KR200378651Y1 - Connection structure of water pipe - Google Patents

Abstract

The present invention relates to a water pipe that expands one side of the water pipe and inserts a heating wire into a portion to assemble in a spiral shape, and then heat the heating wire to be fusion-connected.

More specifically, a thread is formed on one or both of the expansion pipe or the connection portion of the water pipe which extends on one side of the water pipe, and a heating wire is integrally inserted into the thread or the outer diameter of the water pipe, and then the expansion pipe and the connection portion are screwed. It relates to a joint structure of the water pipe to be coupled to the water pipe by the method of fusion through the heating of the heating wire.

The present invention is in the water pipe 10 is extruded in a straight line or the expansion pipe portion 20 is formed on one side of the insertion portion 11 is connected to the opposite side,

A thread 21 is formed at an inner diameter of the expansion pipe 20 and an outer diameter of the insertion part 11, and a hot wire 22 is inserted into the thread 21 to be melted and connected.

Description

Connection structure of water pipe

The present invention relates to a water pipe that expands one side of the water pipe and inserts a heating wire into a portion to assemble in a spiral shape, and then heat the heating wire to be fusion-connected.

More specifically, a thread is formed on one or both of the expansion pipe or the connection portion of the water pipe which extends on one side of the water pipe, and a heating wire is integrally inserted into the thread or the outer diameter of the water pipe, and then the expansion pipe and the connection portion are screwed. It relates to a joint structure of the water pipe to be coupled to the water pipe by the method of fusion through the heating of the heating wire.

In general, water pipes are cylindrically extruded to form a straight line, cut to a certain length, and then used for supplying tap water, and synthetic resin pipes for supplying various liquids are double-walled pipes or triples through extrusion or winding like water pipes. Synthetic resin tubes for various purposes are provided under the same names as wall tubes and laminated tubes.

Such various pipes are provided, and the connection method of the pipes is also variously proposed.

However, there are various connection methods of pipes, which are K / P type connection methods that use a plurality of bolts and nuts on the outside after injection molding the expansion pipe unit to one side of the pipe and combining the packing. Most of the defects are very complicated or difficult to connect, such as fusion bonding butt joints, or coupling complex structures, and then connecting them together using multiple bolts and nuts.

In addition, even if the connection is properly made, since many leakage occurs at the connecting portion by the hydraulic pressure after the connection is expensive, the fluid is supplied at a high cost in case of a lot of damage caused by property damage.

The present invention was devised to solve the above-mentioned drawbacks. After extruding and molding the water pipe, the thread is machined in the inner diameter of the expansion pipe which is enlarged on one side, and the heating wire is planted in the thread to insert the hot wire. It generates heat so that water pipes can be connected.

The present invention makes it possible to connect the water pipes in such a way as to heat the heating wire by processing the thread on the insertion part and planting the heating wire on the thread without planting the heating wire in the expansion pipe part of the water pipe.

Therefore, the present invention is to produce a method of planting a heating wire on either side of the expansion pipe or the insertion portion of the water pipe, and then to assemble and melt the screw by fusion to supply the power to the heating wire after assembly at the time of connection. .

The present invention is in a water pipe that is extruded in a straight line or connected to the expansion pipe is formed on the opposite side is formed on one side,

A screw thread is formed in the inner diameter of the expansion pipe and the outer diameter of the insert, and the hot wire is inserted into the screw to melt the connection.

The present invention is to use a conventional water pipe 10 which is molded by extruding an integral resin or by extruding the inner diameter and the outer diameter in a double or triple to have different colors or functions.

Water pipe 10 is used to cut to a predetermined length in accordance with the use standard, it is used to connect the water pipe 10 in succession.

In order to connect the water pipe 10, one side of the water pipe as shown in FIG. 1 is expanded to form an expansion pipe 20 as shown in FIG.

Method for forming the expansion tube 20 is provided in a variety of conventional methods, it is to form the expansion tube 20 through such various methods.

In the inner diameter of the expansion pipe 20, the thread 21 is molded using a thread processing apparatus as shown in FIG.

The heat thread 22 is inserted into the thread 21 machined to the inner diameter of the expansion pipe 20 by using the heat wire inserting device 30 of FIG. 10, as shown in FIGS. 4 and 5, and the thread 21. While digging one side of the heating wire 22 is to be inserted into it to be integrally inserted.

Both ends of the inserted heating wire 22 are exposed to the outside to enable the supply of power.

The water pipe 10 in which the heating wire 22 is inserted into the thread 21 of the expansion pipe 20 supplies power to the heating wire 22 exposed to the outside after inserting the opposite insertion part 11 as shown in FIG. 6. do.

The heating wire 22 to which power is supplied is gradually melted by heating the surfaces of the surrounding thread 21 and the insertion part 11 while being heated by a current.

After heating and melting the surface of the screw thread 21 and the insertion part 11 through the heat generation of the thermoelectric 22, when the power supply is stopped and cooled, the molten part is cooled and solidified integrally to expand the expansion part 20. In the insert 11 is integrally connected as shown in FIG.

On the other hand, the present invention is to supply the insertion portion 11 to the hot wire inserting device 30 as shown in Figure 8 to insert the hot wire 22, the water pipe (10) in the hot wire inserting device 30 of FIG. 10) and inserting the heating wire 22 into the cutout 12 while forming the groove 32 in the insertion portion 11 by using the bite 33 to be molded integrally.

Then, as shown in FIG. 12, the insertion unit 11 is inserted into the expansion unit 20 to supply power to the heating wire 22 formed in the insertion unit 11 to generate heat through the incision unit 12 and the expansion unit ( 20) to melt and connect the inner diameter.

At this time, the thread 21 or the incision 12 can be formed on either or both of the expansion pipe 20 and the insertion portion 11, and the hot wire 22 is also inserted into either or both of the water pipes ( 10) can be connected by fusion integrally.

The heating wire inserting device 30 is provided with a carbide 31 in the bite 33 and the heating wire 22 penetrates a portion thereof so as to process the groove 32 while the heating wire 22 is inserted therein and spirals therein. It is to be inserted into.

According to the present invention, as shown in FIG. 13, the hot wire 22 may be inserted after the Nanasan 21 is formed in the expansion pipe 20, and the thread 21 is also formed in the insertion part 11. The hot wire 22 can be inserted into the 21 using the bite 33 of the hot wire inserting device 30.

As shown in FIG. 14, the insertion portion 11 is inserted into the expansion tube 20 to supply power to the heating wire 22 formed in the insertion portion 11 to generate a thread 21 and the expansion tube 20 through heat generation. The inner diameter of) is melted and fused.

At this time, the thread 21 may be formed on either or both of the expansion pipe 20 and the insertion part 11, and the hot wire 22 is also inserted into one or both of the heat pipes 10 to integrally fusion weld the water pipe 10. Can be connected.

As shown in FIG. 15, the thread 21 may be formed on both sides of the W-shaped double-sided thread 40, and the heating wire 22 may be formed on one or both sides of the double-sided thread 40. It can be inserted.

In addition, as shown in FIG. 16, a double-sided rounded mold 41 having a rounded toothed corner of the gear can be formed on one or both sides, and a hot wire ( 22) can be inserted.

In addition, as shown in FIG. 17, a double-sided trapezoidal shape 42 which is processed on one or both sides in the form of teeth of a gear can be formed, and a hot wire 22 is inserted into one or both sides of the double-sided trapezoidal shape 42. You can do it.

The present invention processes the screw thread in the inner diameter of the expansion pipe portion, which is formed by extruding the water pipe, and planted a heating wire on the screw thread, and when the insertion part of the water pipe is inserted, the heating wire is heated so that the water pipe can be integrally connected. It is.

The present invention can be connected through the method of melting the water pipes integrally by a method of heating the heat pipes by processing the screw thread in the insertion portion and planting the hot wire on the screw thread without planting the heating wire in the expansion pipe portion of the water pipe.

Therefore, the present invention is to produce a method of planting a heating wire on either side of the expansion pipe or the insertion portion of the water pipe, and then to assemble and melt the screw by fusion to supply the power to the heating wire after assembly at the time of connection. .

1 is a cross-sectional view of a common water pipe

2 is a cross-sectional view of an enlarged pipe portion in which one side of the water pipe is expanded;

3 is a cross-sectional view of the thread formed on the inner diameter of the expansion pipe portion of the water pipe

Figure 4 is a cross-sectional view of the hot wire inserted into the screw formed in the water pipe expansion portion of the present invention

5 is an enlarged cross-sectional view of the main part of FIG. 5 of the present invention;

Figure 6 is a cross-sectional view of the combined state of the insertion portion and expansion pipe of the present invention

7 is an enlarged cross-sectional view of the main part of FIG. 6 of the present invention;

8 is an enlarged cross-sectional view of an insert of the present invention.

9 is an enlarged cross-sectional view of the main part of FIG. 8 of the present invention;

10 is a state diagram for the heating wire inserting device of the present invention

11 is an enlarged cross-sectional view of an embodiment of a hot wire insertion device of the present invention;

12 is a cross-sectional view of the water pipe of the present invention is connected

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

14 is a cross-sectional view of the coupling state of Figure 13 of the present invention

15 is an enlarged cross-sectional view of FIG. 14 of the present invention.

Figure 16 is a cross-sectional view of another embodiment of the present invention with respect to Figure 15

Figure 17 is a cross-sectional view of another embodiment of the present invention with respect to Figure 15

[Description of Symbols for Main Parts of Drawing]

10: water pipe 11: insertion portion

20: expansion pipe 21: thread

22: hot wire 30: hot wire inserting device

31: Carbide 32: Home

33: byte 40: double-sided thread type

41: double-sided round mold 42: double-sided trapezoidal

Claims (4)

In the water pipe 10 is extruded in a straight line or the expansion pipe portion 20 is formed on one side of the insertion portion 11 is connected to the opposite side, The joint structure of the water pipe, characterized in that the thread 21 is formed on the inner diameter of the expansion pipe portion 20 and the outer diameter of the insertion portion 11, and the hot wire 22 is inserted into the screw thread 21 to melt. . The joint structure of a water pipe according to claim 1, wherein a heating wire (22) is inserted into only one of the expansion pipe (20) and the thread (21). The joint structure of a water pipe according to claim 1, wherein a hot wire (22) is inserted by forming an incision (12) on both or one of the expansion pipe (20) and the thread (21). 2. The joint structure of water pipes according to claim 1, wherein the thread (21) is formed of a double-sided threaded type (40) or a double-sided trapezoidal type (42) to which a hot wire (22) is inserted.