KR200297319Y1 - Junction pipe of hot-water boiler - Google Patents

Abstract

The present invention relates to a relay pipe of a hot water boiler, and more specifically, the material of the relay pipe is made of polyflophylene Rendum Copolymer resin (PPR), which is durable and able to withstand heat and pressure, and relay body and distribution pipe. In addition, by forming the exhaust pipe and the inlet pipes and plugs on both sides separately and joining in a configuration in which the members are joined to each other by fusion, the manufacturing is simple, and heat, corrosion, and durable relay pipes can be provided. The metal reinforcing body is attached to prevent deformation such as bending of the main body of the relay tube in contact with hot water.

That is, the present invention is made of a constitution in which the inlet pipe (5) and the stopper (6) in which hot water flows into the relay pipe main body (200) having a plurality of distribution pipes (3) and exhaust pipes (4) on both sides; The relay pipe main body 200, the distribution pipe (3) and the exhaust pipe (4) and the inlet pipe (5) and the stopper (6) are each formed of a polyflophene Rendum Copolymer resin, of the relay pipe main body 200 Inlets and outlets are provided with connections 501 and 601 in the inlet pipe 5 and the plug 6 so that the connections 501 and 601 of the inlet pipe 5 and the plug 6 can be fused. Part of the connection part is dissolved so as to connect each other before the melting part is solidified, so that the fusion part 500 and 600 are formed at the joint part and the fastening part 506 outside the inlet pipe 5 and the stopper part 6. Forming 606

In addition, in the distribution hole 201 formed in the relay pipe main body 200, the connection pipe 301 and the close contact portion 302 to the distribution pipe 3 so that the connection pipe 301 of the distribution pipe 3 can be fused. Forming and dissolving the connection pipe, the close contact portion and the distribution port 201 of the relay pipe main body and connecting the furnace before the melting part is solidified, thereby joining the distribution pipe so that the fusion part 300 is formed at the junction portion, The exhaust pipe 202 of the 200 is provided with a connection pipe 401 and its close contact portion 402 in the exhaust pipe 4 so that the exhaust pipe 4 can be fused so that the connection pipe and the close contact portion of the exhaust pipe and the exhaust port 202 are provided. Joining the exhaust pipe so that the fusion unit 400 is formed at the junction by connecting each other before the melting part solidifies by partially dissolving, and the female thread 303 (403) (403) of the inlet pipe (5), the distribution pipe (3) and the exhaust pipe (4). Reinforcing ring (trivalent) (4-valent) (5-valent) formed of a metal thread (303), 403, 503 that is made of metal and is identical to female threads (303, 403, 503). ) To reinforce the female screw, and to the outside of the distribution pipe (3), a metal reinforcement (9) having a hole (901) drilled in a position coinciding with the female thread of the distribution pipe (3), and the female screw and the metal reinforcement of the distribution pipe (3) After the holes 901 of 9) coincide with each other, the heating valve 7 is connected by fastening the distribution valve 3a with the female screw of the distribution pipe outside the hole of the metal reinforcing body.

The present invention thus secures the fastening portions 506 and 606 of the both sides of the inlet pipe 5 and the stopper 6 of the relay body 2 to the frame 1 and the hot water boiler of the inlet pipe 5. The outlet pipe 801 is connected and the hot water heating pipe 7 is connected to the distribution pipe 3 of the relay body 2 to be used in a known manner.

The present invention is made of polyflophylene Rendum Corporima (PPR) resin, which is a heat-resistant resin, to separately form the main body of the relay pipe, the inlet pipe, the plug, the distribution pipe, and the exhaust pipe, and fuses the joints. The hot water relay pipe is made of light material without corrosion, and it can be usefully used.As the metal reinforcement body 9 is attached to the distribution pipe, the main body of the relay pipe can be reinforced and prevented from being bent by the heat of the hot water. It will have the advantage to lengthen.

Description

Junction pipe of hot-water boiler}

The present invention relates to a relay pipe of a hot water boiler, and more particularly, a relay pipe installed to allow the hot water supplied from the boiler to the heating hose to be circulated smoothly is supplied to each heating hose. It is manufactured by using polyflophylene Rendum Copolymer resin that can withstand and not rust.

Conventional hot water boiler's relay tube is made of expensive materials such as stainless steel, aluminum alloy tube or copper tube to withstand corrosion, so it is expensive and it is difficult to work by welding the member mounted on the relay tube. There is a lot of problems in the manufacturing supply because there is a inconvenience that does not last long and manufactured by the casting method is inefficient and many hands as well as hamper the working environment.

Therefore, this paper uses polyflophylene Rendum Copolymer resin (PPR) to withstand the heat and internal pressure of the relay tube in order to alleviate the various inconveniences described above. And a distribution pipe, an exhaust pipe, and an inlet pipe and a stopper part are formed to fuse the members to become a durable relay pipe.

This will be described in more detail together with the accompanying drawings as follows.

1 is a perspective view of not using a reinforcement in the present invention

2 is a partial cross-sectional view of FIG. 1

FIG. 3 is a partially enlarged cross-sectional view of the temporary line in FIG. 2. FIG.

4 is a partial perspective view of FIG. 1

5 is an exploded perspective view of FIG.

Figure 6 (a) is a diagram illustrating the fusion before the main body and the distribution pipe

(B) is an example of the fusion of the main body and the distribution pipe

7 is a state diagram used in the present invention

8 is an exemplary view of implementing a metal reinforcement to the present invention

9 is an enlarged cross-sectional view of the distribution pipe of FIG. 8.

* Explanation of symbols on the main parts of the drawings

1 frame 101 connector

2: relay tube 200: relay body

201: distribution port 202: exhaust port

3: distribution pipe 3a: valve

300, 400, 500, 600: fusion unit 301, 401, 501, 601: connection tube

302, 402, 502, 602: close contact 303, 403, 503: screw pipe

4: exhaust pipe 4a: exhaust cock

5: inlet pipe 505, 605: step

506, 606: fastener 6: closed tube

7: heating hose 8: boiler

9: reinforcement 901: through hole

The present invention consists of a constitution in which the inlet pipe (5) and the stopper (6) into which the hot water flows into the relay pipe main body (200) having a plurality of distribution pipes (3) and an exhaust pipe (4) are connected to both sides. Tube body 200, distribution pipe (3), exhaust pipe (4), inlet pipe (5) and plug portion (6) are each formed of a polyflourene Rendum Copolymer resin, the inlet of the relay body (200) and In order to fuse the connections 501 and 601 of the inlet pipe 5 and the plug 6 to the end, the inlet pipe 5 and the plug 6 are provided with connecting parts 501 and 601 on both sides. By dissolving some of the connection part and joining each other before the melting part solidifies, the joint part is joined to form the fusion part 500 and 600 at the joint part, and the fastening part 506 and 606 outside the inlet pipe 5 and the stopper part 6. )

In addition, in the distribution hole 201 formed in the relay pipe main body 200, the connection pipe 301 and the close contact portion 302 to the distribution pipe 3 so that the connection pipe 301 of the distribution pipe 3 can be fused. Forming and dissolving the dispensing port 201 of the connecting pipe, the close contact part and the relay main body and connecting each other before the dissolving part solidifies, thereby joining the distributing pipe so that the fusion part 300 is formed at the joint part, and the relay main body ( The exhaust pipe 202 of the 200 is provided with a connection pipe 401 and its close contact portion 402 in the exhaust pipe 4 so that the exhaust pipe 4 can be fused so that the connection pipe and the close contact portion of the exhaust pipe and the exhaust port 202 are provided. Joining the exhaust pipe so that the fusion unit 400 is formed at the junction by connecting each other before the melting part solidifies by partially dissolving, and the female thread 303 (403) (403) of the inlet pipe (5), the distribution pipe (3) and the exhaust pipe (4). 503 reinforcement ring (trivalent) (4-valent) (5) formed of metal and having the same internal threads 304, 404, 504 as female threads 303, 403, 503. ) To reinforce the female screw, and to the outside of the distribution pipe (3), a metal reinforcement (9) having a hole (901) drilled in a position coinciding with the female thread of the distribution pipe (3), and the female screw and the metal reinforcement of the distribution pipe (3) After the holes 901 of 9) coincide with each other, the heating valve 7 is connected by fastening the distribution valve 3a with the female screw of the distribution pipe outside the hole of the metal reinforcing body.

The present invention configured as described above is manufactured by manufacturing a hot water relay tube using polyflophylene Rendum Corporima (PPR) resin, which is a heat-resistant resin, to form a relay tube body, an inlet tube, a plug portion, a distribution tube and an exhaust pipe separately and fuse them. It is possible to manufacture a relay pipe, which is excellent in heat resistance, durable, material is not corroded, and easy to work by making a hot water relay pipe can be used and useful and installed in the relay body due to the metal reinforcement (9) It is possible to prevent the bending by the heat by connecting the distribution pipe has the advantage of lengthening the length of the relay body.

Claims (1)

The present invention consists of a constitution in which the inlet pipe (5) and the stopper (6) into which the hot water flows into the relay pipe main body (200) having a plurality of distribution pipes (3) and an exhaust pipe (4) are connected to both sides. The pipe main body 200, the distribution pipe 3, the exhaust pipe 4, the inlet pipe 5 and the stopper 6 are each formed of polyflolene lendom copolymer resin, and the inlet of the relay main body 200 The connection part 501,601 of the inlet pipe 5 and the stopper part 6 is fitted to the horseshoe and is fused, and the fastening parts 506 and 606 are provided on the outside of the inlet pipe 5 and the stopper part 6. In the distribution port 201 formed in the relay main body 200, the distribution pipe 3 including the connection pipe 301 and the close contact portion 302 is fused so that the connection pipe is fitted, and the exhaust port of the relay pipe main body 200 is provided. In 202, the exhaust pipe 4 including the connection pipe 401 and its close contact portion 402 is fused so that the connection pipe is fitted, and the female screw of the inflow pipe 5, the distribution pipe 3 and the exhaust pipe 4 is connected. (303) (403) (503) Reinforcing rings (trivalent) (4) (5) (5) (4) (4) made of metal and having the same internal threads (304, 404, 504) of female threads (303) (403) (503). A) bury the metal reinforcement (9) of the distribution pipe (3) and attach the metal reinforcement (9) with a hole (901) drilled in the same position as the female screw of the distribution pipe outside the distribution pipe (3). A relay tube of a hot water boiler in which a heating valve (7) can be fitted by fastening a distribution valve (3a) into a female thread of a distribution pipe outside the hole of a metal reinforcing body after the holes (901) coincide with each other.