JP2860944B2 - Hot water supply header - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a hot water supply header for distributing hot water from a heat source device such as a water heater to a place of use.

[Conventional technology]

FIG. 3 is a piping diagram showing a hot water supply piping system. In the figure, reference numeral 1 denotes a header, which distributes hot water supplied from a heat source device 2 such as a water heater, a faucet 3 in a kitchen, a faucet 4 in a washroom,
It is distributed to the faucet 5 and the like in the bathroom. The heat source device 2 heats water supplied from the water supply pipe 6 by burning gas supplied from the gas pipe 7, and supplies the water from the hot water supply main pipe 8 to the header 1.

The header 1 is formed in a hollow shape by metal, and has one inlet side receiving port 11 and a plurality of outlet side receiving ports 12a, 12b, 12 having the same diameter.
c, 12d ... are provided. Entrance side inlet 11 is hot water supply main pipe 8
The outlet-side receiving ports 12a, 12b, 12c, 12d,.
are connected to b, 13c, 13d,... by fixing means such as screws. The branch pipes 13a are branch pipes whose diameters supply hot water to the taps 3, 4, and 5 in accordance with the respective required flow rates.

However, since the conventional header 1 is formed of metal and has a plurality of outlet-side receptacles 12a having the same diameter, the header 1 is easily corroded and heavy, and is difficult to connect to plastic piping. It has to be used and connected to the branch pipes 13a having a small diameter, which is not suitable for mass production.

[Problems to be solved by the invention]

An object of the present invention is to provide a header for hot water supply which is lightweight, has corrosion resistance, can be easily connected to plastic pipes having different diameters, and is suitable for mass production in order to solve the above problems.

[Means for solving the problem]

The present invention is a hot water supply header for distributing hot water from a heat source device, which is joined to a connected pipe whose surface layer or the whole is made of a thermoplastic resin, wherein the header is formed into a hollow shape by a crosslinked thermoplastic resin. A main body, comprising an inlet port and a plurality of outlet ports integrally formed with the header body by a crosslinked thermoplastic resin, each of the outlet ports having a different diameter according to the distribution flow rate, and having a tubular shape. A non-crosslinked thermoplastic resin integrally laminated at the joint of the formed crosslinked thermoplastic resin layer with the connected pipe is provided inside the receiving port, and a crosslinked thermoplastic resin forming the outer portion of the receiving port is provided. The resin layer has a connected pipe proximity portion formed on both ends of the non-crosslinked thermoplastic resin layer so as to prevent the non-crosslinked thermoplastic resin layer from being exposed to the end portion, and the header body and The receiving port is electric heating In a state in which the tubular non-crosslinked thermoplastic resin layer provided with is inserted into the injection mold, the crosslinkable thermoplastic resin is injected, laminated and integrated, and then formed by crosslinking the crosslinkable thermoplastic resin. It is a header for hot water supply characterized by the above-mentioned.

In the present invention, in order to connect the hot water supply main pipe and the branch pipe to the inlet-side receiving port and the outlet-side receiving port, it is possible to join by welding to the tubular cross-linked thermoplastic resin layer formed at each of the receiving ports. It is preferable to laminate a tubular non-crosslinked thermoplastic resin layer, and to provide a heating wire in this non-crosslinked thermoplastic resin layer in some cases. In this case, the tubular crosslinked thermoplastic resin layer and the non-crosslinked thermoplastic resin layer are adjacently integrated. The crosslinked thermoplastic resin layer has connected pipe adjacent portions on both end sides of the non-crosslinked thermoplastic resin layer to prevent the non-crosslinked thermoplastic resin layer from being exposed to the end.

Since the crosslinked thermoplastic resin does not have fusibility, even if the crosslinked thermoplastic resin and the non-crosslinked thermoplastic resin after crosslinking are molded by injection molding or the like, the respective layers are not separated and integrated, but are not crosslinked. When the crosslinkable thermoplastic resin and the non-crosslinkable thermoplastic resin are heat molded and integrated, and then the crosslinkable thermoplastic resin is crosslinked, a laminate in which the crosslinkable thermoplastic resin and the non-crosslinkable thermoplastic resin are integrated is obtained. Can be In the present invention, a laminate in which the crosslinked thermoplastic resin layer and the non-crosslinked thermoplastic resin layer are integrated as described above is used.

The crosslinked thermoplastic resin has a three-dimensional structure due to intermolecular crosslinking of the thermoplastic resin, and in addition to those crosslinked with a crosslinking agent such as a silane crosslinked thermoplastic resin, a divinylbenzene crosslinked thermoplastic resin, an organic peroxide, Those directly crosslinked by radiation or the like may be used.

The non-crosslinked thermoplastic resin is a non-crosslinkable thermoplastic resin generally used as a thermoplastic resin.

Examples of the thermoplastic resin according to the present invention include polyolefins, and the polyolefins may have 2 to 20 carbon atoms.
Preferably, a homopolymer or a copolymer of 2 to 12 α-olefins is used. Preferred α-olefins include ethylene, propylene, butene-1, 4-methylpentene-1 and the like.

When forming a non-crosslinked thermoplastic resin layer in some of the ports,
A connection member for ordinary piping can be attached to the other receiving port. As the connection member, a metal tube or the like having a connection portion to a connection terminal such as a screw at one end can be used. It is preferable that the connection member and the crosslinked thermoplastic resin layer be fixed by an adhesive material such as a modified thermoplastic resin. The adhesive material is preferably interposed between the connecting member and the crosslinked thermoplastic resin layer, but may be dispersed in the crosslinked thermoplastic resin layer.

Examples of the modified thermoplastic resin include polyolefins modified with unsaturated carboxylic acids such as acrylic acid and maleic acid; unsaturated carboxylic anhydrides such as maleic anhydride; amides of unsaturated carboxylic acids; and unsaturated epoxides such as glycidyl methacrylate. Some are modified by monomer graft copolymerization. The content of the modifying monomer in the modified thermoplastic resin is 0.001 to 5 with respect to the modified thermoplastic resin.
% By weight.

(Operation)

The hot water supply header of the present invention has a tubular non-crosslinked thermoplastic resin layer in which a heating wire is arranged on the inside, the outer surface, or the inner surface as necessary, in a state of being inserted into the injection mold,
After the crosslinkable thermoplastic resin is injected and laminated and integrated, the crosslinkable thermoplastic resin layer is crosslinked to form a crosslinked thermoplastic resin layer. At this time, the cavity of the injection mold is formed so that outlet-side receiving ports having different diameters are formed. When attaching the connecting member, it may be attached later, but it is also possible to insert and insert the connecting member coated with an adhesive material such as a modified thermoplastic resin and to perform injection molding. In this case, the adhesive material may not be coated on the non-crosslinked thermoplastic resin layer, but may be dispersed in the injected crosslinkable thermoplastic resin.

The hot water supply header thus manufactured is used by connecting a main pipe for supplying hot water from a heat source device to an inlet port, and connecting branch pipes to each faucet to an outlet port. At this time, branch pipes having diameters corresponding to the respective diameters are connected to outlet-side receiving ports having different diameters. When a connection member is attached to the receiving port, the connection member is connected to a connection terminal of the connected pipe. When a non-crosslinked thermoplastic resin layer is laminated on the receiving port, a connected pipe made of plastic such as a thermoplastic resin tube is attached so as to be in contact with the non-crosslinked thermoplastic resin layer, and is connected with another electrofusion joint or the like. When the non-crosslinked thermoplastic resin layer and the heating wire are provided, the connected pipe is similarly attached, and when the heating wire is energized, the non-crosslinked thermoplastic resin layer is melted and integrally fused to the connected pipe. . This makes it possible to reliably connect the header and the connected pipe in a leak-proof state. In this case, the crosslinked thermoplastic resin layer has connected pipe adjacent portions at both end sides of the noncrosslinked thermoplastic resin layer, and the noncrosslinked thermoplastic resin layer is not exposed to the end side, so that the noncrosslinked thermoplastic resin is softened. When it does, it is prevented from flowing out of the end portion and lowering the sealing performance.

As the connected piping, the surface layer or the whole is thermoplastic resin,
In particular, a resin made of a compatible resin is preferable, and a resin made of a non-crosslinked thermoplastic resin shows particularly excellent fusion property.

〔Example〕

Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a sectional view showing a header for hot water supply of an embodiment, and FIG. 2 is a front view showing a part of a header for hot water supply of another embodiment in cross section.

The header 1 includes a hollow header body 1a, a tubular inlet port 11 and a plurality of outlet ports 12a, 12b, 12c, 12d.
And the crosslinked polyolefin layer 21 are integrally formed of the crosslinked polyolefin. The inlet port 11 is open at one end of the header 1, and the outlet ports 12a are arranged in a row so as to open at right angles to the header 1 and have different diameters Da, Db, Dc according to the distribution flow rate. , Dd.

Among the receiving ports 11, 12a, all the receiving ports in FIG. 1 and the outlet ports 12a, 12b in FIG. 2 are provided on the inner peripheral surface of the tubular cross-linked polyolefin layer 21 integrally formed with the header body 1a. ,
A tubular non-crosslinked polyolefin layer 22 is laminated so as to be integrated with the crosslinked polyolefin layer 21, and a coil-shaped heating wire 23 is buried therein, connected to the connection terminals 24 and 25 to form an electrofusion joint. ing. A connecting member 26 is attached to the inlet port 11 in FIG. The crosslinked polyolefin layer 21 of the header 1 has connected pipe adjacent portions 20 which are adjacent to the hot water supply main pipe 8 or the branch pipes 13a, 13b... Which are connected pipes at both ends of the non-crosslinked polyolefin 22. This prevents the non-crosslinked polyolefin layer 22 from being exposed to the end.

The connecting member 26 is formed of a metal tube, and a screw portion 27 as a connecting portion is formed on the protruding portion 26b opposite to the insertion portion 26a, and a hexagonal spanner hook 28 is formed on an intermediate portion. The modified polyolefin layer 29 is interposed over the entire circumference between the insertion portion 26a of the connecting member 26 and the crosslinked polyolefin layer 21, and adheres the two.

The above-mentioned header 1 comprises a non-crosslinked polyolefin layer 22 in which a heating wire 23 is embedded or wound on the inside, the outer surface or the inner surface.
After inserting the crosslinkable polyolefin containing a crosslinking agent, a crosslinking aid and the like into the polyolefin in a state of being inserted into the injection mold, and laminating and integrating, the crosslinkable polyolefin layer is crosslinked to form the crosslinked polyolefin layer 21. It is manufactured by forming. The connecting member 26 is attached later, or injection-molded by inserting the insertion portion 26a of the connecting member 26 whose outer surface is coated with the modified polyolefin layer 29.

The header 1 manufactured in this manner connects the hot water supply main pipe 8 from the heat source equipment 2 to the inlet-side receiving port 11, and the taps 3, 4, 5
The branch pipes 13a, 13b, 13c, 13d having different diameters are connected to the corresponding outlet-side outlets 12a, 12b, 12c, 12d and used. At this time, when the connecting member 26 is attached as shown in FIG. 2, the connecting member 26 is connected to the connection end of the hot water supply main pipe 8 which is the connected pipe, and another connected pipe made of plastic such as a polyolefin tube. Branch pipe of Fig. 2
13a, 13b, 13c, 13d, the hot water supply main pipe 8 and each branch pipe 13a in FIG. 1 are attached so as to be in contact with the non-crosslinked polyolefin layer 22 of each of the receiving ports 11, 12a. When the heat wire 23 is energized, the non-crosslinked polyolefin layer 22 is melted and integrally fused to the connected pipe. Thereby, the header 1 and the connected pipe can be reliably connected in a leak-proof state. In this case, the crosslinked polyolefin layer 21 is provided on both ends of the non-crosslinked polyolefin layer 22 in the vicinity of the connected pipe 20.
Therefore, the non-crosslinked polyolefin layer 22 is not exposed to the end portion side, and therefore, when the non-crosslinked polyolefin layer 22 is softened, the non-crosslinked polyolefin layer 22 is prevented from flowing out from the end portion and lowering the sealing property.

The connecting member 26 is suitable for a case where the connected pipe is a metal pipe, and the electrofusion joint is suitable for a case where the connected pipe is a plastic pipe.

Since the crosslinked polyolefin layer 21 bears heat resistance, the header 1 is excellent in shape retention even when used for connecting a hot water supply pipe. Since the outlet side receiving ports 12a have different diameters in accordance with the distribution flow rates, branch pipes having different diameters can be directly connected without using a reducer, and the sealing property and workability are excellent. On the other hand, in a state where the crosslinked polyolefin layer 21 is integrated with the connection member 26 and the noncrosslinked polyolefin layer 22,
Is fused and integrated with the pipe to be connected, so that the sealing property is excellent, and the sealing property is maintained for a long time even when used for a hot water supply pipe.

In the above embodiment, an example in which an electrofusion joint composed of the non-crosslinked polyolefin layer 22 and the heating wire 3 or another connecting member 26 having a screw portion 27 is provided as a connecting means at each of the receiving ports 11, 12a. However, other means may be used, and their respective arrangements can be arbitrarily selected.

〔The invention's effect〕

According to the present invention, since the header body and the outlet port having different diameters are integrally formed by the crosslinked thermoplastic resin,
Excellent heat resistance and sealability, lightweight and corrosion resistant,
And it is easy to continue with plastic pipes with different diameters,
A header for hot water supply suitable for mass production is obtained. In addition, since the crosslinked thermoplastic resin layer has connected pipe adjacent portions at both end sides of the noncrosslinked thermoplastic resin layer, the noncrosslinked thermoplastic resin layer is not exposed to the end side, and thus the noncrosslinked thermoplastic resin layer is not exposed. Is prevented from flowing out from the end portion when softened and the sealing property is deteriorated. Furthermore, after inserting the cross-linkable thermoplastic resin into the injection molding die with the tubular non-cross-linked thermoplastic resin layer provided with the heating wire, laminating and integrating, the cross-linkable thermoplastic resin is cross-linked and manufactured. Since the crosslinked thermoplastic resin layer and the non-crosslinked thermoplastic resin layer are integrated, a hot water supply header having a complicated shape in which delamination does not occur can be efficiently manufactured.

[Brief description of the drawings]

1 is a cross-sectional view showing a hot water supply header of an embodiment, FIG. 2 is a front view showing a part of a hot water supply header of another embodiment in cross section, and FIG. 3 is a piping diagram of a hot water supply piping system. In the drawings, the same reference numerals denote the same or corresponding parts, 1 is a header, 2 is a heat source device, 3, 4, and 5 are faucets, 8 is a hot water supply main pipe, 11 is an inlet-side inlet, 12a ... is an outlet-side inlet. , 13a... Are branch pipes, 21 is a crosslinked polyolefin layer, 22 is a non-crosslinked polyolefin layer, and 23 is a heating wire.

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Hiroyuki Nishimura 4-1-2, Hirano-cho, Chuo-ku, Osaka-shi, Osaka Inside Osaka Gas Co., Ltd. (72) Inventor Akio Nakashiba 4 Hirano-cho, Chuo-ku, Osaka-shi, Osaka 1-2 1-2 Osaka Gas Co., Ltd. (72) Inventor Fumio Hase 61-2-2 Waki-machi, Waki-machi, Kuga-gun, Yamaguchi Pref. Mitsui Petrochemical Industry Co., Ltd. (72) Inventor Kazunori Mito Kazu-gun, Kuga, Yamaguchi 6-1-2 Kimachi Waki Mitsui Petrochemical Industry Co., Ltd. (72) Inventor Toshio Shibuchi 2-10-16 Minamikagaya, Suminoe-ku, Osaka-shi, Osaka Shinwa Sangyo Co., Ltd. (72) Inventor Nakaoka Mikio 2-10-16 Minamikagaya, Suminoe-ku, Osaka City, Osaka Inside Shinwa Sangyo Co., Ltd. (56) References JP-A-63-152792 (JP, A) JP-A-63-67494 (JP, A) JP-A-62-255692 (JP, A) JP-A-63-163089 (JP, A) JP-A-53-96062 (JP, A) JP-A-59-110493 (JP, U) French patent publication 2606487 (FR , A1)

Claims (1)

(57) [Claims] 1. A hot water supply header for distributing hot water from a heat source device, which is joined to a connected pipe whose surface layer or the whole is made of a thermoplastic resin, and is formed into a hollow shape by a crosslinked thermoplastic resin. A header body, comprising an inlet port and a plurality of outlet ports formed integrally with the header body by a crosslinked thermoplastic resin, wherein the outlet ports each have a different diameter according to the distribution flow rate, and are tubular. A non-crosslinked thermoplastic resin integrally laminated at the joint of the crosslinked thermoplastic resin layer formed with the connected pipe on the inner side of the receiving port, and the crosslink heat forming the outer side of the receiving port. The thermoplastic resin layer has, on both end sides of the non-crosslinked thermoplastic resin layer, connected pipe adjacent portions formed so as to prevent the non-crosslinked thermoplastic resin layer from being exposed on the end side, and the header main body. And the receptacle In the state where the tubular non-crosslinked thermoplastic resin layer provided with the wire is inserted into the injection mold, the crosslinkable thermoplastic resin is injected and laminated and integrated, and then formed by crosslinking the crosslinkable thermoplastic resin. A hot water supply header.