JP2019071948A - Branch header - Google Patents

Abstract

To provide a header for a sprinkler fire-extinguishing piping, connectable to an unwinding pipe by electric fusion, and excellent in workability.SOLUTION: A header which is used by being connected to a water supply main pipe and a thermoplastic resin unwinding pipe in a sprinkler fire-extinguishing piping includes a water supply side connection pipe connected to the water supply main pipe, and a water discharge side connection part connected to the unwinding pipe. The water discharge side connection part has a base pipe integrally connected to the water supply side connection pipe, and extending in an axial line direction of the water supply side connection pipe, and a branch pipe branched from the base pipe. Water-discharge side connection ports of 2-4 in total are provided at the tip of the branch pipe, or the tip of the branch pipe and the tip of the base pipe. The 2-4 water discharge side connection ports have an electric fusion joint structure in which a heating wire is buried on a contact face with the unwinding pipe, and the branch pipe is formed on the same plane as the base pipe.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a header for sprinkler fire suppression piping.

  Sprinklers are fire extinguishing equipment that are required to be installed in places where damage is likely to spread when a fire occurs or where fire extinguishing activities are difficult. As illustrated in FIG. 1, the sprinkler extinguishing pipe 1 includes a main pipe 2 for water supply, an unwinding pipe 3, and a sprinkler head 4 installed on a ceiling. The main pipe 2 for water supply and the unwinding pipe 3 are connected via a header 5. The unwinding tube 3 and the sprinkler head 4 are connected via a head mounting tube 6 connected to the end of the unwinding tube.

  As illustrated in FIG. 2, the header 10 for a known sprinkler fire extinguishing pipe has a water supply side connection pipe 11 for connecting to a water supply main pipe, and a water discharge side connection part 12 for connecting to a winding pipe. Have. A base pipe 13 and a large number (five in FIG. 2) of branch pipes 14 branched from the base pipe are provided in the water outlet side connection portion 12, and a water outlet side connection port 15 is provided at the tip of each branch pipe 14. It is provided. The unwinding pipe is connected to the outlet side connection port 15. In the field of construction, there is a need to minimize the number of headers used in sprinkler fire extinguishing pipes from the viewpoint of cost reduction. Therefore, the header distributed in the market is provided with many branch pipes, and many unwinding pipes can be connected to one header.

  Although there are various means such as using a joint for steel pipe connection as a connection means of the header and the unwinding pipe, in the field of sprinkler fire extinguishing equipment, it is important to secure earthquake resistance, leak resistance, and corrosion resistance. Insert the outlet pipe into one of the connection ports of the socket-like resin joint in which the winding pipe is made of thermoplastic resin such as polyethylene and the heating wire is embedded in the inner surface, and the water outlet side connection of the header to the other connection port A connection means called electrical fusion is preferably employed, in which the mouth is inserted and then electricity is applied to fuse the connection ports of the unwinding pipe, the joint and the header. The electric fusion can firmly connect the header and the unwinding pipe as compared with the connection means using the joint for steel pipe connection, and since the joint portion has appropriate flexibility, the above various characteristics are sufficiently ensured. can do.

  However, the electric fusion is a lot of processes and takes time and effort for work. Therefore, when connecting a header and an unwinding pipe by electric fusion and providing a sprinkler fire extinguishing facility, a header, a joint and an unwinding pipe are fused in advance in a factory to produce a unit pipe, and such unit piping is It is always carried out to connect the main pipe and header for water supply, mount the head mounting pipe and fixing bracket, support and piping of the pipe, etc. This method is generally called a prefabricated method. If the prefabricated construction method is implemented, the workers at the site can efficiently provide the sprinkler fire extinguishing equipment without impairing the workability by the electric fusion.

  By the way, in providing a sprinkler fire extinguishing facility, the number and position of sprinkler heads in each room are determined in consideration of the structure of a building, the area of the room, the type of sprinkler head, and the like. For example, general buildings such as office buildings are generally large in size, so many (five or more) sprinkler heads are required for each room. In office buildings and the like, it is possible to easily provide a sprinkler fire extinguishing system excellent in earthquake resistance and the like by using a unit pipe in which a header and an outlet pipe are electrically fused by a prefabrication method.

On the other hand, hotel rooms and hospitals of the hospital room, such as the room is relatively narrow (for example, about ² 10~15m is a business hotel, about ² 20~25m in the City Hotel), the sprinkler head if two to four in each room Good.

  In this case, a person skilled in the art arranges a header outside the room, or arranges a header every several rooms, and efficiently provides a sprinkler fire extinguishing facility by drawing the necessary number of unwinding pipes from the header to each room In a hospital room or hotel, the influence of fire expansion is serious, and it is usual to divide each room as a fire protection section. It is not permitted to make you hesitate. Therefore, this method is not realistic, and in practice, with emphasis on workability, it gives up the connection between the header and the unwinding pipe by electric fusion and adopts other connection means (using a steel pipe connection joint, etc.) Or, with emphasis on earthquake resistance, etc., prepare a unit piping using a header with many outlet connections as in the case of office buildings etc. and arrange this in each room, unnecessary connections Work is done after putting the cap on. For the site worker, the repetition of the operation of fitting the cap to the unnecessary connection port is a burden because the workability is significantly impaired.

  When providing a sprinkler extinguishing facility in such a narrow room, the problem of the workability of the electric fusion remains, but as a means for solving such a problem, the applicant of the present invention disclosed in Patent Document 1 a main pipe for water supply. A multi-port joint with one connection port on the side and a plurality of connection ports (water outlet side connection ports) radially protruding on the outlet pipe side, and the joint surface of the outlet side of the water outlet side with the outlet pipe Disclosed is a multi-port joint for synthetic resin pipes in which a heat wire is embedded. Patent Document 1 discloses, as a specific example, an aspect in which four water connection ports are orthogonally crossed. Furthermore, the use of such a porous joint as a header is also disclosed. In the porous joint of Patent Document 1, since the number of connection ports on the water outlet side is substantially the same as the number of heads provided in the cabin or the patient's room, the number of unnecessary connection ports can be reduced, and the work of fitting the cap can be significantly reduced. it can. In addition, even if a separate socket-like joint is not prepared, the water outlet side connection port and the outlet pipe can be electrically fused only by directly inserting the outlet pipe into the water outlet side connection port and energizing.

JP 10-030778

  However, since the porous joint of Patent Document 1 has a three-dimensional structure in which the connection ports are radially provided, the main pipe for water supply and the water supply side connection port must be connected via another joint such as an elbow joint. There was still a need to improve in terms of workability.

  Accordingly, an object of the present invention is to provide a header for sprinkler extinguishing piping which can be connected to the unwinding pipe by electric fusion and is excellent in workability.

  According to the present invention, the sprinkler extinguishing pipe is a header used by being connected to the main pipe for water supply and the thermoplastic resin outlet pipe, wherein the water supply side connecting pipe is connected to the main pipe for water supply; A water outlet side connecting portion connected to the outlet pipe, the water outlet side connecting portion integrally connected with the water supplying side connecting tube and extending in the axial direction of the water supplying side connecting tube; A total of 2 to 4 outlet side connection ports are provided at the tip of each branch pipe or at the tip of each branch pipe and at the tip of the base pipe. The 2 to 4 water outlet side connection ports have an electric fusion joint structure in which a heating wire is embedded in the contact surface with the unwinding pipe, and the branch pipe is on the same plane as the base pipe A header is provided, characterized in that it is formed on

  The header provided with a total of three water outlet side connection ports is a preferred embodiment of the present invention.

  In each water outlet side connection port, a set of metal terminals electrically connected to the heating wire is provided so as to be exposed to the outside, and the metal terminals are also arranged on the same surface as the main pipe. These are preferred embodiments of the present invention.

  The water supply side connection pipe has a structure in which the cylindrical body portion is connected to a water supply side connection port whose diameter gradually increases in the upstream direction, and the outward flange portion is connected to the upstream side end portion of the water supply side connection port. A header having a bowl-shaped metal plate for connection to the water supply main pipe attached to the water supply side connection pipe is a preferred embodiment of the present invention.

  A tubular metal member is inserted and fixed on the upstream side of the water supply side connecting pipe, and a ring portion extending in the upstream direction is integrally provided on the outer surface of the upstream end portion of the metal member. A header in which a nut is attached to the metal member is a preferred embodiment of the present invention.

  The header in which the water supply side connecting pipe has a spigot joint structure is a preferred embodiment of the present invention.

  The header having the electric fusion joint structure in which the heating wire is embedded in the contact surface with the water supply main pipe is a preferred embodiment of the present invention.

  In the present specification, according to the description of the drawings, "upstream direction" or "upstream side" is referred to as "downward", "upstream end" is referred to as "lower end", "downstream direction" or "downstream side" May be referred to as "upper" and "downstream end" may be referred to as "upper end".

  Since the header of the present invention has 2 to 4 outlet side connection ports at the outlet side connection portion so that it can be connected to 2 to 4 unwinding pipes, it has many relatively narrow rooms. When it uses for sprinkler fire extinguishing piping, such as a hotel or a hospital, the number of unnecessary connection ports can be reduced and the work which fits a cap on an unnecessary connection port can be reduced as much as possible. In addition, since the outlet side connection port has an electric fusion joint structure, the outlet pipe can be directly inserted into the outlet side connection port for electric fusion, and the electric fusion process is also simplified. . Furthermore, the water outlet side connection portion has a base pipe integrally connected to the water supply side connection pipe and extending in the axial direction of the water supply side connection pipe, and a branch pipe branched from the base pipe. Therefore, when connecting with the water supply main pipe, it is not necessary to use another joint such as an elbow joint, and it is possible to easily connect with the water supply main pipe. As described above, the header of the present invention is significantly improved in workability.

  In addition, in the rooms and sick rooms, it has recently been sought to create a spacious room by raising the ceiling, but the header of the present invention has the above-mentioned shape to narrow the ceiling pocket. It is possible to enlarge the room and to meet such a demand.

  In addition, the present invention also has the effect that water can be sprayed without reducing the water flow as much as possible.

It is a schematic diagram showing an example of sprinkler firefighting piping. It is a schematic front view which shows an example of the header for the conventional sprinkler fire-extinguishing piping. FIG. 1 is a schematic view showing a first aspect of a header of the present invention. (A) is a perspective view. (B) is a partial cross-sectional front view. (C) is a top view. FIG. 5 is a schematic view showing a second aspect of the header of the present invention. (A) is a cross-sectional view. (B) is a side view. It is a schematic sectional drawing which shows the 3rd aspect of the header of this invention. It is a schematic sectional drawing which shows the 4th aspect of the header of this invention. It is a general | schematic fragmentary sectional elevation view which shows the 5th aspect of the header of this invention. It is a schematic front view which shows the 6th aspect of the header of this invention. It is a schematic sectional drawing which shows the 7th aspect of the header of this invention. It is a schematic front view which shows the 8th aspect of the header of this invention.

  The header of the present invention will be described based on a specific example shown in the attached drawings.

  FIG. 3 is a schematic view showing a first embodiment of the header of the present invention. The header 20 of the first embodiment shown in FIG. 3 is composed of a water supply side connection pipe 21 connected to the water supply main pipe, and a water discharge side connection part 22 connected to the unwinding pipe.

  First, the water outlet side connection unit 22 will be described. The outlet side connection portion 22 includes a base pipe 23 and two branch pipes 24 branched from the end of the base pipe 23.

  The base pipe 23 integrally communicates with the water supply side connection pipe 21 and extends in the axial direction of the water supply side connection pipe 21. The end of the base pipe 23 is a water outlet side connection port 25 for connecting to the unwinding pipe. More specifically, the base pipe 23 has a body 23a having the same diameter as the water supply side connecting pipe 21, a tapered portion 23b connected to the body 23a and gradually reduced in diameter toward the distal end, and a water outlet side connected to the tapered portion 23b. And a connection port 25.

  The branch pipe 24 has a cylindrical shape extending straight as a whole, and the tip end thereof, like the base pipe 23, is a water outlet side connection port 25 so that it can be connected to the unwind pipe. As shown in FIG. 3C, in the present embodiment, the branch pipe 24 is formed on the same plane as the base pipe 23 and in line symmetry with the base pipe 23. In the first embodiment shown in FIG. 3, the angle formed by the central axis of the branch pipe and the central axis of the base pipe is approximately 45 degrees, that is, between one branch pipe 24 and the base pipe 23 Is approximately 45 degrees, and the angle between the other branch pipe 24 and the base pipe 23 is also approximately 45 degrees.

  As described above, the end of the base pipe 23 and the ends of the two branch pipes 24 are the outlet connection ports 25. That is, the header of this embodiment is provided with a total of three outlet connections 25. It is done. Thereby, a maximum of three unwinding tubes can be connected to the header of this aspect.

  All the water outlet side connection ports 25 have an electric fusion joint structure, in other words, a structure in which the heating wire 26 is embedded in the contact surface with the unwinding pipe inside the water outlet side connection port There is. As a result, even if a separate socket-like joint or the like is not used, it is possible to fuse the unwinding pipe and the outlet side connection port only by inserting the outlet pipe directly into the outlet side connection port and supplying electricity.

  Specifically, an annular groove 27 is cut in the peripheral wall of the outlet side connection port 25 from the upper end toward the back, and the outlet pipe is fitted in the annular groove 27 to fix the outlet pipe while the electricity is fixed. It can be fused. The heating wire 26 is embedded in a coil shape on a surface that comes in contact with the outer surface of the winding pipe when the winding pipe is fitted, that is, the outer circumferential surface of the annular groove 27.

  The upper end of the peripheral wall of the outlet-side connection port 25 has a tapered shape in order to suppress molding defects and the like.

  A pair of metal terminals 28 electrically connected to the heating wire 26 is provided in each of the water outlet side connection ports 25 so as to be exposed to the outside, and when the metal terminals 28 are connected to a power supply, electricity is supplied.

  The metal terminal 28 may be provided at an arbitrary position, but as shown in FIG. 3C, the metal terminal 28 has a simple structure when provided at a position flush with the base pipe 23. It is preferable because it can be easily formed at low cost.

  Although the connector of the electric fusion device is connected to this metal terminal 28 at the time of electric fusion, the water from the tip of the base pipe 23 is maintained so that a sufficient space can be secured around the metal terminal to facilitate fusion work. The side connection port 25 is located above the other two water connection ports, and the length of the cylindrical body 23a of the base pipe is determined accordingly.

  Next, the water supply side connection pipe 21 will be described. The water supply side connection pipe 21 includes a cylindrical body portion 21a, a water supply side connection port 21b which is continuous with the cylindrical body portion 21a and whose diameter gradually decreases downward, and an outward flange which is continuous with the lower end of the water supply side connection port 21b. And a unit 21c. In the water supply side connection port 21b, the inner diameter is constant so that the water pressure is not affected, but the outer diameter is gradually enlarged toward the lower side. Therefore, the peripheral wall constituting the water supply side connection port 21b is It is getting thicker gradually.

  The water supply side connection pipe 21 is provided with a bowl-shaped metal disc 29 provided with a plurality of (four in FIG. 3) through holes for bolt insertion as connection means with the water supply main pipe. The metal plate 29 is locked by the outward flange portion 21 c of the water supply side connection pipe 21 and does not come off.

  When connecting the water supply side connection pipe 21 with the metal plate 29 mounted to the water supply main pipe in this way, attach the same metal plate as the metal plate 29 to the end of the water supply main pipe and overlap the two metal plates. Lock it with a bolt. By connecting the header and the water supply main pipe in this manner, liquid leakage can be more reliably avoided as compared with other connection methods.

  The header of the present invention is not limited to the embodiment of FIG. 3 described above, and various modifications are possible.

  For example, the angle between the main pipe and the branch pipe at the outlet side connection portion is 45 degrees in FIG. 3 but is not limited to this, and the range of 30 to 90 degrees depending on the thickness of the unwind pipe etc. It can be selected appropriately. When the angle between the main pipe and the branch pipe is within such a range, it is not necessary to bend the take-out pipe with a sharp curve, so the piping operation is easy and the workability is improved, and the space saving of piping can be realized. There is a merit that. When the angle between the main pipe and the branch pipe is too small, the work of inserting the unwinding pipe and the electric fusion work becomes difficult, and when it is too large, the merits of the construction and space saving described above can not be obtained. Furthermore, there is also the possibility that the water flow will be impaired.

  In addition, although the number of outlet side connection ports is three in total in FIG. 3, it may be appropriately selected from 2 to 4.

  The branch pipes are arranged to be line symmetrical with respect to the main pipe in FIG. 3, but may be arranged to be asymmetrical.

  Furthermore, although the connection means between the water supply main pipe and the water supply side connection pipe of the header of the present invention is bolting using a metal plate in FIG. 3, other known means may be adopted. .

  For example, FIG. 4 shows a second embodiment of the header of the present invention in which the connecting means between the main pipe and the angle of the branch pipe and the main pipe for water supply are changed.

  In the header 30 shown in FIG. 4, the angle between the main pipe 33 and the branch pipe 34 is larger than that in FIG. 3, and specifically, it is approximately 90 degrees. Therefore, since a sufficient space can be secured around the metal terminal 38, there is no need to lengthen the base pipe as shown in FIG. 3, and in FIG. 4, the trunk portion 33a of the base pipe is shorter than FIG.

  In the header of the second embodiment, when connecting to the water supply main pipe, a nut is attached to the water supply side connection pipe 31 instead of using a metal plate and a bolt, and the water supply main pipe is engaged with the nut. The method of attaching a possible connection member and engaging a nut and a connection member is adopted.

  Therefore, the water supply side connection pipe 31 does not have a structure in which the cylindrical body portion, the water supply side connection port, and the outward flange portion are connected, and instead, a metal member is provided below the water supply side connection pipe 31. 40 are inserted and fixed by insert molding. Below the metal member 40, a nut 50 is mounted. The structure in which the nut 50 is attached to the water supply side connection pipe 31 in this manner is generally called a union joint structure.

  The metal member 40 generally has a tubular shape. The inner surface 41 and the bottom surface 42 of the metal member are coated with the same resin as that of the header. One annular recess 44 is cut out on the outer surface 43 of the metal member and two on the inner surface 41, whereby the metal member 40 is firmly held.

  A downwardly extending annular portion 45 is integrally connected to the lower end of the outer surface 43.

  The nut 50 has a top surface 51 and a skirt wall 52 depending from the periphery of the top surface 51, and an opening 53 is provided at the center of the top surface 51. The outer diameter of the annular portion 45 of the metal member is set larger than the opening 53 of the nut, so that the annular portion 45 is engaged with the nut 50 so that the nut 50 does not come off the metal member 40 There is.

  On the inner surface of the skirt wall 52, a female screw (not shown in FIG. 4) is formed. When connecting the water supply side connection pipe 31 and the water supply main pipe, a connection member having a male screw formed on the outer surface is attached to the water supply main pipe, and the connection member and nut on the water supply main pipe side are screw engaged. do it.

  A third aspect of the header of the present invention is shown in FIG. The header 60 of the third embodiment has the same structure as the header 30 of the second embodiment shown in FIG. 4 except for the number of outlet side connection ports 65 and the angle between the main pipe 63 and the branch pipe 64.

  Specifically, in the header 60, four branch pipes 64 branch from the main pipe 63. The water outlet side connection port 65 is not provided in the base pipe 63, and is provided at the tip of each branch pipe 64. As a result, the header 60 has a total of four outlet side connection ports 65 and can be connected with up to four unwinding pipes.

  Further, with respect to two branch pipes 64a branched from the end of the base pipe 63 among the four branch pipes 64, the angle between the branch pipe 64a and the base pipe 63 is approximately 90 degrees. There is. Further, for the two branch pipes 64b branched from the tip end of the base pipe 64, the angle between the branch pipe 64b and the base pipe 63 is approximately 30 degrees.

  A fourth aspect of the header of the present invention is shown in FIG. The header 70 of the fourth aspect is different from the header 30 of the second aspect shown in FIG. 4 in the number of outlet side connection ports 75 and the angle between the base pipe 73 and the branch pipe 74. In the header 70, two branch pipes 74 branch from the main pipe 73. The angles between the branch pipe 74 and the base pipe 73 are all approximately 45 degrees. The outlet side connection port 75 is not provided in the base pipe 73, and is provided at the tip of each branch pipe 74. As a result, the header 70 is provided with a total of two water outlet connection ports 75.

  FIG. 7 shows the fifth aspect of the header of the present invention. The header 80 of the fifth aspect has the same structure as the header 20 of the first aspect shown in FIG. 3 except for the connection means with the water supply main pipe.

  More specifically, in the fifth aspect, at the time of connection with the water supply main pipe, the tip of the water supply side connection pipe 81 is inserted into one of the connection ports of the electric fusion bonding socket-like joint in which the heating wire is embedded in the inner surface A method is employed in which the end of the water supply main pipe is inserted into the other connection port of the electric fusion bonding socket-like joint to perform electric fusion.

  Therefore, the water supply side connection pipe 81 of the header of the present embodiment has a spigot joint structure. Specifically, the water supply side connection pipe 81 is in the form of a straight tube having a constant peripheral wall thickness, and the outer diameter thereof is substantially equal to the inner diameter of the socket-like joint (not shown).

  A sixth aspect of the header of the present invention is shown in FIG. The header 90 of the sixth aspect also has the same structure as the header 20 of the first aspect shown in FIG. 3 except for the connection means to the water supply main pipe. In the sixth aspect, at the time of connection with the water supply main pipe, a method of performing electric fusion by directly inserting the water supply main pipe into the water supply side connection port 91b without using a separate socket joint or the like is adopted.

  The water supply side connection pipe 91 of the header of this aspect has a cylindrical body portion 91a and a water supply side connection port 91b, and the water supply side connection port 91b has a heating wire embedded in the contact surface with the water supply main pipe. It has an electric fusion joint structure. Therefore, the metal terminal 98 is exposed not only on the outer surface of the water outlet side connection port but also on the outer surface of the water supply side connection port.

  Between the cylindrical body portion 91a and the water supply side connection port 91b, there is provided a tapered portion 91e which is continuous with the cylindrical body portion 91a and whose diameter is gradually expanded downward. The lower end of the tapered portion 91e is continuous with the upper end of the water supply side connection port 91b.

  FIG. 9 shows a seventh aspect of the header of the present invention. The header 100 of the seventh embodiment differs from the second embodiment shown in FIG. 4 in the angle and arrangement of the branch pipes 104.

  More specifically, in the seventh embodiment, the two branch pipes 104 branch from the main pipe 103 at an angle of about 45 degrees, but one branch pipe is disposed below the other branch pipe, The arrangement is non-linearly symmetrical with respect to the base tube 103.

  An eighth aspect of the header of the present invention is shown in FIG. The header 110 of the eighth aspect is different from the sixth aspect shown in FIG. 8 in the arrangement of the branch pipes 114.

  More specifically, in the eighth embodiment, the two branch pipes 114 are branched at an angle of about 45 degrees from the base pipe 113, but both are disposed on one side of the base pipe 113. Are arranged non-linearly with respect to. In this embodiment, since it is necessary to secure the distance between the branch pipes to such an extent that the work can be easily performed, the base pipe 113 is longer than the sixth embodiment.

  The header of the present invention can be molded by a conventionally known method such as insert molding as long as it has the above-described structure. For example, prepare insert parts such as thermoplastic resin such as polyethylene, heating wire and metal terminal, and metal member equipped with nut if necessary, load the insert part into resin molding die, and resin molding die The thermoplastic resin can be injected into the mold, and the insert can be manufactured by wrapping and solidifying the molten resin.

  When a bowl-shaped metal plate is attached to the water supply side connecting pipe as in the first embodiment shown in FIG. 3, a molding die is inserted into the center opening of the metal plate, and then insert molding is performed according to a conventional method. You can do it.

  In order to make the electric fusion with the unwinding pipe stronger and at the same time to provide heat resistance and durability to the header itself, the header of the present invention is made of non-crosslinkable polyethylene at the surface contacting the outer surface of the unwinding pipe. It is preferable to form and to form the other part by crosslinkable polyethylene.

  The header of the present invention is used in connection with a main pipe for water supply and an outlet pipe in a sprinkler extinguishing pipe. The unwinding pipe is made of a thermoplastic resin such as polyethylene. In particular, when using a two-layer unwinding tube in which the outer layer is made of non-crosslinked polyethylene and the inner layer is made of crosslinked polyethylene, electric fusion can be performed more strongly, and furthermore, the durability of the unwinding tube itself is also good. It is preferable because

  The thickness of the unwinding tube to be connected is not particularly limited, but is usually 16 to 20A.

DESCRIPTION OF SYMBOLS 1 Sprinkler fire extinguishing piping 2 Main pipe for water supply 3 Winding pipe 4 Sprinkler head 5 Header 6 Head attachment pipe 10, 20, 30, 60, 70, 80, 90, 100, 110 Header 11, 21, 31, 81, 91 Water supply side Connection pipe 12, 22, 32, 82, 92 Outflow side connection part 13, 23, 33, 63, 73, 103, 113 Main pipe 14, 24, 34, 64, 74, 104, 114 Branch pipe 15, 25, 35 , 65, 75, 95, 105, 115 water outlet side connection port 26, 36 heating wire 27, 37 annular groove 28, 38, 98 metal terminal 29 metal plate 40 metal member 50 nut

Claims (7)

A header used for connection to a main pipe for water supply and a thermoplastic resin discharge pipe in a sprinkler fire extinguishing pipe,
The water supply side connection pipe connected to the main pipe for water supply and the water discharge side connection part connected to the winding pipe,
The water outlet side connection portion includes a base pipe integrally connected to the water supply side connection pipe and extending in the axial direction of the water supply side connection pipe, and a branch pipe branched from the base pipe. A total of 2 to 4 outlet side connection ports are provided at the tip or at the tip of each branch pipe and at the tip of the base pipe,
The two to four water outlet side connection ports have an electric fusion joint structure in which a heating wire is embedded in the contact surface with the unwinding pipe,
The header is characterized in that the branch pipe is formed on the same plane as the main pipe.   The header according to claim 1, wherein a total of three said water outlet side connection ports are provided. At each water outlet side connection port, a set of metal terminals conducted to the heating wire is provided so as to be exposed to the outside,
The header according to claim 1, wherein the metal terminal is also disposed on the same surface as the base pipe. The water supply side connection pipe has a structure in which the cylindrical body portion is connected to a water supply side connection port whose diameter gradually increases in the upstream direction, and the outward flange portion is connected to the upstream side end portion of the water supply side connection port. Have,
The header according to any one of claims 1 to 3, wherein a bowl-shaped metal plate for connecting to the water supply main pipe is attached to the water supply side connection pipe. A cylindrical metal member is inserted and fixed on the upstream side of the water supply side connection pipe,
An annular ring extending in the upstream direction is integrally provided on the outer surface of the upstream end of the metal member,
The header according to any one of claims 1 to 3, wherein a nut is attached to the metal member.   The header according to any one of claims 1 to 3, wherein the water supply side connection pipe has a spigot joint structure.   The header according to any one of claims 1 to 3, wherein the water supply side connection pipe has an electric fusion joint structure in which a heating wire is embedded in a contact surface with the water supply main pipe.