JP2002095768A - Execution method and structure of piping for mounting sprinkler head - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable easy piping execution even in a building wherein a space in a ceiling is low and enable uniform discharge by eliminating a sense of oppression given to an user and reducing the length of a used flexible pipe so as to avoid the amount of the discharge and water pressure from being reduced due to pressure loss in the building having no ceiling. SOLUTION: A horizontal loop-like water distribution system 4 is composed of a distributing main 2 and a header 3 connected to the distributing main 2 at a prescribed interval and formed with six exhaust ports 31-36, whereto the flexible pipes 9 and a pipe 11 making the pressure loss smaller are connected. The two flexible pipes 13 and 13 are made to branch off and connected to the pipe 11, and sprinkler heads 10 are connected through elbows 16 to the flexible pipes 13 and 13 and the flexible pipes 9.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for installing a sprinkler head mounting pipe and a sprinkler head mounting pipe structure, and more particularly to a pipe for supplying fire extinguishing water discharged from a sprinkler head when a fire occurs. The present invention relates to a method of installing a sprinkler head mounting pipe and a sprinkler head mounting pipe structure.

[0002]

2. Description of the Related Art Conventionally, a sprinkler head mounting pipe for supplying fire-extinguishing water discharged from a sprinkler head in the event of a fire and a mounting pipe structure have been proposed.
A technique described in Japanese Patent Application Laid-Open No. 4-5971 has been proposed. As shown in FIG. 9, a nipple 102 is connected to a T-type pipe joint (hereinafter referred to as a tee) 101 connected to a main water supply pipe 100 at a predetermined interval.
02 is connected to a water supply auxiliary pipe 104 via a tee 103. Next, the tee 105 is incorporated into the auxiliary pipe 104 at a predetermined interval, and the nip 105
Is connected to the suction port 107 of the five-way joint 109 shown in FIG. 10 and FIG.

The five-way joint 109 has a suction port 107 and four outlets 108 formed in a cross shape. The four outlets 108 of the five-way joint 109 are provided with flexible pipes. 1
10 and sprinkler head 11 through elbow 111
2 are connected.

[0004]

However, in the prior art, since the five-way joint 109 must be connected via a nipple 106 extending below the auxiliary water supply pipe 104, the auxiliary water supply pipe 104 must be connected. Nipple 1 below
A space in the height direction occupied by 06, that is, a large space in the height direction substantially corresponding to the length of the nipple 106 is required.
For this reason, when the sprinkler head 112 is arranged and fixed to the ceiling of a building having a low space above the ceiling, it is difficult to construct the sprinkler head mounting pipe. Further, in a building such as a parking lot without a ceiling, in a construction method in which a sprinkler head 112 is connected to a flexible tube 110 suspended from a building frame via a hanging fitting, the auxiliary pipe 104 for water supply is provided. The nipple 106 protrudes downward from the vehicle, giving a sense of oppression to the user of the parking lot. Furthermore, a flexible tube 110 having a large pressure loss with an uneven inner surface is connected to the four outlets 108 of the five-way joint 109,
A sprinkler head 112 is connected to the flexible tube 110 via an elbow 111. However, when the distance from the five-way joint 109 to the sprinkler head 112 is short and the flexible tube 110 is short, this is not a significant problem. When the length of the flexible tube 110 is long, the pressure loss becomes significantly large. Therefore, the sprinkler head 1 connected to the long flexible tube 110 is long.
There is a drawback that the amount of water discharged from the nozzle 12 and the water pressure are reduced, thereby preventing uniform water discharge.

[0005] Therefore, the present invention can be easily carried out even in a building having a low space above the ceiling, and in a building having no ceiling, it is possible to eliminate the feeling of oppression given to the user. The sprinkler head installation method and the sprinkler head installation method that can obtain a uniform water discharge by shortening the length of the flexible tube used to avoid a decrease in water discharge amount and water pressure due to pressure loss It is intended to provide a mounting piping structure.

[0006]

According to one aspect of the present invention, a water distribution main pipe is connected to the water distribution main pipe at a predetermined interval, and at least six or more water distribution main pipes are provided. With a header provided with a discharge port, a loop-shaped water distribution system is configured, and a flexible tube is provided at any of the discharge ports of the header,
A pipe having a small pressure loss is connected to the other outlet, a flexible pipe is connected to the pipe having a small pressure loss, and a sprinkler head is connected to the flexible pipe connected to the flexible pipe and the outlet of the header. Are connected.

According to a second aspect of the present invention, there is provided a loop-shaped water distribution system including a water distribution main pipe and a header connected to the water distribution main pipe at a predetermined interval and provided with at least six or more discharge ports. A flexible tube is connected to one of the outlets, and a tube having a small pressure loss is connected to the other outlet, except for an excess outlet among the outlets of the header. A flexible tube is connected to the small tube, and a sprinkler head is connected to the flexible tube and a flexible tube connected to the outlet of the header, and the excess outlet is closed.

According to a third aspect of the present invention, there is provided a water distribution system comprising a water distribution main pipe and a header connected to the water distribution main pipe at a predetermined interval and provided with at least six discharge ports. A flexible tube is connected to one of the outlets of the header, a tube having a small pressure loss is connected to the other outlet, and a flexible tube is connected to the tube having a small pressure loss. A sprinkler head is connected to the flexible tube and the flexible tube connected to the outlet of the header.

According to a fourth aspect of the present invention, there is provided a loop-shaped water distribution system comprising a water distribution main pipe and a header connected to the water distribution main pipe at a predetermined interval and provided with at least six discharge ports. A flexible tube is connected to one of the outlets, and a tube having a small pressure loss is connected to the other outlet, except for an excess outlet among the outlets of the header. A flexible tube is connected to the small tube, and a sprinkler head is connected to the flexible tube and the flexible tube connected to the outlet of the header, and the excess outlet is closed. And

According to the first or third aspect of the present invention, a flexible pipe and a pipe having a small pressure loss or a pipe having a small pressure loss are provided at the outlet of each header constituting a loop-shaped water distribution system together with the water distribution main pipe. Since the sprinkler head is connected via the flexible tube, there is no piping member occupying a large space in the height direction below the loop-shaped water distribution system. For this reason, the installation of the sprinkler head mounting pipe when the sprinkler head is disposed and fixed on the ceiling of a building having a low space above the ceiling becomes easy. Also, in a building having no ceiling, a construction method in which a sprinkler head is connected to a flexible pipe suspended from a building frame through a hanging bracket and disposed, a height below the loop-shaped water distribution system. Since there is no piping member occupying a space having a large direction, the user does not feel pressure. Furthermore, if the distance from the header outlet to the sprinkler head is short, connect the sprinkler head with a short flexible tube.If the distance from the header outlet to the sprinkler head is long, discharge the header. By connecting a tube with low pressure loss to the outlet, the length of the flexible tube connected to the sprinkler head can be shortened. That is, the length of the flexible tube connected to the sprinkler head can be shortened regardless of the length of the distance from the discharge port of the header to the sprinkler head, so that the amount of water discharged from the sprinkler head and the decrease in water pressure can be suppressed. .

According to the second or fourth aspect of the present invention, in addition to the operation of the first or third aspect of the present invention, at least one of a flexible tube and a tube having a small pressure loss. By blocking the surplus outlets not connected to one side, it is possible to cope with water discharge when the number of sprinkler heads is smaller than the reference number corresponding to the number of outlets provided in the header.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an overall plan view showing an embodiment of a sprinkler head mounting piping structure constructed by a method of constructing a sprinkler head mounting piping according to the present invention. Are connected in series between a plurality of water distribution main pipes 2, 2... Having a predetermined length (corresponding to the conventional main pipe 100 for water supply or the auxiliary pipe 104 for water supply). Headers 3,3 ...
A horizontal loop-shaped water distribution system 4 is configured by these. The water distribution system 4 includes a main water distribution system 40 having a mouth shape and the main water distribution system 4.
The water distribution main pipe is formed in a multi-loop shape comprising two auxiliary water distribution systems 41, 41 which are bridged over two opposing sides of each other and communicate these two sides, and which constitute the main water distribution system 40. The connection of the water distribution main pipes 2 at both ends of the auxiliary water distribution systems 41, 41 to the
Has been made through. Further, the downstream side of the water supply main pipe 5 is connected to the water distribution main pipe 2 at an appropriate position constituting the main water distribution system 40, and the upstream side of the water supply main pipe 5 is connected to the discharge port of the fire extinguishing water pressure pump 6. I have.

As shown in FIG. 2, the header 3 has water distribution main pipe connection ports 30, 30 formed by female screw holes provided at both ends in the axial direction, and a smaller diameter than the water distribution main pipe connection ports 30, 30. It has six outlets 31 to 36 formed by female screw holes, and the outlets 31 and 32, 33 and 34 and 35 and 36
Are provided at positions facing each other about an axis C1 that is horizontally orthogonal to the axis C passing through the centers of the water distribution main connection ports 30, 30 at a predetermined interval. A male thread 2A provided at one end of one water distribution main pipe 2 is screwed into one water distribution main pipe connection port 30, and the other water distribution main pipe 2 is connected to the other water distribution main pipe connection port 30 at the other end. Are screwed together, a plurality of headers 3, 3,... Are connected horizontally and in series between the water distribution main pipes 2, 2,.

As shown in FIG. 3, a base end of a flexible tube 9 having a predetermined length is connected to outlets 31 and 32 and 35 and 36 of the header 3 via a nipple 8 having a horizontal axis. Sprinkler heads 10 are connected downward to the distal ends of these flexible tubes 9 via elbows 16. The outlets 33 and 34 are connected to the base ends of relatively long pipes 11 (for example, steel pipes and the like, which are horizontal straight pipes in the embodiment) having a small pressure loss without unevenness on the inner surface. Two flexible pipes 13 having a predetermined length are branched and connected to a tip end of the pipe 11 having a small pressure loss through a tee 12 having a horizontal axis and a nipple 8.
The sprinkler head 10 is downwardly connected to each of the distal ends via an elbow 16.

As shown in FIG. 4, after the cap nut 14 is inserted into the base end of the flexible tube 9, a locking flange 9A is formed to project outward in the radial direction. The seal ring 15 is prevented from detaching from the base end, and the seal ring 15 is fitted outside the lock flange 9A on the base end side. Next, outlet 3
A male screw 8A at one end of the nipple 8 is screwed into the nipples 1 and 32, 35 and 36, and the nipples 8 are connected to the outlets 31 and 32, 35 and 36, respectively. Next, the proximal end of the flexible tube 9 is inserted into the other end of the nipple 8 and the cap nut 1 is inserted.
4 is screwed into the male screw 8B at the other end of the nipple 8, and the other end face of the nipple 8 and the cap nut 14 are screwed.
By sandwiching the seal ring 15 and the locking flange 9A between them, the outlets 31 and 32 of the header 3 and 3
Flexible tube 9 can be connected to 5 and 36 in a watertight manner.

On the other hand, as shown in FIG.
4 shows a male screw 1 at the base end of the pipe 11 having a small pressure loss.
By screwing 1A, the pipe 11 having a small pressure loss can be connected to the outlets 33 and 34. Further, the tee 12 is connected to the tube 11 having a small pressure loss by screwing the female screw portion 12A at the inlet of the tee 12 to the male screw 11B at the tip end of the tube 11 having a small pressure loss. Next, a cap nut 14 is inserted through the base ends of the two flexible tubes 13, 13, and then a locking flange 13 </ b> A that protrudes radially outward is formed. To prevent you from leaving
The seal ring 15 is fitted on the base end side of the locking flange 13A. Next, the male screw 8A at one end of the nipple 8 is screwed into the female screw portions 12B, 12B at the two outlets of the tee 12, and the female screw portions 12 at the two outlets of the tee 12 are screwed.
The nipple 8 is connected to each of B and 12B. Further, the base end side of the flexible tube 13 is inserted into the other end of the nipple 8, and the female screw portion 14A of the cap nut 14 is screwed into the male screw 8B at the other end of the nipple 8, so that the nipple 8 is By sandwiching the seal ring 15 and the locking flange 13A between the other end surface and the cap nut 14, the tip end of the pipe 11 having a small pressure loss can be inserted through the tee 12 and the nipple 8.
The flexible tubes 13, 13 can be branched and connected in a watertight manner.

On the other hand, as shown in FIG.
After the cap nut 14 is inserted into the tip of the cap nut, the locking flanges 9A and 13A that protrude radially outward are formed.
Is prevented from coming off from the distal end portions of the flexible tubes 9 and 13, and the seal ring 1 is located on the distal end side of the locking flanges 9A and 13A.
5 is fitted outside. Next, the male screw 8B at the other end of the nipple 8 is screwed into the female screw portion 16A at the inlet of the elbow 16, and the nipple 8 is connected to the inlet of the elbow 16. Next, the distal ends of the flexible tubes 9 and 13 are inserted into one end of the nipple 8, and the female screw portion 14A of the cap nut 14 is screwed into the male screw 8A at one end of the nipple 8, so that the nipple 8
The elbow 16 is watertightly connected to the distal end of each of the flexible tubes 9 and 13 via the nipple 8 by sandwiching the seal ring 15 and the locking flanges 9A and 13A between one end face of the cap and the cap nut 14. The sprinkler head 10 is connected to the downward outlet of the elbow 16.

As described above, a plurality of water distribution pipes 2, 2 having a predetermined length and a plurality of headers 3, 3,... Connected in series between the water distribution pipes 2, 2,. A multi-loop water distribution system 4 is configured, and flexible pipes 13 are provided in horizontal discharge ports 31 to 36 provided in a plurality of headers 3, 3,. Since the sprinkler head 10 is connected via the tube 11 or the flexible tube 9 having a small pressure loss, there is no piping member occupying a large space in the height direction below the horizontal multi-loop water distribution system 4. For this reason, the sprinkler head 10
Is fixed to the ceiling of the building, the sprinkler head mounting pipe 1 can be easily installed even in a building having a low space above the ceiling. Further, even in a building such as a parking lot having no ceiling, even when the sprinkler head 10 is connected to the flexible pipes 9 and 13 suspended from the building frame via hanging fittings (not shown), the sprinkler head 10 is arranged. Since there is no pipe member occupying a large space in the height direction below the horizontal multiple loop water distribution system 4, the user does not feel any oppression.

On the other hand, when the distances from the outlets 31 and 34 and 35 and 36 of the header 3 to the sprinkler head 10 are short, the sprinkler head 10 is connected by a short flexible tube 9 and the outlet of the header 3 is connected. When the distance from the sprinkler head 10 to the sprinkler head 10 is long, the pipes 11 having a small pressure loss
Is connected, the length of the flexible tube 13 connected to the sprinkler head 10 can be shortened. Therefore, regardless of the length of the sprinkler head 10 from the outlets 31 to 36 of the header 3, the sprinkler The length of the flexible pipes 9 and 13 connected to the head 10 can be shortened, and the amount of water discharged from the sprinkler head 10 and a decrease in water pressure can be suppressed, and uniform water discharge can be performed.

In the piping structure 1 for attaching a sprinkler head shown in FIG. 1, a large number of headers 3 each have a reference connection pattern in which eight sprinkler heads 10 are connected to each other. There is an auxiliary connection pattern to which six sprinkler heads 10 are connected, like the header 3 in the enclosed area, and both the auxiliary connection pattern and the reference connection pattern allow the interior of the building to be connected. Water can be evenly distributed. In the sprinkler head mounting piping structure 1 having such an auxiliary connection pattern, in the auxiliary connection pattern in which the six sprinkler heads 10 are connected to the header 3, as shown in FIG. The surplus outlet 34 not connected to 11 may be closed by the plug 17. Thereby, it is possible to cope with water discharge when the number of sprinkler heads 10 is smaller than the reference number (8) corresponding to the number (6) of the discharge ports 31 to 36 provided in the header 3.

In the above embodiment, the six outlets 31 to 31 are provided.
Although the header 3 provided with 36 is used, the header 3 provided with six or more outlets 31 to 36 may be used.
The horizontal loop-shaped water distribution system 4 is configured as a multi-loop consisting of a main water distribution system 40 and two auxiliary water distribution systems 41, 41. The number of auxiliary water distribution systems 41 is one or three or more. It may be. Conversely, if the building has a small water discharge area, the auxiliary water distribution system 41 may be omitted, and the loop water distribution system 4 may be configured with the main water distribution system 40 alone. Further, the outlets 31 to 36 of the header 3 are formed by female screw holes, but may be outlets 31 to 36 provided with a male screw portion 3A on the outer periphery as shown in FIG. Such outlets 31 to 3
If it is 6, the use of the nipple 8 when connecting the flexible tube 9 can be omitted. However, pipes 11 with small pressure loss
At the time of connection, a flange is formed at the base end of the pipe 11 having a small pressure loss,
A cap nut to be screwed into A is separately required.

[0022]

As described above, since the present invention is constituted, the following special effects can be obtained.

According to the first or third aspect of the present invention, since there is no pipe member occupying a large space in the height direction below the loop-shaped water distribution system, the height of the space above the ceiling is low. When the sprinkler head is arranged and fixed on the ceiling of the building, the installation of the sprinkler head mounting pipe is facilitated. Further, in a building having no ceiling, even a construction method in which a sprinkler head is connected to a flexible tube suspended from a building frame via a hanging fitting does not give a feeling of oppression to the user. Further, the length of the flexible tube connected to the sprinkler head can be shortened regardless of the length of the distance from the discharge port of the header to the sprinkler head. Therefore, it is possible to suppress a decrease in water discharge amount and water pressure from the sprinkler head. .

According to the second or fourth aspect of the present invention, in addition to the effects of the first or third aspect, both the flexible pipe and the pipe having a small pressure loss are provided. By blocking the excess outlets that are not connected to at least one of the sprinkler heads, it also supports water discharge when the number of sprinkler heads is smaller than the reference number corresponding to the number of outlets provided in the header can do.

[Brief description of the drawings]

FIG. 1 is an overall plan view showing an embodiment of a sprinkler head mounting piping structure according to the present invention.

FIG. 2 is an enlarged cross-sectional plan view showing an example of a header.

FIG. 3 is an enlarged plan view showing an example of piping from a header to a sprinkler head.

FIG. 4 is an enlarged cross-sectional plan view showing an example of a connection structure of a flexible tube to an outlet of a header.

FIG. 5 is an enlarged cross-sectional plan view showing an example of a structure in which a flexible tube is connected to a discharge port of a header via a tube having a small pressure loss.

FIG. 6 is an enlarged vertical sectional view showing an example of a connection structure of an elbow to an outlet of a flexible tube.

FIG. 7 is an enlarged plan view showing an example of a surplus outlet closing structure.

FIG. 8 is an enlarged plan view showing a modified example of a discharge port.

FIG. 9 is a perspective view of a conventional example.

FIG. 10 is an enlarged plan view of a five-way joint.

FIG. 11 is a partially cutaway front view of FIG. 10;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Piping structure for sprinkler head mounting 2 Water distribution main pipe 3 Header 4 Loop-shaped water distribution system 9 Flexible pipe connected to outlet of header 10 Sprinkler head 11 Pipe with small pressure loss 13 Connected with pipe with small pressure loss Flexible tube 31 Header outlet 32 Header outlet 33 Header outlet 34 Header outlet or surplus outlet 35 Header outlet 36 Header outlet

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Koji Nakazawa, Inventor 2-2-238 Mitsudori, Mihara-cho, Minamikawachi-gun, Osaka F-term in Yamato Protech Co., Ltd. (Reference) 2E189 CB02 CB05 CG01 CG04 CG09

Claims (4)

[Claims] 1. A loop-shaped water distribution system is constituted by a water distribution main pipe and a header connected to the water distribution main pipe at a predetermined interval and provided with at least six or more discharge ports. A flexible tube is connected to one of the outlets, a tube having a small pressure loss is connected to the other outlet, and a flexible tube is connected to the tube having a small pressure loss. A method for installing a sprinkler head mounting pipe, comprising connecting a sprinkler head to a flexible pipe connected to a discharge port. 2. A loop-shaped water distribution system is constituted by a water distribution main pipe and a header connected to the water distribution main pipe at a predetermined interval and provided with at least six or more outlets. A flexible tube is connected to one of the outlets, and a tube with a small pressure loss is connected to any of the outlets, except for the excess outlet, and a flexible tube is connected to the tube with a small pressure loss. A sprinkler head is connected to the flexible tube and the flexible tube connected to the outlet of the header, and the excess outlet is closed. Construction method of attached pipe. 3. A loop-shaped water distribution system is constituted by a water distribution main pipe, and a header connected to the water distribution main pipe at a predetermined interval and provided with at least six or more outlets. A flexible tube is connected to one of the outlets, and a tube having a small pressure loss is connected to the other outlet. A flexible tube is connected to the tube having a small pressure loss, and the flexible tube is connected to the flexible tube. A sprinkler head mounting piping structure, wherein a sprinkler head is connected to a flexible tube connected to an outlet of a header. 4. A loop-shaped water distribution system is constituted by a water distribution main pipe, and a header connected to the water distribution main pipe at a predetermined interval and provided with at least six or more outlets. A flexible tube is connected to one of the outlets, and a tube having a small pressure loss is connected to any of the outlets, except for a surplus of the outlets, and a flexible tube is connected to the tube having a small pressure loss. A sprinkler head connected to the flexible tube connected to the flexible tube and the outlet of the header, and the excess outlet is closed. Construction.