JP5164075B2 - Sprinkler head - Google Patents

Description

  The present invention relates to a sprinkler head.

  Conventionally, in buildings such as buildings, sprinkler fire extinguishing equipment is installed as fire extinguishing equipment. The sprinkler fire extinguishing equipment includes a water flow detection device, a secondary side pipe provided on the secondary side of the water flow detection device, a sprinkler head attached to the secondary side pipe via a falling pipe, and a primary of the water flow detection device. It is comprised from the pressurized water supply apparatus provided in the side.

  The secondary side pipe is usually filled with water, but there are also facilities where the secondary side pipe is filled with compressed air, such as a dry sprinkler fire extinguishing equipment or a pre-actuated sprinkler fire extinguishing equipment (for example, , See Patent Document 1). In these facilities, in order to confirm the operation of the water flow detector, the secondary side pipe may be filled with water at the time of firefighting inspection.

JP-A-10-272199

  By the way, in the dry-type sprinkler fire extinguishing equipment, the water in the secondary side pipe can be drained by opening the drainage valve such as the terminal test valve after the operation check. In this way, the inside of the secondary side pipe can be returned to the dry state, but the water that has entered the falling pipe portion connecting the secondary side pipe and the sprinkler head cannot be drained.

  If water (residual water) remains in the falling pipe, the falling pipe may corrode at the gas-liquid boundary due to the residual water, which may cause problems such as water leakage from the equipment piping.

  Therefore, an object of the present invention is to obtain a sprinkler head capable of discharging water that has entered a falling pipe to the outside.

The present invention is formed so as to open in the head body , a head body connected to a falling pipe of a dry sprinkler fire extinguishing equipment in which the secondary side pipe is not filled normally, a frame connected to the head body , and the like. A valve body that closes the discharged water outlet, and is provided in the frame, is engaged with a step formed at the lower end of the frame to support the valve body, and a soluble alloy is melted by heat at the time of fire A thermal decomposition mechanism that is released when the locking is released , and a deflector that is connected to the valve body, and a guide ring that is connected to an upper end when the thermal decomposition mechanism is dropped. in sprinkler head having the valve body, and a through hole formed through a central portion of the heat-sensitive decomposition mechanism with heat sensitive plates provided at the lower end, the lower end is provided slidably in the through-hole A movable rod projecting from the lower end of the heat-sensitive plate, and a water guiding mechanism comprising the upper drainage hole formed on the side of the upper end and normally closed by the valve body; A lower drainage hole formed on a side of the lower end, and a drainage channel communicating the upper drainage hole and the lower drainage hole, and the water guide mechanism pushes the movable rod from below, moveable plate is opened it said slides upward upper drain hole, after is filled with water the secondary side piping by the operation inspection and drained out the remaining residual water in the fall pipe from the bottom drain hole It is characterized by this.

The present invention is characterized in that a collar portion is provided on the outer periphery of the movable rod, and a spring for biasing the movable rod downward is provided between the upper surface of the collar portion and the lower surface of the valve body. It is.

According to the sprinkler head according to the present invention, when the movable rod is pushed from the lower side, the movable rod slides upward, and the upper portion of the movable rod projects from the upper surface of the valve body. Thereby, the upper drainage hole is opened, and the water in the falling pipe at the upper part of the valve body is drained from the lower drainage hole through the drainage channel. Therefore, after the secondary pipe during normal it was shown filled with water the secondary side piping by the operation inspection dry sprinkler fire extinguishing equipment that is not filled with water, can be discharged remaining residual water falling pipe to the outside.

It is sectional drawing which shows the normal state of the sprinkler head of this invention. It is sectional drawing which shows the state at the time of draining of the sprinkler head of this invention. It is sectional drawing of a conduction | electrical_connection mechanism (movable rod).

  The sprinkler head of the present invention will be described below with reference to the drawings. In FIG. 1, reference numeral 1 denotes a head body, a water outlet 2 is formed in the center, and a screw portion for connecting to a falling pipe is formed on the outer periphery of the head body 1. Reference numeral 3 denotes a cylindrical frame, and the upper end side thereof is connected to the inner peripheral side of the flange portion 1C of the head body 1.

  A valve body 4 closes the water outlet 2 of the head body 1. When there is residual water in a falling pipe (not shown), water is accumulated on the valve body 4 and in the water discharge port 2 (nozzle portion).

  A thermal decomposition mechanism 6 is decomposed by heat at the time of fire. A part of the thermal decomposition mechanism is provided in the frame 3 and supports the valve body 4. The thermal decomposition mechanism 6 includes a locking ring 17, an upper clamping body 18, a lower clamping body 19, a balancer 20, a cylinder 21, a thermal plate 22, and a fusible alloy 23.

  The locking ring 17 is formed of a ring body having a notch in a part thereof, and is elastically deformable so that its diameter expands and contracts. The inner side of the locking ring 17 is clamped by an upper clamping body 18 and a lower clamping body 19, and the outer side is locked to a step 3 </ b> C formed at the lower end of the frame 3.

  The upper clamping body 18 has a cylindrical portion at the center, and the cylindrical portion is gradually reduced in diameter downward, and a hole in which the cylinder 21 and the lock screw 24 can be fitted is formed inside the cylindrical portion. Has been. Further, the lower clamping body 19 also has a cylindrical portion at the center, and the cylindrical portion of the upper clamping body 18 can be inserted (freely fitted). A lock screw 24 is provided inside the cylindrical cylinder 21, and the upper end of the lock screw 24 contacts the lower surface of the valve body 4 to support the valve body 4. The lock screw 24 is connected to the cylinder 21 by a screw provided on the outer periphery of the upper part, and the upper end is screwed into the lower part of the valve body 4 to be connected to the valve body 4.

  A disc-shaped balancer is provided at the upper part of the upper clamping body 18, and a cylinder 21 is provided in a through hole provided in the center of the balancer 20, so that the stepped portion formed on the outer periphery of the upper end of the cylinder 21 is in contact with the balancer 20. Yes. Further, the lower end of the lower sandwiching body 19 is in contact with the upper surface of the thermal plate 22, and a soluble alloy 23 is provided between the lower surface of the thermal plate 22 and the flange 24 </ b> A at the lower end of the lock screw 24.

  In such a thermal decomposition mechanism 6, the locking ring 17 is locked to the step portion 3 </ b> C of the frame 3, so that it does not fall even when water pressure is applied on the valve body 4. However, when the fusible alloy 23 is melted by heat at the time of the fire, the heat sensitive plate 22 moves downward, and the lower sandwiching body 19 falls accordingly. When the locking ring 17 contracts inward, the locking between the locking ring 17 and the step portion 3C is released, and the upper sandwiching body 18, the balancer 20, the cylinder 21 and the like are disassembled and dropped.

  Reference numeral 8 denotes a bent deflector connected to the outer peripheral edge of the valve body 4. A guide ring 9 is connected to the upper end of the deflector 8, and the thermal decomposition mechanism 6 falls and the valve body 4 falls. It serves as a guide when doing so. The guide ring 9 is locked to the step 3C of the frame 3 during operation.

  Reference numeral 30 denotes a movable rod. The movable rod 30 is an example of a conduction mechanism that drains residual water in the falling pipe to the outside. The movable rod 30 is inserted into a through hole 4C provided in the center of the valve body 4 on the upper side and into a through hole 24C provided in the center of the lock screw 24 on the upper side, and the through holes 4C and 24C are inserted into the through holes 4C and 24C. It is slidably provided. The outer diameter of the movable rod 30 is formed to be slightly smaller than the inner diameters of the through holes 4C and 24C, so that it can slide into the through holes 4C and 24C.

  A drainage channel 31 is formed on the axis of the movable rod 30. Further, the movable rod 30 has an upper drain hole 32 and a lower drain hole 33 formed on the upper and lower side surfaces thereof, and the drainage channel 31 communicates with the upper drain hole 32 and the lower drain hole 33.

  The upper surface of the movable rod 30 is provided in the through hole 4 </ b> C so as to be flush with the upper surface of the valve body 4 in normal times. At this time, the length of the movable rod 30 is set so that the lower end of the movable rod 30 slightly protrudes from the lower end of the heat sensitive plate 22. In addition, when the movable rod 30 is pushed up and the upper drainage hole 32 is exposed from the upper surface of the valve body 4, the lower drainage hole 33 is positioned below the thermal plate 33. The length is exposed to the atmosphere.

In normal times, since the upper end of the movable rod 30 is within the through hole 4C,
The upper drain hole 32 of the movable rod 30 is closed by the wall surface of the through hole 4 </ b> C of the valve body 4. An O-ring is provided around the upper drainage hole 32 so that, at normal times, water in the water discharge port 2 leaks and does not leak outside.

  Reference numeral 35 denotes a middle portion in the height direction of the movable rod 30 and a collar portion provided on the outer periphery. A coil spring 40 that biases the movable rod 30 downward is provided between the upper surface of the collar portion 35 and the lower surface of the valve body 4. Further, in the portion where the coil spring 40 is provided, the lock screw 24 is expanded in diameter to form a spring accommodating portion. The movable portion 30 is normally biased by the coil spring 40 so that the lower end portion protrudes from the lower surface of the heat sensitive plate 22 and the upper end portion is accommodated in the through hole 4C of the valve body 4. .

  Next, the operation of the present invention will be described. The head main body 1 is connected to a falling pipe (not shown), and the drainage treatment in the case where residual water is generated in the falling pipe by filling a secondary side pipe (not shown) by fire fighting inspection will be described. To do.

  First, the movable rod 30 slightly protruding from the heat sensitive plate 22 is pushed from below. Then, the movable rod 30 slides upward against the coil spring 40. And the upper part of the movable rod 30 protrudes from the valve body 4 upper surface, and the upper drain hole 32 formed in the upper part of the movable rod 30 is opened.

  Therefore, the water in the falling pipe at the upper part of the valve body 4 is drained from the lower drainage hole 33 through the drainage channel 31 of the movable rod 30. In this way, the water that has entered the falling pipe can be discharged to the outside.

  In the present embodiment, the lower end of the movable bar 30 slightly protrudes from the lower side of the heat sensitive plate 22, so that it is easy to push the movable bar 30. The movable rod 30 protruding from the heat sensitive plate 22 may be surrounded by an annular wall or the like so that the movable rod 30 is not pushed in the dark.

  Since the lower drainage hole 33 of the movable rod 30 is formed on the side surface of the movable rod 30, the drainage hole 33 is not easily blocked by the hand when the movable rod 30 is pushed. In order to prevent the coil spring 40 from being overloaded when the movable rod 30 is pushed in, a stopper for limiting the pushing amount of the movable rod 30 may be provided. The stopper can be configured, for example, by fixing an annular member such as a nut around the upper portion of the lower drainage hole 33 of the movable rod 30. By providing the stopper on the upper part of the lower drainage hole 33, the lower drainage hole 33 is not hidden by the lock screw 24 no matter how the movable rod 30 is pushed up.

  In the present embodiment, the case where the through hole is provided in the valve body has been described, but the following may be performed without providing the through hole. A concave portion in which the upper portion of the movable rod can slide is provided in the lower portion of the valve body. For example, the concave portion penetrates the side surface of the valve body with a horizontal hole, and when the movable rod 30 is pushed up, the upper drain hole 32 and the horizontal hole communicate with each other. To be blocked by.

  It should be noted that suction by a vacuum pump may be used for draining residual water from the falling pipe. In this case, for example, the terminal test valve of the secondary side pipe is opened, a vacuum pump is connected thereto, the vacuum pump is activated, and the inside of the secondary side pipe is sucked. Here, as before, if the movable rod 30 is pushed upward, air flows around the area where the sprinkler head is installed through the drainage channel 31 to the secondary pipe (falling pipe) side, Residual water remaining in the falling pipe can be sucked into the vacuum pump side to treat the residual water.

  In this case, the remaining water in the falling pipe is drained to the outside by air passing through the drainage channel 31 of the movable rod 30 which is a conduction mechanism. Therefore, the drainage to the outside to the remaining water does not necessarily need to be drained from the drainage channel 31. In addition, you may make it pressurize and drain the residual water of a falling pipe by using a pressurization pump instead of a vacuum pump.

  By the way, such a water guide mechanism 30 can be used not only as drainage of residual water in the falling pipe but also as a means for confirming whether or not the sprinkler head is filled in a wet sprinkler fire extinguishing facility. .

1 head body, 2 water outlet, 3 frame, 4 valve body,
22 thermal plate, 24 lock screw, 30 movable rod, 31 drainage channel,
32 Upper drain hole, 33 Lower drain hole, tt

Claims (2)

The head body connected to the falling pipe of the dry sprinkler fire extinguishing equipment where the secondary side pipe is not filled in normal times,
A frame connected to the head body;
A valve body that closes the water outlet formed to open in the head body;
A heat-sensitive element that is provided in the frame and is locked to a step portion formed at the lower end of the frame to support the valve body. Decomposition mechanism ,
When the thermal decomposition mechanism is dropped, a deflector connected to the valve body, a guide ring connected to the upper end is locked to the stepped portion,
In sprinkler heads having:
A through hole provided through the valve body and a thermal plate provided at the lower end and a central portion of the thermal decomposition mechanism, and a lower end provided slidably in the through hole, the lower end from the lower end of the thermal plate Having a water guide mechanism composed of a projecting movable rod,
The movable rod is formed on the side of the upper end and is normally closed by the valve body, the lower drain hole formed on the side of the lower end, the upper drain hole and the lower A drainage channel communicating with the drainage hole,
The water introduction mechanism pushes the movable rod from the lower side, the movable rod slides upward, the upper drainage hole is opened, and after the secondary side pipe is filled by operation inspection , A sprinkler head characterized in that residual water remaining in the falling pipe is drained to the outside through the lower drainage hole . The collar according to claim 1, wherein a flange is provided on the outer periphery of the movable rod, and a spring for biasing the movable rod downward is provided between the upper surface of the collar and the lower surface of the valve body . Sprinkler head.