JP2019187996A - Flow control valve in negative pressure wet type pre-operation sprinkler system - Google Patents

Abstract

To provide a flow control valve capable of eliminating problems of a conventional automatic valve with an orifice, and checking an operation of a piston part without causing pressurized water to flow in.SOLUTION: A flow control valve 1' installed in the middle part of a suction tube is composed of a body part 2 consisting of a cylinder part 2A and a cover part 2B, a piston part 9 provided so as to move forward by the pressure of water in the body part 2, and a coil spring 13 that energizes the piston part 9 in a backward movement direction. The cylinder part 2A is of a cylindrical shape whose one end is closed, and an outflow port 3 and an opening 4 connected to the inside of the outflow port 3 with a diameter smaller than a diameter of the outflow port 3 are provided in the central part of a closed part 2A'. The cover part 2B is of a cylindrical shape whose one end is closed, and an inflow port 7 is provided to a closed part 2B'. An inspection rod 14 for pushing the piston part 9 to the most advanced position against the energizing force of the coil spring 13 inside the cylinder part 2A is provided to the outside surface of the central part of the closed part 2B' of the cover part 2B.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a flow control valve in a negative-pressure wet pre-actuated sprinkler facility in which secondary side piping is filled with water and is in a negative pressure state except when a fire occurs.

  As a conventional fire extinguishing equipment, when the sprinkler head breaks, etc., it has the function of preventing water leakage and quickly discharging water in the event of a fire. There is a negative pressure wet pre-actuated sprinkler system that is in a negative pressure state.

  FIG. 12 is a schematic configuration diagram of such a negative pressure wet pre-actuated sprinkler facility. In the figure, reference numeral 100 denotes a negative pressure wet pre-actuated sprinkler facility.

  Reference numeral 101 denotes a primary side pipe that is piped up from the fire extinguishing water tank 102 via a water pump 103. Reference numeral 104 denotes a secondary side pipe connected to the primary side pipe 101 and piped to the sprinkler head 105.

Reference numeral 106 denotes a pre-operated running water detection device that is installed between the primary side pipe 101 and the secondary side pipe 104 and is kept closed except when a fire occurs. Reference numeral 107 denotes a fire detector installed on the ceiling for detecting a fire and sending out a fire signal.

108 is connected to the secondary side pipe 104 at one end side 108A, the other end side 108B is connected to the intake pipe 110 rising from the vacuum pump 109, and a drain pipe 111 having a lower end depending on the fire fighting water tank 102. A suction tube connected to

A flow control valve 112 is installed in the middle portion of the suction pipe 108 so that a small amount of flow is obtained when the negative pressure in the secondary side pipe 104 is normal, and a large amount of flow is provided when abnormal. The flow control valve 112 is an automatic valve with an orifice, such as a direct acting solenoid valve having a diameter of 40A. As another example, the rating is DC 24 volts, 1,580 mA.

In FIG. 12, reference numeral 113 denotes a vacuum switch for detecting the pressure in the secondary side pipe 104 installed at a position on the secondary side pipe 104 side of the flow rate control valve 112 in the middle of the suction pipe 108.

  Reference numeral 114 denotes a signal receiving board that receives a fire signal from the fire detector 107 when a fire occurs and transmits the signal to a control board described later.

  115 receives a signal from the signal receiving board 114, opens the pre-actuated water flow detection device 106 to bring the primary side pipe 101 and the secondary side pipe 104 into communication, and the water pump 103 It is a control panel to be operated. In the other figures, 116 is a steam separator installed at the connection portion of the intake pipe 110 to the suction pipe 108, and 117 is installed at the connection portion of the intake pipe 110 and the drain pipe 111 of the suction pipe 108. Check valve.

  When the fire does not occur, both the primary side pipe 101 and the secondary side pipe 104 are filled with water, and the inside of the secondary side pipe 104 is vacuum pumped via the suction pipe 108 and the intake pipe 110. 109 is a negative pressure state.

  Further, when a fire occurs, the fire detector 107 detects a fire and transmits a fire signal to the signal receiving board 114, and transmits the signal from the signal receiving board 114 to the control board 115. Receiving the signal, the control panel 115 opens the pre-actuated water flow detector 106 and activates the water pump 103. As a result, water is continuously discharged from the sprinkler head 105.

The conventional negative pressure wet pre-actuated sprinkler equipment is as described above. However, such equipment has a problem in the configuration that appropriately maintains the state of the negative pressure in the secondary side pipe. This is because an automatic valve with an orifice is used as the flow control valve 112 installed in the middle of the suction pipe 108.

  Thus, such an automatic valve with an orifice is a solenoid valve, and such a solenoid valve has a merit that the control method is simple, such as closing when not energized and opening when energized. It is large and must be energized while the valve element is open, requiring a large power source. As described above, the automatic valve with an orifice used in the conventional equipment is a direct acting solenoid valve having a caliber of 40A, and as an example, the rating is DC 24 volts, 1,580 mA. The current consumption is large and a large power source is required to open the valve body.

In addition, the electromagnetic valve that has been conventionally used has a problem in the event of a power failure because it consumes a large amount of current as described above and requires a large power source to open the valve element. In other words, during a power outage, the secondary pipe may suddenly increase in pressure due to damage to the secondary pipe, and the valve may need to be opened. It was necessary to take measures such as installing or supplying power with emergency power supply equipment. However, when a storage battery with a large capacity is provided, not only the size of the storage battery itself, but also the size of the control panel for storing it increases, and the cost also increases. In addition, when power is supplied from the emergency power supply facility, it is necessary to estimate the power supply capacity when designing the emergency power supply facility in advance, and there is a problem that the facility cannot be renewed.

Therefore, the present inventors have used the above-mentioned flow control valve that does not require power as a flow control valve for properly maintaining the pressure in the secondary side pipe, instead of the conventional automatic valve with an orifice that consumes a large amount of power. A negative-pressure wet pre-actuated sprinkler system has been devised first that can solve the conventional problems.

Further, the negative pressure wet pre-actuated sprinkler equipment previously devised by the present inventors has a configuration as shown in FIG. 8, except for the point of the flow control valve shown in FIGS. Since the other configuration is the same as that shown in FIG. 12, the same members are denoted by the same reference numerals, and the description thereof is omitted.

Thus, the flow control valve 1 used in the negative pressure wet pre-actuated sprinkler facility 100 ′ shown in FIG. 8 passes air and water flowing from the secondary side pipe into the suction pipe as shown in FIGS. The main body 2 includes a main body 2, a piston 9 that can be moved forward by the pressure of water in the main body 2, and a coil spring 13 that urges the piston 9 in the backward movement direction. Consists of a cylinder part 2A and a cover part 2B attached to one end of the cylinder part 2A. The cylinder part 2A has a cylindrical shape with one end part closed, and the central part of the closed part 2A '. The outlet 3 is provided with an opening 4 having a smaller diameter than the outlet 3 connected to the inside of the outlet 3, and the cover 2B has a cylindrical shape with one end closed. Port 2B 'is provided with an inlet 7 and the front The piston portion 9 has a cylindrical shape with one end closed 9 ', and the other end is formed with a flange portion 10 having an outer diameter equal to the inner diameter of the cylinder portion 2A. An opening 11 having a smaller diameter than the opening 4 of the closed portion 2A ′ in the portion 2A is provided, and an opening 12 having a larger diameter than the opening 11 is provided in the cylindrical portion, and the biasing force of the coil spring 13 is increased by the pressure of the flowing water. The flow control valve is configured such that the closed portion 9 'is in close contact with the inner surface of the closed portion 2A' of the cylinder portion 2A by moving to the most advanced position.

A male screw 5 is engraved on the outer peripheral surface on the other end side of the cylinder portion 2A, and a cover portion 2B in which a female screw 6 is engraved on the inner peripheral surface is screwed and mounted correspondingly. Has been made.

Further, an O-ring 8 is interposed between the end face on the other end side of the cylinder part 2A and the closed part 2B ′ of the cover part 2B, so that water tightness between the cylinder part 2A and the cover part 2B is maintained. I'm leaning.

Further, the coil spring 13 abuts on the flange portion 10 with the piston portion 9 inserted in the cylinder portion 2A, and presses and urges the piston portion 9 toward the inlet 7 of the cover portion 2B. Yes. Accordingly, water flows in from the inlet 7 of the cover portion 2B, and the piston portion 9 is moved forward in a state where the pressure exceeds the urging force of the coil spring 13.

The elastic force (spring constant) of the coil spring 13 is obtained when water is supplied from the primary side pipe 101 into the secondary side pipe 104 and a part of the water flows into the suction pipe 108 in the event of a fire. It is necessary to reduce the pressure only by the pressure.

The operation of the flow control valve 1 is as follows.
When there is a slow pressure increase due to volume expansion due to temperature change of the secondary side pipe or a slight air inflow from the flow rate control pipe, etc. at times other than when a fire occurs, the piston part 9 moves backward as shown in FIG. The air and water flowing in from the inlet 7 of the cover portion 2B merge through the small-diameter opening 11 and the large-diameter opening 12 of the piston portion 9 and from the opening 4 and the outlet 3 of the cylinder portion 2A. leak.

Further, when the sprinkler head or the like is damaged and the pressure in the secondary side pipe rapidly rises, the piston portion 9 is at the same retracted position as in FIG. 9 and the vacuum pump 109 is operated. And this leakage prevents water leakage. At this time, since the suction force of the vacuum pump 109 is lower than the elastic force of the coil spring 13, the piston portion 9 does not move.

In addition, when water is supplied from the primary side pipe 101 to the secondary side pipe 104 and a part of the water flows into the suction pipe 108 in the event of a fire, as shown in FIG. The piston portion 9 moves to the most advanced position against the urging force, and the closed portion 9 'is in close contact with the inner surface of the closed portion 2A' of the cylinder portion 2A. At this time, the vacuum pump 109 does not operate. As a result, only a small amount of water flows through the small-diameter opening 11 of the piston portion 9, and sufficient water discharge from the sprinkler head 105 is ensured. Although water continuously flows out from the small-diameter opening 11 of the piston portion 9, the influence of the outflow is small because the diameter of the opening 11 is small.

Then, when the pre-actuated running water detection device 106 is closed after the fire extinguishing is completed, the pressure in the secondary pipe 104 decreases due to water flowing out from the small-diameter opening 11 of the piston portion 9, and the piston portion 9 is moved to the coil spring 13. To return to the retracted position again.

As described above, the flow control valve 1 operates without requiring electric power.

Further, in the example shown in FIGS. 9 and 10, the flow control valve 1 is provided with the large-diameter opening 12 and the small-diameter opening 11 in the piston portion 9, but as in the example shown in FIG. Only the large-diameter opening 12 may be used. In addition, the example shown in FIG. 11 is used when the pressure in the secondary side pipe can be reduced by draining from a drain valve or the like installed in a distribution pipe communicating with the pre-actuated water flow detector. It is.

Thus, in the negative pressure wet pre-actuated sprinkler facility 100 ′ previously proposed by the present inventors shown in FIGS. 8 to 11, as a flow control valve for properly maintaining the pressure in the secondary side pipe. Since the flow control valve 1 which does not require electric power is used instead of the conventional automatic valve with an orifice which consumes a large amount of power, the conventional problems can be solved. Moreover, there is no need to consider power supply from the emergency power supply facility.

  The negative pressure wet pre-actuated sprinkler system 100 ′ previously devised by the present inventors exhibits the excellent actions and effects as described above. In addition, the present inventors have further conducted intensive studies in order to ensure the action and effect more sustainably.

The flow control valve 1 used in the negative pressure wet pre-actuated sprinkler facility 100 ′ previously devised by the present inventors has the above-described configuration and action, and the piston portion 9 flows in from the inlet 7 of the cover portion 2B. The piston 9 is moved to the most advanced position against the urging force of the coil spring 13 by the pressure of the water to be moved, but the piston portion 9 is in the retracted position as shown in FIG. Then, when the piston portion 9 is in the retracted position, air and water flow from the inlet 7 of the cover portion 2B, and these merge through the large-diameter opening 12 and the small-diameter opening 11 of the piston portion. If the state of flowing out from the opening 4 and the outlet 3 of the part 2A continues for a long period of time, calcium and impurities contained in water are deposited around the piston part 9 and the inner surface of the cylinder part 2A, or dust is attached. There is a possibility that the piston part may not operate normally when a fire occurs.

In view of this, the operation and effect of the flow rate control valve 1 can be more reliably and reliably confirmed by adding a configuration that can be periodically inspected and checked for the operation of the piston portion without allowing pressurized water to flow in. As a result, the inventors have found that the present invention can be achieved, and have completed the present invention.

Thus, the gist of the present invention is that
A pre-actuated water detection device and a primary pipe provided on the primary side of the pre-actuated water detection device and having a water supply means connected to the base end side;
Connected to the secondary side pipe connected to the sprinkler head, the vacuum pump using the secondary side pipe as a negative pressure, and the secondary side pipe and the vacuum pump. An intake pipe to
Provided at the connection between the secondary pipe and the intake pipe;
A main body part through which air and water flowing into the intake pipe from the secondary side pipe pass, a piston part provided in the main body part so as to be able to move forward by the pressure of water, and the piston part attached in the backward movement direction. In the flow control valve in the negative pressure wet pre-actuated sprinkler facility comprising the cylinder part and a cover part attached to one end side of the cylinder part,
A negative pressure is provided on the outer surface of the central portion of the closed portion of the cover portion, and an inspection rod that pushes the piston portion to its most advanced position against the biasing force of the coil spring in the cylinder portion. Located in flow control valve in wet pre-acting sprinkler facility.

  In the above configuration, the large-diameter opening and the small-diameter opening provided in the piston portion may be only the large-diameter opening.

  Further, in the above configuration, a protrusion for removing dirt in a small-diameter opening provided at the closed portion of the piston portion at the time of inspection may be provided at the tip of the inspection rod.

  Further, in the above configuration, a concave portion or a groove portion for preventing the inspection rod from contacting the small diameter opening provided in the closed portion of the piston portion at the time of inspection may be provided on the tip surface of the inspection rod. .

In the above configuration, a spring for returning the inspection rod to the operation start position may be provided.

  Further, in the above configuration, at the rear end portion protruding from the cover portion of the inspection rod, the protrusion at the tip portion of the inspection rod is inserted into the small diameter opening provided in the closed portion of the piston portion, and the piston portion is You may make it provide the mark for confirming having moved to the most advanced position in a cylinder part.

  Further, in the above configuration, a cap-shaped cover for preventing an erroneous operation of the inspection rod may be provided on the outer surface side of the central portion of the closed portion of the cover portion to cover the rear end portion protruding from the inspection rod cover portion. Good.

  Further, in the above-described configuration, a columnar body having a required outer diameter having a knob, in which an inspection rod and a rear end side are slidably inserted on the outer surface side of the central portion of the closed portion of the cover portion, and the columnar body A maintenance disassembling part constituted by a columnar body receiving hole into which the can be detachably fitted may be provided.

  The present invention is configured as described above, and as a flow control valve to be used, the flow control valve used in the negative pressure wet pre-acting sprinkler equipment previously devised by the present inventors is provided with an inspection rod for pushing out the piston portion. In addition, since it has been added a configuration that allows periodic operation and confirmation of the operation of the piston without injecting pressurized water, the effect of the flow control valve can be ensured more sustainably. Is something that can be done. As a result, it is possible to bring about a beneficial effect in terms of maintenance and management of the negative pressure wet pre-actuated sprinkler facility using the same.

  In addition, if the tip of the inspection rod is provided with a protrusion for removing dirt in the small-diameter opening provided in the closed portion of the piston during inspection, it is provided in the closed portion of the piston every time inspection is performed. The dirt in the small-diameter opening can be pushed out and removed.

  In addition, a concave portion or a groove portion for preventing dirt from adhering to the small-diameter opening due to the inspection rod contacting the small-diameter opening provided in the closed portion of the piston portion at the time of inspection is provided on the tip surface of the inspection rod. In the case where it is provided, it is possible to prevent dirt from adhering to the small-diameter opening due to the inspection rod coming into contact with the small-diameter opening provided in the closed portion of the piston portion during inspection.

  Further, when a spring for returning the inspection rod to the operation start position is provided, it is possible to prevent forgetting to return the inspection rod to the original position at the time of inspection.

  Also, at the rear end of the inspection rod protruding from the cover portion, the protrusion at the tip of the inspection rod is inserted into the small diameter opening provided in the closed portion of the piston portion, and the piston portion is the When a mark is provided to confirm that the actuator has moved to the forward position, the push-out position of the inspection rod can be visually confirmed outside the flow control valve, ensuring reliable operation with the inspection rod. It is something that can be done.

  In addition, if a cap-shaped cover for preventing the erroneous operation of the inspection rod is provided on the outer surface side of the central portion of the closed portion of the cover portion to cover the rear end protruding from the inspection rod cover, It is possible to prevent erroneous operation of the inspection rod at the time.

  In addition, a columnar body having a required outer diameter having a knob, which is slidably inserted in the rear end side of the inspection rod on the outer surface side of the central portion of the closed portion of the cover portion, and the columnar body is removable. In the case of providing a maintenance disassembling portion configured with a columnar body receiving hole fitted into the, the inspection rod can be removed during inspection to visually inspect the inside.

1 is a schematic configuration diagram of a negative pressure wet pre-actuated sprinkler facility according to an embodiment of the present invention. It is sectional drawing of the flow control valve in the negative pressure wet pre-action sprinkler equipment which concerns on embodiment of this invention, and shows the state at the time of fire outbreak. It is sectional drawing of the flow control valve in the negative pressure wet pre-acting sprinkler equipment which concerns on embodiment of this invention, and shows the state which pushed in the inspection rod to the middle position at the time of inspection. It is sectional drawing of the flow control valve in the negative pressure wet pre-acting sprinkler equipment concerning the embodiment of the present invention, and shows the state where the inspection rod at the time of inspection was pushed in until the piston part moved to the most advanced position. It is sectional drawing of the modification of the flow control valve in the negative pressure wet pre-actuated sprinkler equipment which concerns on embodiment of this invention, and shows the state of normal. It is sectional drawing of the modification of the flow control valve in the negative-pressure wet pre-action sprinkler equipment concerning the embodiment of the present invention, and shows the state where the inspection rod at the time of inspection was pushed in until the piston part moved to the most advanced position. is there. It is sectional drawing of the other modified example of the flow control valve in the negative-pressure wet pre-action sprinkler equipment which concerns on embodiment of this invention, and shows the state of normal. It is a schematic block diagram of the negative pressure wet pre-action sprinkler equipment which the present inventors devised previously. It is sectional drawing of the flow control valve in the negative pressure wet pre-acting sprinkler equipment which the present inventors devised previously, and shows the state of normal. It is sectional drawing of the flow control valve in the negative pressure wet pre-operation sprinkler equipment which the present inventors devised previously, and shows the state at the time of fire outbreak. It is sectional drawing of the modification of the flow control valve in the negative-pressure wet pre-action sprinkler equipment which the present inventors devised previously, and shows the state of normal. It is a schematic block diagram of the conventional negative pressure wet pre-operation sprinkler equipment.

  Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.

  FIG. 1 is a schematic configuration diagram of a negative pressure wet pre-actuated sprinkler facility 100 ″ according to an embodiment of the present invention. In addition, the state of pressure in the secondary side pipe installed in the middle part of the suction pipe is appropriately set. Only the flow control valve to be held is different, and the other configuration is the same as that of the negative pressure wet pre-acting sprinkler equipment 100 'previously proposed by the present inventors shown in FIG. The same reference numerals are assigned and detailed description is omitted.

  Thus, the negative-pressure wet pre-actuated sprinkler facility 100 ″ according to the present embodiment is a power control valve that is installed in the middle of the suction pipe 108 and is used as a flow control valve for properly maintaining the pressure in the secondary side pipe 104. The flow control valve 1 in the negative-pressure wet pre-actuated sprinkler facility 100 ′ previously devised by the present inventors is provided with an inspection rod that pushes out the piston portion, thereby periodically inspecting and allowing pressurized water to flow in. The present invention is different from the negative pressure wet pre-acting sprinkler equipment 100 ′ devised by the present inventors in using a flow control valve 1 ′ to which a configuration that allows the operation of the piston portion to be confirmed without being added is used. To do.

  The flow control valve 1 'is an inlet 7 provided in the closed portion 2B' of the cover portion 2B in the flow control valve 1 used in the negative pressure wet pre-actuated sprinkler equipment 100 'previously proposed by the present inventors. One end side 7A opens to the side surface side of the closed portion 2B ', and the other end side 7B opens to the inner side surface of the central portion of the closed portion 2B', and the center of the closed portion 2B 'of the cover portion 2B An inspection rod 14 is provided on the outer surface of the part to push the piston part 9 to its most advanced position against the urging force of the coil spring 13 in the cylinder part 2A.

  Further, in the present embodiment, the inspection rod 14 has a rear end portion slidably inserted into a columnar body of a maintenance disassembly portion described later, and an axial center portion is an inflow port in the closed portion 2B ′ of the cover portion 2B. 7B is slidably supported by a support body 15 provided in 7B.

In the present embodiment, the tip of the inspection rod 14 is provided with a protrusion 14A for removing dirt in the small-diameter opening 11 provided in the closed portion 9 'of the piston portion 9 at the time of inspection.

  Further, as shown in FIGS. 5 and 6, the inspection rod 14 comes into contact with a small-diameter opening 11 provided in the closed portion 9 ′ of the piston portion 9 at the front end surface during inspection. You may make it provide the recessed part or groove part 14B for preventing the adhesion of the dirt to this small diameter opening 11. FIG.

  In the present embodiment, a spring 16 is provided for returning the inspection rod 14 to the operation start position. The spring 16 is a coil spring that is contracted between a spring receiver 17 provided at the rear end of the inspection rod 14 and a closed portion 2B 'of the cover 2B. In this embodiment, the spring receiver 17 is provided. And a columnar body of the maintenance disassembly section described later.

  Further, in the present embodiment, a small-diameter opening 11 provided in the closed portion 9 ′ of the piston portion 9 is provided with a protrusion 14 </ b> A at the tip portion of the inspection rod 14 at the rear end portion protruding from the cover portion 2 </ b> B of the inspection rod 14. Marks 18 and 19 are provided for confirming that the piston portion 9 has been inserted into the cylinder portion 2A and that the piston portion 9 has moved to the most advanced position in the cylinder portion 2A.

  Further, in this embodiment, the outer end of the central portion of the closed portion 2B ′ of the cover portion 2B covers the rear end portion protruding from the cover portion 2B of the inspection rod 14 for preventing erroneous operation of the inspection rod 14. A cap-shaped cover 20 is provided.

  Further, in the present embodiment, a required outer diameter having a knob 21A, in which the inspection rod 14 is slidably inserted in the rear end side on the outer surface side of the central portion of the closing portion 2B ′ of the cover portion 2B. The columnar body 21 and a columnar body receiving hole 22 into which the columnar body 21 is detachably inserted are provided with a maintenance disassembling portion 23.

Next, a modification of the flow control valve 1 ′ in the above embodiment shown in FIG. 7 will be described.
The modified example is different from the above-described embodiment in that the large diameter opening 12 and the small diameter opening 11 are provided in the piston portion 9 while only the large diameter opening 12 is provided. In addition, since it is the same as that of the said embodiment in another structure, the same code | symbol is attached | subjected to the same member and detailed description is abbreviate | omitted.

Next, the operation of the above embodiment will be described.
When periodically inspecting the flow control valve 1 ', first, the cap-shaped cover 20 is removed, and as shown in FIG. 3, the inspection rod 14 is marked with a mark 18 from the rear end side in the maintenance disassembling portion 23. The knob 21 is pushed to a position coinciding with the outer surface of the knob 21A. As a result, the protrusion 14A of the inspection rod 14 is inserted into the small-diameter opening 11 provided in the closed portion 9 ′ of the piston portion 9 to remove the dirt inside and confirm with the mark 18 that this has been done securely. Is something that can be done.

  Further, as shown in FIG. 4, the inspection rod 14 is pushed into a position where the mark 19 coincides with the outer surface of the knob 21 </ b> A of the columnar body 21 in the maintenance disassembling portion 23. Thereby, the piston part 9 is moved to the most advanced position against the urging force of the coil spring 13 without using pressurized water. This can also be confirmed with the mark 19. Thus, normal operation of the piston portion 9 can be confirmed and normal operation can be ensured.

  When the above operation is completed, the pressure applied to the inspection rod 14 is released. At this time, the inspection rod 14 is automatically returned to the operation start position by the action of the spring 16 and thus returns to the original position of the inspection rod 14. It is possible to prevent forgetting to return.

  Moreover, since the rear end part which protrudes from the cover part 2B of the inspection stick | rod 14 is covered with the cap-shaped cover 20, it can prevent operating mistake of the inspection stick | rod 14 at the time of non-inspection.

  Further, since the maintenance disassembling portion 23 is provided on the outer surface side of the central portion of the closed portion 2B ′ of the cover portion 2B, the inspection rod 14 can be removed during inspection to visually inspect the inside.

  The present invention is as described above, and the flow control valve 1 devised previously by the present inventors as the flow control valve 1 ′ to be used is provided with an inspection rod 14 for pushing out the piston portion 9, thereby periodically inspecting. In addition, since the configuration that allows the operation of the piston portion 9 to be confirmed without inflow of pressurized water is added, the operation and effect of the flow control valve 1 'should be ensured more continuously. It is something that can be done. As a result, it is possible to bring about a beneficial effect in terms of maintenance and management of the negative pressure wet pre-actuated sprinkler facility 100 ″ using the same.

DESCRIPTION OF SYMBOLS 1, 1 'Flow control valve 2 Main-body part 2A Cylinder part 2A' Closed part 2B Cover part 2B 'Closed part 3 Outlet 4 Opening 7 Inlet 7A One end side of the inlet 7B The other end side of the inlet 9 Piston part 9' Closed portion 10 Flange portion 11 Small-diameter opening 12 Large-diameter opening 13 Coil spring 14 Inspection rod 14A Protrusion 14B Recess or groove portion 16 Spring 18, 19 Mark 20 Cap-shaped cover 21 Columnar body 22 Columnar body receiving hole 23 Maintenance disassembly portion 100 " Negative pressure wet pre-acting sprinkler equipment 100 'Negative pressure wet pre-acting sprinkler equipment previously devised by the present inventors 100 Conventional negative pressure wet pre-acting sprinkler equipment 101 Primary side piping 102 Fire extinguishing water tank 103 Water pump 104 Secondary side Piping 105 Sprinkler head 106 Pre-acting running water detector 107 Fire detector 10 Suction tube 109 vacuum pump 110 inlet pipe 111 drainpipe 113 vacuum switch 114 signals the receiving board 115 control panel

Thus, the gist of the present invention is that
A pre-actuated water detection device and a primary pipe provided on the primary side of the pre-actuated water detection device and having a water supply means connected to the base end side;
Connected to the secondary side pipe connected to the sprinkler head, the vacuum pump using the secondary side pipe as a negative pressure, and the secondary side pipe and the vacuum pump. An intake pipe to
Provided at the connection between the secondary pipe and the intake pipe;
A main body part through which air and water flowing into the intake pipe from the secondary side pipe pass, a piston part provided in the main body part so as to be able to move forward by the pressure of water, and the piston part attached in the backward movement direction. In the flow control valve in the negative pressure wet pre-actuated sprinkler facility comprising the cylinder part and a cover part attached to one end side of the cylinder part,
A negative pressure is provided on the outer surface of the central portion of the closed portion of the cover portion, and an inspection rod that pushes the piston portion to its most advanced position against the biasing force of the coil spring in the cylinder portion. Located in flow control valve in wet pre-acting sprinkler equipment. In addition, the cylinder part has a cylindrical shape with one end closed, and has an outlet and a smaller diameter opening than the outlet connected to the inside of the outlet at the center of the closed part. The cover portion has a cylindrical shape with one end closed, and an inflow port is provided in the closed portion. The piston portion has a cylindrical shape with one end closed, and the other end has an outer diameter. Forming a flange portion equal to the inner diameter of the cylinder portion, providing an opening having a smaller diameter than the opening of the closing portion in the cylinder portion at the center portion of the closing portion, and providing an opening having a diameter larger than the opening of the smaller diameter in the cylindrical portion It is provided.

Claims (8)

A pre-actuated water detection device and a primary pipe provided on the primary side of the pre-actuated water detection device and having a water supply means connected to the base end side;
Connected to the secondary side pipe connected to the sprinkler head, the vacuum pump using the secondary side pipe as a negative pressure, and the secondary side pipe and the vacuum pump. An intake pipe to
Provided at the connection between the secondary pipe and the intake pipe;
A main body part through which air and water flowing into the intake pipe from the secondary side pipe pass, a piston part provided in the main body part so as to be able to move forward by the pressure of water, and the piston part attached in the backward movement direction. In the flow control valve in the negative pressure wet pre-actuated sprinkler facility comprising the cylinder part and a cover part attached to one end side of the cylinder part,
A negative pressure is provided on the outer surface of the central portion of the closed portion of the cover portion, and an inspection rod that pushes the piston portion to its most advanced position against the biasing force of the coil spring in the cylinder portion. Flow control valve in wet pre-actuated sprinkler equipment. The flow control valve in a negative pressure wet pre-actuated sprinkler system according to claim 1, wherein the large-diameter opening and the small-diameter opening provided in the piston portion are only large-diameter openings. 2. A flow control valve in a negative pressure wet pre-actuated sprinkler system according to claim 1, wherein a protrusion for removing dirt in a small-diameter opening provided in a closed portion of the piston portion at the time of inspection is provided at the tip of the inspection rod. 2. The negative pressure wet pretreatment according to claim 1, wherein the inspection rod is provided with a concave portion or a groove portion for preventing the inspection rod from contacting a small-diameter opening provided in the closed portion of the piston portion at the time of inspection. Flow control valve for operating sprinkler equipment. The flow control valve in the negative pressure wet pre-actuated sprinkler facility according to claim 1, 3 or 4, further comprising a spring for returning the inspection rod to the operation start position.   At the rear end of the inspection rod that protrudes from the cover, the protrusion at the tip of the inspection rod is inserted into the small-diameter opening provided in the closed portion of the piston, and the piston is the most advanced position in the cylinder. The flow control valve in the negative pressure wet pre-actuated sprinkler equipment according to claim 1, 3, 4 or 5, wherein a mark for confirming that it has been moved to is provided. A cap-shaped cover for preventing an erroneous operation of the inspection rod is provided on the outer surface side of the central portion of the closed portion of the cover portion to cover the rear end portion protruding from the cover portion of the inspection rod. The flow control valve in the negative pressure wet pre-actuated sprinkler facility according to 5 or 6. An inspection rod is slidably inserted through the rear end side of the cover portion at the center of the closed portion of the cover portion, and a columnar body having a required outer diameter having a knob is removably fitted into the columnar body. 8. A flow control valve in a negative pressure wet pre-actuated sprinkler facility according to claim 1, further comprising a maintenance disassembling part configured with a columnar body receiving hole.

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