JP2020065790A - Fire extinction system and fire extinction method - Google Patents

Abstract

To provide a fire extinction system in which a fire extinction facility can be installed without narrowing a storage space in a warehouse to which a rack is to be installed, without damaging a pipe, and without increasing cost in installing the pipe.SOLUTION: A hollow pipe configuring a frame of a rack includes: a pipe part to which fire extinguishing agent is supplied; an open/close part provided to the pipe part and releases the fire extinguishing agent by being opened; a sensing part for sensing relevant to fire in a region to which the rack is installed; an identifying part for identifying the region to which the fire extinguishing agent is released based on the sensing result by the sensing part; and an open/close control part for controlling open/close of the open/close part according to the region identified by the identifying part.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a fire extinguishing system and a fire extinguishing method.

  There is a sprinkler facility as a fire extinguishing measure in a space such as a warehouse (see Patent Document 1). In such a sprinkler equipment, for example, in the case of a wet sprinkler equipment using a closed type sprinkler head, water discharge is started when the sprinkler head is activated by the heat of fire.

JP, 10-179785, A

  However, in a warehouse, luggage transported to the warehouse and a rack installed to store the luggage may be an obstacle to water discharge by the sprinkler facility. As a countermeasure for this, it is possible to install a sprinkler head on the lower part of the shelf on which the luggage is placed, but it is necessary to lay the piping according to the position where the sprinkler head is installed, so the storage space becomes narrow. There was a problem of being lost. Further, in this case, since it is necessary to lay the pipes separately from the shelves, the pipes are laid so that the business trips can be made to each surface of the frame, the shelf plate, and the like that make up the shelves, and in particular, luggage can be put on the shelves. There was a problem that the pipes were likely to be damaged when relocated. In addition, there is a problem that the cost for laying the piping is high.

  The present invention has been made in view of the above circumstances, and an object thereof is to install a pipe without narrowing a storage space in a warehouse in which a rack is installed and to prevent the pipe from being easily damaged. It is to provide a fire extinguishing system and a fire extinguishing method capable of installing fire extinguishing equipment without increasing the cost for doing so.

  In order to solve the above-mentioned problems, one embodiment of the present invention is a hollow pipe that constitutes a frame of a rack, and a pipe portion to which a fire extinguishing agent is supplied, and the pipe portion, wherein the fire extinguishing agent is provided. An opening / closing unit that discharges a fire, a sensing unit that senses a fire in an area where the rack is provided, a specifying unit that specifies an area from which the fire extinguishing agent is released based on a detection result of the sensing unit, and the specifying A fire extinguishing system, comprising: an opening / closing control unit that controls opening / closing of the opening / closing unit according to an area specified by the unit.

  In order to solve the above-mentioned problems, one embodiment of the present invention is a hollow pipe that constitutes a frame of a rack, and a pipe portion to which a fire extinguishing agent is supplied, and the pipe portion, wherein the fire extinguishing agent is provided. A fire extinguishing method by a computer used in a fire extinguishing system, comprising: an opening / closing unit that discharges a fire, and a sensing unit that senses a fire in an area in which the rack is provided, wherein a specific unit determines a detection result by the sensing unit. Based on this, a fire extinguisher having a specifying step of specifying an area for releasing the fire extinguishing agent, and an opening / closing control step of controlling opening / closing of the opening / closing section according to a result specified by the specifying section by the opening / closing control section. Is the way.

  As described above, according to the present invention, since the hollow pipes forming the frame of the rack can be used as the pipes, the storage space is not narrowed in the warehouse where the racks are installed, and the pipes are damaged. Fire extinguishing equipment can be installed without increasing the cost for installing the piping.

It is a system block diagram of the fire-extinguishing system 1 of 1st Embodiment. It is a block diagram which shows the structural example of the control apparatus 60 of 1st Embodiment. It is a figure which shows the structural example of the sensor installation information memorize | stored in the sensor installation information storage part 66 of 1st Embodiment. It is a figure which shows the structural example of the opening / closing part installation information memorize | stored in the opening / closing part installation information storage part 67 of 1st Embodiment. It is a flow chart which shows an example of operation of control device 60 of a 1st embodiment.

  An embodiment of the present invention will be described below with reference to the drawings.

(First embodiment)
First, the first embodiment will be described.
FIG. 1 is a system configuration diagram of a fire extinguishing system 1 according to the first embodiment, and is a diagram of a warehouse 10 in which a rack 20 is provided, as seen from a side surface.
The fire extinguishing system 1 includes, for example, a warehouse 10, a rack 20 installed in the warehouse 10, a sensor 30, a pump 40, a water tank 50, and a control device 60. Here, the sensor 30 is an example of a “sensor”.

  The warehouse 10 is a building provided with a rack 20 for storing luggage. The warehouse 10 is provided with a detector 30 for detecting a fire and a fire extinguishing facility for extinguishing the fire at the time of the fire.

  The rack 20 is a rack for storing luggage carried into the warehouse 10. The rack 20 includes, for example, a pipe portion 21 (pipe portions 21-1 to 21-6), an opening / closing portion 22 (opening / closing portions 22-1 to 22-6), and a solenoid valve 23 (solenoid valves 23-1 to 23-). 9) and.

  In the present embodiment, the frame of the rack 20 is formed of a hollow member, and functions as the pipe portion 21 through which the fire extinguishing agent flows. That is, the pillars arranged in the Z-axis direction which is the height direction function as the piping portions 21-1 to 21-3, and are arranged in the X-axis direction which is the lateral direction and the Y-axis direction which is the depth direction. The beam functions as the piping portions 21-4 to 21-6.

  Further, in the present embodiment, the pipe portion 21 is a dry pipe (support) that is not filled with the extinguishant in a normal state other than a fire. In the event of a fire, the pump 40 is activated by the signal from the detector 30, and the water-extinguishing tank 50 supplies the fire extinguishing agent (in this embodiment, water for extinguishing fire) to the pipe portion 21. The method of supplying the fire extinguishing agent to the piping portion 21 will be described later.

  The piping parts 21-1 to 21-6 may be independent pipings, or all or part of the piping parts 21-1 to 21-6 may be unitized.

A through hole is formed in the pipe portion 21, and an opening / closing portion 22 is provided in the through hole.
The opening / closing part 22 opens or closes under the control of the control device 60. The opening / closing part 22 releases the extinguishant by opening the pipe part 21 in a state where the extinguishant is filled.

Only one opening / closing unit 22 may be provided on the rack 20, or a plurality of opening / closing units 22 may be provided at different positions in the height direction and the horizontal direction (lateral direction and depth direction).
In the present embodiment, the opening / closing sections 22-1 and 22-4 are provided at positions different from each other in the piping section 21-4 arranged in the horizontal direction, and the opening / closing sections 22-1 and 22-4 are arranged in the horizontal direction at a height different from that of the piping section 21-4. Opening / closing sections 22-2, 22-5 are provided at different positions in the formed piping section 21-5. Further, opening / closing sections 22-3, 22-6 are provided at different positions in the piping section 21-6 laterally arranged at a height different from that of the piping sections 21-4, 21-5.

  The solenoid valve 23 is provided in the pipe portion 21 and opens or closes under the control of the control device 60. When the solenoid valve 23 is opened, the pipe portion 21 can be filled with the extinguishing agent.

Only one solenoid valve 23 may be provided on the rack 20, or a plurality of solenoid valves 23 may be provided at different positions in the height direction and the horizontal direction.
In the present embodiment, the solenoid valves 23-1 to 23-3 are provided at different heights in the pipe portion 21-1 which is erected in the height direction from the floor surface G, and is lateral to the pipe portion 21-1. Electromagnetic valves 23-4 to 23-6 are provided at different heights in the pipe portion 21-2 which is erected at different positions in the direction. Further, solenoid valves 23-7 to 23-9 are provided at different heights in a pipe portion 21-3 which is erected at a position laterally different from the pipe portions 21-1 and 21-2.

The detector 30 detects a fire. Here, the case where the sensor 30 is a suction type sensor that detects a fire by sucking smoke will be described as an example.
The sensor 30 includes, for example, a suction opening 31 (suction openings 31-1 to 31-6), a suction pipe 32 (suction tubes 32-1 to 32-6), and a suction fan 33 (suction fan 33-1). 33-3) and the smoke detector 34.

  The suction opening 31 is, for example, an opening provided at the tip of the suction pipe 32. The suction pipe 32 sucks air around the area where the suction opening 31 is provided. The suction fan 33 sucks in the air around the suction opening 31 and supplies the smoke detector 34 with the air around the suction opening 31. The smoke sensor 34 detects the presence or absence (smoke concentration) of smoke in the air supplied by the suction fan 33.

  The smoke sensor 34 includes a communication unit (not shown) and transmits the detection result to the control device 60. The communication between the smoke sensor 34 and the control device 60 may be wireless communication using a short-distance wireless communication network such as infrared rays or Bluetooth (registered trademark), or may be wired communication via wiring or the like. May be.

  The detection result transmitted by the smoke detector 34 is, for example, information in which the detected smoke density is associated with the smoke detection location. The location where the smoke is sensed is, for example, information indicating the section in which the suction opening 31 is provided.

  Alternatively, when the correspondence relationship between the sensor (the suction opening 31 in the present embodiment) and the place where the sensor is installed is known in advance from the sensor installation information (see FIG. 4) described later and the like. The identification information for identifying the sensor (suction opening 31) may be used as the information indicating the location where the smoke is detected.

The sensor 30 may detect smoke in the air in one area of the rack 20, or may detect smoke in the air in areas different from each other in the height direction and the horizontal direction. Good.
In the present embodiment, the suction opening portion 31-1 is an area separated by the piping portions 21-1, 21-2, 21-4, 21-5 (an area indicated by A in a circle in FIG. , Area A)) for sucking air in the area A. As a result, the sensor 30 senses smoke in the air in the area A and senses a fire in the area A.
In addition, the suction opening portion 31-2 is an area separated by the piping portions 21-1, 21-2, 21-5, and 21-6 (an area described as a circled C in FIG. 1 (hereinafter, area C. Referred to as)), and sucks the air in the area C. As a result, the detector 30 senses smoke in the air in the area C to detect fire in the area C.

Moreover, the suction opening part 31-3 is the area | region divided by the piping parts 21-1, 21-2, 21-6 and the floor surface G (the area described as E of the circle in FIG. 1 (henceforth, area). Suppose the air in E))). As a result, the sensor 30 senses smoke in the air in the area E to detect fire in the area E.
In addition, the suction opening portion 31-4 is an area separated by the piping portions 21-2, 21-3, 21-4, 21-5 (an area described as a circle B in FIG. 1 (hereinafter, area B. Referred to as))). As a result, the sensor 30 senses smoke in the air in the area B and senses a fire in the area B.

In addition, the suction opening portion 31-5 is an area separated by the piping portions 21-2, 21-3, 21-5, 21-6 (an area indicated by a circle D in FIG. 1 (hereinafter, an area D. Referred to as))). As a result, the sensor 30 senses smoke in the air in the area D to detect fire in the area D.
In addition, the suction opening portion 31-6 is an area defined by the piping portions 21-2, 21-3, 21-6, and the floor surface G (area indicated by F in a circle in FIG. 1 (hereinafter, area). The air in (F))) is sucked. As a result, the sensor 30 senses smoke in the air in the area F and senses a fire in the area F.

Although not shown in this embodiment, the opening / closing section 22, the solenoid valve 23, and the suction opening section 31 may be provided at different positions in the depth direction.
Further, in the present embodiment, an example in which one rack is installed in the warehouse 10 is shown, but a plurality of racks 20 may be installed in the warehouse 10.

  The pump 40 is provided on the basement floor of the warehouse 10, outdoors, or the like. For example, the control device 60 drives a motor (not shown) that drives the pump 40 to pump up fire extinguishing water from the water storage tank 50, and the Fire extinguishing water is pressurized and supplied to the upper end side of the pipe portion 21-1 arranged in the height direction.

As the fire extinguishing agent, water for extinguishing a fire may be used, or a fire extinguishing agent obtained by mixing water for extinguishing a fire with a chemical such as a foam extinguisher may be used. When the fire extinguishing agent of the foam extinguishing agent is used, a medicine tank and a mixing device are provided in the pipe between the pump 40 and the upper end side of the pipe portion 21-1. The mixing device mixes the fire extinguishing water and the medicine in the medicine tank to generate the fire extinguishing medicine, and supplies the extinguishing medicine under pressure to the upper end side of the pipe portion 21-1.
An elevated water tank (not shown) may be provided on the roof of the warehouse 10 together with the water tank 50. Fire extinguishing water is stored in the elevated water tank, and fire extinguishing water (extinguishing agent) is supplied to the pipe portion 21 under the control of the control device 60.
Further, the pipe portion 21 may be connected to a tap of a water supply to be piped, and tap water may be used as fire extinguishing water. In this case, for example, the pump 40 is provided between the pipe part 21 and the tap of the waterworks, and the pump 40 is started when the water pressure through which the pipe part 21 passes decreases.

The control device 60 controls the opening / closing part 22 and the solenoid valve 23 based on the detection result of the sensor 30.
FIG. 2 is a block diagram showing a configuration example of the control device 60 of the first embodiment. The control device 60 includes, for example, a sensing result acquisition unit 61, a specifying unit 62, an opening / closing control unit 63, a solenoid valve control unit 64, a control unit 65, a sensor installation information storage unit 66, and an opening / closing unit installation information. And a storage unit 67.

The sensing result acquisition unit 61 acquires the sensing result by the sensor 30, for example, by receiving the sensing result transmitted from the sensor 30.
The identification unit 62 identifies the area from which the fire extinguishing agent is released, based on the detection result of the sensor 30.

The identifying unit 62 determines the fire level according to, for example, the smoke density indicated by the detection result. The fire level is an index indicating the possibility that a fire has occurred. For example, when the smoke concentration is 7% or more, the fire level is determined as an alarm level. If the smoke density is 3% or more and less than 7%, it is determined that the fire level may be a warning level. If the smoke concentration is 3% or less, it is determined to be a normal level without a fire. Then, for example, when determining the alarm level, the identifying unit 62 determines the area indicated by the detection result determined to be the warning level.
For example, the identifying unit 62 determines the area indicated in the detection result by referring to the sensor installation information stored in the sensor installation information storage unit 66 based on the identification information of the sensor determined to be the alert level. To do. The sensor installation information is information in which the sensor's identification information is associated with the area sensed by the sensor. The identifying unit 62 identifies the area where the warning level smoke is detected as the area from which the fire extinguishing agent is released.

The opening / closing control unit 63 controls the opening or closing of the opening / closing unit 22. The opening / closing control unit 63 opens the opening / closing unit 22 corresponding to the area specified as the area from which the fire extinguishing agent is released by the specifying unit 62.
The opening / closing controller 63 refers to the opening / closing unit installation information stored in the opening / closing unit installation information storage unit 67 (see FIG. 5) to determine the opening / closing unit 22 corresponding to the area from which the fire extinguishing agent is released. The opening / closing unit installation information is information in which the identification information of the opening / closing unit 22 is associated with the area where the opening / closing unit 22 releases the fire extinguishing agent.
The opening / closing control unit 63 opens the opening / closing unit 22 determined to be the opening / closing unit 22 corresponding to the area from which the fire extinguishing agent is released. The opening / closing control unit 63 opens the opening / closing unit 22-1 when the area A is specified as the area from which the fire extinguishing agent is released, for example. The opening / closing control unit 63 similarly opens the corresponding opening / closing unit 22 when any of the areas B to F is specified as the area from which the fire extinguishing agent is released.

  The solenoid valve control unit 64 controls opening or closing of the solenoid valve 23. The solenoid valve control unit 64 includes a fire extinguishing agent in a pipe portion provided with at least the opening / closing unit 22 opened by the opening / closing control unit 63 (the opening / closing unit 22 corresponding to the area specified by the specifying section 62 for releasing the fire extinguishing agent). The opening or closing of the solenoid valve 23 is controlled so that The piping part provided with the opening / closing part 22 is a pipe around the position where the opening / closing part 22 is provided in the piping part 21, and for example, the piping part corresponding to the opening / closing part 22-1 is a solenoid valve 23-. It is a piping part arranged between 1 and 23-4.

  The solenoid valve control unit 64 refers to the sensor installation information storage unit 66 based on the identification information of the opened / closed unit 22 so that the pipe portion where the opened / closed unit 22 is provided is filled with the fire extinguishing agent. First, the opening or closing of the solenoid valve 23 is controlled. For example, when the opening / closing unit 22-1 is opened, the solenoid valve control unit 64 opens the solenoid valve 23-1 and closes the solenoid valves 23-2 and 23-4 to put a fire extinguishing agent on the pipe portion. Fill up.

  Similarly, for the opening / closing sections 22-2 to 22-6, the electromagnetic valve control section 64 opens or closes the electromagnetic valve 23 so that the pipe portion provided with the opening / closing section 22 to be opened is filled with the fire extinguishing agent. Control. In this case, the combination of opening or closing of the solenoid valve 23 is not limited to one for the opening / closing portion 22 to be opened, and there may be a plurality of combinations. For example, when the opening / closing part 22-5 is opened, the solenoid valve control part 64 opens the solenoid valves 23-1, 23-4, 23-5, 23-7, and the solenoid valves 23-2, 23-6. 23-8 may be closed, or the solenoid valves 23-1, 23-2, 23-5 may be opened and the solenoid valves 23-4, 23-6, 23-8 may be closed.

  Note that the electromagnetic valve control unit 64 may open all the electromagnetic valves 23 provided in the rack 20 when releasing the extinguishant, but the water pressure is insufficient and the extinguishing agent is not sufficiently released. There is a fear. For this reason, it is preferable that the solenoid valve control unit 64 controls the solenoid valve 23 so that at least the pipe portion provided with the opening / closing unit 22 that is opened is filled with the fire extinguishing agent.

  Further, in order to efficiently fill the fire extinguishant with the piping portion provided with the opening / closing portion 22 that is opened, a plurality of supply destinations of the fire extinguishing agent supplied under pressure from the pump 40 may be provided. For example, in the fire extinguishing system 1, the pump 40 supplies pressurized extinguishant to each of the solenoid valves 23-1 to 23-9. In this case, for example, when the opening / closing part 22-5 is opened, the electromagnetic valve control part 64 opens either one of the electromagnetic valve 23-5 or 23-8 and closes the remaining electromagnetic valve 23. . As a result, only the pipe portion between the solenoid valves 23-5 and 23-8 can be filled with the fire extinguishing agent, and the fire extinguishing agent from the opening / closing section 22-5 can be discharged while maintaining the water pressure. You can

  The control unit 65 centrally controls the control device 60. The control unit 65 causes the specifying unit 62 to output the sensing result acquired by the sensing result acquisition unit 61, for example. The control unit 65 causes the opening / closing control unit 63 and the solenoid valve control unit 64 to output information indicating the area specified by the specifying unit 62.

The sensor installation information storage unit 66 stores sensor installation information regarding the installation position of the suction opening 31.
The opening / closing unit installation information storage unit 67 stores opening / closing unit installation information regarding the installation position of the opening / closing unit 22.

FIG. 3 is a diagram showing a configuration example of the sensor installation information stored in the sensor installation information storage unit 66 of the first embodiment.
As shown in FIG. 3, the sensor installation information includes items of a sensor ID, an installation position, height information, and plane information. The sensor ID indicates identification information that uniquely identifies the sensor 30 provided on the rack 20. At the installation position, a sensor 30 corresponding to the sensor ID indicates an area where a fire detection is performed. The height information is information indicating the height of the area sensed by the sensor 30 corresponding to the sensor ID. The plane information is information indicating the position in the plane direction of the area sensed by the sensor 30 corresponding to the sensor ID.
In this example, it is shown that the suction opening 31-3 of the detector ID “101” detects the fire in the area E, and the area E has a height of 0 to 1.5 m from the floor on which the rack 20 is installed. That is, the area is 0 to 3.0 m in the lateral direction and 0 to 1.0 m in the depth direction from the lower left of the front of the rack, that is, the left side storage space of the rack. Further, it is shown that the suction opening 31-5 of the sensor ID “102” detects the fire in the area D, and the area D has a height of 1.5 m to 3.0 m from the floor on which the rack 20 is installed. That is, the storage space is 3.0 m to 6.0 m in the lateral direction and 0 to 1.0 m in the depth direction from the lower left of the front of the rack, that is, the storage space on the right side of the rack and the middle part.

FIG. 4 is a diagram showing a configuration example of the opening / closing unit installation information stored in the opening / closing unit installation information storage unit 67 of the first embodiment.
As shown in FIG. 4, the opening / closing unit installation information includes items of an opening / closing unit ID, an installation position, a solenoid valve ID opened at the time of release, height information, and plane information. The opening / closing part ID indicates identification information for uniquely identifying the opening / closing part 22 provided on the rack 20. An area where the fire extinguishing agent is released by the opening / closing part 22 corresponding to the opening / closing part ID is shown at the installation position. The solenoid valve ID opened at the time of release shows the identification information of the solenoid valve 23 that is opened when the opening / closing part 22 corresponding to the opening / closing part ID is opened. The height information is information indicating the height of the area where the opening / closing section 22 corresponding to the opening / closing section ID releases the fire extinguishing agent. The plane information is information indicating the position in the plane direction of the area where the opening / closing section 22 corresponding to the opening / closing section ID releases the fire extinguishing agent.

  In this example, the opening / closing part 22-5 with the opening / closing part ID “201” is provided so as to release the fire extinguishing agent to the area D, and when releasing, the solenoid valve 23-1 with the solenoid valve ID “301”, It is shown that the solenoid valve 23-2 with the solenoid valve ID “302” and the solenoid valve 23-5 with the solenoid valve ID “305” are opened. Further, the area D has a height of 1.5 m to 3.0 m from the floor on which the rack 20 is installed, 3.0 m to 6.0 m in the lateral direction from the lower left front of the rack, and 0 to 1.0 m in the depth direction. Area, that is, the storage space on the right side of the rack and in the middle. Further, the opening / closing part 22-1 having the opening / closing part ID “202” is provided so as to release the fire extinguishing agent to the area A, and when releasing the solenoid valve 23-1 having the solenoid valve ID “301” is opened. It has been shown that Further, the area A has a height of 3.0 m to 4.5 m from the floor on which the rack 20 is installed, and an area of 0 to 3.0 m in the lateral direction and 0 to 1.0 m in the depth direction from the lower left front side of the rack. That is, it is the storage space on the left side of the rack and on the upper level.

FIG. 5 is a flowchart showing an operation example of the control device 60 of the first embodiment.
First, the control device 60 acquires the detection result of the sensor 30 by the detection result acquisition unit 61 (step S1).
Next, the control device 60 determines whether or not to extinguish the extinguishant, based on the smoke density indicated by the detection result (step S2). The control device 60 determines that the fire extinguishing agent is to be released when the detection result shows that the smoke concentration is equal to or higher than a predetermined threshold value (for example, 7%).
When determining that the extinguishant is to be released, the control device 60 identifies the area where the extinguishant is to be released by the identifying unit 62 (step S3).
The control device 60 controls the solenoid valve 23 by the solenoid valve control unit 64 to fill the pipe portion provided with the opening / closing unit 22 corresponding to the area specified to release the fire extinguisher with the fire extinguisher (step S4). ).
The control device 60 opens the opening / closing section 22 corresponding to the area specified by the opening / closing control section 63 when the extinguishing agent is released (step S5), and releases the extinguishing agent.

  On the other hand, when the control device 60 determines in step S2 that the extinguishing agent is not released, the control device 60 returns to step S1 and acquires another sensing result.

As described above, the fire extinguishing system 1 of the embodiment is a hollow pipe that constitutes the frame of the rack 20, and is a pipe portion 21 to which the fire extinguishing agent is supplied and a pipe portion 21 that is provided in the pipe portion 21 and discharges the fire extinguishing agent. The opening / closing unit 22, the detector 30 that senses a fire in the area where the rack 20 is provided, the specifying unit 62 that specifies the area from which the fire extinguishing agent is released based on the detection result of the sensor 30, and the specifying unit. An opening / closing control unit 63 that controls opening / closing of the opening / closing unit 22 according to the area specified by 62.
As a result, in the fire extinguishing system 1 of the embodiment, the framework of the rack 20 and the pipes can be integrated, and the storage space in the rack 20 can be made wider than in the case where the pipes are installed in the rack 20. . Further, by integrating the framework of the rack 20 and the piping, it is not necessary to perform the piping work to install the piping on the rack 20, and it is possible to suppress the cost of installing the fire extinguishing equipment.

  In the above-described embodiment, the case where the specifying unit 62 specifies the area in which the smoke of the alarm level is detected (hereinafter, the alarm area) is specified as the area from which the extinguishant is released has been described. However, the specifying unit 62 may specify an area within a predetermined distance from the alarm area as an area from which the fire extinguishing agent is released. As a result, as the flame grows, fire-extinguishing activities can be performed in consideration of the possibility of fire spreading to the area outside the alarm area, and fire spread can be prevented.

  The area within a predetermined distance from the alarm area includes not only an area within a predetermined distance in the plane direction from the alarm area but also an area within a predetermined distance in the height direction from the alarm area.

Further, in the above-described embodiment, there are cases where the area where the sensor 30 senses a fire (hereinafter, sensing area) and the area where the opening / closing section 22 discharges the fire extinguishing agent (hereinafter, discharging area) are in the same division. The example has been described. However, the sensing area and the emission area are not always the same. For example, the two opening / closing portions 22 may be provided in a space where the three suction opening portions 31 are provided at equal intervals in the plane direction. In such a case, the sensing area does not completely coincide with the emitting area because the sensing area and the emitting area are divided by different criteria.
In such a case, it may be difficult for the opening / closing control unit 63 to determine which opening / closing unit 22 should be opened when the area where the extinguishant is released is specified by the specifying unit 62. Conceivable.

  As a countermeasure against this, the opening / closing control unit 63 determines the opening / closing unit 22 that releases the fire extinguishing agent, based on the information indicating the position of the area specified by the specifying unit 62. Thereby, even when the sensing area and the emitting area are divided by different criteria, the emitting area corresponding to the position is determined based on the position of the sensing area, and any opening / closing section 22 is opened. It is possible to determine whether or not to do it.

  The identifying unit 62 acquires information about the position of the area from which the fire extinguishing agent is released. The information regarding the position of the area is, for example, information indicating the height of the area, the width in the lateral direction, and the length in the depth direction. For example, the identifying unit 62 refers to the sensor installation information storage unit 66 based on the sensor ID of the sensor in which the alarm level smoke is sensed to determine the height and the position in the plane direction in the identified area. get.

The opening / closing control unit 63, based on the information indicating the height and the position in the plane direction of the area specified by the specifying unit 62, for example, the opening / closing unit that sets the position higher than the area specified by the specifying unit 62 as the emission area. The opening / closing part 22 of which the lowest position is the discharge area is determined to be the opening / closing part 22 that opens to release the fire extinguishing agent. That is, it is determined that the opening 22 capable of discharging the fire extinguishing agent is opened to a height closest to the area where the fire is detected. As a result, the fire extinguishing agent can be discharged from a height immediately adjacent to the area where the smoke is detected, so that it is possible to extinguish the fire while minimizing water loss.
The opening / closing control unit 63 refers to the opening / closing unit installation information storage unit 67 based on the information indicating the height of the area specified by the specifying unit 62, so that the position higher than the area specified by the specifying unit 62 is set. The opening / closing part 22 to be the discharge area is determined.

  For example, when the area specified by the specifying unit 62 is the area C in FIG. 4, the height of the area specified by the specifying unit 62 is 0 to 1.5 m. In this case, the opening / closing control unit 63 determines the opening / closing unit 22 having the discharge area at a position higher than 1.5 m from the installation floor of the rack based on the opening / closing unit installation information. When the information shown in FIG. 5 is stored as the opening / closing unit installation information, the opening / closing control unit 63 determines that the opening / closing unit ID “201” whose height of the discharge area is 1.5 m to 3.0 m and the height of the discharge area is The opening / closing part 22 having the opening / closing part ID “202” of 3.0 m to 4.5 m is opened.

  In the example of FIG. 5, in the area where smoke at the alarm level is detected and the area where the opening / closing section 22 with the opening / closing section ID “201” releases the fire extinguishing agent, there is no overlapping area in the plane direction, so the opening / closing section It seems inappropriate to release the fire extinguishing agent from the opening / closing part 22 of ID “201”. However, as the flame grows, there is a possibility that the fire may spread from the opening / closing section 22 with the opening / closing section ID “201” to the area where the fire extinguishing agent is released. Therefore, from the viewpoint of preventing the spread of fire, the identifying unit 62 extinguishes the fire from a position higher than the height in the area in which the warning level smoke is detected, regardless of the position in the plane direction in the area in which the warning level smoke is detected. It is desirable to open the opening / closing portion 22 that releases the agent.

  When the opening / closing unit 22 having a discharge area at a position higher than the area where the alarm level smoke is detected does not exist, the opening / closing control unit 63 releases the highest area among the opening / closing units 22 provided in the rack 20. You may make it open and close the opening / closing part 22. As a result, when the fire source is located lower than the area where the warning level smoke is detected and the area of the fire source is the discharge area of the opening / closing section 22, it is possible to extinguish the fire source. is there.

  Further, the opening / closing control unit 63, based on the information indicating the position in the plane direction of the area acquired by the specifying unit 62, for example, the opening / closing unit that makes the area where the smoke of the alarm level is sensed at least part of the emission area. 22 is determined as the opening / closing part 22 that opens to release the fire extinguishing agent. The opening / closing control unit 63 refers to the opening / closing unit installation information storage unit 67 on the basis of the information indicating the position in the plane direction of the area specified by the specifying unit 62, thereby releasing at least the area specified by the specifying unit 62. The opening / closing part 22 which is a part of the area is determined.

  For example, when the area specified by the specifying unit 62 is the area C in FIG. 4, the position in the plane direction of the area specified by the specifying unit 62 is horizontal: 0 to 3.0 m, depth: 0 to 1.0 m. Is. In this case, the opening / closing control unit 63, based on the opening / closing unit installation information, has a range of 0 to 3.0 m in the lateral direction and 0 to 1.0 m in the depth direction from the reference position of the rack (here, the lower left front side of the rack). Is determined as at least a part of the discharge area. When the information shown in FIG. 5 is stored as the opening / closing unit installation information, the opening / closing control unit 63 determines that the area in the plane direction of the discharge area is 0 to 3.0 m in the lateral direction and 0 to 1.0 m in the depth direction. The opening / closing part 22 having the opening / closing part ID “201” is opened. As a result, the fire extinguishing agent can be released from the opening / closing unit 22 that makes the area specified by the specifying unit 62 at least part of the discharge area, and the fire can be extinguished in the area where the alarm level is detected. .

(Second embodiment)
Next, a second embodiment will be described. The present embodiment is different from the above-described embodiments in that the opening / closing part 22 is a sprinkler head.
In the present embodiment, the sprinkler head is a closed type sprinkler head in which the outlet for the extinguishing agent is closed in a normal state that is not a fire. Further, in the present embodiment, the pipe portion 21 is a wet pipe filled with the fire extinguishing agent in the normal state. When a fire is detected and the outlet of the sprinkler head opens, the extinguishing agent is released.
Further, in the present embodiment, the opening / closing part 22 is a heat-sensitive sprinkler head in which the outlet of the fire extinguishing agent is opened by the heat of the fire. For this reason, in the present embodiment, the opening / closing unit 22 can also serve as the sensor 30, so that the sensor 30 can be omitted.

The opening / closing part 22 detects the heat of a fire or the like and opens.
The identifying unit 62 determines whether the opening / closing unit 22 is opened. For example, the identifying unit 62 determines the opening of the opening / closing unit 22 by detecting the flow rate of the fire extinguishing agent flowing through the pipe unit 21 with a water flow detection device (not shown) provided in the pipe unit 21. For example, in the specifying unit 62, in the piping unit 21 in which the opening / closing unit 22 is provided, the two flowing water detection devices respectively provided on both sides of the opening / closing unit 22 both flow toward the opening / closing unit 22 side with a flow rate of a predetermined amount or more. When it is sensed, it is determined that the opening / closing part 22 is opened.
When the identifying unit 62 determines that the opening / closing unit 22 is opened, the electromagnetic valve control unit 64 controls the electromagnetic valve 23 so that the fire extinguishing agent is supplied to the opened opening / closing unit 22.

  As described above, in the fire extinguishing system 1 according to the second embodiment, the solenoid valve control unit 64 controls the solenoid valve 23 so that the specific opening / closing unit 22 is supplied with the fire extinguishing agent, thereby releasing the fire. It is possible to properly maintain the water pressure of the agent.

(Modification 1 of the second embodiment)
Next, a modified example 1 of the second embodiment will be described. This modification is different from the above-described embodiment in that, in the fire extinguishing system 1 of the second embodiment, in addition to the sensor 30, the solenoid valve 23 and the functions of the control device 60 other than the pump control are omitted.
In the present modification, for example, a flowing water detection device is provided at the end of the pipe portion 21 on the pump 40 side.
The control device 60 detects whether or not any opening / closing part 22 provided in the pipe part 21 is opened by detecting the flow rate of the extinguishing agent flowing through the pipe part 21 by the water flow detection device. Further, when the control device 60 determines that one of the opening / closing parts 22 provided in the pipe part 21 is opened, the pump 40 is activated so that the fire extinguishing agent is supplied from the water tank 50 to the pipe part 21. To do.
As described above, in the fire extinguishing system 1 in the modified example of the second embodiment, the simple configuration in which the sensor 30, the solenoid valve 23, and the functions other than the pump control in the control device 60 in the fire extinguishing system 1 are omitted. With the configuration, the device cost can be suppressed, and inexpensive fire extinguishing equipment can be constructed.
In this modification, the controller 60 may control the activation of the pump 40 so that the water pressure of the fire extinguishing agent flowing through the pipe portion 21 is kept constant, thereby omitting the running water detector. .

(Modification 2 of the second embodiment)
Next, a modified example 2 of the second embodiment will be described. This modification is different from the above-described embodiment in that the pump 40 is omitted in the fire extinguishing system 1 of the second embodiment.
In this modification, for example, in the fire extinguishing system 1, the water tank 50 is provided on the roof. Alternatively, in the fire extinguishing system 1, the pipe portion 21 may be connected to the water supply and piped.
In addition, in this modification, the amount of the extinguishant discharged by the sprinkler facility is equal to the amount of the extinguishant stored in the water storage tank 50. Alternatively, when the piping portion 21 is configured to be connected to the water supply and is piped, the flow rate of the extinguishing agent (water for extinguishing fire) released by the sprinkler equipment per unit time and the unit time per unit time that can be supplied from the water supply Equivalent to the flow rate. Therefore, in the present embodiment, even when the extinguishing agent is released, the water pressure to be released does not decrease, so that pressurized supply by the pump is not necessary.
As described above, in the fire extinguishing system 1 according to the modified example 2 of the second embodiment, the pump 40 is omitted, so that the same effect as that of the above-described second embodiment is obtained.

(Modification 3 of the second embodiment)
Next, a modified example 3 of the second embodiment will be described. This modification is different from the above-described embodiments in that the fire extinguishing system 1 of the second embodiment functions as a pre-operation type sprinkler facility.
In this modification, the sensor 30 is not omitted. That is, the fire extinguishing system 1 includes the sensor 30. In this modification, the pipe of the pipe portion 21 is filled with air in the normal state. The opening / closing part 22 is a heat-sensitive sprinkler head that opens due to the heat of fire.

A dry running water detection device is provided at the end of the pipe portion 21 on the pump 40 side. This dry-type running water detection device is an on-off valve that supplies a fire extinguishing agent to the pipe portion 21 under the control of the control device 60. The dry-type running water detection device is kept closed in the normal state.
When a fire is detected by the detector 30, the control device 60 opens the dry running water detection device and supplies the extinguishant into the pipe of the pipe portion 21. Then, when the opening / closing part 22 opens due to the heat of the fire, the extinguishing agent is released.
As described above, in the fire extinguishing system 1 according to the modified example 3 of the second embodiment, by configuring the fire extinguishing system 1 to operate as a preliminary operation type sprinkler facility, the occurrence of a fire can be detected more accurately, It is possible to prevent the sprinkler head from opening and causing water loss for some reason other than the above.

(Third Embodiment)
Next, a third embodiment will be described. The present embodiment differs from the above-described embodiments in that the fire extinguishing system 1 includes an open type sprinkler head.
The fire extinguishing system 1 in the present embodiment is a dry sprinkler facility in which the opening / closing part 22 is provided with an open type sprinkler head which is always in an open state, and the pipe of the pipe part 21 is filled with air in a normal state. Further, in the present embodiment, the sensor 30 is a smoke sensor that detects smoke due to fire.

In the present embodiment, an opening valve is provided at the end of the piping portion 21 on the pump 40 side. The primary side (pump 40 side) of this release valve is filled with a fire extinguishing agent, and when a fire is detected by the detector 30, the open valve is opened so that the secondary side (piping part 21 side). Extinguishant is supplied to.
The controller 60 determines the area where the fire is detected by the detector 30. The controller 60 controls the solenoid valve 23 to release the extinguishing agent to the determined area. The control method of the solenoid valve 23 according to the area where the fire is detected by the control device 60 may be the same as that of the first embodiment.

As described above, in the fire extinguishing system 1 according to the third embodiment, the opening / closing part 22 is an open type sprinkler head, and the control device 60 controls the solenoid valve according to the area where the fire is detected. By controlling 23, the extinguishing agent is discharged to the area where the fire has started.
Here, in the occurrence of a fire, a smoky smoke is generated in the initial stage, and then a flame is generated to expand the fire. Therefore, in the case of the closed type sprinkler head, it is considered that the fire may have already spread when the sprinkler head operates by detecting heat from the fire.
On the other hand, in the fire extinguishing system 1 of this embodiment, the sensor 30 is a smoke sensor. Therefore, it is possible to detect a fire in the initial stage. That is, in the fire extinguishing system 1 of the third embodiment, the extinguishing agent can be released to the area where the fire has occurred in the initial stage of the fire, and the fire can be extinguished more reliably.

  In the above-mentioned at least one embodiment, the case where the sensor is a suction type sensor has been described as an example, but the present invention is not limited to this. As the sensor, for example, a separate type dimming smoke sensor in which the light emitting unit and the light receiving unit are physically separated from each other may be used. Alternatively, a spot-type sensor that senses information about a fire at a predetermined location (spot) may be used. When the sensor is a spot type sensor, it may have any of a smoke sensor, a heat sensor, and a CO (carbon monoxide) sensor having a fire sensing function, or these sensors may be used. It may have a sensing function that combines some of the functions. However, from the viewpoint of early detection of a fire, a smoke detector that can detect smoke that occurs early in the fire is desirable. Further, the separate type dimming smoke sensor can be installed so that the monitoring range is wider than that of the spot type sensor. On the other hand, the spot type sensor can specify the position of the fire point with higher accuracy at the time when the fire is detected than the separation type dimming smoke sensor. Therefore, the sensor in the embodiment may be appropriately selected depending on the environment in which the sensor is installed.

  All or a part of the fire extinguishing system 1 and the control device 60 in the above-described embodiment may be realized by a computer. In that case, a program for realizing this function may be recorded in a computer-readable recording medium, and the program recorded in this recording medium may be read by a computer system and executed. The “computer system” here is a concept including a so-called fire alarm system and the fire extinguishing system 1 in the embodiment, and includes hardware such as an OS, peripheral devices, and an electric circuit having no OS. Further, the “computer-readable recording medium” refers to a portable medium such as a flexible disk, a magneto-optical disk, a ROM, a CD-ROM, or a storage device such as a hard disk built in a computer system. Further, the "computer-readable recording medium" means to hold a program dynamically for a short time like a communication line when transmitting the program through a network such as the Internet or a communication line such as a telephone line. In this case, a volatile memory inside a computer system that serves as a server or a client in that case may hold a program for a certain period of time. Further, the program may be for realizing a part of the functions described above, and may be a program that can realize the functions described above in combination with a program already recorded in a computer system, It may be realized using a programmable logic device such as FPGA.

  Although the embodiment of the present invention has been described in detail above with reference to the drawings, the specific configuration is not limited to this embodiment, and includes a design and the like within a range not departing from the gist of the present invention.

1 ... Fire extinguishing system 10 ... Warehouse 20 ... Rack 21 ... Piping part 22 ... Opening / closing part 23 ... Electromagnetic valve 30 ... Sensor 40 ... Pump 50 ... Water tank 60 ... Control device 61 ... Sensing result acquisition part 62 ... Specific part 63 ... Opening / closing Control unit 64 ... Solenoid valve control unit 65 ... Control unit 66 ... Sensor installation information storage unit 67 ... Opening / closing unit installation information storage unit

Claims (8)

A hollow pipe that constitutes the frame of the rack, and a pipe part to which the fire extinguishing agent is supplied,
An opening / closing section provided in the piping section to release the fire extinguishing agent by opening the section.
A sensing unit for sensing a fire in the area where the rack is provided,
A specifying unit that specifies an area from which the fire extinguishing agent is released, based on a detection result by the detecting unit;
An opening / closing control unit that controls opening / closing of the opening / closing unit according to the area specified by the specifying unit,
Fire extinguishing system. A plurality of the opening / closing sections are provided at mutually different positions in the plane direction,
A plurality of the sensing units are provided to sense the fire in different areas in a plane direction,
The specifying unit specifies an area from which the fire extinguishing agent is released in a plane direction based on the detection result of the detecting unit, and the opening / closing control unit at least the area in the plane direction specified by the specifying unit, the fire extinguishing agent. Opening the opening and closing part as an area for releasing the agent,
The fire extinguishing system according to claim 1. A plurality of the opening / closing sections are provided at positions different from each other in the height direction, and a plurality of the detection sections are provided to detect the fire in areas different from each other in the height direction.
The specifying unit specifies the height of the area from which the fire extinguishing agent is released, based on the detection result of the detecting unit, and the opening / closing control unit is provided at a position higher than the height specified by the specifying unit. Among the opening / closing portions, at least the opening / closing portion where the area for releasing the fire extinguishing agent is the lowest position is opened,
The fire extinguishing system according to claim 1. When the opening / closing unit is provided with a plurality of opening / closing units, at least the opening / closing unit at which the area for releasing the fire extinguishing agent is at the highest position is opened.
The fire extinguishing system according to any one of claims 1 to 3. A solenoid valve provided in the piping section,
An electromagnetic valve control unit that controls the electromagnetic valve so that the fire extinguishing agent is supplied to the opening / closing unit provided at a position corresponding to the area specified by the specifying unit,
The fire extinguishing system according to any one of claims 1 to 4. A hollow pipe that constitutes the frame of the rack, and a pipe part to which the fire extinguishing agent is supplied,
A sprinkler head that is provided in the pipe section and opens an outlet for discharging the fire extinguishing agent based on a detection result regarding a fire,
Fire extinguishing system. A hollow pipe that constitutes the frame of the rack, and a pipe part to which the fire extinguishing agent is supplied,
An opening provided in the piping section,
A solenoid valve provided in the piping section,
A smoke detector for detecting smoke related to a fire in the area where the rack is provided;
A specifying unit for specifying an area from which the fire extinguishing agent is released, based on the result of detection by the smoke detecting unit,
An electromagnetic valve control unit that controls the electromagnetic valve so that the fire extinguishing agent is supplied to the opening provided at a position corresponding to the area specified by the specifying unit, through the piping unit,
Fire extinguishing system. A hollow pipe that constitutes the frame of the rack, and a pipe part to which the fire extinguishing agent is supplied,
An opening / closing section provided in the piping section to release the fire extinguishing agent by opening the section.
A sensing unit for sensing a fire in the area where the rack is provided,
A fire extinguishing method by a computer used in a fire extinguishing system comprising
A specifying step, in which the specifying section specifies an area from which the fire extinguishing agent is released, based on a detection result by the detecting section,
An opening / closing control unit controls the opening / closing of the opening / closing unit according to the result specified by the specifying unit,
Fire extinguishing method.

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