. The fuse connection part and pipe fusion part keep concentricity to be integrally fused.

Description

Connection method of single-sided color integrated water supply and drainage pipe {A pipe}

The present invention relates to a method and an apparatus for connecting a single-sided color integrated water supply and drainage pipe, and more particularly, one side of the single-sided water supply pipe and the connection body of the single-sided color are melted and fusion-connected at the same time to connect the single-sided color integrally, and to the opposite side. The present invention relates to a method for connecting a single color collar integrated water supply and drainage pipe and a device for connecting a single color to be able to be connected by various methods such as fusion fusion by hot wires or connection using pressure wheels.

In general, the water supply and drain pipe formed of synthetic resin has almost no material leaking out of the pipe itself, there is no fear of corrosion, and the service life is not only semi-permanent unless it is artificially damaged, and the material cost and construction cost are low. It is used for various purposes such as water pipes, sewer pipes, drain pipes, deep sea water pipes.

The sewage pipes and drain pipes are manufactured with large allowable tolerances such as thickness, inner diameter and outer diameter depending on the production environment.

Except in special cases, such a water supply and drain pipe is manufactured and supplied to have a certain length so that it can be loaded and transported in a vehicle. It is used to connect the branch pipe for supply to each use, various methods are provided as the connection method, but most of the heat-using method using the electro-fusion (EF-Fusion: EF) method.

As a conventional technique of the electrofusion method, as disclosed in Patent Registration No. 0889476 (registered on March 12, 2009), an inner diameter is formed on both sides formed in a cylindrical shape, and a heating wire is embedded in the inner diameter, and then the heating wire is moved outward. Protruding to provide a connector for forming a terminal.

The connector is connected to both sides of the water supply pipe and then supplying power through the protruding terminal to the power supplied through the terminal heats the heating wire, the heated heating wire melts the inner diameter of the connector and the outer diameter of the water supply pipe, After melting for a time, the supply of the power is stopped and cooled while the integrally fused portion is fusion-spliced.

However, the use of such a connector causes an error in dimensions in the outer diameter of the water supply and drainage pipe and the inner diameter of the connector, and when the error is severe, the heating wire cannot be melted while generating heat, so that watertightness is prevented due to the error. The disadvantage arises that it cannot be provided.

In order to prevent such drawbacks, a single-color collar connection method has been recently provided in which a supply and drain pipe is fusion-spliced to one side of a connector.

However, the single-color collar connection method also requires the molding of the water supply and drainage pipe without any error in the dimensions when fusion is connected. Therefore, quality control and production difficulties for the production of precise products occur, and one end of the water supply and drainage pipe is prevented to prevent such defects. The part is coupled to the mold to insert injection molding so that the connecting body 30 and the water supply and drain pipe 10 are integrated in the mold.

Insert injection molding as described above has the advantage of connecting to be an integral one, but it is a drawback that takes a lot of time to connect the produced water supply pipe to the mold injection molding, which eventually leads to a drawback of low productivity of the water supply pipe do.

In addition, in order to integrally connect the single-handed collar to one end of the water supply and drainage pipe, the fusion-splicing part 22 installed at the inner diameter of the connecting body of the single-handed collar is melted, and the water supply and drainage pipe 10 connected to the fusion-connecting part 22 is connected. It is very difficult to melt and connect the fusion splicing part 22 and the pipe fusion part 11 at the same time because the pipe fusion portion 11 of the melted at the same time, if the center of the single color and the water supply and drain pipe does not exactly match the single color It is difficult to connect the water supply and drain pipe, which must be connected to the other side of, which makes it very difficult to maintain the normal watertightness.

Document 1. Patent Registration No. 0889476 (registered March 12, 2009) Document 2. Patent registration number 0854411 (2008. 08. 20. registration) Document 3. Utility Model Registration No. 0214753 (Registered Dec. 13, 2000) Document 4. Utility Model Publication No. 1999-004106 (published Jan. 25, 1999)

Therefore, the problem of the present invention devised to solve the above-mentioned drawbacks is, at the same time melting one end pipe fusion portion of the synthetic resin tube and the connecting body fusion connection of the single-sided collar at the same time, while maintaining the exact center of the connection and integrally fusion It is to enable the connection using the overpressure wheel (KP type).

Another problem of the present invention is to supply the injection-molded single color collar and the supply and drainage pipe used for various uses by melting the fusion connection portion of the single color and the pipe fusion portion of the supply and drain pipe at the same time to be connected to the fusion connection to be integrated It is to provide a method and an apparatus thereof.

The present invention provides a method of connecting a single-sided collar integrated water supply and drainage pipe for fusion-connecting the single-sided collar and the supply / drainage pipe by coupling one end portion of the supply / drainage pipe to the inner diameter of the single-sided collar,

Single-sided color melting step of supplying the fusion connection portion to the inner diameter fusion to one side of the separation jaw formed in the inner diameter of the single-necked collar for 8 to 10 minutes heating at 190 to 240 ℃;

A supply and drain pipe fusion step of supplying a pipe fusion portion to an outer diameter fusion portion at one end of the water supply and drain pipe and heating the same at the same time as the fusion splicing portion at a temperature of 190 to 240 ° C. for 8 to 10 minutes;

The molten fusion splicing portion and the pipe fusion portion is characterized in that it consists of a fusion step of fusion connection integrally to match the concentricity.

In the present invention, in the coupling device of the single-collar integral type water supply and drainage pipe for coupling one end of the water supply and drainage pipe to the inner diameter of the single-handed collar by fusion-connecting the single-handed collar and the water supply and drainage pipe,

The molten connecting rod is connected to the lower side of the driving unit connected to the rail in the bed so as to be movable up and down,

On the left side of the inner diameter molten plate which is installed to the left side of the fusion connecting rod and the fusion connection part of the single-sided collar is combined, the single-sided collar base and the single-sided collar holder are installed on the guide shaft, and the cylinder shaft of the collar driving cylinder is installed on the single sided collar base. An inner diameter fusion unit operatively connected;

It is installed on the right side of the fusion connecting rod and the tube fusion plate of the water supply pipe is coupled to the left side of the outer diameter molten plate to be melted is installed in the guide shaft and the tube shaft, the cylinder shaft of the tube drive cylinder to the tube support to drive It is characterized by consisting of the outer diameter fusion unit connected.

The present invention melts the fusion joint at the inner diameter of the joint body and the single collar collar at one end of the synthetic resin pipe at the same time by the single collar collar fusion device, while maintaining the exact center of the combined connection to integrally connect the underground water supply pipe It is to enable the connection using electrofusion and pressure wheel (KP type).

The present invention provides a single color collar fusion apparatus to provide a stable single color collar to the water supply and drain pipe so as to continuously find the precise melting point of the water supply and drainage pipe of the various specifications to prevent leakage.

1 is a perspective view showing a preferred embodiment of the present invention
Figure 2 is a cross-sectional view of the single-collar collar and the water supply pipe of the present invention separated
3 is a cross-sectional view of a state in which the water supply pipe is fusion-spliced to the single-collar collar of the present invention.
Figure 4 is a cross-sectional view of the state connected to bury the water supply and drain pipe in the electrofusion type single-collar collar of the present invention
5 is a cross-sectional view of a state in which the KP type single collar and the water supply pipe of the present invention are fusion-spliced;
Figure 6 is a cross-sectional view of the state connected to bury the supply and drain pipe to the KP type single collar of the present invention
Figure 7 is a plan view of the single color collar fusion apparatus of the present invention
8 is a front view of the single color collar fusion apparatus of the present invention.
Figure 9 is a side view of the single color collar fusion apparatus of the present invention
Figure 10 is a side view of the discharge state of the knitting collar and the water supply pipe using the knitting collar fusion device of the present invention
11 is a cross-sectional view of a state in which the pipe holder and the single collar collar holder of the present invention are fixed.

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

1 is a perspective view showing a preferred embodiment of the present invention, Figure 2 is a cross-sectional view of a separate state of the knitting collar and the water supply pipe of the present invention, Figure 3 is a cross-sectional view of a state in which the water supply pipe is fusion-spliced to the knitting collar of the present invention , Figure 4 shows a cross-sectional view of the state connected to bury the water supply pipe in the electrofusion-type single-handed collar of the present invention.

The single-collar collar 20 which is integrally connected to one end of the water supply and drainage pipes 10 and 10a used for various purposes such as water pipes, gas pipes, sewer pipes, rain pipes, drain pipes, and deep sea water pipes has an internal water supply and drain pipe 10, 10a. The fusion splicing portion 11 of the fusion splicing portion 11 is coupled to the fusion connection 22 is formed in the inner diameter, the separation jaw 23 is formed on one side of the fusion splicing portion 22 to enter the water supply and drain pipe (10, 10a) To be stopped.

On the opposite side of the separation jaw 23, the heating wire 25 is planted in a predetermined width in the heating heat connecting portion 24, and both ends of the heating wire 25 are protruded to the outer diameter to install the connection terminal 26. It is to form a connecting body (21).

The heating wire 25 may be insert injection molding, using a heating wire planting device of the electronic socket described in Patent Registration No. 0534570 (registered on Dec. 1, 2005) in a predetermined width in the heat generating connecting portion 24. It is possible to plant.

The fusion splicing part 22 and the pipe fusion part 11 are simultaneously heated and melted at a temperature of 190 to 240 ° C. for 8 to 12 minutes, and then combined to match the concentricity of the fusion splicing part 22 and the pipe fusion part 11. It is a fusion connection to be an integrated type.

The heat supply connecting portion 24 is inserted into the water supply and drain pipe (10a) and to supply power to the hot wire terminal 26 to be heated and melted for 8 to 12 minutes at a temperature of 190 ~ 240 ℃ to be fusion-bonded.

5 is a cross-sectional view of a state in which the KP type single-collar collar and the water supply and drainage pipe of the present invention are fusion-spliced, and FIG. 6 is a cross-sectional view of a state in which the KP type single-collar color is connected to embed the water supply and drainage pipe in the present invention.

The single-collar collar 20 which is integrally connected to one end of the water supply and drainage pipes 10 and 10a used for various purposes such as water pipes, gas pipes, sewer pipes, rain pipes, drain pipes, and deep sea water pipes has an internal water supply and drain pipe 10, 10a. The fusion splicing portion 11 of the fusion splicing portion 11 is coupled to the fusion connection 22 is formed in the inner diameter, the separation jaw 23 is formed on one side of the fusion splicing portion 22 to enter the water supply and drain pipe (10, 10a) To be stopped.

The packing 31 is inserted into the opposite side of the separating jaw 23, and the connecting body 21 protrudes from the locking jaw 33 by the outer diameter.

The fusion splicing part 22 and the pipe fusion part 11 are simultaneously heated and melted at a temperature of 190 to 240 ° C. for 8 to 12 minutes, and then combined to match the concentricity of the fusion splicing part 22 and the pipe fusion part 11. It is a fusion connection to be an integrated type.

One side of the connecting body 30 is inserted into the water supply and drain pipe (10a) is coupled to the pressing wheel 34, the pressing ring 34 is coupled to a plurality of fixing bolts 36 at regular intervals and fixed to the locking jaw (33) When one side of the bolt 36 is caught and screwed into the fixing nut 37 from the outside of the pressing ring 34, the packing pressing portion 35 formed on the pressing ring 34 presses the packing 31 so that watertightness is maintained. It is.

7 is a plan view of the single color fusion apparatus of the present invention, Figure 8 is a front view of the single color fusion apparatus of the present invention, Figure 9 is a side view of the single color fusion apparatus of the present invention, Figure 10 is a view of the present invention Side view of the discharge state of the knitting collar and the water supply and drainage pipe using the knitting collar fusion device, Figure 11 shows a cross-sectional view of the fixing state of the pipe holder and the single collar collar of the present invention.

The single color collar fusion device 50 for connecting the single color collar 20 to one end of the water supply and drainage pipes 10 and 10a includes an inner diameter fusion portion 60 for melting the fusion connection portion 22 of the single color collar 20. And an outer diameter fusion unit 70 for melting one end pipe fusion unit 11 of the water supply and drainage pipes 10 and 10a.

The single collar collar fusion device 50 has a drive plate 52 protruding from the height of the bed 53, the molten plate connecting plate 51 is connected to the lower side of the drive table (52).

The bed 53 is installed by the rail 56 in the longitudinal direction and connects the driving unit 52, by connecting the cylinder shaft (55a) to the lower side of the driving unit 52 by the height adjustment cylinder (55) Installed to adjust the height of the drive (52).

The molten plate connecting plate 51 connected to the lower side of the driving table 52 is able to adjust the position in the horizontal direction through the handle 57 installed on one side.

The inner diameter fusion unit 60 is a circular inner diameter molten plate 61 is installed to one side of the molten plate connecting rod 51 to combine the fusion connecting portion 22 of the single-collar collar 20 to melt, the inner diameter molten plate ( On the left side of the drawing 61, a single collar collar 62 coupled to the guide shaft 54 is installed to support the lower side of the single collar 20, and the single collar collar 63 is positioned above the single collar collar 62. ) Is rotatably installed.

Both sides of the single collar stand 62 are connected to the cylinder shaft 65 connected to the collar driving cylinder 64 so as to control the position of the single collar stand 62.

The outer diameter fusion unit 70 is provided with an outer diameter molten plate 71 in an opposite direction in which the inner diameter molten plate 61 is installed to one side of the molten plate connecting rod 51 to couple one end portion of the water supply and drain pipes 10 and 10a. To melt the pipe fusion unit 11, and a pipe pedestal 72 coupled to the guide shaft 54 is installed on the right side of the outer diameter melt plate 71 so that the lower sides of the water supply and drain pipes 10 and 10a are installed. It is supported, and the pipe holder 73 is rotatably provided above the pipe stand 72.

Both sides of the tube pedestal 72 are connected to the cylinder shaft 75 connected to the tube drive cylinder 74 is installed to control the position of the tube pedestal 72, the cylinder shaft (65, 75) is the same It is installed on board.

The guide shaft 54 is installed at a lower portion of the connection portion between the pipe support 72 and the pipe holder 73, and the cylinder shaft 81 and the discharge cylinder 80 are inclined toward one side of the guide shaft 54. And installed to discharge the water supply and drain pipe (10, 10a) to the outside.

The single collar collar holder 63 and the pipe holder 73 are rotatably connected by the rotation shaft 73a, and the single collar collar holder 63 and the tube holder 73 are closed at a position where the fixed cylinder 85 is fixed to the fixed cylinder ( 86) so that they can be fixed and removed.

On the right side of the drawing of the outer diameter fusion unit 70, the discharge device 90 is frosted at two locations at predetermined intervals so as to discharge the water supply and drain pipes 10 and 10a in association with the discharge cylinder 80.

The present invention made of such a configuration is to connect the single-handed collar 20 integrally to one end of the water supply pipe 10, 10a used for various purposes such as water pipe, gas pipe, sewer pipe, rain pipe, drain pipe, subsea deep water pipe, After the production of the water supply and drainage pipe (10, 10a) is cut to a predetermined length and supplied to the single color collar fusion apparatus 50 to connect the single color collar 20.

The single color collar holder 63 installed in the inner diameter fusion portion 60 of the single color collar fusion device 50 is opened and the single color collar 20 is supplied to the single color collar pedestal 62 to support the lower side of the single color collar 20. The single color collar holder 63 is rotated to surround the single color collar 20, and the fixed lever 86 is fixed to the single color collar holder 63 by driving the fixed cylinder 85.

When the collar driving cylinder 64 is driven to advance the knitting collar base 62 so that the knitting collar 20 is coupled to the inner diameter molten plate 61, the fusion joint of the inner diameter of the connecting body 21 of the knitting collar 20 ( 22) is coupled to the inner diameter molten plate 61.

When the water supply and drainage pipes 10 and 10a produced by rotating and opening the pipe holder 73 of the outer diameter fusion unit 70 are rotated about the rotation shaft 73a, the pipe holder 73 is rotated again. The fixed cylinder 85 is driven to surround the water supply and drainage pipes 10 and 10a to fix the pipe holder 73 with the fixing lever 86.

When the cylinder shaft 75 advances the tube support 72 to couple the outer diameter molten plate 71 by driving the tube driving cylinder 74, the tube welding portion 11 is coupled to the inner diameter of the outer diameter molten plate 71. .

When the inner diameter molten plate 61 and the outer diameter molten plate 71 provided in the said molten plate connecting board 51 do not match the concentricity of the single collar 20 and the water supply and drainage pipes 10 and 10a, the handle 57 is rotated. Since it is installed so as to move from side to side from the drive table 52, it is possible to work by adjusting the concentricity accurately by adjusting the position.

As such, after connecting the knitting collar 20 to the inner diameter fusion portion 60 of the knitting collar fusion device 50 and connecting the water supply and drainage pipes 10 and 10a to the outer diameter fusion portion 70, the same place is not shown at the same time. Power is supplied from the inner diameter molten plate 61 and the outer diameter molten plate 71 to generate heat.

As the inner diameter molten plate 61 and the outer diameter molten plate 71 are heated, the fusion splicing part 22 and the tube fusion part 11 are simultaneously heated at a temperature of 190 to 240 ° C. for 8 to 12 minutes to melt.

When the melting time is finished, the collar drive cylinder 64 is reversed so that the cylinder shaft 65 reverses the single-color collar pedestal 62 so that the fusion splicing part 22 is separated from the inner diameter melt plate 61 and the tube drive cylinder ( 74 is reversed so that the cylinder shaft 75 reverses the tube support 72 so that the tube fusion portion 11 is separated from the outer diameter melt plate 71.

When the water supply pipes 10 and 10a are separated from the inner diameter molten plate 61 and the water supply pipes 10 and 10a are separated from the outer diameter molten plate 71, the height adjustment cylinder 55 is driven in the bed 53, so that the cylinder shaft 55a is The drive table 52 is raised to allow the drive table 52 and the molten plate connecting plate 51 to rise on the rail 56.

When the molten plate connecting rod 51 is raised to a position higher than the height of the single collar 20, the collar drive cylinder 64 and the tube drive cylinder 74 are simultaneously driven to advance the cylinder shafts 65 and 75 while the single collar is advanced. 20 and the water supply and drain pipes 10 and 10a are advanced.

By combining the fusion joint 22 of the water supply and drain pipes 10 and 10a to the fusion joint 22 of the single collar 20 so that the concentricity of the molten fusion joint 22 and the tube fusion unit 11 is matched. It is fusion-spliced so that it may be integrated by cooling.

When the single collar 20 is integrally fused and connected to one end of the water supply and drainage pipes 10 and 10a, the fixed cylinder 85 is driven to operate the fixed lever 86 to operate the single collar collar holder 63 and the pipe holder 73. ), The single collar collar holder 63 and the tube holder 73 are rotated to release the fixed collar 20 and the water supply and drain pipes 10 and 10a, and the two discharge apparatuses 90 are separated. And driving the discharge cylinder 80 on one side of the outer diameter fusion unit 70 to rotate the discharge table 82 while the cylinder shaft 81 moves backward to move the water supply and drain pipes 10 and 10a to the single collar collar pedestal 62 and the pipe. It is discharged from the pedestal 72.

When the single piece collar 20 is integrally melted and fusion-connected to the water supply and drainage pipes 10 and 10a, the pipe fusion portion 11 and the fusion connection portion 22 are integrally connected to prevent leakage, and if necessary, When the right end portion of the fusion splicing part 22 and the pipe fusion part 11 meet each other by welding using a spin welding method with molten resin, a more stable connection is possible.

As such, the fusion joint 22 of the single-collar collar 20 and the tube fusion joint 11 of the water supply and drain pipes 10 and 10a are simultaneously melted and combined, so that the concentricity can be accurately matched, and at the same time, watertightness is achieved by cooling connection. It is to be able to conveniently and accurately carry out the task of connecting the single collar 20 to be kept stable.

One side of the water supply and drainage pipes 10 and 10a is supplied with the knitting collar 20 connected to each other, and when buried in the ground, one end of the water supply and drainage pipe 10a is connected to the heat generating connection portion of the knitting collar 20 ( 24) is coupled to match the concentricity, and then supply power to the connection terminal 26 to heat the heating wire 25 to heat for 8 to 12 minutes at a temperature of 190 ~ 240 ℃ heat generating connector 24 and the supply and drain pipe (10a) The outer diameter of is melted and connected integrally by cooling.

When the single-handed collar 20 does not use the heating wire 25, as shown in FIGS. 5 and 6, the water supply and drainage pipe 10a is inserted into the inner diameter of the connecting body 30, and then a plurality of pressure rings 34 are used. When the connecting bolt 36 is caught on the locking jaw 33 and coupled with the fixing nut 37, the packing pressing portion 35 of the pressure ring 34 is pressed in the packing 31 so that the watertight is held in a KP manner. It is.

The fusion splicing part 22 and the pipe fusion part 11 are heated for 8 to 12 minutes at a temperature of 190 to 240 ° C by heating, and when melted at a temperature of 190 ° C or less, the melting time is too long to delay the working time. It is not preferable to melt at 240 ℃ or higher because there is a possibility of melting and carbonization in too fast time. If the melting time is within 8 minutes, the melting is not performed normally. This is because it becomes difficult to fuse each other.

After connecting the numbering collar 20 to the water supply and drain pipes 10 and 10a, the height adjusting cylinder 55 in the bed 53 retracts the cylinder shaft 55a to move the driving table 52 downward. At 56, the drive table 52 is lowered so that the molten plate connecting plate 51 is ready for the next operation.

According to the present invention, the fusion joint of the single collar color and the pipe fusion portion of the water supply and drain pipe are simultaneously melted to combine concentricity to provide an accurate and stable integral type of single collar color so that the watertight can be stably maintained.

10, 10a: water supply and drain pipe 11: pipe welded portion
20: single color 21, 30: connecting body
22: fusion connection 23: separation jaw
24: heating connection 25: heating wire
26: connector 31: packing
33: locking jaw 34: pressure ring
35: packing pressing jaw 36: connecting bolt
37: fixing nut 50: single color collar fusion device
51: molten plate connecting rod 52: drive table
53: bed 54: guide shaft
60: inner diameter fusion portion 61: inner diameter molten plate
62: single collar collar 63: single collar collar
64: color drive cylinder 65, 75, 81: cylinder shaft
70: outer diameter fusion portion 71: outer diameter molten plate
72: tube holder 73: tube holder
74: tube driving cylinder 80: discharge cylinder

Claims (5)

delete In the connecting device of the single-sided collar integrated water supply and drainage pipe for connecting one end of the water supply and drainage pipe to the inner diameter of the single-sided collar by fusion connection between the single-sided collar and the water supply and drainage pipe,
The molten connecting rod 51 is connected to the lower side of the driving unit 52 connected to the rail 56 in the bed 53 so as to be movable upward and downward,
It is installed to the left side of the fusion splicing 51 and the plunging collar pedestal 62 and the single-necked collar holder 63 are arranged on the left side of the inner diameter molten plate 61 to be melted by combining the fusion splicing portion 22 of the single-collar collar 20. An inner diameter fusion unit (60) installed at the guide shaft (54), the cylinder shaft (65) of the collar drive cylinder (64) being operatively connected to the single collar collar support (62);
It is installed on the right side of the fusion splicing 51 and the pipe pedestal 72 and the pipe holder 73 on the left side of the outer diameter molten plate 71 in which the pipe fusion portion 11 of the water supply and drain pipes 10 and 10a are combined and melted. Single-piece collar, characterized in that the outer shaft is formed on the guide shaft 54, the outer cylinder fusion unit 70, the cylinder shaft 75 of the tube drive cylinder 74 is operably connected to the tube support 72. Apparatus for manufacturing a water supply and drain pipe.
The method of claim 2,
The outer diameter fusion unit 70 is connected to the pipe supporter 72 on the same axis line and is connected to the cylinder shaft 81 of the discharge cylinder 80 installed at an inclined angle to discharge the water supply and drain pipes 10 and 10a 82. Apparatus for manufacturing a single-piece collar integrated water supply and drainage pipe, characterized in that consisting of.
The method of claim 2,
The single color collar holder 63 and the pipe holder 73 is connected to the fixing lever 86 installed on the upper side of the fixed cylinder (85) so as to be fixed to the manufacturing apparatus of the single-piece collar integrated water supply and drainage pipe.
delete

Images