JP2002291917A - Fire protection equipment for duct - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent equipment connected to a duct from being damaged by a fire. SOLUTION: A fireproof pre-box 9 for retaining powder dust is provided in the middle of ducts 5a to 5d as a part of the channel of air, and a radiation nozzle 13 radiating a fire extinguishing agent to the powder dust is provided at the pre-box. A spark detector 10 for detecting firing of the powder dust flowing through the inside of the duct 5c is arranged at the upstream of the pre-box and a damper 11 for opening and closing the duct 5 is arranged at the downstream of the pre-box. Thus, when firing of the powder dust is detected by the detector 10, the duct 5d is closed by the damper 11.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fire protection device for a duct, which is provided in a duct for discharging dust generated at a dust generation source such as a polishing device for polishing a rubber roll, for preventing a fire caused by ignition of the dust. Things.

[0002]

2. Description of the Related Art Conventionally, for example, in a polishing apparatus for polishing a rubber roll, the surface of the rubber roll is polished by a rotating grindstone. Dust generated by the polishing is sent to a dust collector through a duct and collected. However, if the rubber roll falls off due to some trouble, the rubber roll is scraped more than necessary, and the grinding wheel may come into contact with the metal shaft disposed inside the rubber roll.

[0003] As described above, when the rotating grindstone comes into contact with the metal shaft, a spark is generated, and there is a possibility that dust may be ignited. Since the dust flows at a high speed in the duct, when the dust ignites, the ignited dust adheres to a filter or the like of the dust collector, which causes a fire.

[0004]

On the other hand, the conventional duct is not provided with a sufficient fire protection device, and in the event of a fire, an operator stops the polishing device,
The fire was extinguished with a powder fire extinguisher placed around. For this reason, it takes a long time to extinguish the fire, and the equipment such as the dust collector is damaged by the fire, and in some cases, the entire damaged equipment needs to be replaced.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a duct fire prevention device capable of preventing equipment connected to a duct from being damaged by a fire. The purpose is to gain.

[0006]

According to a first aspect of the present invention, there is provided a fire-extinguishing water discharge device for a duct provided in a duct through which air containing dust flows. A fire-resistant pre-box that is provided in the middle of a duct as a part and retains dust, a radiating nozzle that is provided in the pre-box and radiates a fire extinguishing agent to dust, and a fire protection that controls the emission of fire extinguishing agent from the radiating nozzle It has a control unit.

According to a second aspect of the present invention, there is provided a duct fire prevention apparatus disposed upstream of a pre-box, for detecting that dust flowing in the duct has ignited, and disposed downstream of the pre-box. And a fire prevention control unit for closing the duct by the opening / closing means when the spark detector detects the ignition of the dust.

According to a third aspect of the present invention, there is provided a duct fire prevention apparatus in which a dust collector having a filter is provided downstream of the pre-box, and an opening / closing means is arranged between the pre-box and the dust collector.

According to a fourth aspect of the present invention, there is provided a duct fire prevention apparatus, wherein when a spark detector detects ignition of dust, the fire prevention control unit stops operation of a fan for flowing air through the duct. It is.

According to a fifth aspect of the present invention, when the ignition of the dust is detected by the spark detector, the fire prevention control unit stops the operation of the dust generation source located upstream of the spark detector. Things.

In the fire protection device for a duct according to the invention of claim 6, the pre-box is provided with a fire detecting means for detecting a fire of dust accumulated in the pre-box.

According to a seventh aspect of the present invention, in the duct fire prevention apparatus, when a fire in the pre-box is detected by the fire detection means, the fire prevention control unit automatically emits a fire extinguishing agent from the emission nozzle. is there.

An eighth aspect of the present invention provides a duct fire prevention apparatus using a constant temperature heat detector as a fire detection means.

In a ninth aspect of the present invention, there is provided a duct fire protection system using a foam fire extinguisher as a fire extinguishing agent.

According to a tenth aspect of the present invention, the fire extinguishing agent is radiated from the radiation nozzle as a low-expansion foam having a foaming ratio of 20 times or less.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a configuration diagram illustrating a fire protection device for a duct according to an example of an embodiment of the present invention. In the figure, a polishing apparatus 1 serving as a dust generation source is provided with a rotatable grindstone 2 and a support arm 3. A rubber roll 4 is supported on the support arm 3, and the surface of the rubber roll 4 is polished by the rotating grindstone 2. FIG. 4A shows a state in which the rubber roll 4 has fallen off the support arm 3 for some reason.

A dust collector 6 is connected to the polishing apparatus 1 via ducts 5a to 5d. A filter 7 for collecting dust (abrasive powder) generated by the polishing device 1 is provided in the dust collection device 6.
Is provided. Further, the dust collecting device 6 is provided with an exhaust fan 8. By driving the exhaust fan 8, the ducts 5 a to 5 a are directed from the polishing device 1 to the dust collecting device 6.
Air is circulated in d, and the dust generated in the polishing apparatus 1 is caused to flow along with the air.

Between the ducts 5c and 5d, a fire-resistant (for example, metal) pre-box 9 for retaining dust is arranged. Upstream of the pre-box 9 of the duct 5c,
For example, a spark detector 10 of an infrared detection type that detects that dust flowing in the duct 5c has ignited is arranged. The spark detector 10 is provided at a portion where the ducts 5a and 5b merge and are connected to the duct 5c.

Downstream of the pre-box 9, a damper 11 as an opening and closing means for opening and closing the duct 5d is arranged. The pre-box 9 is provided with a constant temperature heat detector 12 as a fire detecting means for detecting the fire of the accumulated dust, and a radiation nozzle 13 for emitting a fire extinguishing agent to the dust. A fire extinguisher container 14 is connected to the radiation nozzle 13.

In this embodiment, a premixed foam extinguishing agent using a surfactant is used as the extinguishing agent. The fire extinguishing agent is radiated from the radiating nozzle 13 as a low expansion bubble having a foaming ratio of 20 times or less. Further, the radiation nozzle 1
As 3, for example, one having a radiation angle of 100 degrees and having a dustproof cap is used.

The operation of the polishing apparatus 1 is controlled by a polishing apparatus controller 15.
Is controlled by The opening and closing of the damper 11 is controlled by the damper control unit 16. The operation of the exhaust fan 8 is controlled by the fan control unit 17. The polishing apparatus control unit 15, the damper control unit 16, and the fan control unit 17
8 is controlled. Detection signals from the spark detector 10 and the constant temperature heat detector 12 are sent to the fire prevention control unit 18. Further, the emission of the fire extinguishing agent from the emission nozzle 13 is controlled by the fire prevention control unit 18.

Next, the operation will be described. If the rubber roll 4 falls off the support arm 3 for any reason and the grinding wheel 2 comes into contact with the metal shaft disposed inside the rubber roll 4, sparks may be generated and dust may be ignited.
When the ignited dust flows into the duct 5c, it is detected by the spark detector 10, and a spark detection signal is sent to the fire prevention control unit 18.

When the spark detection signal is input to the fire control unit 18, commands are output from the fire control unit 18 to the polishing device control unit 15, the damper control unit 16, and the fan control unit 17, and the polishing device 1 and the exhaust fan 8 are output. Is stopped, and the duct 5 d is closed by the damper 11.

Thus, generation and ignition of new dust are prevented, and the flow of air in the ducts 5a to 5d is stopped. As a result, the ignited dust is transferred to the duct 5
c, the sparks are extinguished naturally. Therefore, occurrence of a fire is prevented beforehand, and damage to devices connected to the ducts 5a to 5d can be prevented.

In the event that the ignited dust lands on the pre-box 9 and ignites the dust accumulated in the pre-box 9, a fire is detected by the constant temperature heat sensor 12. , A fire detection signal is sent to the fire prevention control unit 18.

When a fire detection signal is input to the fire control unit 18, the fire extinguishing agent container 14
The fire extinguisher inside is sent to the radiation nozzle 13 and the radiation nozzle 13
Fire extinguisher is emitted from. Thereby, the pre-box 9
The fire inside is extinguished. Accordingly, it is possible to prevent fire from spreading to devices such as the dust collector 6 connected to the ducts 5a to 5d. Further, since the pre-box 9 itself is fire-resistant, it is not damaged by fire.

That is, if the pre-box 9 is arranged as a part of the air flow path between the ducts 5a to 5d and the dust stays in the pre-box 9, even if a fire due to the dust occurs, The fire occurrence location can be specified in the pre-box 9, the pre-box 9 is made fire-resistant, and the constant-temperature heat detector 12 and the radiation nozzle 13 are provided.
It is possible to more reliably prevent equipment damage due to fire.

In the above embodiment, a foam fire extinguisher is used as a fire extinguishing agent. However, another liquid fire extinguishing agent may be used, for example, water. Further, a powder-type fire extinguishing agent may be used. However, in the case of a water-based fire extinguishing agent, even when the fire extinguishing agent adheres only to the surface of the dust accumulated in the pre-box 9, the internal heat is also absorbed by the heat of vaporization of the fire extinguishing agent,
It can be cooled down to the deep part and extinguish deep fires.

Further, in the above embodiment, the fire extinguishing agent is automatically emitted from the emission nozzle 13 in response to the fire detection signal from the constant temperature type heat sensor 12, but the fire detection from the constant temperature type heat sensor 12 is performed. The fire extinguishing agent may be radiated from the radiating nozzle 13 manually by a worker in response to a signal.

Further, even when no fire is detected by the constant temperature heat detector 12, the fire extinguishing agent may be periodically emitted from the emission nozzle 13. Furthermore, at the stage where ignition of dust is detected by the spark detector 10, the fire extinguishing agent may be emitted from the emission nozzle 13.
The occurrence of a fire in the pre-box 9 can be prevented. Further, the radiation nozzle 13 may spray a fire extinguisher. Further, a spark detector (sensor) may be used in place of the constant temperature heat detector 12.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing a duct fire protection device according to an example of an embodiment of the present invention.

[Explanation of symbols]

1 Polishing device (dust generation source), 5a-5d duct, 6
Dust collector, 7 filter, 8 exhaust fan, 9 pre-box, 10 spark detector, 11 damper (opening / closing means), 12 constant temperature heat sensor (fire detecting means), 13
Radiant nozzle, 18 fire control.

 ──────────────────────────────────────────────────の Continued on the front page (72) Inventor Toshiaki Sugaya 4-7-3 Kudanminami, Chiyoda-ku, Tokyo Nomi Disaster Prevention Co., Ltd.

Claims (10)

[Claims] 1. A duct fire protection device provided in a duct through which air containing dust flows, wherein the fire protection device is provided in the middle of the duct as a part of the flow path of the air, and retains the dust. Pre-box, provided in the pre-box, a radiation nozzle that emits a fire extinguishing agent to the dust, and a fire prevention control unit that controls the emission of the fire extinguishing agent from the emission nozzle. Fire protection for ducts. 2. A spark detector arranged upstream of the pre-box and detecting that dust flowing in the duct has ignited, and a spark detector arranged downstream of the pre-box,
2. The apparatus according to claim 1, further comprising an opening / closing means for opening and closing the duct, wherein when the ignition of the dust is detected by the spark detector, the fire prevention control unit closes the duct by the opening / closing means. Fire protection device for ducts. 3. A dust collector having a filter is provided downstream of the pre-box.
3. The fire protection device for a duct according to claim 2, wherein the fire protection device is disposed between the pre-box and the dust collection device. 4. When the spark detector detects the ignition of the dust, the fire prevention control unit stops the operation of a fan for circulating air in the duct. 4. The duct fire protection device according to claim 3. 5. When the spark detector detects ignition of the dust, the fire prevention control unit stops operation of a dust source located upstream of the spark detector. The duct fire protection device according to any one of claims 2 to 4. 6. The pre-box is provided with a fire detecting means for detecting a fire of dust accumulated in the pre-box.
The fire protection device for a duct according to any one of the above. 7. The fire prevention control unit automatically emits the fire extinguishing agent from the emission nozzle when a fire in the pre-box is detected by the fire detection means. The described fire protection device for a duct. 8. The duct fire protection device according to claim 6, wherein the fire detection means is a constant temperature heat detector. 9. The fire protection system for a duct according to claim 1, wherein the fire extinguisher is a foam fire extinguisher. 10. The fire protection system for a duct according to claim 9, wherein the fire extinguishing agent is emitted from the emission nozzle as a low expansion foam having an expansion ratio of 20 times or less.