JP2011125673A - Jet head having silencing function for gas-based fire extinguishing system - Google Patents

Jet head having silencing function for gas-based fire extinguishing system Download PDF

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JP2011125673A
JP2011125673A JP2010105342A JP2010105342A JP2011125673A JP 2011125673 A JP2011125673 A JP 2011125673A JP 2010105342 A JP2010105342 A JP 2010105342A JP 2010105342 A JP2010105342 A JP 2010105342A JP 2011125673 A JP2011125673 A JP 2011125673A
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gas
fire extinguishing
extinguishing agent
orifice
jet head
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JP5972518B2 (en
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Yasushi Inoue
康史 井上
Masahiro Yabushita
真大 藪下
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Koatsu Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a jet head having a silencing function for a gas-based fire extinguishing system which can reduce noise caused when a fire extinguishant gas is released. <P>SOLUTION: In the gas-based fire extinguishing system using a fire-extinguishant gas, a silencer 3A is arranged in the jet head 1A to be installed to release the fire-extinguishant gas to a fire-extinguishing target section. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

本発明は、二酸化炭素、窒素、フッ素化合物等の消火剤ガスを使用するガス系消火設備において、消火対象区画に消火剤ガスを放出するために天井や壁面等に設置される噴射ヘッドに関し、特に、消火剤ガスが放出される際に発生する騒音を低減できるようにしたガス系消火設備用の消音機能を有する噴射ヘッドに関するものである。   The present invention relates to a jet head installed on a ceiling, a wall surface or the like in order to release a fire extinguishing agent gas to a fire extinguishing target section in a gas fire extinguishing facility using a fire extinguishing agent gas such as carbon dioxide, nitrogen, or a fluorine compound. The present invention relates to a jet head having a sound deadening function for a gas fire extinguishing equipment that can reduce noise generated when a fire extinguishing agent gas is released.

二酸化炭素、窒素、フッ素化合物等の消火剤ガスを使用するガス系消火設備において、消火の際にガス系消火設備が作動すると、約1分間以内(フッ素化合物の消火剤ガスの場合は10秒)で消火対象区画の消火剤ガス濃度が消火濃度に達するように、消火剤ガスが放出される。   In gas fire extinguishing equipment that uses extinguishing gas such as carbon dioxide, nitrogen, fluorine compound, etc., when the gas fire extinguishing equipment is activated at the time of fire extinguishing, it is within about 1 minute (in the case of fluorine compound fire extinguishing gas, 10 seconds) The extinguishing agent gas is released so that the extinguishing agent gas concentration in the fire extinguishing target section reaches the extinguishing concentration.

このとき、消火剤ガスは、消火対象区画に消火剤ガスを放出するために天井や壁面等に設置される噴射ヘッドから放出されるが、ガス系消火設備用噴射ヘッドは、図9(a)に示すような、消火剤ガスが供給される配管4に接続された噴射ヘッド10Aの出口部にオリフィス2を備え、オリフィス2から消火剤ガスを直接消火対象区画に放出するようにしたものや、図9(b)に示すような、消火剤ガスが供給される配管4に接続された噴射ヘッド10Bの出口部にオリフィス2及び円錐形状のデフレクタ(偏向部材)5を備え、オリフィス2から放出された消火剤ガスをデフレクタ(偏向部材)5により偏向させて消火対象区画に放出するようにしたもの、さらには、図9(c)に示すような、噴射ヘッド10Cの出口部にオリフィス(図示省略)及び円錐筒形状のホーン(拡散部材)6を備え、オリフィスから放出された消火剤ガスをホーン(拡散部材)6により拡散させて消火対象区画に放出するようにしたもの等が従来から汎用されてきた。   At this time, the fire extinguisher gas is released from the jet head installed on the ceiling, wall surface, etc. in order to release the fire extinguisher gas to the fire extinguishing target section. The jet head for the gas fire extinguishing equipment is shown in FIG. The outlet 2 of the jet head 10A connected to the pipe 4 to which the extinguishing agent gas is supplied as shown in FIG. 5 is provided with an orifice 2, and the extinguishing agent gas is directly discharged from the orifice 2 to the fire extinguishing target section. As shown in FIG. 9 (b), an orifice 2 and a conical deflector (deflecting member) 5 are provided at the outlet of an ejection head 10 B connected to a pipe 4 to which a fire extinguishing agent gas is supplied. A fire extinguisher gas deflected by a deflector (deflecting member) 5 and discharged to a fire extinguishing target section, and an orifice (see FIG. 9C) at the outlet of the ejection head 10C as shown in FIG. Omission) and a cone-shaped horn (diffusion member) 6, and a fire extinguishing agent gas emitted from an orifice is diffused by the horn (diffusion member) 6 and released into the fire extinguishing target section. It has been.

このように、上記従来のガス系消火設備用噴射ヘッド10A、10B、10Cは、消火対象区画に通常複数個設置される各々の噴射ヘッドから同じ量の消火剤ガスが放出されるようにするために、噴射ヘッドから放出される消火剤ガスの流量をオリフィス2によって制限するようにしているが、このため、噴射ヘッドから消火剤ガスが放出される際に、高レベルの騒音(具体的には、120db以上の騒音)が発生することが知られていた。   As described above, the conventional gas fire extinguishing equipment jet heads 10A, 10B, and 10C are configured so that the same amount of fire extinguishing agent gas is released from each of the jet heads that are usually installed in the fire extinguishing target section. In addition, the flow rate of the extinguishing agent gas discharged from the ejection head is limited by the orifice 2. For this reason, when the extinguishing agent gas is released from the ejection head, a high level of noise (specifically, , Noise of 120 db or more) is known to occur.

ところで、ガス系消火設備の作動時には、消火対象区画内に人が存在しないことが前提となっているため、噴射ヘッドから消火剤ガスが放出される際に発生する騒音に対しては、従来全く問題視されず、何の対策も取られていなかった。   By the way, since it is assumed that there is no person in the fire extinguishing target section when the gas fire extinguishing equipment is operated, it has been completely impossible to deal with noise generated when the fire extinguishing agent gas is discharged from the ejection head. It was not regarded as a problem and no measures were taken.

しかしながら、ガス系消火設備の作動時に消火対象区画内に逃げ遅れた人がいた場合の対処、さらには、噴射ヘッドから消火剤ガスが放出される際に発生する騒音が周囲のいる人に悪影響を及ぼすおそれがあることなどの知見に基づき、消火剤ガスが放出される際に発生する騒音を低減する必要があるとの結論に達した。   However, when a gas fire extinguisher is activated, there is a problem when there is a person who is late in the fire extinguishing target section, and noise generated when fire extinguishing agent gas is released from the jet head has an adverse effect on the surrounding people. Based on the knowledge that there is a risk of such effects, we concluded that it is necessary to reduce the noise generated when fire extinguishing gas is released.

本発明は、上記従来のガス系消火設備用噴射ヘッドにおいて全く問題視されず、何の対策も取られていなかった消火剤ガスが放出される際に発生する騒音を低減できるようにしたガス系消火設備用の消音機能を有する噴射ヘッドを提供することを目的とする。   The present invention is a gas system that can reduce noise generated when a fire extinguisher gas that has not been taken any measures and is not taken at all in the conventional jet head for gas fire extinguishing equipment is discharged. An object of the present invention is to provide a jet head having a sound deadening function for fire extinguishing equipment.

上記目的を達成するため、本発明のガス系消火設備用の消音機能を有する噴射ヘッドは、消火剤ガスを使用するガス系消火設備において消火対象区画に消火剤ガスを放出するために設置される噴射ヘッドに消音手段を備えたことを特徴とする。   In order to achieve the above object, a jet head having a sound extinguishing function for a gas fire extinguishing facility according to the present invention is installed to discharge a fire extinguishing agent gas to a fire extinguishing target section in a gas fire extinguishing facility using a fire extinguishing agent gas. The ejection head includes a silencer.

この場合において、前記消音手段を、噴射ヘッドに配設した消音器で構成することができる。   In this case, the silencer can be constituted by a silencer disposed in the ejection head.

また、前記消音手段を、オリフィスの形状によるものとすることができる。   Further, the sound deadening means may be in the form of an orifice.

また、前記消音手段を、オリフィスの出口部に配設した気体が流通可能な繊維状又は多孔性の材料で構成することができる。   Further, the silencer can be made of a fibrous or porous material through which a gas disposed at the outlet of the orifice can flow.

そして、繊維状又は多孔性材料の空隙の孔径を、気体が流通する方向に変化させること、例えば、繊維状又は多孔性材料の空隙の孔径を、気体が流通する方向に小さくすることができる。   And the hole diameter of the space | gap of a fibrous or porous material can be changed in the direction through which gas distribute | circulates, for example, the hole diameter of the space | gap of a fibrous or porous material can be made small in the direction through which gas distribute | circulates.

本発明のガス系消火設備用の消音機能を有する噴射ヘッドによれば、消火剤ガスを使用するガス系消火設備において消火対象区画に消火剤ガスを放出するために設置される噴射ヘッドに消音手段を備えることにより、消火剤ガスが放出される際に発生する騒音を低減でき、ガス系消火設備の作動時に消火対象区画内に逃げ遅れた人がいた場合でも、消火剤ガスが放出される際に発生する騒音によってパニックを起こしたり、避難を促す放送が聞こえにくくなることを防止することができ、さらには、噴射ヘッドから消火剤ガスが放出される際に発生する騒音が周囲のいる人に悪影響を及ぼすことなどを防止することができる。   According to the jet head having a silencing function for the gas fire extinguishing equipment of the present invention, in the gas fire extinguishing equipment using the fire extinguishing agent gas, the sound deadening means is provided in the jet head installed to discharge the fire extinguishing gas to the fire extinguishing target section. When the fire extinguishing agent gas is released, the noise generated when the fire extinguishing agent gas is released can be reduced. It is possible to prevent panic from being caused by noise generated in the air, and it is difficult to hear broadcasts prompting evacuation.Furthermore, noise generated when fire extinguishing agent gas is discharged from the jet head is It is possible to prevent adverse effects.

また、前記消音手段を、噴射ヘッドに配設した消音器で構成することにより、消音手段を簡易に配設することができるとともに、必要とされる消音の程度、設置状態等に合わせて消音器を設計することができることから、必要な消音性能を確実に得ることができる。   Further, by configuring the silencer with a silencer disposed in the ejection head, the silencer can be easily disposed, and the silencer can be adapted to the required degree of silence, installation conditions, etc. Therefore, the necessary silencing performance can be obtained with certainty.

また、前記消音手段を、オリフィスの形状によるものとすることにより、消音手段を簡易な構造とし、噴射ヘッドをコンパクトに構成でき、既存の設備にもそのまま適用することができる。   In addition, by using the silencer as the shape of the orifice, the silencer can have a simple structure, the ejection head can be configured compactly, and can be applied to existing equipment as it is.

また、前記消音手段を、オリフィスの出口部に配設した気体が流通可能な繊維状又は多孔性材料で構成することにより、消音手段を簡易な構造とし、噴射ヘッドをコンパクトに構成でき、既存の設備にもそのまま適用することができる。   In addition, by configuring the silencing means with a fibrous or porous material through which gas disposed at the outlet of the orifice can flow, the silencing means can have a simple structure, and the ejection head can be configured compactly. It can be applied to facilities as it is.

そして、繊維状又は多孔性材料の空隙の孔径を、気体が流通する方向に変化させること、例えば、繊維状又は多孔性材料の空隙の孔径を、気体が流通する方向に小さくすることにより、大きな消音効果を得ることができる。   Then, by changing the pore diameter of the voids of the fibrous or porous material in the direction in which the gas flows, for example, by reducing the pore diameter of the voids of the fibrous or porous material in the direction in which the gas flows. A silencing effect can be obtained.

本発明のガス系消火設備用の消音機能を有する噴射ヘッドの第1実施例を示す説明図である。It is explanatory drawing which shows 1st Example of the ejection head which has a sound deadening function for the gas fire extinguishing facilities of this invention. 本発明のガス系消火設備用の消音機能を有する噴射ヘッドの第2実施例を示す説明図である。It is explanatory drawing which shows 2nd Example of the injection head which has the sound deadening function for gas fire extinguishing equipment of this invention. 本発明のガス系消火設備用の消音機能を有する噴射ヘッドの第3実施例を示す説明図である。It is explanatory drawing which shows 3rd Example of the ejection head which has a sound deadening function for gas type fire extinguishing facilities of this invention. 本発明のガス系消火設備用の消音機能を有する噴射ヘッドの第3実施例の第1変形実施例を示す説明図である。It is explanatory drawing which shows the 1st modification of the 3rd Example of the injection head which has the sound-extinguishing function for gas type fire extinguishing facilities of this invention. 本発明のガス系消火設備用の消音機能を有する噴射ヘッドの第3実施例の第2変形実施例を示す説明図である。It is explanatory drawing which shows the 2nd modification of the 3rd Example of the ejection head which has a sound deadening function for gas type fire extinguishing facilities of this invention. 本発明のガス系消火設備用の消音機能を有する噴射ヘッドの第4実施例を示す説明図である。It is explanatory drawing which shows 4th Example of the ejection head which has a sound deadening function for the gas fire extinguishing facilities of this invention. 本発明のガス系消火設備用の消音機能を有する噴射ヘッドの第5実施例を示す説明図である。It is explanatory drawing which shows 5th Example of the ejection head which has the sound deadening function for gas type fire extinguishing facilities of this invention. 本発明のガス系消火設備用の消音機能を有する噴射ヘッドの第5実施例の変形実施例を示す説明図である。It is explanatory drawing which shows the deformation | transformation Example of the 5th Example of the ejection head which has a sound deadening function for gas type fire extinguishing facilities of this invention. 従来のガス系消火設備用噴射ヘッドを示す説明図である。It is explanatory drawing which shows the conventional injection head for gas type fire extinguishing equipment.

以下、本発明のガス系消火設備用の消音機能を有する噴射ヘッドの実施の形態を、図面に基づいて説明する。   Hereinafter, an embodiment of a jet head having a sound deadening function for a gas fire extinguishing facility of the present invention will be described based on the drawings.

図1に、本発明のガス系消火設備用の消音機能を有する噴射ヘッドの第1実施例を示す。
このガス系消火設備用の消音機能を有する噴射ヘッド1Aは、消火剤ガスが供給される配管4に接続された噴射ヘッド1Aにオリフィス2を備えるとともに、その先端側に消音器3Aを配設し、この消音器3Aを介して消火剤ガスを消火対象区画に放出するようにしている。
FIG. 1 shows a first embodiment of an ejection head having a sound deadening function for a gas fire extinguishing equipment of the present invention.
The jet head 1A having a silencing function for the gas fire extinguishing equipment is provided with an orifice 2 in the jet head 1A connected to a pipe 4 to which a fire extinguishing agent gas is supplied, and a silencer 3A is disposed on the tip side thereof. The fire extinguishing agent gas is discharged to the fire extinguishing target section through the silencer 3A.

本実施例において、消音器3Aは、消火剤ガスの流路となる内管31の周面に多数の透孔31aを形成し、その外周を外管32で覆う構造としている。
この消音器3Aは、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減するようにしたものである。
すなわち、噴射ヘッド1Aのオリフィス2を通過した消火剤ガスを直接大気中に放出すると、消火剤ガスが急激に膨張し、それに伴って騒音が発生することとなるが、本実施例の噴射ヘッド1Aにおいては、消火剤ガスの流路となる内管31の周面に多数の透孔31aを形成し、その外周を外管32で覆う構造としているため、オリフィス2を通過した消火剤ガスが内管31を通過する間に徐々に膨張し、消火剤ガスが内管31の先端に形成された開口31bから大気中に放出される際に急激に膨張することを緩和し、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減することができる。
In the present embodiment, the silencer 3 </ b> A has a structure in which a large number of through holes 31 a are formed on the peripheral surface of the inner tube 31 that serves as a flow path for the extinguishing agent gas, and the outer periphery thereof is covered with the outer tube 32.
The silencer 3A is designed to reduce the noise generated when the extinguishing agent gas is released by weakening the shock wave generated by the expansion of the extinguishing agent gas.
That is, when the extinguishing agent gas that has passed through the orifice 2 of the ejection head 1A is directly released into the atmosphere, the extinguishing agent gas rapidly expands, and noise is generated accordingly, but the ejection head 1A of the present embodiment. In the present invention, a large number of through holes 31a are formed on the peripheral surface of the inner pipe 31 serving as a flow path for the extinguishing agent gas, and the outer periphery thereof is covered with the outer pipe 32. The fire extinguisher gas expands gradually while passing through the pipe 31, and the expansion of the fire extinguishing gas is alleviated when the fire extinguishing gas is rapidly expanded when released into the atmosphere from the opening 31b formed at the tip of the inner pipe 31. It is possible to weaken the shock wave generated by this and reduce the noise generated when the extinguishing agent gas is released.

この場合において、内管31の周面に形成する透孔31aの大きさ及び個数(開口率)は、消火剤ガスの圧力や流量に応じて適宜設定することができる。
また、内管31と外管32との間に形成した空間33には、必要に応じて、グラスウール、ロックウール、スチールウール等の金属製ウール、合成繊維や天然繊維の不織布、無機材料(金属、金属の酸化物、金属の水酸化物を含む。)からなる多孔体(焼結体や粒状体を含む。)、合成樹脂発泡体、ハニカム構造の整流器等の気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料を充填するか、あるいは空間のままにすることができる。
また、外管32を焼結金属製のもので構成することもできる。
In this case, the size and the number (opening ratio) of the through holes 31a formed in the peripheral surface of the inner pipe 31 can be appropriately set according to the pressure and flow rate of the extinguishing agent gas.
Further, in the space 33 formed between the inner tube 31 and the outer tube 32, a metal wool such as glass wool, rock wool, steel wool, a nonwoven fabric of synthetic fiber or natural fiber, an inorganic material (metal A porous body (including a sintered body and a granular body) made of a metal oxide and a metal hydroxide), a synthetic resin foam, a honeycomb-like rectifier, etc. It can be filled with a material that eliminates the turbulence of the porous air flow or can remain in space.
Further, the outer tube 32 can be made of a sintered metal.

なお、本実施例においては、消火剤ガスが内管31の先端に形成された開口31bから消火対象区画に放出するようにしているが、図9(b)に示すように、円錐形状のデフレクタ(偏向部材)5を備え、内管31の先端に形成された開口31bから放出された消火剤ガスをデフレクタ(偏向部材)5により偏向させて消火対象区画に放出するようにしたり、図9(c)に示すように、円錐筒形状のホーン(拡散部材)6を備え、内管31の先端に形成された開口31bから放出された消火剤ガスをホーン(拡散部材)6により拡散させて消火対象区画に放出するようにすることもできる。   In the present embodiment, the extinguishing agent gas is discharged from the opening 31b formed at the tip of the inner pipe 31 to the extinguishing target section. However, as shown in FIG. (Deflection member) 5 is provided, and the extinguishing agent gas discharged from the opening 31b formed at the tip of the inner pipe 31 is deflected by the deflector (deflection member) 5 and discharged to the fire extinguishing target section. As shown in c), a cone-shaped horn (diffusion member) 6 is provided, and the extinguishing agent gas discharged from the opening 31b formed at the tip of the inner tube 31 is diffused by the horn (diffusion member) 6 to extinguish the fire. It can also be released into the target compartment.

このガス系消火設備用の消音機能を有する噴射ヘッド1Aによれば、消火剤ガスを使用するガス系消火設備において消火対象区画に消火剤ガスを放出するために設置される噴射ヘッド1Aに消音器3Aを配設することにより、消火剤ガスが放出される際に発生する騒音を低減でき、ガス系消火設備の作動時に消火対象区画内に逃げ遅れた人がいた場合でも、消火剤ガスが放出される際に発生する騒音によってパニックを起こしたり、避難を促す放送が聞こえにくくなることを防止することができ、さらには、噴射ヘッドから消火剤ガスが放出される際に発生する騒音が周囲のいる人に悪影響を及ぼすことなどを防止することができる。
また、噴射ヘッド1Aに配設した消音器3Aは、消音手段としての消音器3Aを簡易に配設することができるとともに、必要とされる消音の程度、設置状態等に合わせて消音器3Aを設計することができることから、必要な消音性能を確実に得ることができる。
According to the jet head 1A having a silencing function for the gas fire extinguishing equipment, the silencer is installed in the jet head 1A installed to discharge the extinguishing agent gas to the fire extinguishing target section in the gas fire extinguishing equipment using the fire extinguishing agent gas. By arranging 3A, the noise generated when the fire extinguisher gas is released can be reduced, and even if there is a person who escapes in the fire extinguishing target section when the gas fire extinguishing equipment is activated, the fire extinguishing gas is released. Panic due to the noise generated during the operation, and it is possible to prevent the broadcast that prompts evacuation from becoming difficult to hear, and furthermore, the noise generated when the fire extinguishing agent gas is released from the jet head It is possible to prevent adverse effects on people who are present.
In addition, the silencer 3A disposed in the ejection head 1A can be easily disposed as a silencer 3A as a silencer, and the silencer 3A can be arranged in accordance with the required degree of silence, installation conditions, and the like. Since it can be designed, the necessary silencing performance can be reliably obtained.

図2に、本発明のガス系消火設備用の消音機能を有する噴射ヘッドの第2実施例を示す。
このガス系消火設備用の消音機能を有する噴射ヘッド1Bは、消火剤ガスが供給される配管4に接続された噴射ヘッド1Bにオリフィス2を備えるとともに、その先端側に消音器3Bを配設し、この消音器3Bを介して消火剤ガスを消火対象区画に放出するようにしている。
FIG. 2 shows a second embodiment of an ejection head having a sound deadening function for the gas fire extinguishing equipment of the present invention.
The jet head 1B having a silencing function for the gas fire extinguishing equipment is provided with an orifice 2 in the jet head 1B connected to the pipe 4 to which the extinguishing agent gas is supplied, and a silencer 3B is disposed on the tip side thereof. The fire extinguishing agent gas is discharged to the fire extinguishing target section through the silencer 3B.

本実施例において、消音器3Bは、消火剤ガスが、消火剤ガスの流路となる内部流路34から放射方向に放出されるように、中心部に内部流路34と連通する孔部35aを有する複数の円盤形状の板材35を、スペーサ(図示省略)によって間隔をあけて、ボルト37によって固定することにより、消火剤ガスが放射方向に放出される放出流路36が形成される構造としている。
この消音器3Bは、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減するようにしたものである。
すなわち、噴射ヘッド1Bのオリフィス2を通過した消火剤ガスを直接大気中に放出すると、消火剤ガスが急激に膨張し、それに伴って騒音が発生することとなるが、本実施例の噴射ヘッド1Bにおいては、消火剤ガスが、消火剤ガスの流路となる内部流路34から放射方向に放出されるように、中心部に内部流路34と連通する孔部35aを有する複数の円盤形状の板材35を、スペーサ(図示省略)によって間隔をあけて、ボルト37によって固定することにより、消火剤ガスが放射方向に放出される放出流路36が形成される構造としているため、オリフィス2を通過した消火剤ガスが放出流路36を通過する間に徐々に膨張し、消火剤ガスが放出流路36から大気中に放出される際に急激に膨張することを緩和し、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減することができる。
In the present embodiment, the silencer 3B includes a hole portion 35a that communicates with the internal flow path 34 at the center so that the fire extinguisher gas is discharged in a radial direction from the internal flow path 34 that is the flow path of the fire extinguishing agent gas. A plurality of disk-shaped plate members 35 having a gap are spaced by spacers (not shown) and fixed by bolts 37 to form a discharge flow path 36 through which extinguishing agent gas is discharged in the radial direction. Yes.
This silencer 3B reduces the noise generated when the extinguishing agent gas is released by weakening the shock wave generated by the expansion of the extinguishing agent gas.
That is, when the extinguishing agent gas that has passed through the orifice 2 of the ejection head 1B is directly released into the atmosphere, the extinguishing agent gas expands rapidly, and noise is generated accordingly, but the ejection head 1B of the present embodiment. , A plurality of disk-shaped discs having a hole portion 35a communicating with the internal flow path 34 at the center so that the fire extinguishing gas is discharged in a radial direction from the internal flow path 34 serving as a flow path for the fire extinguisher gas. The plate member 35 is spaced by spacers (not shown) and fixed by bolts 37 to form a discharge flow path 36 through which the extinguishing agent gas is discharged in the radial direction. The fire extinguishing agent gas gradually expands while passing through the discharge flow path 36, and the expansion of the fire extinguishing gas is alleviated by reducing the rapid expansion when the fire extinguishing gas is released from the discharge flow path 36 into the atmosphere. Weakening the shock waves caused by Rukoto, extinguishant gas can reduce the noise occurring when released.

この場合において、円盤形状の板材35や放出流路36の大きさ及び個数は、消火剤ガスの圧力や流量に応じて適宜設定することができる。   In this case, the size and number of the disk-shaped plate material 35 and the discharge flow path 36 can be appropriately set according to the pressure and flow rate of the extinguishing agent gas.

本実施例のガス系消火設備用の消音機能を有する噴射ヘッド1Bのその他の作用は、上記第1実施例のガス系消火設備用の消音機能を有する噴射ヘッド1Aと同様である。   Other actions of the jet head 1B having a silencing function for the gas fire extinguishing equipment of the present embodiment are the same as those of the jet head 1A having a silencing function for the gas fire extinguishing equipment of the first embodiment.

図3に、本発明のガス系消火設備用の消音機能を有する噴射ヘッドの第3実施例を示す。
このガス系消火設備用の消音機能を有する噴射ヘッド1Cは、消火剤ガスが供給される配管4に接続された噴射ヘッド1Cに横方向に開口する複数個(本実施例においては、4個)のオリフィス2を備えるとともに、その外周を覆うように消音器3Cを配設し、この消音器3Cを介して消火剤ガスを消火対象区画に放出するようにしている。
FIG. 3 shows a third embodiment of an ejection head having a sound deadening function for the gas fire extinguishing equipment of the present invention.
The jet head 1C having a sound extinguishing function for the gas fire extinguishing equipment has a plurality (four in the present embodiment) that open laterally to the jet head 1C connected to the pipe 4 to which the extinguishing agent gas is supplied. In addition, a silencer 3C is disposed so as to cover the outer periphery of the orifice 2, and the extinguishing agent gas is discharged to the extinguishing target section through the silencer 3C.

本実施例において、消音器3Cは、オリフィス2の外周囲に設けた筒状の筐体38と、消火剤ガスの流路となる筐体38の開口部38aに配設した充填材39aとで構成するようにしている。
この消音器3Cは、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減するようにしたものである。
すなわち、噴射ヘッド1Cのオリフィス2を通過した消火剤ガスを直接大気中に放出すると、消火剤ガスが急激に膨張し、それに伴って騒音が発生することとなるが、本実施例の噴射ヘッド1Cにおいては、消火剤ガスの流路となるオリフィス2の外周を筐体38で覆うとともに、この筐体38の開口部38aに充填材39aを配設した構造としているため、オリフィス2を通過した消火剤ガスが筐体38、さらには、充填材39aを通過する間に徐々に膨張し、筐体38の開口部38aから大気中に放出される際に急激に膨張することを緩和し、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減することができる。
In the present embodiment, the silencer 3C includes a cylindrical casing 38 provided around the outer periphery of the orifice 2 and a filler 39a disposed in the opening 38a of the casing 38 serving as a flow path for the extinguishing agent gas. I am trying to configure it.
The silencer 3C is designed to reduce a noise generated when the extinguishing agent gas is released by weakening a shock wave generated by the expansion of the extinguishing agent gas.
That is, when the extinguishing agent gas that has passed through the orifice 2 of the ejecting head 1C is directly released into the atmosphere, the extinguishing agent gas rapidly expands, and noise is generated accordingly, but the ejecting head 1C of the present embodiment. , The outer periphery of the orifice 2 serving as a flow path for the extinguishing agent gas is covered with a casing 38, and the filler 39a is disposed in the opening 38a of the casing 38. The agent gas gradually expands while passing through the casing 38 and further the filler 39a, and mitigates the rapid expansion when released into the atmosphere from the opening 38a of the casing 38. The shock wave generated by the expansion of the gas can be weakened, and the noise generated when the extinguishing agent gas is released can be reduced.

この場合において、充填材39aには、グラスウール、ロックウール、スチールウール等の金属製ウール、合成繊維や天然繊維の不織布、無機材料(金属、金属の酸化物、金属の水酸化物を含む。)からなる多孔体(焼結体や粒状体を含む。)、合成樹脂発泡体、ハニカム構造の整流器等の気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料を用いることができる。
また、充填材39aが飛散等しないように、充填材39aの材質等に応じて、パンチングメタル、エキスパンドメタル、焼結金属製の板材、ハニカム構造の整流器等からなる挟持板39b1、39b2によって挟持した状態で配設することができる。
また、消音効果を一層高めるために、必要に応じて、筐体38の内周及び/又は外周をさらに吸音性を備えた材料を用いて被覆したり、筐体38を焼結金属製のもので構成することもできる。
In this case, the filler 39a includes metal wool such as glass wool, rock wool, and steel wool, nonwoven fabrics of synthetic fibers and natural fibers, and inorganic materials (including metals, metal oxides, and metal hydroxides). A material that eliminates the disturbance of a fibrous or porous air flow through which a gas can flow, such as a porous body (including a sintered body and a granular body), a synthetic resin foam, and a rectifier having a honeycomb structure, can be used.
Further, in order to prevent the filler 39a from being scattered or the like, it is sandwiched by sandwiching plates 39b1 and 39b2 made of a punching metal, an expanded metal, a sintered metal plate, a honeycomb structure rectifier or the like according to the material of the filler 39a. It can be arranged in a state.
Further, in order to further enhance the silencing effect, the inner circumference and / or outer circumference of the casing 38 is further coated with a material having a sound absorbing property as necessary, or the casing 38 is made of sintered metal. Can also be configured.

本実施例のガス系消火設備用の消音機能を有する噴射ヘッド1Cのその他の作用は、上記第1実施例のガス系消火設備用の消音機能を有する噴射ヘッド1Aと同様である。   Other actions of the jet head 1C having a silencing function for the gas fire extinguishing equipment of the present embodiment are the same as those of the jet head 1A having a silencing function for the gas fire extinguishing equipment of the first embodiment.

ところで、上記第3実施例のガス系消火設備用の消音機能を有する噴射ヘッド1Dの充填材39a等の配置形態は、同実施例に記載したものに限定されず、以下に記載するような種々の形態を採用することができる。   By the way, the arrangement form of the filler 39a and the like of the ejection head 1D having a sound extinguishing function for the gas fire extinguishing equipment of the third embodiment is not limited to the one described in the embodiment, but various as described below. The form of can be adopted.

図4に、上記第3実施例の第1変形実施例を示す。
このガス系消火設備用の消音機能を有する噴射ヘッド1C1において、消音器3C1は、横方向に開口する複数個(本実施例においては、4個)のオリフィス2の外周囲に設けけられた、消火剤ガスの流路となる開口部38aを形成した筒状の筐体38と、オリフィス2の横方向を向く開口の外周を若干の空間を設けて覆うようにして筐体38内に配設した有底の充填材39a1とで構成するようにしている。
この消音器3C1は、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減するようにしたものである。
すなわち、噴射ヘッド1C1のオリフィス2を通過した消火剤ガスを直接大気中に放出すると、消火剤ガスが急激に膨張し、それに伴って騒音が発生することとなるが、本実施例の噴射ヘッド1C1においては、消火剤ガスの流路となるオリフィス2の外周を充填材39a1を介して筐体38で覆う構造としているため、オリフィス2を通過した消火剤ガスが充填材39a1を通過する間に徐々に膨張し、筐体38の開口部38aから大気中に放出される際に急激に膨張することを緩和し、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減することができる。
また、液体可燃物等がある場合に、消火剤ガスが噴出されることによって可燃物が飛散し、これによって、火災の範囲が拡大するという問題があったが、オリフィス2を通過した消火剤ガスの流速が、充填材39a1を通過する間に大幅に減速されるため、この問題を併せて解消することができる。
FIG. 4 shows a first modified embodiment of the third embodiment.
In the ejection head 1C1 having a silencing function for the gas fire extinguishing equipment, the silencer 3C1 is provided on the outer periphery of a plurality (four in the present embodiment) of orifices 2 that open in the lateral direction. A cylindrical casing 38 having an opening 38a serving as a flow path for the extinguishing agent gas, and an outer periphery of the opening facing the lateral direction of the orifice 2 are provided in the casing 38 so as to cover with a small space. The bottomed filler 39a1 is configured.
This silencer 3C1 is designed to reduce the noise generated when the extinguishing agent gas is released by weakening the shock wave generated by the expansion of the extinguishing agent gas.
That is, when the extinguishing agent gas that has passed through the orifice 2 of the ejection head 1C1 is directly released into the atmosphere, the extinguishing agent gas rapidly expands and noise is generated accordingly, but the ejection head 1C1 of the present embodiment. Since the outer periphery of the orifice 2 serving as the flow path for the extinguishing agent gas is covered with the casing 38 via the filler 39a1, the extinguishing agent gas that has passed through the orifice 2 gradually passes through the filler 39a1. When the gas is expanded into the opening 38a of the housing 38 and is released into the atmosphere, the expansion is reduced, the shock wave generated by the expansion of the extinguishing agent gas is weakened, and the extinguishing agent gas is released. Noise generated at the time can be reduced.
In addition, when there is a liquid combustible material or the like, there is a problem that the combustible material is scattered by jetting out the fire extinguishing agent gas, thereby expanding the range of the fire. This flow rate is greatly decelerated while passing through the filler 39a1, so that this problem can be solved together.

この場合において、充填材39a1には、気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料を用いることができるが、特に、形状保持性能の高い無機材料(金属、金属の酸化物、金属の水酸化物を含む。)の焼結体からなる多孔体を好適に用いることができる。   In this case, the filler 39a1 can be made of a material that eliminates the disturbance of a fibrous or porous air flow through which gas can flow. In particular, an inorganic material (metal, metal oxide) having high shape retention performance can be used. In addition, a porous body made of a sintered body of a metal hydroxide is preferably used.

また、図4(b)に示すように、オリフィス2と充填材39a1との間に形成された空間の下部に気体が流通しない有底筒状の遮蔽体39cを配設することができる。
これにより、噴射ヘッド1C1のオリフィス2を通過した消火剤ガスを、一旦遮蔽体39cで受け、その後、充填材39a1を通過させることによって、消火剤ガスの圧力によって充填材39a1が損傷を受けることを防止し、消火剤ガスが充填材39a1を円滑に通過させることができる。
Moreover, as shown in FIG.4 (b), the bottomed cylindrical shield 39c which does not distribute | circulate gas can be arrange | positioned in the lower part of the space formed between the orifice 2 and the filler 39a1.
As a result, the fire extinguishing agent gas that has passed through the orifice 2 of the ejection head 1C1 is temporarily received by the shield 39c, and then the filling material 39a1 is passed, so that the filling material 39a1 is damaged by the pressure of the fire extinguishing agent gas. The fire extinguishing agent gas can smoothly pass through the filler 39a1.

なお、噴射ヘッド1C1のオリフィス2と充填材39a1との間の空間を形成しないようにすることもできるが、空間を形成することにより、噴射ヘッド1C1のオリフィス2を通過した消火剤ガスを、一旦噴射ヘッド1C1のオリフィス2と充填材39a1との間に形成した空間に放出することによって拡散させ、消火剤ガスが充填材39a1を円滑に通過するようにすることができる。   Although it is possible not to form a space between the orifice 2 of the ejection head 1C1 and the filler 39a1, by forming the space, the fire extinguishing agent gas that has passed through the orifice 2 of the ejection head 1C1 is temporarily changed. It can be diffused by discharging into the space formed between the orifice 2 of the ejection head 1C1 and the filler 39a1, and the extinguishing agent gas can smoothly pass through the filler 39a1.

本実施例のガス系消火設備用の消音機能を有する噴射ヘッド1C1のその他の作用は、上記第3実施例のガス系消火設備用の消音機能を有する噴射ヘッド1Cと同様である。   Other actions of the jet head 1C1 having a silencing function for the gas fire extinguishing equipment of the present embodiment are the same as those of the jet head 1C having a silencing function for the gas fire extinguishing equipment of the third embodiment.

図5に、上記第3実施例の第2変形実施例を示す。
このガス系消火設備用の消音機能を有する噴射ヘッド1C2において、消音器3C2は、下方向に開口する複数個(本実施例においては、6個)のオリフィス2の出口に円板形状(又は図9(b)に示すような円錐形状)のデフレクタ(偏向部材)5を設けて横方向に偏向させた開口の外周囲に設けられた、消火剤ガスの流路となる開口部38aを形成した筒状の筐体38と、オリフィス2の横方向を向く開口の外周を覆うようにして筐体38内に配設した有底の充填材39a1とで構成するようにしている。
さらに、この噴射ヘッド1C2においては、下方向に開口するオリフィス2の出口部に気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料(図示省略)を配設し、その周囲をスリット等を形成することにより気体が流通可能なカバー部材39dで覆うようにしている。
この場合、気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料は、オリフィス2の出口部に、気流の乱れを生じさせる空隙を生じることがないように、できるだけ近接して配設することが好ましい。
この消音器3C2は、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減するようにしたものである。
すなわち、噴射ヘッド1C2のオリフィス2を通過した消火剤ガスを直接大気中に放出すると、消火剤ガスが急激に膨張し、それに伴って騒音が発生することとなるが、本実施例の噴射ヘッド1C2においては、消火剤ガスの流路となる下方向に開口するオリフィス2の出口部に気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料を配設するとともに、横方向を向く開口の外周を充填材39a1を介して筐体38で覆う構造としているため、オリフィス2を通過した消火剤ガスが、気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料及び充填材39a1を通過する間に徐々に膨張し、筐体38の開口部38aから大気中に放出される際に急激に膨張することを緩和し、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減することができる。
また、液体可燃物等がある場合に、消火剤ガスが噴出されることによって可燃物が飛散し、これによって、火災の範囲が拡大するという問題があったが、オリフィス2を通過した消火剤ガスの流速が、気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料及び充填材39a1を通過する間に大幅に減速されるため、この問題を併せて解消することができる。
FIG. 5 shows a second modification of the third embodiment.
In the ejection head 1C2 having a silencing function for the gas fire extinguishing equipment, the silencer 3C2 has a disk shape (or a figure at the outlet) of a plurality (six in this embodiment) of orifices 2 that open downward. A conical deflector (deflection member) 5 as shown in FIG. 9 (b) is provided to form an opening 38a serving as a flow path for the extinguishing agent gas provided around the opening deflected laterally. The cylindrical casing 38 and a bottomed filler 39a1 disposed in the casing 38 so as to cover the outer periphery of the opening facing the lateral direction of the orifice 2 are configured.
Further, in this ejection head 1C2, a material (not shown) that eliminates the disturbance of a fibrous or porous air flow through which gas can flow is disposed at the outlet of the orifice 2 that opens downward, and a slit is formed around the periphery. Etc. are covered with a cover member 39d through which gas can flow.
In this case, the material that eliminates the turbulence of the fibrous or porous gas flow through which the gas can flow is arranged as close as possible so as not to generate a void that causes the turbulence of the air flow at the outlet of the orifice 2. It is preferable to do.
The silencer 3C2 is designed to reduce the noise generated when the extinguishing agent gas is released by weakening the shock wave generated by the expansion of the extinguishing agent gas.
That is, when the extinguishing agent gas that has passed through the orifice 2 of the ejection head 1C2 is directly released into the atmosphere, the extinguishing agent gas rapidly expands and noise is generated accordingly, but the ejection head 1C2 of the present embodiment. In this case, a material that eliminates turbulence of a fibrous or porous gas flow through which gas can flow is disposed at the outlet portion of the orifice 2 that opens downward as a flow path for the extinguishing agent gas, and the opening that faces in the lateral direction. Since the extinguishing agent gas that has passed through the orifice 2 eliminates turbulence in the fibrous or porous air flow through which the gas can flow, and the filler 39a1 The shock wave generated by the expansion of the fire-extinguishing gas is alleviated by gradually expanding while passing through the gas, and mitigating the rapid expansion when released into the atmosphere from the opening 38a of the housing 38. Umate, extinguishing agent gas can be reduced the noise occurring when released.
In addition, when there is a liquid combustible material or the like, there is a problem that the combustible material is scattered by jetting out the fire extinguishing agent gas, thereby expanding the range of the fire. This flow rate is greatly reduced while passing through the filler 39a1 and the material that eliminates the disturbance of the fibrous or porous gas flow through which the gas can flow, and this problem can be solved together.

この場合において、充填材39a1には、気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料を用いることができるが、特に、形状保持性能の高い無機材料(金属、金属の酸化物、金属の水酸化物を含む。)の焼結体からなる多孔体を好適に用いることができる。   In this case, the filler 39a1 can be made of a material that eliminates the disturbance of a fibrous or porous air flow through which gas can flow. In particular, an inorganic material (metal, metal oxide) having high shape retention performance can be used. In addition, a porous body made of a sintered body of a metal hydroxide is preferably used.

また、消火剤ガスの流路となる下方向に開口するオリフィス2の出口部に配設する気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料には、グラスウール、ロックウール、スチールウール等の金属製ウールや形状保持性能の高い無機材料(金属、金属の酸化物、金属の水酸化物を含む。)の焼結体からなる多孔体を好適に用いることができる。
なお、カバー部材39dには、気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料の材質に応じて、パンチングメタル、エキスパンドメタル、焼結金属製の板材、ハニカム構造の整流器等を用いることができるが、気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料の材質によっては、省略することもできる。
In addition, glass wool, rock wool, steel, etc. are used as materials for eliminating the disturbance of the fibrous or porous air flow through which the gas can be circulated, which is disposed at the outlet of the orifice 2 that opens downward as a flow path for the extinguishing agent gas. A porous body made of a sintered body of metal wool such as wool or an inorganic material having a high shape retention performance (including metal, metal oxide, and metal hydroxide) can be suitably used.
The cover member 39d includes a punching metal, an expanded metal, a sintered metal plate, a honeycomb structure rectifier, etc., depending on the material of the material that eliminates the disturbance of the fibrous or porous air flow through which the gas can flow. Although it can be used, it can be omitted depending on the material of the material that eliminates the disturbance of the fibrous or porous airflow through which the gas can flow.

また、図5(b)に示すように、噴射ヘッド1C2のオリフィス2と充填材39a1との間に空間を形成することができる。
これにより、噴射ヘッド1C2のオリフィス2を通過した消火剤ガスを、一旦噴射ヘッド1C2のオリフィス2と充填材39a1との間に形成した空間に放出することによって拡散させ、消火剤ガスが充填材39a1を円滑に通過するようにすることができる。
Further, as shown in FIG. 5B, a space can be formed between the orifice 2 of the ejection head 1C2 and the filler 39a1.
Thus, the extinguishing agent gas that has passed through the orifice 2 of the ejection head 1C2 is once diffused by being discharged into the space formed between the orifice 2 of the ejection head 1C2 and the filling material 39a1, and the extinguishing agent gas is diffused. Can pass smoothly.

本実施例のガス系消火設備用の消音機能を有する噴射ヘッド1C2のその他の作用は、上記第3実施例のガス系消火設備用の消音機能を有する噴射ヘッド1Cと同様である。   Other actions of the jet head 1C2 having a silencing function for the gas fire extinguishing equipment of the present embodiment are the same as those of the jet head 1C having a silencing function for the gas fire extinguishing equipment of the third embodiment.

ところで、上記各実施例においては、消音手段を、噴射ヘッド1A、1B、1Cに配設した消音器3A、3B、3Cで構成するようにしたが、オリフィス2の形状を工夫することにより消音効果を得るようにすることもできる。   By the way, in each said Example, although the silencer was comprised with the silencer 3A, 3B, 3C arrange | positioned at ejection head 1A, 1B, 1C, the noise reduction effect is devised by devising the shape of the orifice 2. Can also be obtained.

具体的には、消音手段となるオリフィス2の形状としては、特に限定されるものではないが、例えば、図6に示すような、ISAノズルからなる噴射ヘッド1D(図6(a))、長円ノズルからなる噴射ヘッド1E(図6(b))、ノズル形ベンチュリー管からなる噴射ヘッド1F(図6(c))、円錐形ベンチュリー管からなる噴射ヘッド1G(図6(d))等を挙げることができ、より具体的な一例として、図6(e)に円錐形ベンチュリー管の内面形状がなだらかに変形するようにしたノズル(ラバルノズル)からなる噴射ヘッド1Hを挙げることができる。   Specifically, the shape of the orifice 2 serving as the sound deadening means is not particularly limited. For example, as shown in FIG. 6, an ejection head 1 </ b> D (FIG. 6A) composed of an ISA nozzle is long. An injection head 1E (FIG. 6B) composed of a circular nozzle, an ejection head 1F composed of a nozzle-shaped venturi tube (FIG. 6C), an ejection head 1G composed of a conical venturi tube (FIG. 6D), etc. As a more specific example, FIG. 6E shows an ejection head 1H composed of a nozzle (Laval nozzle) in which the inner shape of the conical venturi tube is gently deformed.

この噴射ヘッド1D〜1Hは、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減するようにしたものである。
すなわち、噴射ヘッド1D〜1Hのオリフィス2を通過した消火剤ガスを直接大気中に放出すると、消火剤ガスが急激に膨張し、それに伴って騒音が発生することとなるが、本実施例の噴射ヘッド1D〜1Hにおいては、オリフィス2を通過した消火剤ガスが噴射ヘッド1D〜1Hを通過する間に徐々に膨張し、大気中に放出される際に急激に膨張することを緩和し、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減することができる。
The jet heads 1D to 1H are configured to reduce the noise generated when the extinguishing agent gas is released by weakening the shock wave generated by the expansion of the extinguishing agent gas.
That is, when the extinguishing agent gas that has passed through the orifices 2 of the ejection heads 1D to 1H is directly released into the atmosphere, the extinguishing agent gas rapidly expands, and noise is generated accordingly. In the heads 1D to 1H, the fire extinguisher gas that has passed through the orifice 2 gradually expands while passing through the ejection heads 1D to 1H, and the fire extinguishing agent is alleviated from being rapidly expanded when released into the atmosphere. The shock wave generated by the expansion of the gas can be weakened, and the noise generated when the extinguishing agent gas is released can be reduced.

このように、消音手段を、オリフィス2の形状によるものとすることにより、消音手段を簡易な構造とし、噴射ヘッドをコンパクトに構成でき、既存の設備にもそのまま適用することができる。   In this way, by using the silencer having the shape of the orifice 2, the silencer can have a simple structure, the ejection head can be configured compactly, and can be applied to existing equipment as it is.

本実施例のガス系消火設備用の消音機能を有する噴射ヘッド1D〜1Hのその他の作用は、上記第1実施例のガス系消火設備用の消音機能を有する噴射ヘッド1Aと同様である。   Other operations of the jet heads 1D to 1H having a silencing function for the gas fire extinguishing equipment of the present embodiment are the same as those of the jet head 1A having a silencing function for the gas fire extinguishing equipment of the first embodiment.

また、同様に、第3実施例の第2変形実施例を示す、オリフィス2の出口部に気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料を配設する構造のみ(筒状の筐体38を省略。)によって消音効果を得るようにすることもできる。
この場合、気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料は、オリフィス2の出口部に、気流の乱れを生じさせる空隙を生じることがないように、できるだけ近接して配設することが好ましい。
Similarly, only the structure in which the material that eliminates the disturbance of the fibrous or porous air flow through which the gas can circulate is provided at the outlet of the orifice 2 as shown in the second modified example of the third example (tubular shape). The case 38 can be omitted) to obtain a silencing effect.
In this case, the material that eliminates the turbulence of the fibrous or porous gas flow through which the gas can flow is arranged as close as possible so as not to generate a void that causes the turbulence of the air flow at the outlet of the orifice 2. It is preferable to do.

具体的には、図7に示すように、噴射ヘッド1I、1Jのオリフィス2の出口部に気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料7を配設することにより、オリフィス2を通過した消火剤ガスが、気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料7を通過する間に徐々に膨張することによって、大気中に放出される際に急激に膨張することを緩和し、消火剤ガスが膨張することによって生じる衝撃波を弱めて、消火剤ガスが放出される際に発生する騒音を低減することができる。
ここで、図7(a)に示す噴射ヘッド1Iは、複数個(本実施例においては、6個)のオリフィス2を備え、その出口に円板形状(又は図9(b)に示すような円錐形状)のデフレクタ(偏向部材)5を設けて横方向に偏向させた開口を備えたものであり、図7(b)に示す噴射ヘッド1Jは、1個のオリフィス2に連なる下方向の開口を備えたものである。
なお、噴射ヘッドやオリフィスの形式は、本実施例のものに限定されるものではない。
Specifically, as shown in FIG. 7, by arranging a material 7 that eliminates the disturbance of a fibrous or porous air flow through which gas can flow at the outlet of the orifice 2 of the ejection heads 1I and 1J, the orifice The fire extinguisher gas that has passed through 2 expands rapidly while passing through the material 7 that eliminates the turbulence of the fibrous or porous gas flow through which the gas can circulate, thereby rapidly expanding when released into the atmosphere. It is possible to reduce the noise generated when the extinguishing agent gas is released by reducing the shock wave generated by the expansion of the extinguishing agent gas.
Here, the ejection head 1I shown in FIG. 7A includes a plurality of (six in the present embodiment) orifices 2 and has a disc shape (or as shown in FIG. 9B) at the outlet thereof. A conical-shaped deflector (deflecting member) 5 is provided and has an opening deflected laterally. The ejection head 1J shown in FIG. 7B has a downward opening continuous with one orifice 2. It is equipped with.
The form of the ejection head and the orifice is not limited to that of the present embodiment.

この場合において、気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料7には、特に、グラスウール、ロックウール、スチールウール等の金属製ウールや形状保持性能の高い無機材料(金属、金属の酸化物、金属の水酸化物を含む。)の焼結体からなる多孔体を、その材質等に応じて、必要に応じて、パンチングメタル、エキスパンドメタル、焼結金属製の板材、ハニカム構造の整流器等からなるカバー部材を併用することによって、好適に用いることができる。   In this case, the material 7 that eliminates the disturbance of the fibrous or porous air flow through which the gas can flow includes, in particular, metal wool such as glass wool, rock wool, and steel wool, or an inorganic material (metal, A porous body made of a sintered body of metal oxide and metal hydroxide) is punched metal, expanded metal, sintered metal plate material, honeycomb as required according to the material, etc. By using together the cover member which consists of a structure rectifier etc., it can use suitably.

このように、消音手段を、オリフィス2の出口部に配設した気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料7で構成することにより、消音手段を簡易な構造とし、噴射ヘッドをコンパクトに構成でき、既存の設備にもそのまま適用することができる。   In this way, the sound deadening means is made of the material 7 that eliminates the disturbance of the fibrous or porous air flow through which the gas that is disposed at the outlet of the orifice 2 can flow. The head can be configured compactly and can be applied to existing equipment as it is.

本実施例のガス系消火設備用の消音機能を有する噴射ヘッド1I、1Jのその他の作用は、上記第3実施例の第2変形実施例のガス系消火設備用の消音機能を有する噴射ヘッド1C2と同様である。   The other effects of the jet heads 1I and 1J having the silencing function for the gas fire extinguishing equipment of the present embodiment are the same as those of the jet head 1C2 having the silencing function for the gas fire extinguishing equipment of the second modified embodiment of the third embodiment. It is the same.

ところで、オリフィス2の出口部に配設する気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料7は、全体を均質な材料で構成するほか、図8に示す噴射ヘッド1K、1Lに示すように、繊維状又は多孔性材料の空隙の孔径を気体が流通する方向に変化させた材料、例えば、繊維状又は多孔性材料の空隙の孔径を気体が流通する方向に小さくした材料を用いることができる。
具体的には、図8(a)に示す噴射ヘッド1Kは、複数個のオリフィス2を備え、その出口に、中心部に空隙の孔径が大きな3次元の網目状組織からなる金属多孔性材料7aを、外周部にそれより空隙の孔径が小さな金属多孔性材料7bを層状に配して構成した円板形状の多孔性の気流の乱れをなくす材料7を配設したものであり、図8(b)に示す噴射ヘッド1Lは、複数個のオリフィス2を備え、その出口に、中心部に空隙の孔径が大きな3次元の網目状組織からなる金属多孔性材料7aを、外周部にそれより空隙の孔径が小さな金属多孔性材料7bを層状に配して構成した円筒形状の多孔性の気流の乱れをなくす材料7を配設したものである。
なお、噴射ヘッドやオリフィスの形式、さらに、気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料7は、本実施例のものに限定されるものではない。
By the way, the material 7 which eliminates the disturbance of the fibrous or porous air flow through which the gas can be circulated disposed at the outlet portion of the orifice 2 is composed of a homogeneous material as a whole, and the ejection heads 1K and 1L shown in FIG. As shown in the above, a material in which the pore diameter of the void of the fibrous or porous material is changed in the direction in which the gas flows, for example, a material in which the hole diameter of the void in the fibrous or porous material is reduced in the direction in which the gas flows. Can be used.
Specifically, the jet head 1K shown in FIG. 8A includes a plurality of orifices 2, and at the outlet thereof, a metal porous material 7a made of a three-dimensional network having a large pore diameter at the center. 8 is provided with a material 7 that eliminates turbulence of a disk-shaped porous air flow that is formed by laminating a metal porous material 7b having a smaller pore diameter in the outer peripheral portion in a layered manner. A jet head 1L shown in b) includes a plurality of orifices 2, and at the outlet thereof, a metal porous material 7a made of a three-dimensional network having a large pore diameter at the center and a void from the outer periphery thereof. A material 7 is disposed in which a cylindrical porous material 7b having a small pore diameter is arranged in a layered structure to eliminate the disturbance of a porous porous air flow.
In addition, the material 7 which eliminates the disorder | damage | failure of the form of a jet head or an orifice, and the fibrous or porous airflow which can distribute | circulate gas is not limited to the thing of a present Example.

表1に、図8(a)に示す噴射ヘッド1Kと、多孔性の気流の乱れをなくす材料7に均質な材料(空隙の孔径が大きな金属多孔性材料7aと同じ材料)を用いた場合との比較試験を行った結果を示す。   Table 1 shows a case where a homogeneous material (the same material as the metal porous material 7a having a large pore diameter) is used for the jet head 1K shown in FIG. 8A and the material 7 for eliminating the disturbance of the porous airflow. The result of having performed the comparative test of is shown.

Figure 2011125673
Figure 2011125673

表1の比較試験の結果から明らかなように、オリフィス2の出口部に配設する気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料7に、空隙の孔径を気体が流通する方向に変化させた材料、例えば、空隙の孔径を気体が流通する方向に小さくした材料を用いることによって、ガスの流量を確保しながら、消火剤ガスが放出される際に発生する騒音を一層低減することができることを確認した。   As is apparent from the results of the comparative test in Table 1, the gas flows through the pore diameter of the voids in the material 7 that eliminates the disturbance of the fibrous or porous air flow that can flow through the gas disposed at the outlet of the orifice 2. By using a material that changes its direction, for example, a material whose pore diameter is reduced in the direction in which the gas flows, the noise generated when the extinguishing agent gas is released is further reduced while ensuring the gas flow rate. Confirmed that you can.

以上、本発明のガス系消火設備用の消音機能を有する噴射ヘッドについて、複数の実施例に基づいて説明したが、本発明は上記実施例に記載した構成に限定されるものではなく、例えば、各実施例に記載した構成を適宜組み合わせたり、消音器に消火剤ガスが放出される際に発生する騒音を低減できる各種構造のものを使用する等、その趣旨を逸脱しない範囲において適宜その構成を変更することができるものである。   As described above, the ejection head having a silencing function for the gas fire extinguishing equipment of the present invention has been described based on a plurality of examples, but the present invention is not limited to the configuration described in the above examples, for example, The configuration described in each example is appropriately combined, or the configuration is appropriately set within a range that does not deviate from the gist, such as using various structures that can reduce noise generated when the extinguishing agent gas is discharged to the silencer. It can be changed.

本発明のガス系消火設備用の消音機能を有する噴射ヘッドは、消火剤ガスが放出される際に発生する騒音を低減できることから、二酸化炭素、窒素、フッ素化合物等の消火剤ガスを使用するガス系消火設備の用途に広く用いることができ、適用対象も、新設のガス系消火設備に限定されず、噴射ヘッドを交換又は消音器を付設するだけで、既設のガス系消火設備にも適用することができる。   Since the jet head having a silencing function for the gas fire extinguishing equipment of the present invention can reduce noise generated when the extinguishing agent gas is released, a gas that uses extinguishing agent gas such as carbon dioxide, nitrogen, fluorine compound, etc. It can be widely used for fire extinguishing equipment, and is applicable to existing gas fire extinguishing equipment only by replacing the injection head or attaching a silencer. be able to.

1A ガス系消火設備用の消音機能を有する噴射ヘッド
1B ガス系消火設備用の消音機能を有する噴射ヘッド
1C ガス系消火設備用の消音機能を有する噴射ヘッド
1C1 ガス系消火設備用の消音機能を有する噴射ヘッド
1C2 ガス系消火設備用の消音機能を有する噴射ヘッド
1D ガス系消火設備用の消音機能を有する噴射ヘッド
1E ガス系消火設備用の消音機能を有する噴射ヘッド
1F ガス系消火設備用の消音機能を有する噴射ヘッド
1G ガス系消火設備用の消音機能を有する噴射ヘッド
1H ガス系消火設備用の消音機能を有する噴射ヘッド
1I ガス系消火設備用の消音機能を有する噴射ヘッド
1J ガス系消火設備用の消音機能を有する噴射ヘッド
1K ガス系消火設備用の消音機能を有する噴射ヘッド
1L ガス系消火設備用の消音機能を有する噴射ヘッド
2 オリフィス
3A 消音器
3B 消音器
3C 消音器
3C1 消音器
3C2 消音器
4 配管
5 デフレクタ(偏向部材)
6 ホーン(拡散部材)
7 気体が流通可能な繊維状又は多孔性の気流の乱れをなくす材料
7a 空隙の孔径が大きな金属多孔性材料
7b 空隙の孔径が小さな金属多孔性材料
1A Injection head having a silencing function for gas fire extinguishing equipment 1B Injection head having a silencing function for gas fire extinguishing equipment 1C Injection head having a silencing function for gas fire extinguishing equipment 1C1 Having a silencing function for gas fire extinguishing equipment Ejection head 1C2 Ejection head having a silencing function for gas fire extinguishing equipment 1D Ejection head having a silencing function for gas fire extinguishing equipment 1E Ejection head having a silencing function for gas fire extinguishing equipment 1F Silencing function for gas fire extinguishing equipment 1G Injection head having a silencing function for gas fire extinguishing equipment 1H Injection head having a silencing function for gas fire extinguishing equipment 1I Injection head having a silencing function for gas fire extinguishing equipment 1J For gas fire extinguishing equipment Ejection head with silencer function 1K Ejection head with silencer function for gas fire extinguishing equipment 1L For gas fire extinguishing equipment Jet heads 2 orifices 3A silencer 3B silencer 3C silencer 3C1 silencer 3C2 silencer 4 pipe 5 deflector having a mute function (deflecting member)
6 Horn (Diffusion member)
7 Material that eliminates turbulence in fibrous or porous air flow through which gas can flow 7a Metal porous material with large pore diameter 7b Metal porous material with small pore diameter

Claims (6)

消火剤ガスを使用するガス系消火設備において消火対象区画に消火剤ガスを放出するために設置される噴射ヘッドに消音手段を備えたことを特徴とするガス系消火設備用の消音機能を有する噴射ヘッド。   A jet having a silencing function for a gas fire extinguishing facility, characterized in that a silencing means is provided in a jet head installed to discharge the extinguishing agent gas to a fire extinguishing target section in a gas fire extinguishing facility using a fire extinguishing agent gas head. 前記消音手段が、噴射ヘッドに配設した消音器であることを特徴とする請求項1記載のガス系消火設備用の消音機能を有する噴射ヘッド。   The ejection head having a silencing function for a gas fire extinguishing equipment according to claim 1, wherein the silencing means is a silencer disposed in the ejection head. 前記消音手段が、オリフィスの形状によるものであることを特徴とする請求項1記載のガス系消火設備用の消音機能を有する噴射ヘッド。   2. A jet head having a sound deadening function for a gas fire extinguishing equipment according to claim 1, wherein the sound deadening means has a shape of an orifice. 前記消音手段が、オリフィスの出口部に配設した気体が流通可能な繊維状又は多孔性材料からなることを特徴とする請求項1記載のガス系消火設備用の消音機能を有する噴射ヘッド。   2. A jet head having a sound deadening function for a gas fire extinguishing equipment according to claim 1, wherein the sound deadening means is made of a fibrous or porous material through which a gas disposed at the outlet of the orifice can flow. 繊維状又は多孔性材料の空隙の孔径を、気体が流通する方向に変化させるようにしたことを特徴とする請求項4記載のガス系消火設備用の消音機能を有する噴射ヘッド。   5. A jet head having a sound deadening function for a gas fire extinguishing equipment according to claim 4, wherein the pore diameter of the void of the fibrous or porous material is changed in the direction in which the gas flows. 繊維状又は多孔性材料の空隙の孔径を、気体が流通する方向に小さくしたことを特徴とする請求項5記載のガス系消火設備用の消音機能を有する噴射ヘッド。   6. The jet head having a sound deadening function for a gas fire extinguishing equipment according to claim 5, wherein the pore diameter of the void of the fibrous or porous material is reduced in the direction in which the gas flows.
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Cited By (18)

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Publication number Priority date Publication date Assignee Title
JP2011224395A (en) * 2009-10-23 2011-11-10 Air Water Safety Service Inc Gas fire extinguisher
JP2013000195A (en) * 2011-06-13 2013-01-07 Air Water Safety Service Inc Nozzle structure
CN103028218A (en) * 2011-09-30 2013-04-10 上海靓消消防装备有限公司 Open single-phase flow water mist nozzle
WO2013125383A1 (en) 2012-02-21 2013-08-29 株式会社コーアツ Spray head for gaseous fire extinguishing equipment having silencing function
JP2013169333A (en) * 2012-02-21 2013-09-02 Koatsu Co Ltd Jet head with silencing function for gas type fire extinguishing equipment
JP2013169472A (en) * 2013-04-17 2013-09-02 Koatsu Co Ltd Jet head with silencing function for gas type fire extinguishing equipment
CN103316442A (en) * 2013-06-14 2013-09-25 中国科学技术大学 Micro fog screen sprayer
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JP2014028002A (en) * 2012-07-31 2014-02-13 Nippon Dry Chem Co Ltd Injection head having muffler function
JP2015091305A (en) * 2013-10-02 2015-05-14 エア・ウォーター防災株式会社 Extinguishing gas jetting device and gas fire extinguisher therewith
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Citations (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3949828A (en) * 1974-08-30 1976-04-13 Barry Wright Corporation Fluid exhaust silencer
JPS57186796U (en) * 1981-05-23 1982-11-26
JPS58103100U (en) * 1982-01-06 1983-07-13 横河電機株式会社 Silencer for air purge
JPS5933450U (en) * 1982-08-25 1984-03-01 ニツタン株式会社 Silencer for gas discharge pipe for testing gas fire extinguishing equipment
JPH0178216U (en) * 1987-11-13 1989-05-25
JPH02254107A (en) * 1989-03-29 1990-10-12 Nippon Steel Corp Sound absorbing material
JPH0388561U (en) * 1989-12-26 1991-09-10
JPH04292518A (en) * 1991-03-20 1992-10-16 Nissan Shatai Co Ltd Muffling device
US5197548A (en) * 1991-01-22 1993-03-30 Messer Griesheim Gmbh Fire extinguishing device with storage tank for a low-boiling liquefied gas which serves as extinguishing agent
EP0700693A1 (en) * 1994-09-09 1996-03-13 Nagtglas Versteeg B.V. Method for extinguishing a fire
DE19719535A1 (en) * 1996-10-16 1998-04-23 Gerd Schwertfeger Noise damper for pressure container vent of floor covering mixer
JPH11325655A (en) * 1998-05-14 1999-11-26 Matsushita Seiko Co Ltd Silencer and air conditioner
EP1151800A2 (en) * 2000-05-05 2001-11-07 Vesta Srl Silenced nozzle for discharge of extinguishing gas
JP2003530922A (en) * 2000-04-17 2003-10-21 コトライアー・イガー・ケイ Low Oxygen Concentration Fire Prevention and Fire Suppression Systems and Respirable Fire Extinguishing Compositions in Manned Environments
JP2005002873A (en) * 2003-06-11 2005-01-06 Aisin Seiki Co Ltd Muffler
JP2006057549A (en) * 2004-08-20 2006-03-02 Yanmar Co Ltd Gas engine
JP2006194157A (en) * 2005-01-13 2006-07-27 Smc Corp Silencer

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5439686Y2 (en) * 1974-09-25 1979-11-24
JPH0323254Y2 (en) * 1985-09-18 1991-05-21
JPH11267242A (en) * 1998-03-25 1999-10-05 Miyata Ind Co Ltd Fire-fighting facility for gasoline service station
JP4440597B2 (en) * 2003-10-17 2010-03-24 深田工業株式会社 Spray fire extinguishing device and spray method of liquid fire extinguishing agent
JP5002129B2 (en) * 2005-03-16 2012-08-15 エア・ウォーター防災株式会社 Nozzle assembly
JP4664867B2 (en) * 2006-06-05 2011-04-06 ナブテスコオートモーティブ株式会社 Silencer
JP5276630B2 (en) * 2009-10-23 2013-08-28 エア・ウォーター防災株式会社 Gas fire extinguishing equipment

Patent Citations (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3949828A (en) * 1974-08-30 1976-04-13 Barry Wright Corporation Fluid exhaust silencer
JPS57186796U (en) * 1981-05-23 1982-11-26
JPS58103100U (en) * 1982-01-06 1983-07-13 横河電機株式会社 Silencer for air purge
JPS5933450U (en) * 1982-08-25 1984-03-01 ニツタン株式会社 Silencer for gas discharge pipe for testing gas fire extinguishing equipment
JPH0178216U (en) * 1987-11-13 1989-05-25
JPH02254107A (en) * 1989-03-29 1990-10-12 Nippon Steel Corp Sound absorbing material
JPH0388561U (en) * 1989-12-26 1991-09-10
US5197548A (en) * 1991-01-22 1993-03-30 Messer Griesheim Gmbh Fire extinguishing device with storage tank for a low-boiling liquefied gas which serves as extinguishing agent
JPH04292518A (en) * 1991-03-20 1992-10-16 Nissan Shatai Co Ltd Muffling device
EP0700693A1 (en) * 1994-09-09 1996-03-13 Nagtglas Versteeg B.V. Method for extinguishing a fire
DE19719535A1 (en) * 1996-10-16 1998-04-23 Gerd Schwertfeger Noise damper for pressure container vent of floor covering mixer
JPH11325655A (en) * 1998-05-14 1999-11-26 Matsushita Seiko Co Ltd Silencer and air conditioner
JP2003530922A (en) * 2000-04-17 2003-10-21 コトライアー・イガー・ケイ Low Oxygen Concentration Fire Prevention and Fire Suppression Systems and Respirable Fire Extinguishing Compositions in Manned Environments
EP1151800A2 (en) * 2000-05-05 2001-11-07 Vesta Srl Silenced nozzle for discharge of extinguishing gas
JP2005002873A (en) * 2003-06-11 2005-01-06 Aisin Seiki Co Ltd Muffler
JP2006057549A (en) * 2004-08-20 2006-03-02 Yanmar Co Ltd Gas engine
JP2006194157A (en) * 2005-01-13 2006-07-27 Smc Corp Silencer

Cited By (38)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2011224395A (en) * 2009-10-23 2011-11-10 Air Water Safety Service Inc Gas fire extinguisher
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JP2013000195A (en) * 2011-06-13 2013-01-07 Air Water Safety Service Inc Nozzle structure
CN103028218A (en) * 2011-09-30 2013-04-10 上海靓消消防装备有限公司 Open single-phase flow water mist nozzle
CN104159642A (en) * 2012-02-21 2014-11-19 株式会社高压 Spray head for gaseous fire extinguishing equipment having silencing function
WO2013125383A1 (en) 2012-02-21 2013-08-29 株式会社コーアツ Spray head for gaseous fire extinguishing equipment having silencing function
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CN103316442B (en) * 2013-06-14 2016-04-20 中国科学技术大学 A kind of micro-fog screen sprayer
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