JP3821793B2 - Mist injection device - Google Patents

Description

【００５２】
表２は、噴射液１３の温度に対する対策が講じられていない装置で一定時間噴射した場合の温度と噴射量の関係を示す。
【００５３】
【表２】

【００５４】
図５（２）および表２に示すように、噴射液１３の温度に対する対策を講じることなく、一定時間、噴射液を噴射する場合には、噴射液１３の温度が低くなるにつれて、噴射量が大きく低下してしまう。これに対して、図５（１）および表１に示すように、本実施の形態のように、噴射時間ではなく、加熱室２０から奪われる熱量が一定になるように噴射することによって、単位噴射量あたりの吸熱量の差異によって多少の減少傾向が見られるものの、噴射液１３の温度が低くなっても、噴射量の低下を防ぎ、安定した噴射量で噴射液１３を噴射できることがわかる。
【００５５】
図６は、本発明の実施の他の形態の霧噴射装置１Ａを示す断面図である。図６の霧噴射装置１Ａは、図１〜図５の霧噴射装置１と類似しており、異なる構成についてだけ説明し、同様の構成は同一の符号を付し説明を省略する。図６の霧噴射装置１Ａでは、容器６は、容器本体１４および蓋体１５が熱伝導率が高く、耐熱性の高い材料、たとえば金属材料から成る。この容器６は、加熱器７の加熱室形成体１８に配置される。本実施の形態では、容器６は、加熱室形成体１８内部に埋込まれるように設けられる。さらに詳細を述べると、蓋体１５が加熱室形成体の外方に露出するように、容器本体１４が部分的に埋込まれる状態で設けられる。容器側管路部２５は、蓋体１５を挿通せずに設けられ、一端部２７が容器本体１４の外側から容器本体１４の底部に接続され、容器６内で開口している。制御基板１０は、異常検出器４によって異常が検出されると、一定時間だけモータ２４に駆動電力を与えて、予め定められる一定の噴射時間だけ霧を噴射するように、噴射器７を制御する。
【００５６】
このような構成によって、前述のような防犯効果を同様に達成したうえで、同様に、簡単かつ小形の構成で、雰囲気温度に拘わらず、安定した噴射量の霧を噴射することができる。詳細に説明すると、容器６が、加熱室形成体１８に配置されることによって、噴射液１３が、雰囲気温度に依存して温度が変化することなく、一定の温度に保温された状態となり、粘度が変化することがない。これによって一定時間、霧を噴射することによって、ほぼ一定の霧を噴射することができる。したがって雰囲気温度が低い状況下でも霧の噴射量が不足することを防止できる。しかも加熱器７は不可欠な構成であり、このような必要不可欠な手段を用いて、霧の噴射量の低下を防止することができる。つまり別途に容器を保温する手段を設けるなどの構成の複雑化を防ぎ、簡単かつ小形の構成で、雰囲気温度に拘わらず、安定した噴射量の霧を噴射することができる。
【００５７】
また容器６を加熱室形成体１８内部に設けることによって、容器６内の噴射液１３が高温になりすぎることを防止できる。しかも容器と加熱室２０との距離を選ぶことによって、噴射液１３の温度を設定することができ、取扱いが容易でかつ粘度の低い最適な温度にすることができる。さらに蓋体１５を露出させることによって、噴射液１３の補充を容易にすることができる。
【００５８】
図７は、本発明の実施のさらに他の形態の霧噴射装置１Ｂを示す断面図である。図７の霧噴射装置１Ｂは、図１〜図５の霧噴射装置１と類似しており、異なる構成についてだけ説明し、同様の構成は同一の符号を付し説明を省略する。図７の霧噴射装置１Ｂでは、輸送管路２３の容器側管路部２５が、中途部で加熱室２０および加熱室形成体１８のいずれか一方を通過するように設けられる。本実施の形態では、加熱室２０を通過することなく加熱室形成体１８内部を通過する。また少なくとも容器側管路部２５の容器６から加熱室２０に至るまでの部分、本実施の形態ではこの部だけは、内径が噴射孔側管路部２６の内径より大きく形成されている。さらに容器側管路部２５の加熱室形成体１８内部に埋込まれる部分の内径は、滞留時間を長くするために、残余の部分に比べてさらに大きく形成される。制御基板１０は、異常検出器４によって異常が検出されると、一定時間だけモータ２４に駆動電力を与えて、予め定められる一定の噴射時間だけ霧を噴射するように、噴射器７を制御する。
【００５９】
このような構成によって、前述のような防犯効果を同様に達成したうえで、同様に、簡単かつ小形の構成で、雰囲気温度に拘わらず、安定した噴射量の霧を噴射することができる。詳細に説明すると、容器側管路部２５の加熱室形成体１８までの内径が大きく形成されており、容器内の噴射液の粘度が低くても輸送に対する抵抗を小さくすることができる。このような容器側管路部２５を経て、噴射液１３を一旦加熱室形成体１８に導くことによって、噴射液１３の粘度を低下させることができる。これによって単位時間あたりの噴射量への、噴射液１３の粘度を影響を抑制し、単位時間あたりの噴射量をほぼ一定にすることができ、一定時間、霧を噴射することによって、ほぼ一定の霧を噴射することができる。したがって雰囲気温度が低い状況下でも霧の噴射量が不足することを防止できる。しかも輸送管路２３の一部を、霧化部分よりも上流側で加熱室形成体１８を通過させるだけの簡単な構成で、霧の噴射量の低下を防止することができる。つまり別途に容器６を保温する手段を設けるなどの構成の複雑化を防ぎ、簡単かつ小形の構成で、雰囲気温度に拘わらず、安定した噴射量の霧を噴射することができる。
【００６０】
また容器側管路部２５が加熱室形成体１８内部を通過するように設けられることによって、通過時に噴射液１３が高温になりすぎることを防止できる。しかも、加熱室形成体１８内部の容器側管路部２５と加熱室２０との距離を選ぶことによって、噴射液１３の温度を設定することができ、取扱いが容易でかつ粘度の低い最適な温度にすることができる。
【００６１】
図８は、本発明の実施のさらに他の形態の霧噴射装置１Ｃを示す断面図である。図８の霧噴射装置１Ｃは、図１〜図５の霧噴射装置１と類似しており、異なる構成についてだけ説明し、同様の構成は同一の符号を付し説明を省略する。図８の霧噴射装置１Ｃでは、ハウジング５に仕切壁４０が設けられ、収納空間１１が、第１空間４１と第２空間４２とに仕切られる。第１空間４１は、閉塞されて、外部空間との間の熱の移動が抑制されている。第２空間４２は、通気孔４３を介してハウジング外に開放され、外部空間との間の熱の移動が容易になるように構成されている。容器６、加熱器７、噴射器８および温度検出器９は、第１空間４１に配置され、制御基板１０は、第２空間４２に配置されている。
【００６２】
第１空間４１は、内外の熱の移動が抑制されているとともに、収納される加熱器７、噴射器８および温度検出器９などが熱源となり、第１空間４１の温度が低くなり過ぎることを防ぐことができる。これによって噴射液１３の温度が低くなり過ぎることを防ぐことができる。さらにハウジング５には、シャッター部材４４によって開閉自在であり、第１空間４１をハウジング外に開放する通気孔４５が形成されており、第１空間４１の温度が逆に高くなり過ぎることを防ぐことができる。このようにして第１空間４１の温度をできるだけ一定に保持し、噴射液１３の温度をできるだけ一定に保つことができる。
【００６３】
しかも熱に弱く、放熱性の良い環境に配置すべき制御基板１０は、第１空間４１とは仕切られた第２空間４２に配置されるので、前述のように収納空間１１の一部を、熱の出入が抑制される構成としても、制御基板１０の熱暴走による誤動作などの不具合を生じることがない。また制御基板１０は、異常検出器４によって異常が検出されると、一定時間だけモータ２４に駆動電力を与えて、予め定められる一定の噴射時間だけ霧を噴射するように、噴射器７を制御する。
【００６４】
このような構成によって、前述のような防犯効果を同様に達成したうえで、同様に、簡単かつ小形の構成で、雰囲気温度に拘わらず、安定した噴射量の霧を噴射することができる。詳細に説明すると、前述のように容器６が第１空間４１に配置されて、噴射液１３が、雰囲気温度の影響を受けにくい。これによって噴射液１３の粘度の変化を抑制し、単位時間あたりの噴射量をほぼ一定にすることができ、一定時間、霧を噴射することによって、ほぼ一定の霧を噴射することができる。したがって雰囲気温度が低い状況下でも霧の噴射量が不足することを防止できる。しかもハウジングは、各手段の損傷を防ぐなどの目的で用いられるものであり、不可欠構成である。このように別途に容器を保温する手段を設けるなどの構成の複雑化を防ぎ、簡単かつ小形の構成で、雰囲気温度に拘わらず、安定した噴射量の霧を噴射することができる。
【００６５】
図９は、本発明の実施のさらに他の形態の霧噴射装置１Ｄを示す断面図である。図９の霧噴射装置１Ｄは、図１〜図５の霧噴射装置１と類似しており、異なる構成についてだけ説明し、同様の構成は同一の符号を付し説明を省略する。図９の霧噴射装置１Ｃでは、セラミックヒータを用いて構成され、容器６に収容される噴射液１３を保温する保温器４７が設けられる。保温手段である保温器４７は、制御基板１０によって駆動電力が与えられて駆動することによって発熱する手段であり、自己の温度によって電気抵抗が変化して、一定の温度に加熱することができる自己温度制御形のヒータである。制御基板１０は、保温器４７に駆動電力を与えて、保温器４７を駆動する。また制御基板１０は、異常検出器４によって異常が検出されると、一定時間だけモータ２４に駆動電力を与えて、予め定められる一定の噴射時間だけ霧を噴射するように、噴射器７を制御する。
【００６６】
このような構成によって、前述のような防犯効果を同様に達成したうえで、同様に、簡単かつ小形の構成で、雰囲気温度に拘わらず、安定した噴射量の霧を噴射することができる。詳細に説明すると、容器６内の噴射液１３は、保温器４７で保温され、雰囲気温度に依存して温度が変化することなく、粘度が変化することがない。これによって一定時間、霧を噴射することによって、ほぼ一定の霧を噴射することができる。したがって雰囲気温度が低い状況下でも霧の噴射量が不足することを防止できる。さらに噴射液１３を保温する保温器４７は、前述のように制御基板１０によって駆動電力が与えられて駆動し、一定の温度に加熱することができる自己温度制御形のヒータであるので、保温温度を制御するためのセンサおよび制御手段などを別途に設ける必要がない。したがって他のヒータを用いる場合に比べて、容器内の噴射液の温度を保温するための構成を簡単にすることができる。つまり簡単かつ小形の構成で、雰囲気温度に拘わらず、安定した噴射量の霧を噴射することができる。
【００６７】
前述の各実施の形態は、本発明の例示に過ぎず、本発明の範囲内において構成を変更することができる。たとえば霧噴射装置１〜１Ａは、前述のような防犯対策以外の目的で用いられてもよい。たとえばイベントでの演出として、霧を噴射するために用いるようにしてもよい。この場合、たとえば霧噴射装置に操作入力手段を設けておき、利用者によって操作入力手段が操作されて、噴射指令が入力されることを、噴射条件として、制御手段で噴射開始するように制御してもよい。また演出効果に用いる場合においても、照度などの環境を、噴射条件にし、前記環境を検出する手段を設けて、この検出結果に基づいて、制御手段で噴射開始するように制御してもよい。
【００６８】
また図６の変形側として容器を加熱室に配置するようにしてもよい。また図７の変形側として、容器側の管路部が加熱室を通過するようにしてもよい。この場合、容器側の管路部が加熱室形成体を通過してもよいことは言うまでもない。
【００６９】
【発明の効果】
本発明によれば、容器に収容される噴射液が、噴射手段によって噴射口から噴射される。噴射液は、容器から噴射口に到達する前に、加熱室を通過し、加熱室で加熱されて霧化される。これによって噴射液は霧化され、噴射液の霧が噴射される。加熱室の温度は第１設定温度に保持されており、噴射手段は、予め定める噴射条件を満たしたときから、加熱室の温度が第２設定温度に低下するまで、噴射液の霧を噴射するように、制御手段によって制御される。これによって容器内の噴射液の粘度に依存して単位時間あたりの噴射量が変化しても、噴射液によって一定の熱量が加熱室から奪われるまで、噴射液の霧が噴射され、噴射開始から噴射停止までの間に噴射される霧の噴射量をほぼ一定に保つことができる。したがって雰囲気温度が低い状況下でも霧の噴射量が不足することを防止できる。しかも容器、加熱手段および噴射手段は、霧噴射装置に不可欠であることは言うまでもなく、温度検出手段および制御手段も、加熱手段による加熱制御および噴射液の噴射動作の制御に不可欠な構成であり、このような必要不可欠な手段を用いて、霧の噴射量の低下を防止することができる。つまり別途に容器を保温する手段を設けるなどの構成の複雑化を防ぎ、簡単かつ小形の構成で、雰囲気温度に拘わらず、安定した噴射量の霧を噴射することができる。
【００７０】
本発明によれば、容器に収容される噴射液が、噴射手段によって噴射口から噴射される。噴射液は、容器から噴射口に到達する前に、加熱室を通過し、加熱室で加熱されて霧化される。これによって噴射液は霧化され、噴射液の霧が噴射される。容器は、加熱室形成体内部に埋め込まれるように配置されており、容器内の噴射液は、雰囲気温度に依存して温度が変化することなく、粘度が変化することがない。これによって一定時間、霧を噴射することによって、ほぼ一定の霧を噴射することができる。したがって雰囲気温度が低い状況下でも霧の噴射量が不足することを防止できる。しかも加熱手段は不可欠な構成であり、このような必要不可欠な手段を用いて、霧の噴射量の低下を防止することができる。つまり別途に容器を保温する手段を設けるなどの構成の複雑化を防ぎ、簡単かつ小形の構成で、雰囲気温度に拘わらず、安定した噴射量の霧を噴射することができる。
【００７１】
容器は、加熱室形成体内部に埋め込まれるように設けられ、これによって噴射液が高温になり過ぎることを防止することができる。また加熱室からの距離を選ぶことによって、噴射液の温度を設定することが可能であり、最適温度にすることができる。
【００７２】
本発明によれば、容器に収容される噴射液が、噴射手段によって噴射口から噴射される。噴射液は、容器から噴射口に到達する前に、加熱室を通過し、加熱室で加熱されて霧化される。これによって噴射液は霧化され、噴射液の霧が噴射される。噴射手段を構成する輸送管路は、輸送源よりも容器側の管路部の少なくとも容器寄りの部分の内径が大きく形成されており、容器内の噴射液の粘度が低くても輸送に対する抵抗を小さくすることができる。このような容器側の管路部を経て、噴射液を一旦加熱室および加熱室形成体の一方に導くことによって、噴射液の粘度を低下させることができる。これによって単位時間あたりの噴射量への、容器内の噴射液の粘度を影響を抑制し、単位時間あたりの噴射量をほぼ一定にすることができ、一定時間、霧を噴射することによって、ほぼ一定の霧を噴射することができる。したがって雰囲気温度が低い状況下でも霧の噴射量が不足することを防止できる。しかも輸送管路の一部を、霧化のための部分よりも上流側で加熱室および加熱室形成体の一方を通過させるだけの簡単な構成で、霧の噴射量の低下を防止することができる。つまり別途に容器を保温する手段を設けるなどの構成の複雑化を防ぎ、簡単かつ小形の構成で、雰囲気温度に拘わらず、安定した噴射量の霧を噴射することができる。
【００７３】
好ましくは、容器側の管路部は、加熱室形成体に導かれ、これによって噴射液が高温になり過ぎることを防止することができる。また加熱室までの距離を選ぶことによって、噴射液の温度を設定することが可能であり、最適温度にすることができる。
【００７４】
本発明によれば、容器に収容される噴射液が、噴射手段によって噴射口から噴射される。噴射液は、容器から噴射口に到達する前に、加熱室を通過し、加熱室で加熱されて霧化される。これによって噴射液は霧化され、噴射液の霧が噴射される。容器は、加熱手段および噴射手段とともに、ハウジングにおける熱の移動が抑制された第１空間に配置されており、容器内の噴射液は、雰囲気温度の影響を受けにくい。さらに熱源となり得る加熱手段および噴射手段とともに配置されており、第１空間の温度が低くなり過ぎることを防ぐことができる。これによって噴射液の温度が低くなり過ぎることを防ぐことができ、噴射液の粘度が高くなることが抑制される。これによって噴射液の粘度の変化を抑制し、単位時間あたりの噴射量をほぼ一定にすることができ、一定時間、霧を噴射することによって、ほぼ一定の霧を噴射することができる。したがって雰囲気温度が低い状況下でも霧の噴射量が不足することを防止できる。しかもハウジングは、各手段の損傷を防ぐなどの目的で用いられるものであり、不可欠構成である。このように別途に容器を保温する手段を設けるなどの構成の複雑化を防ぎ、簡単かつ小形の構成で、雰囲気温度に拘わらず、安定した噴射量の霧を噴射することができる。またハウジング全体を熱の出入が抑制される構成にするのではなく、制御手段が配置される第２空間は、熱の出入を容易にしているので、制御手段の熱暴走などの誤動作を防ぎ、かつ前述の効果を達成することができる。
【図面の簡単な説明】
【図１】本発明の実施の一形態の霧噴射装置１を示す断面図である。
【図２】霧噴射装置を示すブロック図である。
【図３】霧噴射装置１の設置状態を示す斜視図である。
【図４】制御基板１０の制御動作を示すフローチャートである。
【図５】噴射液１３の温度と噴射量の関係を示すグラフである。
【図６】本発明の実施の他の形態の霧噴射装置１Ａを示す断面図である。
【図７】本発明の実施のさらに他の形態の霧噴射装置１Ｂを示す断面図である。
【図８】本発明の実施のさらに他の形態の霧噴射装置１Ｃを示す断面図である。
【図９】本発明の実施のさらに他の形態の霧噴射装置１Ｄを示す断面図である。
【符号の説明】
１ 霧噴射装置
２ 警戒区域
３ 装置本体
４ 異常検出器
５ ハウジング
６ 容器
７ 加熱器
８ 噴射器
９ 温度検出器
１０ 制御基板
１１ 収納空間
１３ 噴射液
１９ 発熱体
２０ 加熱室
２２ 噴射口
２３ 輸送管路
２４ ポンプ
４１ 第１空間
４２ 第２空間[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mist spraying apparatus that sprays a spray liquid in a mist form.
[0002]
[Prior art]
As a first conventional technique, for the purpose of crime prevention, when a suspicious person enters a predetermined area, the spray liquid contained in the container is heated by a heater to be atomized, and sprayed to the area. There is known a mist injection device for reducing the above. This mist injection device is configured to inject mist for a certain period of time from the time when an intruder is detected. In such a configuration that sprays for a certain period of time, when the ambient temperature is low, such as in winter, the viscosity of the spray liquid increases and the spray amount per unit time decreases, resulting in the spray amount of fog as a whole. May decrease and visibility may be insufficiently reduced.
[0003]
As a second conventional technique capable of eliminating such a problem, in order to reduce the viscosity of the jet liquid contained in the container, a heat insulator is provided separately from the heater, and the container is used with this heat retainer. There is known a device that heats and keeps the spray liquid inside. In this apparatus, a temperature sensor for detecting the temperature of the spray liquid in the container is provided, and the temperature of the spray liquid in the container is held constant based on the detected temperature (see, for example, Patent Document 1). ).
[0004]
[Patent Document 1]
JP 2003-85663 A
[0005]
[Problems to be solved by the invention]
In such a second conventional technique, it may be possible to prevent a decrease in the amount of sprayed mist, but for that purpose, a warmer and a temperature sensor must be provided separately, and the configuration becomes complicated, and the device Will become larger.
[0006]
An object of the present invention is to provide a mist injection device that is small and does not have a short mist injection amount even under a low ambient temperature.
[0007]
[Means for Solving the Problems]
The present invention includes a container for containing a propellant,
A heating means having a heating chamber, the temperature of the heating chamber being maintained at a first set temperature at which the spray liquid can be atomized;
Injection means for causing the injection liquid contained in the container to pass through the heating chamber and to be injected from the injection port;
Temperature detecting means for detecting the temperature of the heating chamber;
When the predetermined injection condition is satisfied, the injection unit is controlled so that the injection liquid is injected until the temperature of the heating chamber is lower than the first set temperature and the second set temperature at which the injection liquid can be atomized is lowered. A mist injection device including a control means.
[0008]
According to the present invention, the jet liquid contained in the container is jetted from the jet port by the jetting means. Before the jet liquid reaches the jet port from the container, the jet liquid passes through the heating chamber and is heated and atomized in the heating chamber. As a result, the spray liquid is atomized, and a mist of the spray liquid is sprayed. The temperature of the heating chamber is maintained at the first set temperature, and the spraying unit sprays the mist of the spray liquid from when the predetermined spraying condition is satisfied until the temperature of the heating chamber drops to the second set temperature. Thus, it is controlled by the control means. Thus, even if the injection amount per unit time changes depending on the viscosity of the injection liquid in the container, a mist of the injection liquid is injected until a certain amount of heat is taken away from the heating chamber by the injection liquid. It is possible to keep the spray amount of the mist sprayed until the ejection stop substantially constant. Therefore, it is possible to prevent the amount of sprayed mist from being insufficient even under conditions where the ambient temperature is low. Moreover, it goes without saying that the container, the heating means, and the injection means are indispensable for the fog injection device, and the temperature detection means and the control means are also indispensable for the heating control by the heating means and the control of the injection operation of the injection liquid, By using such indispensable means, it is possible to prevent a decrease in the amount of sprayed mist. That is, it is possible to prevent complication of the configuration such as separately providing a means for keeping the container warm, and to spray a mist with a stable injection amount regardless of the ambient temperature with a simple and small configuration.
[0009]
The present invention also includes a container for containing a propellant,
A heating means having a heating chamber formed by a heating chamber forming body, and heating the spray liquid in the heating chamber so as to atomize;
Injection means for causing the injection liquid contained in the container to pass through the heating chamber and to be injected from the injection port;
Control means for controlling the injection means to inject the injection liquid over a preset injection time when a predetermined injection condition is satisfied,
The container is embedded in the heating chamber forming body. It is a mist injection device characterized by being provided in.
[0010]
According to the present invention, the jet liquid contained in the container is jetted from the jet port by the jetting means. Before the jet liquid reaches the jet port from the container, the jet liquid passes through the heating chamber and is heated and atomized in the heating chamber. As a result, the spray liquid is atomized, and a mist of the spray liquid is sprayed. Container , Heat chamber formation To be embedded inside the body The spray liquid in the container is not changed in temperature depending on the atmospheric temperature, and the viscosity does not change. Thus, a substantially constant mist can be injected by injecting the mist for a certain period of time. Therefore, it is possible to prevent the amount of sprayed mist from being insufficient even under conditions where the ambient temperature is low. Moreover, the heating means is an indispensable configuration, and the use of such an indispensable means can prevent a decrease in the amount of sprayed mist. That is, it is possible to prevent complication of the configuration such as separately providing a means for keeping the container warm, and to spray a mist with a stable injection amount regardless of the ambient temperature with a simple and small configuration.
[0011]
Yong The chamber is a heating chamber forming body. To be embedded inside This prevents the spray liquid from becoming too hot. Further, by selecting the distance from the heating chamber, it is possible to set the temperature of the jetting liquid and to set the optimum temperature.
[0012]
The present invention also includes a container for containing a propellant,
A heating means having a heating chamber formed by a heating chamber forming body, and heating the spray liquid in the heating chamber so as to atomize;
Injection means for causing the injection liquid contained in the container to pass through the heating chamber and to be injected from the injection port;
Control means for controlling the injection means to inject the injection liquid over a preset injection time when a predetermined injection condition is satisfied,
The injection means has a transport line for guiding the jet liquid from the container to the jet port, and a transport source that is interposed in the middle of the transport pipe and sucks the jet liquid from the container and discharges it toward the jet port. The pipe portion on the injection port side of the transportation source of the transportation pipeline has an atomization portion for atomizing the spray liquid disposed in the heating chamber, and is closer to the container side than the transportation source of the transportation pipeline. The pipeline section ,During It is provided so as to pass either one of the heating chamber and the heating chamber forming body in the middle, and at least the inner diameter of the portion between the one of the heating chamber and the heating chamber forming body and the container is the portion on the injection hole side. The mist injection device is formed to be larger than the inner diameter.
[0013]
According to the present invention, the jet liquid contained in the container is jetted from the jet port by the jetting means. Before the jet liquid reaches the jet port from the container, the jet liquid passes through the heating chamber and is heated and atomized in the heating chamber. As a result, the spray liquid is atomized, and a mist of the spray liquid is sprayed. The transportation pipeline constituting the ejection means is formed so that the inner diameter of at least the portion of the pipeline on the container side of the transportation source is larger than that of the transportation source, and resistance to transportation is maintained even when the viscosity of the ejection liquid in the container is low. Can be small. The viscosity of the spray liquid can be lowered by guiding the spray liquid to one of the heating chamber and the heating chamber forming body through such a conduit on the container side. This suppresses the influence of the viscosity of the spray liquid in the container on the injection amount per unit time, makes it possible to make the injection amount per unit time substantially constant, and by spraying fog for a certain time, A constant mist can be injected. Therefore, it is possible to prevent the amount of sprayed mist from being insufficient even under conditions where the ambient temperature is low. In addition, it is possible to prevent a decrease in the amount of sprayed mist with a simple configuration in which a part of the transport pipe is simply passed through one of the heating chamber and the heating chamber forming body upstream of the portion for atomization. it can. That is, it is possible to prevent complication of the configuration such as separately providing a means for keeping the container warm, and to spray a mist with a stable injection amount regardless of the ambient temperature with a simple and small configuration.
[0014]
Preferably, the conduit portion on the container side is guided to the heating chamber forming body, and thereby the spray liquid can be prevented from becoming too high. Further, by selecting the distance to the heating chamber, the temperature of the spray liquid can be set, and the optimum temperature can be obtained.
[0015]
The present invention also includes a housing in which a first space in which heat transfer between the external space is suppressed and a second space in which heat transfer between the external space is easy is formed,
A container disposed in the first space and containing a propellant;
A heating means disposed in the first space, having a heating chamber, and heating the spray liquid to be atomized in the heating chamber;
An injection means that is arranged in the first space and causes the injection liquid contained in the container to pass through the heating chamber and to be injected from the injection port;
And a control unit configured to control the injection unit so as to inject the injection liquid over a preset injection time when a predetermined injection condition is satisfied. is there.
[0016]
According to the present invention, the jet liquid contained in the container is jetted from the jet port by the jetting means. Before the jet liquid reaches the jet port from the container, the jet liquid passes through the heating chamber and is heated and atomized in the heating chamber. As a result, the spray liquid is atomized, and a mist of the spray liquid is sprayed. The container is disposed in the first space in which the movement of heat in the housing is suppressed together with the heating unit and the injection unit, and the injection liquid in the container is not easily affected by the ambient temperature. Furthermore, it is arranged with heating means and jetting means that can be a heat source, It is possible to prevent the temperature of the first space from becoming too low. This prevents the temperature of the spray liquid from becoming too low, It is suppressed that the viscosity of a jet liquid becomes high. As a result, the change in the viscosity of the spray liquid can be suppressed, the amount of injection per unit time can be made substantially constant, and a substantially constant mist can be injected by injecting the mist for a fixed time. Therefore, it is possible to prevent the amount of sprayed mist from being insufficient even under conditions where the ambient temperature is low. Moreover, the housing is used for the purpose of preventing damage to each means and is an indispensable configuration. In this way, it is possible to prevent complication of the configuration such as providing a means for keeping the container separately, and to spray a mist with a stable injection amount regardless of the ambient temperature with a simple and small configuration. In addition, the second space in which the control means is arranged is not configured to suppress the heat input / output of the entire housing, so that the heat input / output is facilitated, so that a malfunction such as a thermal runaway of the control means is prevented, And the above-mentioned effect can be achieved.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a cross-sectional view showing a mist injection device 1 according to an embodiment of the present invention. FIG. 2 is a block diagram showing the mist injection device. FIG. 3 is a perspective view showing an installation state of the mist injection device 1. The mist injection device 1 is a device that injects mist into a predetermined area. For example, when an abnormality occurs in the caution area 2, the mist injection apparatus 1 is used as a security device that injects mist into the caution area 2 to reduce visibility. .
[0020]
The security area 2 may be formed, for example, surrounded by walls and ceiling boards, and is a room of a building, for example, and more specifically, a place for storing and handling money, valuables, expensive items, etc. For example, it may be a predetermined room of a bank or an installation room such as an automatic teller machine (ATM). Of course, the warning area 2 is not limited to the above-mentioned place, but can be arbitrarily determined by the user, and may be a room of a general house, for example.
[0021]
The mist injection device 1 includes an apparatus main body 3 and an abnormality detector 4, and when the abnormality detector 4 detects an abnormality, the apparatus main body 3 injects a mist. The apparatus main body 3 is installed on the floor facing the warning area 2, for example. The apparatus main body 3 includes a housing 5, a container 6, a heater 7, an injector 8, a temperature detector 9, and a control board 10. The abnormality detector 4 is installed, for example, on a wall facing the warning area 2. This abnormality detector is configured by housing a sensor in a casing.
[0022]
The housing 5 is made of, for example, metal and is a substantially rectangular parallelepiped casing. The housing 5 has a storage space 11 formed inward, and stores the container 6, the heater 7, the injector 8, and the control board 10. The housing has an injection hole 12 penetrating in one direction on the inside and outside. The injection hole 12 is opened facing the warning area 2.
[0023]
The container 6 is a container that stores the spray liquid 13 and stores the spray liquid 13 that is greater than or equal to the spray amount to be sprayed by at least one spray operation. The container 6 has a container main body 14 and a lid 15, and the container main body 14 is made of, for example, a synthetic resin, and the lid 15 is made of, for example, a metal.
[0024]
The container main body 14 has a bottomed cylindrical shape, and an external thread is engraved on the open end portion 16. The lid 15 is engraved with an internal thread that is screwed into an external thread of the open end 16 of the container body 16. The lid 15 is detachably screwed to the open end 16 of the container body 14.
[0025]
Thus, the container 6 is configured to be openable and closable. The spray liquid 13 can be replenished when the fog spray device 1 is used once and then used again.
[0026]
The jet liquid 13 is a liquid that does not affect the human body and is atomized by being heated. In the present embodiment, for example, a mixed liquid in which propylene glycol, triethylene glycol, and water are mixed is used as the propellant 13, but is not limited thereto.
[0027]
The heater 7 is a heating means for heating and atomizing the jet liquid 13, and has a heating chamber 20, and the temperature of the heating chamber 20 is maintained at a first set temperature at which the jet liquid 13 can be atomized. Has been. The heater 7 includes a heating chamber forming body 18 and a heating element 19.
[0028]
The heating chamber forming body 18 is a substantially rectangular parallelepiped casing, and the heating chamber 20 is formed inside. In this embodiment, heating chamber forming body 18 is made of, for example, a heat insulating material. The heating element 19 is a heater having a heat generating part 21 that generates heat by converting energy applied from the outside into heat energy, and the heat generating part 21 is provided in the heating chamber 20. In the present embodiment, the heating element 19 is a longitudinal bar heater, for example, an electric heater that generates heat when electric power is applied. Such a heater 7 heats the jet liquid 13 in the heating chamber 20.
[0029]
The injector 8 is an injection unit that causes the injection liquid 13 contained in the container 6 to pass through the heating chamber 20 and to be injected from the injection port 22. The injector 8 has a transport line 23 for guiding the injection liquid 13 from the container 6 to the injection port 22, and a pump 24 that sucks the injection liquid 13 from the container 6 and discharges it toward the injection port 22.
[0030]
A pump 24 is provided in the middle of the transport pipeline 23, and the transport pipeline 23 includes a pipeline section (hereinafter referred to as “container-side pipeline section”) 25 closer to the container 6 than the pump 24, and a pump 24 and a pipe part (hereinafter referred to as “jet port side pipe part”) 26 on the jet port 22 side. Each pipe line part 25 and 26 consists of metal, for example.
[0031]
The container-side duct portion 25 is provided by being inserted through the lid body 15 of the container 6, and one end portion 27 is inserted into the container 6 and immersed in the jet liquid 13. The other end 28 of the container side conduit 25 is connected to the pump 24.
[0032]
The injection port side duct portion 26 is provided through the heater 7 so as to pass through the heating chamber 20. The spray port side pipe section 26 includes an atomization portion 35 in which the spray liquid 13 is atomized by a portion disposed in the heating chamber 20. The atomizing portion 35 is configured to be spirally wound around the heating element 19, and the spray liquid 13 is reliably heated in the heating chamber 20 and atomized. One end portion 29 of the injection port side pipe portion 26 is connected to the pump 24, and the injection port 22 is formed at the other end portion 30. The injection port 22 is arranged so as to face the outside of the housing 5 through the injection hole 12.
[0033]
The pump 24 is a transport source that sucks fluid from the suction port 33 and discharges it from the discharge port 34, and is driven by electric power, for example, and can pump the fluid. The other end 28 of the container side conduit 25 is connected to the suction port 33 of the pump 24, and the one end 29 of the injection port side conduit 26 is connected to the discharge port 34. The pump 24 is, for example, an electric pump.
[0034]
The injector 8 pumps up the jet liquid 13 in the container 6 with the driving force of the pump 24 and transports it to the jet port 22 via the transport pipeline 23. The injector 8 injects the injection liquid 13 from the injection port 22 in this way.
[0035]
The temperature detector 9 is temperature detection means for detecting the temperature of the heating chamber 20. The temperature detector 9 has a temperature sensing portion disposed in the heating chamber 20, detects the temperature of the heating chamber 20, and gives the detection result, that is, the detected heating chamber temperature to the control substrate 10. The temperature detector 9 is configured using a temperature sensor such as a thermocouple.
[0036]
The control board 10 is a control unit that controls the heater 7 and the injector 8. The mist injection device 1 further includes power supply means 37, and electric power is supplied from the power supply means 37 to the control board 10. The control board 10 controls the heater 7 and the injector 8 by controlling supply and stop of supply of the electric power to the heater 7 and the injector 8. The power source means 37 includes an adapter 38 that acquires AC power from a commercial AC power source and converts it into DC power, and a battery 39 that stores DC power.
[0037]
The anomaly detector 4 detects abnormalities such as intrusion of suspicious persons into the alert area 2, destruction of area forming members such as walls forming the alert area 2, and abnormal operations on articles provided in the alert area 2. To detect. When the abnormality detector 4 detects an abnormality, the abnormality detector 4 gives information indicating the abnormality to the control device 10.
[0038]
This abnormality detection can set what kind of state is abnormal for each warning area 2. For example, when the warning area 2 is an article storage place, a house room, or the like, an intrusion of a suspicious person into the warning area 2 or a destruction of an area forming member such as a wall forming the warning area 2 is detected as abnormal. Or, if the warning area 2 is an installation location of an automatic teller machine (ATM) or the like, the area forming member such as a wall forming the warning area 2 is destroyed, or the warning area 2 is provided in the warning area 2 An abnormal operation or a large impact on the existing device may be detected as abnormal. The sensor constituting the anomaly detector 4 may be a human detection sensor that detects the presence of a person, a sensor that detects that the locking mechanism of the window or the entrance / exit is broken, It may be a sensor that detects that the doorway is undesirably opened, or a sensor that detects an impact that acts on an article such as a device.
[0039]
The control board 10 controls the heater 7 so that the heating chamber 20 is held at the first set temperature at the normal time when no abnormality is detected by the abnormality detector 4. More specifically, the control board 10 controls supply and stop of supply of driving power to the heating element 19 based on the detected heating chamber temperature given from the temperature detector 9. The first set temperature is a temperature at which the spray liquid 13 is atomized by passing through the heating chamber 20 at that temperature, for example, 295 ° C.
[0040]
In the present embodiment, when the control unit 10 satisfies a predetermined injection condition, when the abnormality detector 4 detects an abnormality, that is, when there is an abnormality, the temperature of the heating chamber 20 is lower than the first set temperature. The injector 7 is controlled so that the injection liquid 13 is injected until the temperature drops to the set temperature. More specifically, when an abnormality is detected, the control board 10 applies drive power to the pump 24, starts driving the pump 24, and starts jetting the jet liquid 13. Then, based on the detected heating chamber temperature given from the temperature detector 9, the supply of driving power to the pump 24 is continued until the temperature of the heating chamber 20 drops to the second set temperature, and the temperature of the heating chamber 20 reaches the first temperature. 2 When the temperature falls to the set temperature, the supply of drive power to the pump 24 is stopped, the drive of the pump 24 is stopped, and the injection of the injection liquid 13 is stopped.
[0041]
The second set temperature is a temperature at which the spray liquid 13 is atomized by passing through the heating chamber 20 at that temperature, for example, 270 ° C. When the temperature of the heating chamber 20 is within the temperature range between the first set temperature and the second set temperature, the spray solution 13 is atomized by passing through the spray chamber 13 through the heating chamber 20. Therefore, when an abnormality is detected, fog is injected into the alert area until the temperature of the heating chamber 20 decreases to the second set temperature.
[0042]
FIG. 4 is a flowchart showing the control operation of the control board 10. For example, the control operation by the control board 10 is started from step s0 when the switch unit provided in the mist injection device 1 is operated to set the mist injection device 1 to an operable initial state. When the control operation is started, it is determined whether or not an abnormality has occurred in the alert area 2 based on information from the abnormality detector 4 in an abnormality determination step in step s1. If it is determined that no abnormality has occurred, the process returns to step s1, and if it is determined that an abnormality has occurred, the process proceeds to step s2. The determination in step s1 is repeated until an abnormality occurs in this way.
[0043]
In step s2, in order to start injection of the injection liquid 13 by the injector 8, supply of drive power to the pump 24 is started, and the process proceeds to step s3. In step s3, based on the detected heating chamber temperature from the temperature detector 9, it is determined whether or not the temperature of the heating chamber 20 is equal to or lower than the second set temperature. If it determines with the temperature of the heating chamber 20 exceeding 2nd setting temperature, it will return to step s3, and if it determines with the temperature of the heating chamber 20 being below 2nd setting temperature, it will progress to step s4. Thus, the determination of step s1 is repeated until the temperature of the heating chamber 20 falls to the second set temperature, that is, until the temperature becomes equal to or lower than the second set temperature.
[0044]
In step s4, in order to stop the injection of the injection liquid 13 by the injector 8, the supply of drive power to the pump 24 is stopped, and the process proceeds to step s5. In step s5, the series of control operations is terminated.
[0045]
One injection is executed by such a series of operations. Once the injection operation is executed, the injection operation can be executed again by returning to the initial state. The return to the initial state may be performed immediately after the series of operations is completed or after a predetermined time has elapsed. For example, an operation input unit is provided in the mist injection device, and an operation input is performed by the user. It may be returned by operating the means and inputting a return command to the initial state.
[0046]
According to the present embodiment, when an abnormality occurs in the alert area 2 as a predetermined injection condition, the jet liquid 13 is heated and atomized, and the fog is injected into the alert area 2. Thereby, when an abnormality occurs in the alert area 2, the visibility of the alert area 2 can be reduced. Therefore, even if a suspicious person enters the security area 2, the visibility of the security area 2 is lowered by the sprayed mist, making it difficult to perform acts such as theft and destruction, and subsequent damage such as theft and destruction. Can be prevented. In this way, a crime prevention effect can be achieved.
[0047]
Further, normally, the temperature of the heating chamber 20 is maintained at the first set temperature, and the temperature of the heating chamber 20 is set to the second set temperature after a predetermined injection condition is satisfied, that is, after an abnormality occurs. The mist is injected until it falls. Thus, even if the injection amount per unit time changes depending on the viscosity of the injection liquid 13 contained in the container 6, the mist is injected until a certain amount of heat is taken away from the heating chamber 20 by the injection liquid 13. . Therefore, it is possible to keep the mist injection amount injected from the start of injection to the stop of injection substantially constant, and to prevent the mist injection amount from being insufficient even under a low ambient temperature.
[0048]
Moreover, it goes without saying that the container 6, the heater 7, and the injector 8 are indispensable for the mist injection device 1, and the temperature detector 9 and the control board 10 also perform heating control by the heater 7 and the injection operation of the injection liquid 13. The configuration is indispensable for control, and by using such an indispensable means, it is possible to prevent a decrease in the amount of sprayed mist. That is, it is possible to prevent complication of the configuration such as separately providing means for keeping the container 6 warm, and to spray a mist with a stable injection amount regardless of the ambient temperature with a simple and small configuration.
[0049]
FIG. 5 is a graph showing the relationship between the temperature of the spray liquid 13 and the injection amount. FIG. 5 (1) shows the relationship between the temperature and the injection amount in the mist injection device 1 of the present embodiment. That is, FIG. 5A shows the relationship when the pump 24 is driven and mist is injected until the temperature of the heating chamber 20 decreases to a constant temperature (from 295 ° C. to 270 ° C.). FIG. 5 (2) shows the relationship between the temperature and the injection amount when the liquid is injected for a certain period of time using a device that does not take measures against the temperature of the injection liquid 13. FIG. That is, FIG. 5 (2) shows the relationship when the pump 24 is driven for a certain time (25 seconds) to inject mist.
[0050]
Table 1 shows the relationship between the temperature and the injection amount in the mist injection device 1 of the present embodiment.
[0051]
[Table 1]

[0052]
Table 2 shows the relationship between the temperature and the injection amount when the liquid is injected for a certain period of time using a device that does not take measures against the temperature of the injection liquid 13.
[0053]
[Table 2]

[0054]
As shown in FIG. 5 (2) and Table 2, when the spray liquid is sprayed for a certain period of time without taking measures against the temperature of the spray liquid 13, the injection amount increases as the temperature of the spray liquid 13 decreases. It will drop greatly. On the other hand, as shown in FIG. 5 (1) and Table 1, the unit is obtained by injecting so that the amount of heat taken from the heating chamber 20 is constant, not the injection time, as in the present embodiment. Although there is a slight decrease tendency due to the difference in the amount of heat absorbed per injection amount, it can be seen that even when the temperature of the injection liquid 13 is lowered, the injection quantity can be prevented from being lowered and the injection liquid 13 can be injected with a stable injection quantity.
[0055]
FIG. 6 is a cross-sectional view showing a mist injection device 1A according to another embodiment of the present invention. The mist injection device 1A in FIG. 6 is similar to the mist injection device 1 in FIGS. 1 to 5, and only different configurations will be described. The same configurations are denoted by the same reference numerals and description thereof will be omitted. In the mist injection device 1A of FIG. 6, the container 6 is made of a material having a high heat conductivity and a high heat resistance, for example, a metal material, for the container body 14 and the lid body 15. This container 6 has a heater 7 Addition of Hot chamber forming body 1 8 Be placed. In the present embodiment, container 6 is provided so as to be embedded in heating chamber forming body 18. More specifically, the container body 14 is provided in a state of being partially embedded so that the lid 15 is exposed to the outside of the heating chamber forming body. The container-side duct portion 25 is provided without being inserted through the lid body 15, and one end portion 27 is connected to the bottom portion of the container body 14 from the outside of the container body 14 and opens in the container 6. When an abnormality is detected by the abnormality detector 4, the control board 10 supplies the drive power to the motor 24 for a predetermined time, and controls the injector 7 so as to inject mist for a predetermined fixed injection time. .
[0056]
With such a configuration, the above-described crime prevention effect can be similarly achieved, and similarly, a mist with a stable injection amount can be injected with a simple and small configuration regardless of the ambient temperature. More specifically, when the container 6 is disposed in the heating chamber forming body 18, the spray liquid 13 is kept at a constant temperature without changing the temperature depending on the ambient temperature, and the viscosity is increased. Will not change. Thus, a substantially constant mist can be injected by injecting the mist for a certain period of time. Therefore, it is possible to prevent the amount of sprayed mist from being insufficient even under conditions where the ambient temperature is low. In addition, the heater 7 is an indispensable configuration, and the use of such indispensable means can prevent a decrease in the amount of sprayed mist. That is, it is possible to prevent complication of the configuration such as separately providing a means for keeping the container warm, and to spray a mist with a stable injection amount regardless of the ambient temperature with a simple and small configuration.
[0057]
Further, by providing the container 6 inside the heating chamber forming body 18, the spray liquid 13 in the container 6 can be prevented from becoming too high. In addition, by selecting the distance between the container and the heating chamber 20, the temperature of the jet liquid 13 can be set, and the temperature can be set to an optimum temperature that is easy to handle and has a low viscosity. Furthermore, the replenishment of the spray liquid 13 can be facilitated by exposing the lid 15.
[0058]
FIG. 7 is a cross-sectional view showing a mist injection device 1B according to still another embodiment of the present invention. The mist injection device 1B in FIG. 7 is similar to the mist injection device 1 in FIGS. 1 to 5, and only different configurations will be described. The same configurations are denoted by the same reference numerals and description thereof will be omitted. In the mist injection device 1B of FIG. 7, the container side conduit portion 25 of the transport conduit 23 is provided so as to pass through either the heating chamber 20 or the heating chamber forming body 18 in the middle portion. In the present embodiment, it passes through the heating chamber forming body 18 without passing through the heating chamber 20. In addition, at least a portion from the container 6 to the heating chamber 20 of the container side conduit portion 25, in this embodiment, only this portion has an inner diameter larger than the inner diameter of the injection hole side conduit portion 26. Furthermore, the inner diameter of the portion embedded in the heating chamber forming body 18 of the container side conduit portion 25 is formed larger than the remaining portion in order to increase the residence time. When an abnormality is detected by the abnormality detector 4, the control board 10 supplies the drive power to the motor 24 for a predetermined time, and controls the injector 7 so as to inject mist for a predetermined fixed injection time. .
[0059]
With such a configuration, the above-described crime prevention effect can be similarly achieved, and similarly, a mist with a stable injection amount can be injected with a simple and small configuration regardless of the ambient temperature. If it demonstrates in detail, the internal diameter to the heating chamber formation body 18 of the container side pipe line part 25 is formed large, and even if the viscosity of the injection liquid in a container is low, resistance with respect to transport can be made small. The viscosity of the spray liquid 13 can be reduced by guiding the spray liquid 13 once to the heating chamber forming body 18 through the container-side pipe line portion 25. This suppresses the influence of the viscosity of the injection liquid 13 on the injection amount per unit time, makes the injection amount per unit time substantially constant, and makes the spray constant for a certain time by spraying the mist. A mist can be injected. Therefore, it is possible to prevent the amount of sprayed mist from being insufficient even under conditions where the ambient temperature is low. In addition, it is possible to prevent a reduction in the amount of sprayed mist with a simple configuration in which a part of the transport pipeline 23 is simply passed through the heating chamber forming body 18 upstream of the atomization portion. That is, it is possible to prevent complication of the configuration such as separately providing means for keeping the container 6 warm, and to spray a mist with a stable injection amount regardless of the ambient temperature with a simple and small configuration.
[0060]
Moreover, it can prevent that the injection liquid 13 becomes high temperature at the time of passage by providing the container side pipeline part 25 so that the inside of the heating chamber formation body 18 may pass. Moreover, the temperature of the spray liquid 13 can be set by selecting the distance between the container-side pipe line portion 25 inside the heating chamber forming body 18 and the heating chamber 20, and the optimum temperature is easy to handle and low in viscosity. Can be.
[0061]
FIG. 8 is a cross-sectional view showing a fog injection device 1C according to still another embodiment of the present invention. The mist injection device 1C in FIG. 8 is similar to the mist injection device 1 in FIGS. 1 to 5, and only different configurations will be described. The same configurations are denoted by the same reference numerals and description thereof will be omitted. In the mist injection device 1 </ b> C of FIG. 8, a partition wall 40 is provided in the housing 5, and the storage space 11 is partitioned into a first space 41 and a second space 42. The first space 41 is closed, and heat transfer between the first space 41 and the external space is suppressed. The second space 42 is opened to the outside of the housing via the vent hole 43, and is configured to facilitate heat transfer with the external space. The container 6, the heater 7, the injector 8, and the temperature detector 9 are disposed in the first space 41, and the control board 10 is disposed in the second space 42.
[0062]
In the first space 41, the movement of heat inside and outside is suppressed, and the heater 7, the injector 8, the temperature detector 9, and the like housed become heat sources, and the temperature of the first space 41 becomes too low. Can be prevented. As a result, the temperature of the spray liquid 13 can be prevented from becoming too low. Further, the housing 5 is openable and closable by a shutter member 44 and is formed with a vent hole 45 that opens the first space 41 to the outside of the housing, thereby preventing the temperature of the first space 41 from becoming excessively high. Can do. In this way, the temperature of the first space 41 can be kept as constant as possible, and the temperature of the jet liquid 13 can be kept as constant as possible.
[0063]
Moreover, since the control board 10 that should be arranged in an environment that is weak against heat and has good heat dissipation is arranged in the second space 42 that is partitioned from the first space 41, a part of the storage space 11 as described above, Even if the heat input / output is suppressed, problems such as malfunction due to thermal runaway of the control board 10 do not occur. Further, when an abnormality is detected by the abnormality detector 4, the control board 10 controls the injector 7 so as to apply driving power to the motor 24 for a certain period of time and inject fog for a predetermined period of time. To do.
[0064]
With such a configuration, the above-described crime prevention effect can be similarly achieved, and similarly, a mist with a stable injection amount can be injected with a simple and small configuration regardless of the ambient temperature. If it demonstrates in detail, the container 6 will be arrange | positioned in the 1st space 41 as mentioned above, and the injection liquid 13 is hard to receive to the influence of atmospheric temperature. As a result, the change in the viscosity of the spray liquid 13 can be suppressed, the injection amount per unit time can be made substantially constant, and the mist can be ejected for a certain period of time, whereby a substantially constant mist can be ejected. Therefore, it is possible to prevent the amount of sprayed mist from being insufficient even under conditions where the ambient temperature is low. Moreover, the housing is used for the purpose of preventing damage to each means and is an indispensable configuration. In this way, it is possible to prevent complication of the configuration such as providing a means for keeping the container separately, and to spray a mist with a stable injection amount regardless of the ambient temperature with a simple and small configuration.
[0065]
FIG. 9 is a cross-sectional view showing a mist injection device 1D according to still another embodiment of the present invention. The mist injection device 1D of FIG. 9 is similar to the mist injection device 1 of FIGS. 1 to 5, and only different configurations will be described. The same configurations are denoted by the same reference numerals and description thereof will be omitted. In the mist injection device 1 </ b> C of FIG. 9, a warmer 47 configured to use a ceramic heater and to keep the temperature of the spray liquid 13 contained in the container 6 is provided. A warmer 47 which is a warming means is By control board 10 Given drive power Drive This is a self-temperature control type heater that can be heated to a constant temperature by changing its electric resistance depending on its own temperature. The control board 10 applies drive power to the heat retainer 47 to drive the heat retainer 47. Further, when an abnormality is detected by the abnormality detector 4, the control board 10 controls the injector 7 so as to apply driving power to the motor 24 for a certain period of time and inject fog for a predetermined period of time. To do.
[0066]
With such a configuration, the above-described crime prevention effect can be similarly achieved, and similarly, a mist with a stable injection amount can be injected with a simple and small configuration regardless of the ambient temperature. More specifically, the spray liquid 13 in the container 6 is kept warm by the warmer 47, the temperature does not change depending on the ambient temperature, and the viscosity does not change. Thus, a substantially constant mist can be injected by injecting the mist for a certain period of time. Therefore, it is possible to prevent the amount of sprayed mist from being insufficient even under conditions where the ambient temperature is low. Furthermore, the warmer 47 for keeping the temperature of the spray liquid 13 is as described above. Driven by driving power given by the control board 10, can be heated to a certain temperature A self-temperature control type heater. Because There is no need to separately provide a sensor and control means for controlling the heat retention temperature. Therefore, compared with the case where other heaters are used, the configuration for keeping the temperature of the spray liquid in the container can be simplified. That is, with a simple and small configuration, it is possible to inject a mist of a stable injection amount regardless of the ambient temperature.
[0067]
Each above-mentioned embodiment is only illustration of this invention, and can change a structure within the scope of the present invention. For example, the mist injection devices 1 to 1A may be used for purposes other than the above-described crime prevention measures. For example, it may be used for spraying fog as an effect at an event. In this case, for example, an operation input means is provided in the mist injection device, and the operation means is operated by the user and an injection command is input, and the injection is controlled by the control means as an injection condition. May be. Also in the case of using for the effect, the environment such as illuminance may be set as the injection condition, and a means for detecting the environment may be provided, and control may be performed so that the control means starts the injection based on the detection result.
[0068]
Moreover, you may make it arrange | position a container in a heating chamber as a deformation | transformation side of FIG. Moreover, you may make it the pipe line part by the side of a container pass a heating chamber as a deformation | transformation side of FIG. In this case, it goes without saying that the conduit on the container side may pass through the heating chamber forming body.
[0069]
【The invention's effect】
According to the present invention, the jet liquid stored in the container is jetted from the jet port by the jetting means. Before the jet liquid reaches the jet port from the container, the jet liquid passes through the heating chamber and is heated and atomized in the heating chamber. As a result, the spray liquid is atomized, and a mist of the spray liquid is sprayed. The temperature of the heating chamber is maintained at the first set temperature, and the spraying unit sprays the mist of the spray liquid from when the predetermined spraying condition is satisfied until the temperature of the heating chamber drops to the second set temperature. Thus, it is controlled by the control means. Thus, even if the injection amount per unit time changes depending on the viscosity of the injection liquid in the container, a mist of the injection liquid is injected until a certain amount of heat is taken away from the heating chamber by the injection liquid. It is possible to keep the spray amount of the mist sprayed until the ejection stop substantially constant. Therefore, it is possible to prevent the amount of sprayed mist from being insufficient even under conditions where the ambient temperature is low. Moreover, it goes without saying that the container, the heating means, and the injection means are indispensable for the fog injection device, and the temperature detection means and the control means are also indispensable for the heating control by the heating means and the control of the injection operation of the injection liquid, By using such indispensable means, it is possible to prevent a decrease in the amount of sprayed mist. That is, it is possible to prevent complication of the configuration such as separately providing a means for keeping the container warm, and to spray a mist with a stable injection amount regardless of the ambient temperature with a simple and small configuration.
[0070]
According to the present invention, the jet liquid stored in the container is jetted from the jet port by the jetting means. Before the jet liquid reaches the jet port from the container, the jet liquid passes through the heating chamber and is heated and atomized in the heating chamber. As a result, the spray liquid is atomized, and a mist of the spray liquid is sprayed. Container , Hot chamber forming body To be embedded inside The viscosity of the spray liquid in the container does not change depending on the ambient temperature and the viscosity does not change. Thus, a substantially constant mist can be injected by injecting the mist for a certain period of time. Therefore, it is possible to prevent the amount of sprayed mist from being insufficient even under conditions where the ambient temperature is low. Moreover, the heating means is an indispensable configuration, and the use of such an indispensable means can prevent a decrease in the amount of sprayed mist. That is, it is possible to prevent complication of the configuration such as separately providing a means for keeping the container warm, and to spray a mist with a stable injection amount regardless of the ambient temperature with a simple and small configuration.
[0071]
Yong The chamber is a heating chamber forming body. To be embedded inside This prevents the spray liquid from becoming too hot. Further, by selecting the distance from the heating chamber, it is possible to set the temperature of the jetting liquid and to set the optimum temperature.
[0072]
According to the present invention, the jet liquid stored in the container is jetted from the jet port by the jetting means. Before the jet liquid reaches the jet port from the container, the jet liquid passes through the heating chamber and is heated and atomized in the heating chamber. As a result, the spray liquid is atomized, and a mist of the spray liquid is sprayed. The transportation pipeline constituting the ejection means is formed so that the inner diameter of at least the portion of the pipeline on the container side of the transportation source is larger than that of the transportation source, and resistance to transportation is maintained even when the viscosity of the ejection liquid in the container is low. Can be small. The viscosity of the spray liquid can be lowered by guiding the spray liquid to one of the heating chamber and the heating chamber forming body through such a conduit on the container side. This suppresses the influence of the viscosity of the spray liquid in the container on the injection amount per unit time, makes it possible to make the injection amount per unit time substantially constant, and by spraying fog for a certain time, A constant mist can be injected. Therefore, it is possible to prevent the amount of sprayed mist from being insufficient even under conditions where the ambient temperature is low. In addition, it is possible to prevent a decrease in the amount of sprayed mist with a simple configuration in which a part of the transport pipe is simply passed through one of the heating chamber and the heating chamber forming body upstream of the portion for atomization. it can. That is, it is possible to prevent complication of the configuration such as separately providing a means for keeping the container warm, and to spray a mist with a stable injection amount regardless of the ambient temperature with a simple and small configuration.
[0073]
Preferably, the conduit portion on the container side is guided to the heating chamber forming body, and thereby the spray liquid can be prevented from becoming too high. Further, by selecting the distance to the heating chamber, the temperature of the spray liquid can be set, and the optimum temperature can be obtained.
[0074]
According to the present invention, the jet liquid stored in the container is jetted from the jet port by the jetting means. Before the jet liquid reaches the jet port from the container, the jet liquid passes through the heating chamber and is heated and atomized in the heating chamber. As a result, the spray liquid is atomized, and a mist of the spray liquid is sprayed. The container is disposed in the first space in which the movement of heat in the housing is suppressed together with the heating unit and the injection unit, and the injection liquid in the container is not easily affected by the ambient temperature. Furthermore, it is arranged with heating means and jetting means that can be a heat source, It is possible to prevent the temperature of the first space from becoming too low. This prevents the temperature of the spray liquid from becoming too low, It is suppressed that the viscosity of a jet liquid becomes high. As a result, the change in the viscosity of the spray liquid can be suppressed, the amount of injection per unit time can be made substantially constant, and a substantially constant mist can be injected by injecting the mist for a fixed time. Therefore, it is possible to prevent the amount of sprayed mist from being insufficient even under conditions where the ambient temperature is low. Moreover, the housing is used for the purpose of preventing damage to each means and is an indispensable configuration. In this way, it is possible to prevent complication of the configuration such as providing a means for keeping the container separately, and to spray a mist with a stable injection amount regardless of the ambient temperature with a simple and small configuration. In addition, the second space in which the control means is arranged is not configured to suppress the heat input / output of the entire housing, so that the heat input / output is facilitated, so that a malfunction such as a thermal runaway of the control means is prevented, And the above-mentioned effect can be achieved.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a mist injection device 1 according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a mist injection device.
FIG. 3 is a perspective view showing an installation state of the mist injection device 1;
FIG. 4 is a flowchart showing a control operation of the control board 10;
FIG. 5 is a graph showing the relationship between the temperature of the injection liquid 13 and the injection amount.
FIG. 6 is a cross-sectional view showing a mist injection device 1A according to another embodiment of the present invention.
FIG. 7 is a cross-sectional view showing a mist injection device 1B according to still another embodiment of the present invention.
FIG. 8 is a cross-sectional view showing a fog injection device 1C according to still another embodiment of the present invention.
FIG. 9 is a cross-sectional view showing a mist injection device 1D according to still another embodiment of the present invention.
[Explanation of symbols]
1 Fog injection device
2 alert areas
3 Device body
4 Anomaly detector
5 Housing
6 containers
7 Heater
8 Injector
9 Temperature detector
10 Control board
11 Storage space
13 propellant
19 Heating element
20 Heating chamber
22 injection port
23 Transport pipeline
24 pump
41 1st space
42 2nd space

Claims (4)

A container for containing a propellant,
A heating means having a heating chamber, the temperature of the heating chamber being maintained at a first set temperature at which the spray liquid can be atomized;
Injection means for causing the injection liquid contained in the container to pass through the heating chamber and to be injected from the injection port;
Temperature detecting means for detecting the temperature of the heating chamber;
When the predetermined injection condition is satisfied, the injection unit is controlled so that the injection liquid is injected until the temperature of the heating chamber is lower than the first set temperature and the second set temperature at which the injection liquid can be atomized is lowered. And a mist spraying device including a control means. A container for containing a propellant,
A heating means having a heating chamber formed by a heating chamber forming body, and heating the spray liquid in the heating chamber so as to atomize;
Injection means for causing the injection liquid contained in the container to pass through the heating chamber and to be injected from the injection port;
Control means for controlling the injection means to inject the injection liquid over a preset injection time when a predetermined injection condition is satisfied,
The mist injection device, wherein the container is provided so as to be embedded in the heating chamber forming body. A container for containing a propellant,
A heating means having a heating chamber formed by a heating chamber forming body, and heating the spray liquid in the heating chamber so as to atomize;
Injection means for causing the injection liquid contained in the container to pass through the heating chamber and to be injected from the injection port;
Control means for controlling the injection means to inject the injection liquid over a preset injection time when a predetermined injection condition is satisfied,
The injection means has a transport line for guiding the jet liquid from the container to the jet port, and a transport source that is interposed in the middle of the transport pipe and sucks the jet liquid from the container and discharges it toward the jet port. The pipe portion on the injection port side of the transportation source of the transportation pipeline has an atomization portion for atomizing the spray liquid disposed in the heating chamber, and is closer to the container side than the transportation source of the transportation pipeline. The pipe line part is provided in the middle part so as to pass either one of the heating chamber and the heating chamber forming body, and at least the inner diameter of the part between the heating chamber and the heating chamber forming body and the container is jetted. A mist injection device, wherein the mist injection device is formed larger than the inner diameter of the hole side portion. A housing in which a first space in which heat transfer between the external space is suppressed and a second space in which heat transfer between the external space is easy is formed;
A container disposed in the first space and containing a propellant;
A heating means disposed in the first space, having a heating chamber, and heating the spray liquid to be atomized in the heating chamber;
An injection means that is arranged in the first space and causes the injection liquid contained in the container to pass through the heating chamber and to be injected from the injection port;
A mist injection device, comprising: a control unit that controls the injection unit so as to inject the injection liquid over a preset injection time when the injection condition is set in a second space and satisfies a predetermined injection condition.

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