JPH0626292Y2 - Sprinkler device for clean room - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to a sprinkler device for fire extinguishing equipment, and more particularly to a sprinkler device used for a clean room.

[Conventional technology]

Generally, in a clean room that removes dust in a room and maintains a certain degree of cleanliness, many of the devices and equipment installed in this room are highly accurate and expensive. Therefore, if the sprinkler malfunctions and water is sprinkled carelessly, or if water leaks or the like, a great deal of damage is caused to the devices.

In order to avoid such problems, a system generally called a dry type is often used as a sprinkler installed in a clean room. That is, in a closed-type facility that uses a closed-type sprinkler head, the pipe is always filled with compressed air, and the heat-sensitive release of the sprinkler head first removes the compressed air in the pipe, and then the water It is a system that allows water to pass through and then discharges water. In addition, in the case of this dry system, the pressure switch detects when the sprinkler head opens in conjunction with the smoke sensor as a fire detection means that detects smoke when a fire occurs and the air pressure inside the pipe is reduced. The valve is opened according to the operation command and water is discharged from the sprinkler head.

In addition, the pressure switch is used as a means to detect that the sprinkler head has been destroyed by the carelessness of the worker, and when a fire occurs, the signal is sent from the heat detector or smoke detector to allow water to pass and There is also a system that discharges water to a designated fire area when the heat is released.

[Problems to be solved by the invention]

However, in this dry system,
The dust in the pipe is pushed out of the sprinkler head plug into the clean room by the compressed air enclosed in the pipe, which causes problems such as impairing the original purpose of the clean room.

An object of the present invention is to provide a sprinkler device capable of maintaining the function of a clean room in a suitable manner by using the negative pressure air instead of the compressed air in view of the problems of the conventional dry system. .

[Means for Solving Problems] In order to achieve this object, the clean room sprinkler device according to the present invention has the following configuration.

That is, the upstream side pipe 3A filled with the pressurized water from the water source 1 is connected to the upstream side of the pre-operation valve 4, and the downstream side pipe 3B whose water flow is blocked by the pre-operation valve is connected to the downstream side. The tip of the pipe 3B is closed by a closed sprinkler head 10, a vacuum pump 6 for making the inside of the pipe a negative pressure is connected to the pipe 3B, and a pressure detecting means 9 for detecting the internal air pressure is provided. Fire detection means 12 for detecting the presence or absence is provided, and signals from these pressure detection means 9 and fire detection means are provided.
A disaster prevention control unit U that receives signals from 12 is provided. Then, the disaster prevention control unit U is formed so as to receive a signal from the pressure detecting means 9 and warn the abnormality by the warning means W when the air pressure in the pipe 3B increases, and at the time of a fire, the fire detecting means. In response to a signal from 12, a command is issued to open the pre-operation valve 4, pressurized water is passed through the pipe 3B, and water is discharged from the closed type sprinkler head 10 to provide a clean room sprinkler device.

Here, the pre-operation valve 4 may be controlled so as to be opened only by the signal from the fire detection means 12 being input to the disaster prevention control unit U. When the signal from the pressure detecting means 9 indicating that the air pressure in the pipe 3B has increased due to the destruction of 10 is also input to the disaster prevention control unit U,
In addition to these two conditions, the pre-operation valve 4 may be opened when the inside of the pipe 3B exceeds a predetermined rate of pressure increase and all three conditions are met.

Further, a vacuum pump control device 8 for controlling the vacuum pump 6 is provided, and a detection signal from the pressure detection means 9 is also input to the vacuum pump control device 8 to increase the pressure in the pipe 3B above a set negative pressure value. At this time, the vacuum pump 6 may be operated by a command from the vacuum pump control device 8 to reduce the pressure in the pipe 3B to a set negative pressure value.

[Action]

Normally, when the sprinkler head 10 is destroyed in the pipe 3B where the water flow is cut off for some reason, and the internal pressure of the negative pressure rises, the pressure detection means 9 detects this and the disaster prevention control unit U Warning means W warns that.

Normally, even if the sprinkler head 10 is not damaged, the outside air gradually enters the pipe 3B and the inside of the pipe goes toward a positive pressure. In this case, the vacuum pump control device 8 receives a detection signal from the pressure detection means 9, The operation signal causes the vacuum pump 6 to operate, and the inside of the pipe 3B is maintained at the set negative pressure.

When a signal from the fire detection means 12 (for example, a smoke detector or a heat detector) is sent to the disaster prevention control unit U when a fire occurs, an operation command is sent from the disaster prevention control unit U to the pre-operation valve 4 based on this detection signal. By sending it and opening it, pressurized water is passed through the pipe 3B, and water is discharged from the closed-type sprinkler head 10 which releases the heat.

When the pre-operation valve 4 has a plurality of opening conditions as described above, water is discharged only when all the conditions are met.

〔Example〕

An embodiment of a clean room sprinkler device according to the present invention will be described below with reference to the drawings.

1 and 2 are a block diagram and a system diagram of the embodiment. The water in the water source 1 is pressure-fed by the pressurized water supply device (pump) 2 to the upstream pipe 3A up to the pre-operation valve 4 and stopped at the pre-operation valve 4. In addition, the pre-operation valve 4
The pipe 3B on the downstream side is an empty pipe from which water flow is cut off, and is piped to each ceiling surface, and its tip is closed by the closed sprinkler head 10. This piping 3
A vacuum pump 6 is further connected to B, and the inside of the pipe 3B is sucked by the operation of the vacuum pump 6 to a negative pressure up to a set pressure.

Here, the vacuum pump 6 is at least 2 as shown.
It is preferable that the units are installed so that they can be alternately operated. The reason is that complete air tightness around the sprinkler head 10 cannot be expected, and the indoor pressure air in the clean room constantly leaks into the pipe 3B. Failure is likely to occur in continuous operation of the vacuum pump 6, and one unit is provided as a spare.

Further, a pressure switch 9 as a pressure detecting means is arranged in the pipe 3B. The pressure switch 9 constantly monitors the air pressure in the pipe 3B, and detection signals i ₁ and i _{3 from the} pressure switch 9 are sent to the disaster prevention control unit U or the vacuum pump control device 8. .

In the vacuum pump control device 8, one of the vacuum pumps 6 selected by the vacuum pump control device 8 is operated, and the electromagnetic on-off valve 7 is turned on to open the air conditioner on condition that the air pressure is equal to or higher than a predetermined value. , The air pressure in the pipe 3B is sucked to maintain the set negative pressure.

If the sprinkler head 10 is damaged, the vacuum pump 6
Since it is difficult to restore the inside of the pipe 3B to the set negative pressure value even if is activated, the inside of the pipe 3B is in a pressure-increased state, so that the warning means W of the disaster prevention control unit U is activated to activate the sprinkler head 10. Report damage.

Further, in the disaster prevention control unit U, a detection signal i ₂ is sent from the fire detection means 12 such as a smoke detector or a heat detector. A signal controlled by the disaster prevention control unit U based on the detection signal i ₂ is input to the pre-operation valve 4 as an opening operation signal via the automatic valve opening mechanism 5.

In addition, in preparation for water to be passed to the closed-type sprinkler head 12 due to a malfunction of the fire detection means 12 detecting smoke or heat other than fire, the drain pipe 3C is branched from the downstream pipe 3B to remove water. The valve 13 is opened to drain the water sent.

Next, the operation mode and operation of this embodiment will be described.

In the normal state of the clean room, the inside of the downstream pipe 3B of the pre-operation valve 4 is negatively set to the set pressure by the operation of the vacuum pump 6,
This set negative pressure is maintained. When the pressure inside the clean room enters and the pressure in the pipe B exceeds the set negative pressure, the pressure switch 9 detects this and the vacuum pump control device 8 to which this detection signal i ₃ is sent receives the control signal from here. V ₂ is sent to either one of the two vacuum pumps 6 to operate it. The two vacuum pumps 6 are alternately operated several times a day.

That is, since the inside of the pipe 3B is always maintained in a constant negative pressure state, dust in the clean room may be sucked into the pipe 3B, but conversely, the closed sprinkler head 10 following the pipe B can be sucked. The dust in the pipe B is not pushed out into the clean room through the plug.

On the other hand, when a fire occurs, in the disaster prevention control unit U, the detection signal i ₂ from the fire detection means 12 such as a smoke detector or a heat detector is sent to the disaster prevention control unit U, and based on this detection signal i ₂ . The signal controlled by the disaster prevention control unit U is input as an opening operation signal to the pre-operation valve 4 via the valve automatic opening mechanism 5, and the pressurized water from the water source 1 is passed through the pre-operation valve 4 to generate heat. Water is sprayed from the closed sprinkler head 10 that opens to the touch.

By the way, the fire detection means for the above embodiment
In addition to the fire occurrence signal from 12, the signal detected by the pressure switch 9 is also sent to the disaster prevention control unit U at the same time, and the disaster prevention control unit U controls the system based on the signals of these two parameters. A system for controlling the vacuum pump 6 in U can be used.

That is, when a fire occurs, the closed-type sprinkler head 10 is destroyed, the air pressure in the pipe 3B rises sharply to reach or exceed the set negative pressure, and the detection signal i ₂ from the fire detection means 12 is input. Based on the above conditions, the pre-operation valve 4 is opened by the control signal I ₁ from the disaster prevention control unit U via the valve automatic opening mechanism 5. In addition to this, the pressure in the pipe 3B is monitored over time, the pressure increase rate is calculated, and the pre-operation valve 4 is opened even under the condition that the pressure increase rate is above a certain level (rapid pressure change). If the condition is satisfied, accurate control can be performed.

The pre-operation valve 4 is turned on and opened, and in synchronization with this, the control signal I ₂ from the disaster prevention control unit U is also sent to the pressurized water supply device 2, and the water from the water source 1 is supplied to the pipe 3B via the pipe 3A. It is discharged. Then, water is discharged from the closed sprinkler head 10 into the clean room.

In addition, when the closed type sprinkler head 10 is destroyed by an accidental accident other than a fire, as a matter of course, the set negative pressure in the pipe 3B rapidly changes. Disaster prevention control unit U detected by
The warning means W informs it as described above. At this time, since the fire detection means 12 does not naturally detect smoke or heat, it is determined that the disaster prevention control unit U does not have the conditions for an actual fire, and the control signal is sent to the valve automatic opening mechanism 5. I ₁ is not sent and thus the pre-actuated valve 4 remains open. That is, it is possible to prevent water discharge from the closed type sprinkler head 10 due to a malfunction other than during a fire.

[Effect of device]

As described above, in the closed type sprinkler head device according to the present invention, since the inside of the pipe 3B on the downstream side of the pre-operation valve 4 is constantly made negative by the set air pressure, the conventional compressed air system is used. It is possible to prevent the occurrence of a situation in which dust inside the pipe 3B is pushed out into the clean room by this air pressure, which impairs the original purpose of the clean room, such as a reduction in cleanliness.

In addition, when the closed type sprinkler head 10 is suddenly broken except at the time of fire, the set negative pressure in the pipe 3B rises and the pressure detecting means 9 detects this, so whether the sprinkler head 10 is damaged or not. Can be constantly monitored.

[Brief description of drawings]

1 and 2 are a block diagram and a system diagram showing an embodiment of a sprinkler head device according to the present invention. 1 ... Water source, 2 ... Pressurized water supply device (pump), 3A, 3
B ... Piping, 4 ... Pre-operation valve, 5 ... Valve automatic opening mechanism,
6 ... vacuum pump, 8 ... vacuum pump controller, 9 ...
Pressure switch, 10 ... Closed sprinkler head, 12 ...
… Fire detection means, W …… Warning means.

Claims (4)

[Scope of utility model registration request] 1. An upstream pipe 3A filled with pressurized water from a water source 1 is connected to an upstream side of a pre-operation valve 4, and a downstream pipe 3B whose water flow is blocked by a pre-operation valve is connected to a downstream side, The tip of the downstream side pipe 3B is closed by a closed type sprinkler head 10, a vacuum pump 6 for making the inside of the pipe a negative pressure is connected to the pipe 3B, and a pressure detecting means 9 for detecting the internal air pressure is provided. A fire detecting means 12 for detecting the presence or absence of a fire is provided, and signals from these pressure detecting means 9 and the fire detecting means are provided.
A disaster prevention control unit U that receives a signal from 12 is provided, and this disaster prevention control unit U receives a signal from the pressure detection means 9 and warns the abnormality by the warning means W when the air pressure in the pipe 3B increases. In addition, in order to open the pre-operation valve 4 in response to a signal from the fire detection means 12 at the time of fire, pressurized water is passed through the pipe 3B, and water is discharged from the closed type sprinkler head 10. Clean room sprinkler device. 2. The closed type sprinkler head 10 in case of fire.
Signal from the pressure detecting means 9 notifying that the air pressure in the pipe 3B has increased due to the destruction of the fire and the fire detecting means 12
The sprinkler device for a clean room according to claim 1, wherein the pre-operation valve 4 is opened when a signal from the same is input to the disaster prevention control unit U. 3. A vacuum pump control device 8 for controlling the vacuum pump 6 is provided, and a detection signal from the pressure detection means 9 is also input to the vacuum pump control device 8.
When the pressure in the pipe 3B has increased from the set negative pressure value, the vacuum pump 6 is activated by a command from the vacuum pump control device 8 and the pipe 3
The sprinkler device for a clean room according to claim 1, wherein the inside of B is formed to reduce the pressure to a set negative pressure value. 4. In addition to the two conditions that the pressure in the pipe 3B detected by the pressure detecting means 9 is equal to or higher than a predetermined pressure and that there is a fire occurrence signal from the fire detecting means, The sprinkler device for a clean room according to claim 2, wherein the pre-operation valve 4 is opened by a control signal from the disaster prevention control unit U when the inside of 3B exceeds a predetermined pressure increase rate.