JP2022048318A - Container support - Google Patents

Abstract

To provide an easily-installable container support.SOLUTION: A container support 20 includes a container support body 15 for holding a fire extinguishing agent storage container 1 for supplying fluid into a sensing tube 24 to be melted by heat of fire, and a display part 14 provided on the container support body 15, for displaying at least either of a pressure in the fire extinguishing agent storage container 1, and a pressure in the sensing tube 24 supplied from the fire extinguishing agent storage container 1.SELECTED DRAWING: Figure 2

Description

The present invention relates to a container support.

Utility model registration No. 3160699 (Patent Document 1) and utility model registration No. 3179000 (Patent Document 2) disclose an automatic fire extinguishing device using a fire detection tube.

Utility model registration No. 3160699 Utility model registration No. 3179000

There was a problem that construction was difficult with conventional equipment.

The container support according to the present invention includes a container support main body that holds a container for storing a fire extinguisher that supplies a fluid to a sensing tube that melts due to the heat of a fire, and a fire extinguishing agent storage provided in the container support main body. It is provided with a display unit that displays at least one of the pressure in the container and the pressure in the sensing tube supplied from the fire extinguishing agent storage container.

In the container support configured in this way, since the container support main body and the display unit are integrated, the construction becomes easier as compared with the case where these are separate bodies.

Further, since the wiring between the fire extinguishing agent storage container and the display unit is shortened, the earthquake resistance is improved.

It is a schematic diagram of the cable tray fire extinguishing equipment 60 according to the first embodiment. It is a front view of the container support 20 according to Embodiment 1. FIG. It is a top view of the container support 20 seen from the direction indicated by the arrow III in FIG. It is a bottom view of the container support 20 seen from the direction indicated by the arrow IV in FIG. It is a side view of the container support 20 seen from the direction indicated by the arrow V in FIG. It is sectional drawing of the container support 20 along the VI-VI line in FIG. It is a front view of the display unit 14 shown in FIG. 1. It is a schematic diagram of the container support 20 according to the second embodiment. It is a schematic diagram of the container support 20 of the comparative example. 9 is a cross-sectional view taken along the line XX in FIG. It is sectional drawing of the deformed fixing bar 107. It is a schematic diagram of the container support 20 according to the third embodiment. It is a schematic diagram of the container support 20 of the comparative example. It is a schematic diagram of the cable tray fire extinguishing equipment 60 according to Embodiment 4. It is a schematic diagram of the cable tray fire extinguishing equipment 60 according to Embodiment 5. It is a schematic diagram of the container support 20 according to Embodiment 6. It is a schematic diagram of the unit 300 in which a nitrogen cylinder 201, a pressure reducing valve 203 and a spill prevention valve 205 are integrated.

Hereinafter, embodiments will be described with reference to the drawings. The same or corresponding parts are given the same reference numerals, and the explanation is not repeated. It is also possible to combine each embodiment.

(Embodiment 1)
FIG. 1 is a schematic view of a cable tray fire extinguishing system 60 according to the first embodiment. As shown in FIG. 1, in the cable tray fire extinguishing equipment 60 according to the first embodiment, a container valve is attached to the upper part of the fire extinguishing agent storage container 1. The fire extinguishing agent storage container 1 is supported by the container support main body 15.

A copper tube 25 for releasing a fire extinguisher, a sensing tube 24, a pressure switch 4 for the sensing tube, and a pressure switch 3 for a storage container are connected to the container valve 19. The pressure switch 4 for the sensing tube is not limited to the case where it is directly connected to the container valve 19, and may be connected in the middle of the sensing tube 24 (near the pressure gauge).

The inside of the sensing tube 24 is constantly pressurized. Cable trays 31 are provided in factories, buildings, power plants, and the like. The cable tray 31 has a cylindrical shape, and a cable is provided therein. The cable tray 31 is covered with a flame-retardant sheet 32. The flame-retardant sheet 32 is fixed to the cable tray 31 by a fixing band 33. A stainless steel band is wound around the cable tray 31 at the same position as the fixing band 33 to prevent the flame-retardant sheet 32 from hanging into the cable tray.

A sensing tube 24 is provided in the cable tray 31. The sensing tube 24 may or may not be in contact with the cable. A copper tube 25 for releasing a fire extinguishing agent is provided in the cable tray 31. A fire extinguishing agent discharging injection nozzle 34 is attached to the fire extinguishing agent discharging copper tube 25.

For example, the halide fire extinguishing agent FK-5-1-12 is enclosed in the fire extinguishing agent storage container 1. This agent is pressurized by nitrogen in the fire extinguishing agent storage container 1. This nitrogen is supplied to the sensing tube 24 via the sensing tube pressure switch 4. At the time of installation, when nitrogen is supplied into the sensing tube 24, if nitrogen is added from the fire extinguishing agent storage container 1, the nitrogen in the extinguishing agent storage container 1 decreases, so that nitrogen is sensed from outside the fire extinguishing agent storage container 1. You may fill it inside.

When the sensing tube 24 is melted by the heat of the fire, the pressure inside the sensing tube 24 decreases.

When the pressure in the sensing tube 24 drops, the container valve 19 operates, and the fire extinguishing agent (FK-5-1-12) is operated from the fire extinguishing agent discharging injection nozzle 34 in the cable tray 31 through the fire extinguishing agent discharging copper tube 25. Is released.

When the pressure in the sensing tube 24 decreases, the pressure switch 4 for the sensing tube operates, and a transfer signal is output.

When the pressure in the fire extinguishing agent storage container 1 decreases, the pressure switch 3 for the storage container operates, and a transfer signal is output.

FIG. 2 is a front view of the container support 20 according to the first embodiment. FIG. 3 is a plan view of the container support 20 as viewed from the direction indicated by the arrow III in FIG. FIG. 4 is a bottom view of the container support 20 as viewed from the direction indicated by the arrow IV in FIG. FIG. 5 is a side view of the container support 20 as viewed from the direction indicated by the arrow V in FIG. 2. FIG. 6 is a cross-sectional view of the container support 20 along the VI-VI line in FIG. FIG. 7 is a front view of the display unit 14 shown in FIG.

The cable tray fire extinguishing equipment 60 also has a "function of discharging a fire extinguishing agent by an electric start signal" and a "function of monitoring pressure". The pressure status is displayed on site and the status is transmitted to the monitoring room or the like. There is a panel for collecting information in the monitoring room and the like, and the same number of panels (pressure monitoring control panel) for displaying the pressure status as the container support 20 (cylinder rack) are required at the site. In order to reduce the construction load at the site, the structure is such that the display unit 14 as a pressure monitoring control panel is attached to the side surface of the container support 20 in advance. Separately from the container support 20 and the display unit 14, it is necessary to separately install the display unit 14, the wiring / conduit, etc. from the display unit 14 to the container support 20. Seismic resistance verification is also required for construction. By integrating these, the construction load on site can be reduced.

The container support main body 15 is mainly composed of a steel square pipe and an angle material. The container support main body 15 is formed by welding a steel material. It has sufficient strength to hold a plurality of fire extinguishing agent storage containers 1.

The fire extinguishing agent storage container 1 composed of a cylinder stores a liquid fire extinguishing agent such as FK-5-1-12. Three fire extinguishing agent storage containers 1 are provided in parallel in this embodiment, but more or less fire extinguishing agent storage containers 1 may be provided.

The container valve of the fire extinguishing agent storage container 1 is connected to the copper pipe connection joint 6 by the flexible tube 2. As a result, the fire extinguishing agent in the fire extinguishing agent storage container 1 is supplied to the copper pipe connection joint 6 via the flexible tube 2.

The pressure inside the fire extinguishing agent storage container 1 is constantly monitored, and when this pressure drops, the storage container pressure switch 3 is activated and a transfer signal is output. The transfer signal is transmitted to the monitoring room and the like.

The pressure in the sensing tube 24 is constantly monitored, and when this pressure drops, the sensing tube pressure switch 4 is activated and a transfer signal is output. The transfer signal is transmitted to the monitoring room and the like.

Based on these transfer signals, it is possible to recognize that a fire has occurred in the monitoring room or the like.
The container fixing bracket 5 has a function of engaging with the container support main body 15 to hold the fire extinguishing agent storage container 1. A screw thread is provided on the outer peripheral surface of the end portion of the container fixing metal fitting 5, and the container fixing metal fitting 5 can be fixed to the container support main body 15 by screwing a nut into the screw thread.

The copper pipe connection joint 6 is attached to the container support main body 15. The copper pipe connecting joint 6 is interposed between the flexible tube 2 and the fire extinguishing agent discharging copper pipe 25 and is airtightly connected to them. A fire extinguishing agent flows in the copper pipe connection joint 6.

A sensing tube 24 is connected to the sensing tube filling joint 11. Nitrogen is supplied to the sensing tube filling joint 11 from the fire extinguishing agent storage container 1. The sensing tube filling joint 11 is attached to the container support main body 15.

The solenoid valve 12 for the sensing tube is attached to the container support main body 15. The sensing tube pressure lowering pressure switch 13 is connected to the sensing tube solenoid valve. The nitrogen gas (fluid) in the fire extinguishing agent storage container 1 is sent to the sensing tube 24 via the sensing tube pressure lowering pressure switch 13, the sensing tube solenoid valve 12, and the sensing tube filling joint 11.

The display unit 14 is attached to the container support main body 15. The display unit is a remote start / pressure monitoring system control panel. The display unit 14 indicates whether the pressure of each of the plurality of sensing tubes 24 is normal or low. Display item 14a in FIG. 7 indicates, for example, the pressure of the sensing tube. The display unit 14 further displays whether or not the pressure in each of the plurality of fire extinguishing agent storage containers 1 is normal and the fire extinguishing agent (FK-5-1-12) can be released.

The container support 20 includes a container support main body 15 that holds a fire extinguishing agent storage container 1 that supplies a fluid to a sensing tube 24 that melts due to the heat of a fire, and a fire extinguishing agent storage provided in the container support main body 15. It is provided with a display unit 14 that displays at least one of the pressure in the container 1 and the pressure in the sensing tube 24 supplied from the fire extinguishing agent storage container 1.

In the cable tray fire extinguishing equipment 60 configured in this way, since the display unit 14 is attached to the container support main body 15, these can be installed at once, and the construction cost can be reduced.

(Embodiment 2)
FIG. 8 is a schematic view of the container support 20 according to the second embodiment. In the container support 20 according to the second embodiment, the fire extinguishing agent storage container 1 is sandwiched between the pair of container restraining devices 105 and 106. The container restraining devices 105 and 106 are provided with through holes, and a fixing bar 107 is inserted into the through holes.

Both ends of the fixing bar 107 are threaded, and both ends are inserted into the through holes. Nuts 108 are screwed on both ends. When the nut comes into contact with the container restraining devices 105 and 106, it is possible to prevent the pair of container restraining devices 105 and 106 from moving away from each other.

By reducing the distance between the nuts 108 at both ends of the fixing bar 107, the distance between the container restraining devices 105 and 106 can be reduced, whereby the fire extinguishing agent storage container 1 is positioned by the container restraining devices 105 and 106. can do. The container restraining devices 105 and 106 are held by the container support main body 15, respectively.

In the cross section orthogonal to the longitudinal direction of the plurality of fire extinguishing agent storage containers 1, fixing bars 107 are provided at both ends in the direction in which the plurality of fire extinguishing agent storage containers 1 are arranged. The container restraining devices 105 and 106 are arranged in the space surrounded by the container support main body 15 shown in FIGS. 2 to 6.

Since the fixing bar 107 has a linear shape between the nuts 108 at both ends, the fixing bar 107 is not easily deformed even if a large tensile stress is applied to the fixing bar 107. As a result, the earthquake resistance of the container support 20 can be improved.

That is, the container support 20 is interposed between the pair of container restraint devices 105 and 106 for holding the fire extinguishing agent storage container 1 and the pair of container restraint devices 105 and 106, and the pair of container restraint devices 105. It is provided with a fixing bar 107 as a metal rod-shaped member that prevents the 106 from moving away from each other and receives tensile stress between the pair of container restraining devices 105 and 106.

The portion of the fixing bar 107 that receives tensile stress between the pair of container restraining devices 105 and 106 has a linear shape.

FIG. 9 is a schematic view of the container support 20 of the comparative example. FIG. 10 is a cross-sectional view taken along the line XX in FIG. FIG. 11 is a cross-sectional view of the deformed fixing bar 107.

As shown in these figures, the tip 109 of the fixing bar 107 according to the comparative example is bent. The bent portion is inserted into the through hole 105h of the container restraint device 105. Therefore, when a large force is applied to the fixing bar 107, the bent tip 109 may be deformed and the tip 109 may be disengaged from the through hole 105h. The structure of FIG. 8 does not cause such a problem.

(Embodiment 3)
FIG. 12 is a schematic view of the container support 20 according to the third embodiment. As shown in FIG. 12, the container restraint device 105 and the fire extinguishing agent storage container 1 according to the third embodiment come into contact with each other at points 1a and 1b. The container restraint device 106 and the fire extinguishing agent storage container 1 are in contact with each other at points 1c and 1d. Since the fire extinguishing agent storage container 1 is held at four points in this way, the fire extinguishing agent storage container 1 is restrained back and forth and left and right. As a result, the rigidity of the container support main body 15 is improved. The tightening control of the container restraint devices 105 and 106 does not significantly affect the rigidity of the container support main body 15. The fire extinguishing agent storage container 1 has a cylindrical shape, and the fire extinguishing agent storage container 1 is filled with the fire extinguishing agent.

FIG. 13 is a schematic view of the container support 20 of the comparative example. As shown in FIG. 13, the container restraining device 105 according to the comparative example and the fire extinguishing agent storage container 1 come into contact with each other at the point 1a. The container restraint device 106 and the fire extinguishing agent storage container 1 are in contact with each other at the point 1c. Since the fire extinguishing agent storage container 1 is held at two points in this way, the fire extinguishing agent storage container 1 is restrained back and forth, but can move left and right. Therefore, the rigidity of the container support main body 15 is inferior. Further, the tightening control of the container restraining devices 105 and 106 affects the rigidity of the container support main body 15.

The container support 20 includes a pair of container restraining devices 105 and 106 for holding the fire extinguisher storage container 1, and the pair of container restraints in a cross section (FIG. 12) orthogonal to the longitudinal direction of the fire extinguisher storage container 1. At least one of the devices 105 and 106 contacts the fire extinguishing agent storage container 1 at two or more points. Preferably, both the container restraining devices 105 and 106 come into contact with the fire extinguishing agent storage container 1 at two or more points in the cross section. When the container restraining devices 105 and 106 come into contact with the fire extinguishing agent storage container 1 in many respects, the support of the fire extinguishing agent storage container 1 is unstable in consideration of the manufacturing error (variation in outer diameter) of the fire extinguishing agent storage container 1. There is a risk of becoming. On the other hand, in the structure of FIG. 12, since the fire extinguishing agent storage container 1 does not move back and forth and left and right, the rigidity can be maintained with a more fragile steel material size.

(Embodiment 4)
FIG. 14 is a schematic diagram of the cable tray fire extinguishing equipment 60 according to the fourth embodiment. As shown in FIG. 14, in the cable tray fire extinguishing equipment 60 according to the fourth embodiment, pipes 202, 204, 206, a nitrogen cylinder 201, a pressure reducing valve 203, and an overflow prevention valve 205 are provided. In this embodiment, it is not necessary to provide the display unit 14 on the container support main body 15.

In this embodiment, the pressure of the sensing tube 24 is kept constant by using a nitrogen cylinder 201 and a pressure reducing valve 203. Even if there is a trace amount of nitrogen gas leaking from the sensing tube 24 in the long term, it is possible to add pressure by the nitrogen gas from the nitrogen cylinder 201.

When the sensing tube 24 is melted, the overflow prevention valve 205 is activated, the supply of nitrogen gas to the sensing tube 24 is stopped, and the container valve is opened.

The cable tray fire extinguishing equipment 60 includes a sensing tube 24 that is melted by the heat of a fire, a first fire extinguishing agent storage container 1 that supplies fluid to the sensing tube 24, and a second that supplies fluid to the sensing tube 24. A nitrogen cylinder 201 as a container and an overflow prevention valve 205 provided between the sensing tube 24 and the nitrogen cylinder 201 are provided to block or reduce the flow of gas when the flow exceeds a predetermined value.

(Embodiment 5)
FIG. 15 is a schematic diagram of the cable tray fire extinguishing equipment 60 according to the fifth embodiment. As shown in FIG. 15, in the cable tray fire extinguishing equipment 60 according to the fifth embodiment, the pipe 206 is connected to each of the plurality of sensing tubes 24, and nitrogen gas is supplied from each pipe 206. A check valve 209 is provided in each pipe 206. By inserting the check valve 209, the pressure in the sensing tube 24 connected to the fire extinguishing agent storage container 1, which is not a fire, does not decrease, so that the extinguishing agent is not wasted (fire). No fire extinguishing agent is released to places other than the above), and the fire extinguishing agent can be released only to the place where the fire occurred.

In the cable tray fire extinguishing equipment 60 configured in this way, nitrogen gas can be supplied from one nitrogen cylinder 201 to the plurality of sensing tubes 24, so that the cost of the device can be reduced.

(Embodiment 6)
FIG. 16 is a schematic view of the container support 20 according to the sixth embodiment. FIG. 17 is a schematic view of a unit 300 in which a nitrogen cylinder 201, a pressure reducing valve 203, and an overflow prevention valve 205 are integrated. As shown in FIGS. 16 and 17, in the container support 20 according to the sixth embodiment, the unit 300 is attached. By integrating the unit 300 with the container support 20, the installation and construction of the unit 300 becomes easier as compared with the case where the unit 300 is separated from the container support 20.
[Appendix 1]
A container support body that holds a fire extinguishing agent storage container that supplies fluid to a sensing tube that melts due to the heat of a fire.
A container support provided on the container support main body with a display unit for displaying at least one of the pressure in the fire extinguishing agent storage container and the pressure in the sensing tube supplied from the fire extinguishing agent storage container. ..
[Appendix 2]
A pair of container restraint devices that hold the fire extinguisher storage container,
A metal rod-shaped member that is interposed between the pair of container restraining devices to prevent the pair of container restraining devices from moving away from each other and receives tensile stress between the pair of container restraining devices is provided.
A container support having a linear shape at a portion of the rod-shaped member that receives tensile stress between the pair of container restraining devices.
[Appendix 3]
A pair of container restraining devices for holding a fire extinguishing agent storage container are provided, and at least one of the pair of container restraining devices has two or more points in the fire extinguishing agent storage container in a cross section orthogonal to the longitudinal direction of the fire extinguishing agent storage container. Container support to contact with.
[Appendix 4]
A sensing tube that melts due to the heat of a fire,
A first fire extinguishing agent storage container that supplies fluid to the sensing tube,
A second container that supplies fluid to the sensing tube,
A fire extinguishing system provided with an overflow prevention valve provided between the sensing tube and the second container, which shuts off or reduces the flow of fluid when the flow exceeds a predetermined value.
[Appendix 5]
The fire extinguishing system according to Appendix 4, wherein the second container supplies a fluid to the plurality of sensing tubes.
[Appendix 6]
The second container and the unit having the overflow prevention are attached.
A container support provided with a container support for holding the first fire extinguishing agent storage container.

The embodiments and examples disclosed this time should be considered to be exemplary and not restrictive in all respects. The scope of the present invention is shown by the scope of claims rather than the above description, and is intended to include all modifications within the meaning and scope equivalent to the scope of claims.

1 Fire extinguishing agent storage container, 1a, 1b, 1c, 1d point, 2 Flexible tube, 3 Storage container pressure switch, 4 Sensing tube pressure switch, 5 Container fixing bracket, 6 Copper tube connection joint, 11 Sensing tube filling joint , 12 Electromagnetic valve for sensing tube, 13 Pressure switch for reducing sensing tube, 14 Display, 15 Container support body, 19 Container valve, 20 Container support, 24 Sensing tube, 25 Copper tube for extinguishing fire extinguishing agent, 31 Cable Tray, 32 flame-retardant sheet, 33 fixing band, 34 fire extinguishing agent discharge injection nozzle, 60 cable tray fire extinguishing equipment, 105, 106 container restraint device, 105h through hole, 107 fixing bar, 108 nut, 109 tip, 201 Nitrogen cylinder, 202, 204, 206 piping, 203 pressure reducing valve, 205 overflow prevention valve, 300 units.

Claims (1)

A container support body that holds a fire extinguishing agent storage container that supplies fluid to a sensing tube that melts due to the heat of a fire.
A container provided on the container support main body and provided with a display unit for displaying at least one of the pressure in the fire extinguishing agent storage container and the pressure in the sensing tube supplied from the fire extinguishing agent storage container. Support.

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