JP4331418B2 - Sprinkler fire extinguishing equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a sprinkler fire extinguishing facility.
[0002]
[Prior art]
In wet sprinkler fire extinguishing equipment, a water flow detection device is usually provided at the base end side of the secondary side pipe to which a closed sprinkler head is connected, and the primary side pipe connected to this water flow detection device. The base end side is connected to a water supply main connected to the water storage tank via a fire pump.
When the sprinkler head operates, the water charged in the secondary side pipe is discharged from the sprinkler head, and the water in the secondary side pipe flows. The running water detection device detects this water flow and outputs a running water signal to the sprinkler control device, whereby the control device detects that the sprinkler head has been operated. Thereafter, when the pressure reduction in the pipe is detected by the pressure switch, the fire extinguishing pump is driven to feed water in the water storage tank to the sprinkler head.
[0003]
[Problems to be solved by the invention]
In sprinkler fire extinguishing equipment as described above, water is discharged from the sprinkler head in two ways: when a fire occurs and when the sprinkler head goes out due to an external impact, etc. Is very low. In particular, when the inside of the building is under construction or the like, it is easy for objects to hit the sprinkler head, and the sprinkler head may explode due to such an accident.
The possibility that the sprinkler head will explode is higher than when the sprinkler head operates due to a fire, and water is discharged from the sprinkler head each time.
[0004]
The present invention has been made in order to solve the above-described problem, and can prevent water loss caused by sprinkler head water discharge caused by an outburst rather than water discharge from a sprinkler head due to a fire. The purpose is to provide a sprinkler fire extinguishing equipment.
[0005]
[Means for Solving the Problems]
Sprinkler fire extinguishing facility according to the present invention, the secondary side piping closed sprinkler head is connected, and a primary side pipe base end side connected to the water mains, and the secondary pipe and the primary pipe It has a flowing water detection device provided in between and a fire detector provided in the same protection area as the closed sprinkler head, and the primary side pipe and the secondary side pipe are always filled with water. In a sprinkler fire extinguishing equipment, a normally open control valve provided in the primary side pipe or a pipe between the primary side and the secondary side of the water flow detection device, a fire signal from the fire detector and the water flow detection A running water signal from the device is input, and a control device that controls the opening and closing of the control valve based on the input signal, and when the running water detection device operates and outputs the running water signal, immediately closed the control valve A closure signal to output, while closing the control valve for a predetermined time, wait for the fire signal is sent from the fire detector, when there is a fire signal to open the control valve, Thereafter, the presence or absence of a running water signal from the running water detection device is confirmed again .
[0006]
In the above sprinkler fire extinguishing equipment, a water loss prevention switch is provided in the control device, and when the water loss prevention switch is not pushed, the control device does not close the control valve when the water flow signal is generated. The presence or absence of the fire signal was judged .
[0011]
DETAILED DESCRIPTION OF THE INVENTION
[Embodiment 1]
FIG. 1 is a system diagram of a sprinkler fire extinguishing facility according to Embodiment 1 of the present invention. In the figure, 1 is attached to a secondary side pipe 2 which is a water supply pipe, and is a closed type sprinkler head installed on a ceiling surface or the like, 3 is provided on the base end side of the secondary side pipe 2, and a secondary side pipe When water as fire extinguishing water in 2 flows out of the sprinkler head 1, a running water detection device 4 that detects the flow and outputs a running water signal is provided in the secondary side pipe 2. It is a normally closed automatic drain valve that discharges water. Reference numeral 5 denotes a normally open control valve that partitions the secondary side pipe 2 and a primary side pipe 6 described later. In the drawing, the secondary side of the flowing water detection device 3 is referred to as a secondary side pipe 2 and the primary side of the flowing water detection device 3 is referred to as a primary side pipe 6 with reference to the flowing water detection device 3.
[0012]
7 is a water supply main pipe connected to the water storage tank 8 via the fire pump 9, and 6 is a primary side pipe whose base end side is connected to the water supply main pipe 7 and whose other end is connected to the control valve 5. 10 is a fire detector that is installed in a protected area where the sprinkler head 1 is installed, detects a fire and outputs a fire signal, 11 is a water flow signal of the water flow detector 3 and a fire signal of the fire detector 10 is input. A control device that outputs an open / close signal to the control valve 5 and the automatic drain valve 4 based on the input signal, and includes a fire determination switch 12 and a water loss prevention switch 13. The water loss prevention switch 13 is not essential in the present embodiment.
[0013]
An example of the flowing water detection device 3 is shown in FIG. In FIG. 2, the on-off valve 56 is an example of the control valve 5, and the flowing water detection device 3 also has a partial function of the control valve 5. That is, the flowing water detection device 3 has a function of blocking the primary side pipe 6 and the secondary side pipe 2 by the valve body 36, and the open / close valve 56 is opened and closed by a signal from the control device 11, thereby detecting the flowing water. It has a function of opening and closing the valve body 36 of the device 3. Reference numeral 31 denotes a main body having a primary side connection port 32 to which the primary side pipe 6 is connected and a secondary side connection port 33 to which the secondary side pipe 2 is connected. A primary side and a secondary side are partitioned by a valve seat 34 having a water port 34a. Reference numeral 35 denotes a cylinder formed integrally with the main body 31 on the secondary side of the main body 31, and a piston-like valve body 36 is slidably disposed in the cylinder 35. Reference numeral 37 denotes a rod provided on the valve body 36, and one end of the rod projects outward from the outer shell of the cylinder 35. Reference numeral 38 denotes a flow detector such as a limit switch controlled by the rod 37, and its output signal (flow water signal) is sent to the control device 11.
[0014]
Reference numeral 40 denotes a pipe having one end connected to the primary side of the main body 31, and the other end connected to the cylinder 35 of the main body 31 via an orifice 41 and a check valve 42.
45 is a pressure regulation pilot valve, which is partitioned by a partition plate 48 having a water passage hole 47, and is connected to a branch chamber 40a branched from the pipe 40, and a movable portion 51 supported by the partition plate 48 and the diaphragm. And a secondary chamber 50 connected to the secondary side of the main body 31 by a pipe 55 to be described later. A valve 52 is connected to the movable portion 51 to open and close the water passage hole 47 of the partition plate 48 and is normally biased by a spring 53 to close the water passage hole 47. A spring 54 biases the movable portion 51 downward.
[0015]
55 is a pipe connecting the secondary chamber 50 of the pressure regulating pilot valve 45 and the secondary side of the main body 31, and the secondary side of the main body 31 and the pressure regulating pilot valve by an open / close signal from the control device 11. A normally open on-off valve 56 is provided to communicate with or shut off the 45 secondary chambers 50. The pipe 55 is connected to the primary side connection port 32 of the flowing water detection device 3 via the branch pipe 40 a and the pipe 40 and is handled as a part of the primary side pipe 6.
[0016]
A drain pilot valve 61 is connected to a drain main pipe 66 and includes a pressure regulating chamber 62 having a drain port 63 opened and closed by a movable valve 64 supported by a diaphragm. The pressure regulating chamber 62 is connected by a pipe 57. It is connected to the secondary side of the main body 31. The movable valve 64 is biased downward by a spring 65, and the drain port 63 is normally closed.
Reference numeral 4 denotes a normally closed automatic drain valve connected to a drain pipe 58 provided between the secondary side of the main body 31 and the drain main pipe 66 and opens and closes by an open / close signal from the control device 11. Reference numeral 4 a denotes a normally closed manual drain valve connected to the drain pipe 58 in parallel with the automatic drain valve 4.
[0017]
In the flowing water detection device 3 configured as described above, the secondary side pipe 2 is always filled with water having the same pressure as the water in the primary side pipe 6 at the time of monitoring. The water passage 34a is closed in close contact with the valve seat 34, and the primary side and the secondary side are blocked. Such a charged state is created as follows. That is, since there is no water in the cylinder 35 in the initial state, the valve body 36 is in an openable state, the water passage 34 a is open, and the water in the primary side pipe 6 passes through the flowing water detection device 3. The secondary side pipe 2 including the sprinkler head 1 is filled with water having the same pressure as the water in the primary side pipe 6.
[0018]
On the other hand, the water in the primary side pipe 6 is gradually filled from the pipe 40 through the orifice 41 and the check valve 42 into the cylinder 35 of the main body 31, and the water pressure in the cylinder 35 is almost equal to the water pressure on the primary side. Then, since the pressure receiving area on the cylinder 35 side of the valve body 36 is larger than the pressure receiving area on the primary side, the valve body 36 is pressure-bonded to the valve seat 34 by the differential pressure between them, and the water inlet 34a is closed to close the primary side and the secondary side. Block the side.
[0019]
During this time, the primary chamber 46 of the pressure regulating pilot valve 45 is gradually filled with water on the primary side via the pipe 40 and the branch pipe 40 a, and the secondary chamber 50 is connected to the secondary chamber 50 via the on-off valve 56 from the pipe 55. The secondary water is filled. At the time of monitoring, since the water pressure in the primary chamber 46 and the water pressure in the secondary chamber 50 are substantially the same, the pressure in the primary chamber 46 and the secondary chamber 50 is in a balanced state, and the valve 52 The water passage hole 47 is closed by raising by the urging force.
[0020]
In the monitoring state, for example, when the water pressure in the secondary side pipe 2 rises due to a change in temperature, the water pressure in the pressure regulating chamber 62 of the drain pilot valve 61 communicating therewith also rises, so the movable valve 64 rises. The drain outlet 63 is opened, and a part of the water in the secondary side pipe 2 is drained through the drain main pipe 66. Thereby, when the pressure in the secondary side pipe 2 decreases, the movable valve 64 is urged by the spring 65 and descends, and the drain port 63 is closed. In this way, the secondary water pressure is always maintained in a state substantially equal to the primary water pressure.
[0021]
When the water pressure in the secondary side pipe 2 decreases due to water leakage or other causes, the water pressure in the secondary chamber 50 of the pressure regulating pilot valve 45 connected to the secondary side also decreases, so the movable part 51 is attached to the spring 54. The valve 52 connected thereto is lowered and the water passage hole 47 is opened. Thereby, the primary side water is introduced into the secondary side pipe 2 through the primary chamber 46, the water passage hole 47, the secondary chamber 50, and the on-off valve 56, and the water pressure in the secondary side pipe 2 is increased. As the water pressure in the secondary side pipe 2 rises, the water pressure in the secondary chamber 50 rises, pushes up the movable part 51 to raise the valve 52, and closes the water passage hole 47. In this way, the water pressure on the secondary side is always maintained approximately equal to the water pressure on the primary side.
Although an example of the flowing water detection device 3 has been described above, the flowing water detection device used in the present invention is not limited to this, and another configuration may be used.
[0022]
Next, the operation of the present embodiment will be described with reference to the flowcharts of FIGS. In the monitoring state, the secondary side pipe 2 including the sprinkler head 1 is filled with water as fire extinguishing water, and the primary side pipe 6 and the secondary side pipe 2 are Blocked. The water pressure in the secondary side pipe 2 is always maintained at substantially the same pressure as the water pressure in the primary side pipe 6 by the action of the pressure regulating pilot valve 45 and the drainage pilot valve 61 described above.
[0023]
When a fire occurs and the sprinkler head 1 operates to discharge water (step S-1), the water pressure in the secondary side pipe 2 decreases and the water in the cylinder 35 passes through the branch pipe 40a and the pipe 55. Therefore, the valve body 36 in the water flow detector 3 moves to the right in the figure to open the water inlet 34a to flow the primary water to the secondary side, and the rod 37 The flow detector 38 is activated to output a running water signal (step S-2). Receiving this, the control device 11 immediately outputs a close signal to the on-off valve 56 and immediately closes it (step S-3). As a result, the water flowing through the pipe 40 does not flow to the secondary side but accumulates in the cylinder 35 and closes the valve body 36, so that the primary side and the secondary side are blocked, and water does not flow to the secondary side. Then, in this state, a predetermined time (for example, about 10 seconds) is waited for a fire signal sent from the fire detector 10 to the control device 11 (step S-4).
[0024]
The reason for waiting for a fire signal to be sent for a predetermined time here is that a fire signal is usually output after a fire signal is output in the event of a fire. For example, when a fire occurs directly under the sprinkler head 1 In this case, a running water signal is output first, and then a fire signal may be output. Therefore, in such a case, a predetermined time is waited.
[0025]
During this time, when the control device 11 receives a fire signal (step S-5), it judges that a fire has occurred, outputs an open signal to the on-off valve 56, and opens the on-off valve 56 (step S-6). . Then, it is confirmed whether or not the running water state is continued by the running water detection device 3 (step S-7), and if it is continued, a running water signal is output (step S-8), and the sprinkler head 1 continues to discharge water. The fire is extinguished (step S-9). As described in the prior art, when the decompression in the pipe is detected, the fire pump 9 is driven thereby, and the water in the water storage tank 8 is supplied to the water supply main pipe 7, the primary side pipe 6, and the flowing water detection. It is pumped to the secondary pipe 2 through the device 3.
[0026]
The reason for confirming again in steps S-7 and S-8, although the presence or absence of the running water signal is confirmed in steps S-1 and S-2, is as follows. That is, the flowing water detection device may open the valve for a moment and output a flowing water signal when a high pressure is applied to the primary side. In order to prevent the instantaneous output of the flowing water signal, delay means such as a chamber are usually provided.
In this Embodiment, the flow of the water of the flowing water detection apparatus 3 is stopped by once closing the on-off valve 56 by step S-3. Then, after waiting for about 10 seconds in step S-4, for example, the presence or absence of a running water signal is confirmed again in step S-7, so that the instantaneous opening operation of the running water detection device as described above may be ignored. it can.
[0027]
That is, even if the flowing water detection device 3 opens for a moment and outputs a flowing water signal (step S-2), the flow of water is stopped by closing the control valve 5 until reaching step S-7, and For example, since it waits for 10 seconds (step S-4), since the factor which makes the flowing water detection apparatus 3 open for a moment disappears during this time, it is not determined YES in step S-7. For this reason, the flowing water detection device 3 used in the present embodiment does not need to be provided with delay means for preventing an instantaneous flowing water signal.
In addition, although the fire signal was received by step S-5, in step S-7, when it is judged that a flowing water state was not continued and it was a false alarm, it returns to step S-1.
[0028]
If it is determined in step S-5 that a fire has occurred regardless of not receiving the fire signal from the fire detector 10, the fire determination switch 12 provided in the control device 11 is turned on (step S-). 10). Thereby, the operation | movement after above-mentioned step S-6 is performed, the on-off valve 56 is open | released, water is discharged from the sprinkler head 1, and it extinguishes.
[0029]
On the other hand, if it is determined in step S-5 that no fire signal is output from the fire detector 10 and no fire has occurred, the fire determination switch 12 is not turned on (step S-10), and the sprinkler head 1 is judged to be an unscheduled water discharge due to the sudden outburst (Step S-11), an abnormal signal is output from the control device 11 (Step S-12), the automatic drain valve 4 is opened, and the secondary water is drained. (Step S-13), drainage from the sprinkler head 1 is reduced.
During this time, when the control device 11 receives a fire signal, or when the fire determination switch 12 is turned on because it is known that a fire has occurred (step S-14), the automatic drain valve 4 is closed. (Step S-15), the operations after Step S-6 described above are performed.
[0030]
In the above description, the case where the open / close valve 56 composed of a two-way valve is provided in the pipe 55 that connects the secondary side of the flowing water detection device 3 and the secondary chamber 50 of the pressure regulating pilot valve 45 has been shown. Instead of the valve 56, an open / close valve 56a composed of a three-way valve as shown in FIG.
In FIG. 3A, the open / close valve 56 a has a primary side connection port 561 connected to the secondary chamber 50 side of the pressure regulating pilot valve 45 and a secondary side connection connected to the secondary side of the flowing water detection device 3. A drainage side connection port 563 connected to the port 562 and the drainage main pipe 66 is provided, and an L-shaped water passage 565 is provided in the valve body 564.
[0031]
In such an on-off valve 56a, the primary side connection port 561 and the secondary side connection port 562 are normally communicated with each other through a water passage 565, and the secondary side connection port 33 of the main body 31 and the secondary chamber of the pressure regulating pilot valve 45 are connected. 50. When the sprinkler head 1 discharges unexpectedly due to an outburst and drains water on the secondary side in order to deal with this, as shown in FIG. Rotate the secondary side connection port 562 and the drain side connection port 563 through the water channel 565. Thereby, water supply from the primary side pipe 6 to the secondary side pipe 2 is stopped, drainage of water in the secondary side pipe 2 is promoted, water loss can be reduced, and the automatic drain valve 4 Is no longer necessary.
[0032]
In the above description, the case where the valve body 36 of the flowing water detection device 3 is closed by closing the on-off valve 56 to shut off the primary side and the secondary side is shown, but as shown in FIG. May be provided in the primary side pipe 6 in series with the flowing water detection device 3, and the primary side and the secondary side may be shut off by the control valve 5 itself.
[0033]
As is clear from the above description, according to the present embodiment, when a running water signal is output from the running water detection device 3, the control valve 5 or the on-off valve 56 is first closed by a closing signal from the control device 11, If the control device 11 does not receive a fire signal from the fire detector 10 after the flow of water to the secondary side pipe 2 is shut off and the control valve 5 or the on-off valve 56 is closed, the sprinkler head 1 may Since the control valve 5 or the on-off valve 56 is kept closed by determining that the water has been discharged accidentally, drainage from the sprinkler head 1 can be reduced and water loss can be suppressed.
[0034]
When the control device 11 receives a fire signal after closing the control valve 5 or the on-off valve 56, the control valve 5 or the on-off valve 56 is opened and water is pumped from the primary side pipe 6 to the secondary side pipe 2. Since the water is discharged from the sprinkler head 1, the fire can be extinguished.
Furthermore, as described above, when the sprinkler head 1 bursts out and is discharged temporarily, the automatic drain valve 4 is opened to drain the water in the secondary side pipe 2, so the water drained from the sprinkler head The amount of water can be reduced, and water loss can be further reduced.
[0035]
In addition, although the sprinkler head 1 operates due to a fire and the control valve 5 or the on-off valve 56 is closed based on the flow signal from the flow detection device 3, the control device 11 generates a fire signal for some reason. When it was not received, the occurrence of a fire was confirmed and the fire determination switch 12 was turned on, so that the control valve 5 or the on-off valve 56 was opened and water was pumped to the secondary side pipe 2. Can be extinguished early.
[0036]
[Embodiment 2]
In the first embodiment, when the control device 11 receives a running water signal from the running water detection device 3, the control valve 5 or the on-off valve 56 is always closed to shut off the primary side pipe 6 and the secondary side pipe 2. Although the water loss prevention effect is obtained by suppressing the discharge of water due to the sprinkler head 1 being expelled, the water discharge from the sprinkler head 1 may be delayed in the event of a fire.
In the present embodiment, a water loss prevention switch 13 is provided in the control device 11 so that the user can select which of the merits of water loss prevention and early water discharge can be utilized.
[0037]
That is, as shown in the flowchart of FIG. 5, it is determined whether or not the flowing water detection device 3 is in a flowing state by the operation of the sprinkler head 1 (step S-16), and in the flowing state, the water loss prevention switch 13 is turned on. It is determined whether or not (step S-17). When the water loss prevention switch 13 is turned on, the operations after step S-3 in FIG. 4 are performed.
If the water loss prevention switch 13 is not turned on, the control device 11 determines whether or not a fire signal has been received (step S-18). If a fire signal has been received, the control device 11 and subsequent steps in FIG. Is performed. When no fire signal is received, the control valve 5 or the on-off valve 56 is closed (step S-19), and the operations after step S-11 in FIG. 4 are performed.
As described above, according to the present embodiment, when the sprinkler head 1 operates, the user can select whether to give priority to prevention of water loss or to give priority to early water discharge. That is, when the water loss prevention switch 13 is not pressed, the presence or absence of a fire signal is determined without closing the control valve 5 or the on-off valve 56 when a running water signal is generated. Does not occur.
[0038]
【The invention's effect】
The sprinkler fire extinguishing equipment according to the present invention first closes the control valve to shut off the flow of water when a flow signal is output from the flow detection device, and closes the control valve when no fire signal is output from the fire detector. Since the state is continued, drainage from the sprinkler head can be reduced and water loss can be suppressed.
[0039]
Further, when a fire signal is output after closing the control valve, the control valve is opened and water is discharged from the sprinkler head, so that the fire can be extinguished quickly.
In addition, when the sprinkler head discharges temporarily, the automatic drain valve is opened to drain the water on the secondary side, so that the water loss can be further reduced.
[0040]
If the fire signal is not output even though the control valve is closed based on the water flow signal from the water flow detection device, the fire determination switch is turned on to open the control valve and discharge water from the sprinkler head. Because it did so, it can be extinguished early.
[Brief description of the drawings]
FIG. 1 is a system diagram of a sprinkler fire extinguishing facility according to Embodiment 1 of the present invention.
FIG. 2 is an explanatory diagram of an example of the flowing water detection device of FIG. 1;
3 is an explanatory diagram of another example of the on-off valve of FIG. 2. FIG.
FIG. 4 is a flowchart for explaining the operation of the first embodiment.
FIG. 5 is a flowchart for explaining the operation of the second embodiment.
[Explanation of symbols]
1 sprinkler head, 2 secondary side piping, 3 water flow detector, 4 automatic drain valve, 5 control valve, 6 primary side piping, 7 drainage main, 10 fire detector, 11 control device, 12 fire determination switch, 13 water Loss prevention switch.

Claims (2)

And the secondary side piping closed sprinkler head is connected, the primary-side pipe connected to the base end side water mains, a water flow detection device is provided between the between the primary side piping secondary pipe A fire detector provided in the same protection area as the closed sprinkler head, and in the sprinkler fire extinguishing equipment in which the primary side pipe and the secondary side pipe are always filled with water,
A normally open control valve provided on the primary side pipe or a pipe between the primary side and the secondary side of the water flow detection device, a fire signal from the fire detector, and a water flow signal from the water flow detection device And a control device that controls opening and closing of the control valve based on the input signal,
The control device, when said water flow detection device has output water flow signal in operation, and outputs a closing signal to immediately closing the control valve,
With the control valve closed, wait for a fire signal from the fire detector for a predetermined time, open the control valve when there is a fire signal, and then from the running water detection device Sprinkler fire extinguishing equipment, characterized by checking again whether there is a running water signal . The control device is provided with a water loss prevention switch,
2. The control device according to claim 1, wherein when the water loss prevention switch is not pushed, the control device determines the presence or absence of the fire signal without closing the control valve when the flow signal is generated. Sprinkler fire extinguishing equipment.

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