JP5295886B2 - Pre-actuated sprinkler fire extinguishing equipment - Google Patents

Description

  The present invention relates to a pre-actuated sprinkler fire extinguishing facility that is disposed in a department store, a condominium, an exhibition hall, or the like.

  In the wet type pre-actuated sprinkler fire extinguishing equipment, the sprinkler pipe on the secondary side of the normally closed open valve (running water detector) is filled with fire extinguishing water, and the opening is opened when the fire detector detects a fire. When the valve is opened and the sprinkler head is opened due to the heat of a fire, water discharge starts.

  In the wet type, if the sprinkler head is caused by something other than a fire, for example, if a rod accidentally collides with the sprinkler head, it will break (open) and fire extinguishing water in the secondary pipe will be released, causing water damage. Resulting in.

Therefore, in order to solve the above problem, the following dry type pre-acting sprinkler fire extinguishing equipment is used (for example, see Patent Document 1).
A main valve connected in the middle of the primary side pipe, an open valve connected to the tip of the primary side pipe, a secondary side pipe connected to the open valve, and a closure connected to the secondary side pipe A sprinkler head, a fire detector, and a control panel for outputting a fire-extinguishing water supply start signal for supplying fire-extinguishing water to the secondary pipe when receiving a fire signal from the fire sensor, the main valve, The primary pipe between the open valve and the open valve is a wet pipe filled with fire extinguishing water, the secondary pipe is a dry pipe filled with pressurized air, and the open valve is fire extinguisher water. A pre-operated fire hydrant that is opened by a supply start signal.

JP 2009-61247 A

  In the conventional example, both the fire detector and the sprinkler head are activated to start water discharge. That is, when the fire detector detects a fire, the fire detection signal is sent to the control panel, and the control panel opens the main valve and the open valve, so that the secondary side pipe is filled with extinguishing water, Reach the sprinkler head. Thereafter, when the sprinkler head is opened due to the heat of the fire, water discharge is started.

  In a normal dry type pre-actuated sprinkler fire extinguishing system, about 200 to 300 sprinkler heads are arranged for one open valve (running water detection device), but in an actual fire, it operates in most cases. The number of sprinkler heads is 10 or less (about 5% or less), and many sprinkler heads are not opened (operated) because they do not receive the heat of a predetermined fire. This means that 90% or more of the sprinkler head is filled with unnecessary fire extinguishing water.

  In this way, if unnecessary water filling is performed, it must be drained at the time of restoration after fire extinguishing. However, pre-actuated sprinkler fire extinguishing equipment installed in offices or the like has a sprinkler head facing downward at a position lower than the secondary side pipe, so that water accumulated in the sprinkler head is It cannot be removed unless it is removed from the secondary piping.

  If the water is not drained, the water accumulated in the sprinkler head may cause corrosion or leak when the sprinkler head is damaged. Therefore, the water draining operation must be performed by attaching and detaching each sprinkler head, but this operation requires a lot of time and labor.

  In addition, when a fire occurs, water is supplied to all of the secondary side pipes of the open release valve (running water detection device), so it takes time to start the water discharge from the sprinkler head that discharges water and to stabilize the water discharge pressure.

  Furthermore, the secondary piping of the running water detector is filled with low-pressure air from the compressor, and the pressure is monitored to monitor the piping and sprinkler head for damage. Unless the secondary side piping and all the sprinkler heads of the flowing water detection device are examined, the leak point cannot be specified. Therefore, a lot of time and labor are required for the investigation.

  In view of the above circumstances, it is an object of the present invention to supply water only to a sprinkler head disposed in a fire extinguishing section of a fire occurrence area.

The present invention includes a fire detector, a water flow detection device connected via a pipe from a water supply main, a control panel that opens a valve body of the water flow detection device when receiving a fire signal of the fire detector, A sprinkler fire extinguishing equipment connected to a secondary pipe of a water flow detection device, activated by the heat of a fire and discharging water, for selection between the sprinkler head and the water flow detection device And a selection pressure switch for sending an operation signal to the control panel when the monitoring pressure on the secondary side of the selection valve decreases, and at the time of monitoring, the control panel controls the selection valve while closed, in a fire, the control panel receives an operation signal of the selected pressure switch, as well as opening the selection electric valve, monitoring within the secondary side piping of the water flow detection device A pressurizing device for supplying force, the motor-operated valve opened by the operation signal of the pressure switch for selection is restored to the monitoring pressure, and the fire detector is not activated, It is characterized by closing .

The present invention includes a fire detector, a water flow detection device connected via a pipe from a water supply main, a control panel that opens a valve body of the water flow detection device when receiving a fire signal of the fire detector, A sprinkler fire extinguishing equipment connected to a secondary pipe of a water flow detection device, activated by the heat of a fire and discharging water, for selection between the sprinkler head and the water flow detection device And a selection pressure switch for sending an operation signal to the control panel when the monitoring pressure on the secondary side of the selection valve decreases, and at the time of monitoring, the control panel controls the selection valve while closed, in a fire, the control panel receives an operation signal of the selected pressure switch, as well as opening the selection electric valve, monitoring within the secondary side piping of the water flow detection device Comprising a pressure device for supplying the power, the supply valve provided in the bypass passage connecting the monitoring pressure of the primary side and the secondary side of the selection electric valve, the supply valve, the secondary side of the selection electric valve When the monitoring pressure decreases, the monitoring pressure is replenished from the primary side of the electric motor for selection through the replenishing valve .

  The present invention is characterized in that a terminal test valve is connected by branching between the flowing water detection device and the electric motor for selection.

  Since the present invention is configured as described above, in the event of a fire, water is supplied only to the sprinkler head disposed in the fire extinguishing section of the fire occurrence area. For this reason, when water is collected in the sprinkler head during recovery after fire extinguishing, only the sprinkler head in the fire extinguishing section of the fire occurrence area needs to be performed, and the sprinkler head in other fire extinguishing sections is not necessary. The burden of unloading time and labor can be greatly reduced.

  Since the sprinkler head that supplies water in the event of a fire is selected only for the sprinkler head in the fire extinguishing section of the fire occurrence area, the time until the compressed air in the secondary side pipe is released or further compressed is shorter than the conventional example. In addition, it is possible to shorten the time until the start of water discharge from the sprinkler head and the water discharge pressure and the water discharge amount are stabilized.

  When inspecting fire extinguishing equipment, it is possible to inspect the secondary side of the motor valve for selection without water by conducting the operation test of the water flow detector by the operation of the fire detector and the test of the motor valve for selection separately. it can.

  Further, by installing the terminal test valve on the primary side of the selection motor-operated valve, the water discharge pressure can be confirmed without putting water on the secondary side of the selection motor-operated valve.

  Even if leakage occurs from the secondary side piping or sprinkler head, leakage monitoring can be performed for each fire extinguishing section, so the investigation range of the leakage location is limited, and the investigation becomes easier than the conventional example.

It is a top view which shows 1st Example of this invention. It is a top view which shows 2nd Example of this invention. It is a longitudinal cross-sectional view which shows the supply valve of a valve closing state. It is a longitudinal cross-sectional view which shows the replenishment valve of a valve opening state.

  In the wet type pre-actuated sprinkler fire extinguishing equipment, the fire extinguishing region is divided into a plurality of parts, and sprinkler heads for discharging water to each fire extinguishing section are provided. The sprinkler head of each fire extinguishing section is provided in the head piping portion of the secondary side piping, and each head piping portion is connected to an open valve (running water detection device) via a common piping portion.

  In order to solve the above-mentioned problem, the present inventor does not supply water to all the head piping sections in the event of a fire, but supplies water only to the head piping section of the fire extinguishing section that extinguishes the fire occurrence area. I thought that it was good, and repeated research experiments on the specific means.

  As a result, an electric valve for selection is disposed between the common pipe part of the secondary side pipe and each head pipe part connected to the secondary side of the open valve (running water detection device), and each head It has been found that a configuration may be adopted in which a pressure switch for selection is provided in the piping section.

In the above configuration, when the fire detector detects a fire, the open valve is opened to fill the common piping, and the sprinkler head is opened by the heat of the fire, and the pressure drop in the head piping is selected. When the pressure switch for detection is detected, the selection valve for the head pipe is opened, and water is supplied from the common pipe to the head pipe.
The present invention has been made based on the above findings.

A first embodiment of the present invention will be described with reference to FIG.
The dry-type pre-acting sprinkler fire extinguishing equipment provided in department stores and the like includes a fire detector 1, a running water detection device 5 connected from a water supply main (not shown) via a pipe 3, and the running water detection. A control panel 7 for controlling the device 5, a secondary side pipe 9 connected to the secondary side of the flowing water detection device 5, and a closed sprinkler connected to the secondary side pipe 9 via a branch pipe 11. And a head 13.

  The fire detector 1 is, for example, a smoke detector, and a plurality of fire detectors 1 are arranged on the ceiling surface at a predetermined interval. Each fire detector 1 has an area to be monitored, and transmits a fire signal to the control panel 7 when a fire is detected in the monitored area.

The flowing water detection device 5 which is an example of the on-off valve is, for example, a pre-actuated flowing water detection device (not shown) provided with a piston chamber, and a pump cutoff pressure is always applied to the primary side and the piston chamber. The secondary side is filled with a predetermined pressure, for example, a monitored compressed air pressure of 0.09 MPa (1 kgf / cm ² ).

  The piston chamber of the flowing water detection device 5 is connected to an electric pilot valve (not shown). Since the electric pilot valve is normally closed, the pressure in the piston chamber is maintained, so that the flowing water The detection device 5 is closed.

  And if the said electric pilot valve is open | released by the command of the said control panel 7, the pressure water in a piston chamber will be drained, this water flow detection apparatus 5 will be open | released, and pressure water (extinguishing water) will be in the secondary side piping 9. And a pressure switch (not shown) for running water is activated to send a running water alarm.

  A pressurizing device 15 for supplying a monitoring pressure and a pressure switch 16 for monitoring the pressure drop are provided on the side of the flowing water detection device 5 of the secondary side pipe 9. The pressurizing device 15 and the pressure switch 16 are connected to the control panel 7.

  The secondary side pipe 9 includes a common pipe part 9Y connected to the flowing water detection device (open valve) 5 and a head pipe part 9X continuous to the common pipe part 9Y. A plurality of branch pipes 11 are arranged at a predetermined interval in the head pipe section 9X, and closed sprinkler heads 13 are connected downward to both ends of each branch pipe 11.

  The fire monitoring area of the fire detector 1 is divided into a plurality of fire extinguishing sections (fire extinguishing blocks), and each fire extinguishing section is provided with the head piping section 9X, and the head piping section 9X includes the above-described head piping section 9X. Similarly, a sprinkler head 13 is provided. In this embodiment, it is divided into four fire extinguishing sections 10A, 10B, 10C, and 10D. For example, four sprinkler heads 13 are disposed in the head piping sections 9X of the fire extinguishing sections 10A to 10D, respectively. .

  The secondary side pipe 9 is provided with a selection motor operated valve 17. The selection electric valve 17 is provided between the head piping portion 9X and the common piping portion 9Y of each of the fire extinguishing sections 10A to 10D, and is controlled by the control panel 7.

  One end of the common pipe section 9Y is connected to the flowing water detection device 5, and the other end is provided with a terminal test valve 20, and an intermediate section thereof is a branch section, and the fluid flowing through the common pipe section 9Y A part is divided into left and right at this branching portion and reaches the primary side of the selection motor-operated valve 17.

  A selection pressure switch 24 is disposed in the secondary side head piping portion 9 </ b> X of the selection motor-operated valve 17. The pressure switch 24 detects the pressure on the secondary side of the selection motor-operated valve 17 and transmits the detection result to the control panel 7. The pressure switch 24 is arranged in each of the head piping sections 9X of the fire extinguishing sections 10A to 10D. It is installed.

Next, the operation of this embodiment will be described.
At the time of fire monitoring The secondary side pipe 9 is filled with compressed air of a predetermined pressure, for example, 1 kgf / cm ² , and all the selection motor-operated valves 17 are closed.
When the pressure switch 24 for selection or the pressure switch 16 for monitoring pressure drop detects a pressure drop, a detection signal is sent to the control panel 7.
Then, the control panel 7 drives the pressurizing device 15 based on the signal to supply pressurized air to the secondary side piping, thereby bringing the common piping portion 9Y and the head piping portion 9X to a predetermined pressure.

  More specifically, for example, when the pressure switch 24 for selection in the head piping section 9X of the fire extinguishing section 10A detects a pressure drop, the detection signal is sent to the control panel 7. Then, the control panel 7 sends a control signal to the pressurizing device 15 and the selection motor-operated valve 17a to activate the pressurization device 15 to supply compressed air into the secondary side pipe 9, and to select the electric motor for selection. The valve 17a is opened and compressed air is supplied to the head piping section 9X.

  The selection pressure switch 24 of the head piping section 9X sends a predetermined pressure detection signal to the control panel 7 when the head piping section 9X reaches a predetermined pressure. At this time, if the fire signal from the fire detector is not received, the control panel 7 sends a close command to the electric motor for selection 17a to close the valve 17a.

When a fire occurs When the fire detector 1 detects a fire, a fire signal is sent to the control panel 7. Since the control panel 7 opens the electric pilot valve based on the fire signal, the pressure water in the piston chamber of the flowing water detection device 5 is discharged, the pressure in the piston chamber is reduced, and the flowing water detection device 5 is opened. To do.

  For this reason, the pressure water flows into the secondary pipe 9 side, and a pressure switch for flowing water alarm (not shown) is activated to issue an alarm. At this time, since all of the selection motor-operated valves 17 are closed, the common piping portion 9X of the secondary side piping 9 is filled with extinguishing water of a predetermined pressure, but the head piping portion 9X is supplied with water. Not.

  Further, when the fire expands, the sprinkler head 13 in the fire extinguishing section corresponding to the fire occurrence area, for example, the fire extinguishing section 10A, is opened by the heat of the fire, and the compressed air is discharged. Therefore, since the pressure of the head piping portion 9X of the fire extinguishing section 10A decreases, the selection pressure switch 24 operates and sends a pressure decrease signal to the control panel 7.

  Then, the control panel 7 sends an opening command to the selection motor-operated valve 17a of the fire extinguishing section 10A, so that the motor-operated valve 17a is opened and the fire-extinguishing water filled in the common pipe section 9Y is suddenly changed to the head pipe section. It flows into 9X and is discharged from the open sprinkler head 13 toward the fire source. At this time, since the selection motor-operated valves 17 of the head piping portions 9X of the other fire-extinguishing sections 10B to 10D are not opened, the fire-extinguishing water does not flow into the head piping portions 9X.

  Therefore, since the fire-extinguishing water is supplied only to the head piping section 9X of the fire-extinguishing section where the fire is occurring, the fire-extinguishing water does not pass through the head piping section 9X of the fire-extinguishing section that is not related to the fire extinguishing, Water is supplied quickly and without waste.

  The time until the compressed air in the secondary side pipe 9 is released or further compressed is shorter than the conventional example, and the time until the start of water discharge from the sprinkler head and the water discharge pressure / water discharge amount is stabilized. It is shortened than before.

Inspecting the fire extinguishing equipment In this embodiment, when the fire extinguishing equipment is inspected, the operation test of the flowing water detection device 5 by the operation of the fire detector and the test of the motor selection valve 17 are separately performed, so that Inspection can be done without putting fire-extinguishing water on the next side.

  By disposing the terminal test valve 20 on the primary side (common piping portion 9Y) of the selection motor-operated valve 17, the discharge pressure can be reduced without putting fire-extinguishing water on the secondary side (head piping portion 9X) of the selection motor-operated valve 17. Can be confirmed.

  Even if water leaks from the secondary side pipe 9 or the sprinkler head 13, the leakage monitoring can be carried out for each common pipe part 9Y and each head pipe part 9X in each fire extinguishing section, so that the investigation range of the leak point is limited. The survey becomes easier than before.

A second embodiment of the present invention will be described with reference to FIG. 2. The same reference numerals as those in FIG. 1 have the same names and functions.
The difference between this embodiment and the first embodiment is that a bypass channel 28 is provided to connect the primary side (common piping portion 9Y) and the secondary side (head piping portion 9X) of the motor-operated valve 17 for selection. This is because the supply valve 30 is provided in the flow path 28.

  As shown in FIGS. 3 to 4, the replenishment valve 30 includes a valve body 34 that is attached to and detached from the valve seat 32, a valve rod 38 that connects the valve body 34 and the mounting base 36, and the mounting base 36 is fixed. And a spring 42 for urging the mounting base 36 in the valve opening direction.

  In this embodiment, when the secondary side pressure of the replenishing valve 30 is not less than the specified value, the diaphragm 40 is pushed up to the secondary side pressure P2 and the valve body 32 is seated as shown in FIG. The valve is closed. Therefore, the fluid does not flow from the primary side bypass pipe 28a into the secondary side bypass pipe 28b.

  When the secondary side pressure in the secondary side bypass 28b becomes less than a specified value due to leakage of compressed air from the head piping portion 9X of the fire extinguishing section 10A, as shown in FIG. 4, the pressing force of the diaphragm 40 decreases. Therefore, the diaphragm 40 is pushed down by the spring force S2 of the spring 42, and the valve body 34 is separated from the valve seat 32 and is opened.

  For this reason, the compressed air on the primary side (common piping portion 9Y) of the selection motor-operated valve 17a flows into the secondary side (head piping portion 9X) through the bypass passage 28, so that the pressure in the head piping portion 9X increases. To do.

When the pressure in the head piping section 9X exceeds a specified value, the diaphragm 40 is pushed up to the secondary pressure P2 and the valve body 32 is seated, so that the valve is closed as shown in FIG. .
When the replenishing valve 30 is used, pressure is automatically replenished without being controlled by the control panel 7 or the like.

  By providing an orifice with a diameter smaller than the diameter of the sprinkler head 13 in the flow path or bypass of the replenishing valve 30, a monitoring pressure is supplied in the case of a subtle leak, and the area monitoring pressure switch is activated when the sprinkler head is activated.・ A motor valve for area selection opens.

DESCRIPTION OF SYMBOLS 1 Fire detector 5 Flowing water detection apparatus 7 Control panel 9 Secondary side piping 9X Head piping part 9Y Common piping part 13 Closed type sprinkler head 15 Pressurization apparatus 17 Selection motor valve 20 Terminal test valve 24 Selection pressure switch 10A Fire extinguishing section 10B Fire extinguishing zone 10C Fire extinguishing zone 10D Fire extinguishing zone

Claims (3)

A fire detector, a water flow detection device connected via a pipe from a water supply main, a control panel that opens a valve body of the water flow detection device upon receiving a fire signal of the fire detector, and In a pre-actuated sprinkler fire extinguishing equipment comprising a sprinkler head connected to the secondary side pipe, activated by the heat of fire, and discharged.
A pressure switch for selection, which provides a selection motor valve between the sprinkler head and the flowing water detection device, and sends an operation signal to the control panel when the monitoring pressure on the secondary side of the selection motor valve decreases; the provided, the control panel at the time of monitoring, while closing the selection electric valve, a fire, the control panel receives an operation signal of the selected pressure switch, as well as opening the selection electric valve ,
A pressurizing device for supplying a monitoring pressure into the secondary pipe of the flowing water detector;
The pre-operation type , wherein the selection motor-operated valve opened by an operation signal of the selection pressure switch is closed when the monitoring pressure is restored and the fire detector is not activated. Sprinkler fire extinguishing equipment. A fire detector, a water flow detection device connected via a pipe from a water supply main, a control panel that opens a valve body of the water flow detection device upon receiving a fire signal of the fire detector, and In a pre-actuated sprinkler fire extinguishing equipment comprising a sprinkler head connected to the secondary side pipe, activated by the heat of fire, and discharged.
A pressure switch for selection, which provides a selection motor valve between the sprinkler head and the flowing water detection device, and sends an operation signal to the control panel when the monitoring pressure on the secondary side of the selection motor valve decreases; When monitoring, the control panel closes the selection valve, while in a fire, the control panel receives an operation signal of the selection pressure switch and opens the selection valve. ,
A pressurizing device for supplying a monitoring pressure into the secondary pipe of the flowing water detector;
A supply valve is provided in a bypass passage that connects the primary side and secondary side monitoring pressure of the selection motor operated valve, and the supply valve is configured such that when the monitoring pressure on the secondary side of the selection motor operated valve decreases, the supply valve A pre-actuated sprinkler fire extinguishing system , wherein the monitoring pressure is replenished from the primary side of the motor-operated valve for selection . Claim 1, characterized in that branching to end the test valve is connected from between the water flow detection device and the selection electric valve, or, 2 pre-activated sprinkler fire extinguishing facility according.

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