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JPH0416683B2 - - Google Patents
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JPH0416683B2 - - Google Patents

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Publication number
JPH0416683B2
JPH0416683B2 JP2252984A JP25298490A JPH0416683B2 JP H0416683 B2 JPH0416683 B2 JP H0416683B2 JP 2252984 A JP2252984 A JP 2252984A JP 25298490 A JP25298490 A JP 25298490A JP H0416683 B2 JPH0416683 B2 JP H0416683B2
Authority
JP
Japan
Prior art keywords
damper
room pressure
room
adjusting
opening degree
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
JP2252984A
Other languages
Japanese (ja)
Other versions
JPH03207944A (en
Inventor
Kenji Sukemya
Shigeto Hirahara
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Taikisha Ltd
Original Assignee
Taikisha Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Taikisha Ltd filed Critical Taikisha Ltd
Priority to JP2252984A priority Critical patent/JPH03207944A/en
Publication of JPH03207944A publication Critical patent/JPH03207944A/en
Publication of JPH0416683B2 publication Critical patent/JPH0416683B2/ja
Granted legal-status Critical Current

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  • Ventilation (AREA)
  • Air Conditioning Control Device (AREA)

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本第1及び第2発明は、クリーンルーム等の室
圧制御を要する各種用途の換気対象室に対して装
備する空調装置に関し、詳しくは、換気対象室に
接続の強制換気風路に、通風量調整により前記換
気対象室の給排気量収支を調整して前記換気対象
室の室圧を調整するための第1ダンパを介装し、
室圧センサによる前記換気対象室の室圧検出に基
づき、検出室圧を設定値を維持するように前記第
1ダンパの開度を調整する室圧制御器を設けた空
調装置に関する。
[Detailed Description of the Invention] [Industrial Application Field] The first and second inventions relate to air conditioners installed in rooms to be ventilated for various uses such as clean rooms that require room pressure control. interposing a first damper in a forced ventilation air path connected to the target room for adjusting the air supply and exhaust volume balance of the ventilation target room by adjusting the ventilation volume and adjusting the room pressure of the ventilation target room;
The present invention relates to an air conditioner including a room pressure controller that adjusts the opening degree of the first damper based on the room pressure detected in the room to be ventilated by a room pressure sensor so as to maintain the detected room pressure at a set value.

〔従来の技術〕[Conventional technology]

従来、上記の如き空調装置において、強制換気
風路に介装した単一のダンパ(第1ダンパ)を検
出室圧に応じて開度調整することだけで、換気対
象室の室圧を設定値に調整維持する室圧制御構成
となつていた。
Conventionally, in the above air conditioner, the room pressure of the room to be ventilated can be adjusted to the set value by simply adjusting the opening of a single damper (first damper) installed in the forced ventilation air path according to the detected room pressure. It had a room pressure control configuration that adjusted and maintained it.

〔発明が解決しようとする課題〕[Problem to be solved by the invention]

しかし、単一のダンパの開度調整で室圧制御を
行う場合、何らかの室圧変動要因の発生により換
気対象室の室圧が大きく変動したり、又、強制換
気風路の風路抵抗が介装フイルタの目詰まり等に
より大きく増大したりすると、換気対象室の室圧
を設定値に調整維持する上で室圧制御器によりダ
ンパの開度が大きく変更され、そして、その後の
通常微小室圧変動に対しては、上記の室圧変動要
因や風路抵抗増大が解消されるまで、、大きく変
更された開度近傍でのダンパ開度調整により室圧
を設定値に調整維持する状態となるが、ダンパに
は、その開度変更に対して通風量が第5図に破線
及び実線で示すように非比例的に変化する特性が
あるために、ダンパの開度が大きく変更される
と、それに伴い、換気対象室に対するダンパの給
排気量収支調整特性(単位量のダンパ開度c変更
に対する通風量Qの変化率)までも大きく変化し
てしまう。
However, when controlling the room pressure by adjusting the opening of a single damper, the room pressure in the room to be ventilated may fluctuate greatly due to the occurrence of some room pressure fluctuation factor, or the air path resistance of the forced ventilation air path may If the pressure in the room to be ventilated increases significantly due to clogging of the ventilation filter, etc., the damper opening degree will be changed significantly by the room pressure controller to adjust and maintain the room pressure in the room to be ventilated at the set value, and then the normal minute room pressure In response to fluctuations, the room pressure will be adjusted and maintained at the set value by adjusting the damper opening near the greatly changed opening until the above-mentioned room pressure fluctuation factors and increased air path resistance are resolved. However, since the damper has a characteristic that the amount of ventilation changes non-proportionally as the opening degree changes, as shown by the broken line and solid line in Figure 5, if the damper opening degree is changed significantly, Accordingly, even the supply/exhaust volume balance adjustment characteristics of the damper for the room to be ventilated (the rate of change in the ventilation volume Q with respect to a unit change in the damper opening degree c) change significantly.

ところが、ダンパの開度状態によつて給排気量
収支の調整特性が大きく変化するということは、
ダンパ開度が大きい状態での通常微小室圧変動に
対する室圧調整と、ダンパ開度が小さい状態での
通常微小室圧変動に対する室圧調整とで、室圧調
整特性が大きく異なつてしまうということ、換言
すれば、何らかの室圧変動要因の発生による大き
な室圧変動や、フイルタの目詰まり等による大き
な風路抵抗増大が発生する前の状態と、発生後で
それら室圧変動要因や風路抵抗増大が解消されて
いない状態とで、通常微小室圧変動に対する室圧
調整特性が大きく変化してしまうということであ
つて、このことが微小室圧変動に対する通常室圧
制御においてハンチングや応答性低下を招く要因
となつており、このために、従来、換気対象室の
室圧を所望の設定値に安定的に、かつ、精度良く
調整維持することが難しく、例えば、クリーンル
ームに対する汚染空気侵入や、実験ルームからの
有害気体漏洩等を室圧制御により防止するといつ
た所期目的を達成する上で未だ十分な信頼性が得
られない問題があつた。
However, the fact that the adjustment characteristics of the air supply/exhaust volume balance changes greatly depending on the opening state of the damper means that
Room pressure adjustment characteristics differ greatly between room pressure adjustment for normal minute room pressure fluctuations when the damper opening is large and room pressure adjustment for normal minute room pressure fluctuations when the damper opening is small. In other words, the state before a large room pressure fluctuation due to the occurrence of some room pressure fluctuation factor or a large increase in air path resistance due to filter clogging, etc., and the condition after the occurrence of such room pressure fluctuation factors and air path resistance. If the increase is not resolved, the room pressure adjustment characteristics for normal small room pressure fluctuations will change significantly, and this will cause hunting and decreased responsiveness in normal room pressure control for small room pressure fluctuations. For this reason, it has been difficult to stably and accurately adjust and maintain the room pressure in the room to be ventilated to the desired set value, for example, causing contaminated air to enter the clean room, There was a problem in that sufficient reliability was not yet achieved in achieving the intended purpose of preventing harmful gas leaks from the experimental room by controlling the room pressure.

また、これに対し、室圧制御の対応巾を広く確
保して、何らかの室圧変動要因の発生による大き
な室圧変動や、フイルタの目詰まり等による強制
換気風路の大きな抵抗増大に対しても室圧制御機
能を維持できるようにしながら、通常微小室圧変
動に対する室圧制御の安定化及び精度向上を図る
に、室圧検出に基づいて室圧制御器により開度調
整される第1ダンパの開度が、大きな室圧変動や
大きな風路抵抗増大に対してもあまり大きく変化
しないように(すなわち、ダンパの給排気量収支
調整特性があまり大きく変化しないように)、検
出室圧や第1ダンパの開度検出に基づいた強制換
気フアンの能力制御を並行実施することも考えら
れる。
In addition, we have ensured a wide range of response for room pressure control to prevent large room pressure fluctuations caused by some room pressure fluctuation factors and large increases in resistance in the forced ventilation air path due to filter clogging, etc. In order to stabilize and improve the accuracy of room pressure control against small room pressure fluctuations while maintaining the room pressure control function, the first damper, whose opening is adjusted by a room pressure controller based on room pressure detection, is The detection chamber pressure and the first It is also conceivable to control the capacity of the forced ventilation fan in parallel based on the detection of the damper opening.

つまり、大きな室圧変動や大きな風路抵抗増大
に対しては、検出室圧や第1ダンパの開度検出に
基づいた強制換気フアンの能力制御により換気対
象室の給排気量収支を基本的に調整してしまうこ
とをもつて対処し、これによつて、第1ダンパの
開度変化巾、すなわち、給排気量収支調整特性の
変化巾を小巾に止めることにより、室圧制御器に
よる第1ダンパの開度調整をもつて行う通常微小
室圧変動に対する室圧制御の安定化、及び、精度
向上を達成しようとするものである。
In other words, in response to large room pressure fluctuations or large increases in air resistance, the air supply and exhaust volume balance of the room to be ventilated can be basically adjusted by controlling the capacity of the forced ventilation fan based on the detected room pressure and the opening degree of the first damper. By adjusting the opening degree of the first damper, that is, by keeping the range of change in the supply/exhaust volume balance adjustment characteristic within a small range, the The purpose of this invention is to stabilize room pressure control against minute room pressure fluctuations and improve accuracy, which is normally performed by adjusting the opening of one damper.

しかしながら、フアンの能力制御による給排気
量収支の調整では、それが基本的なもので良いに
しても、フアン能力制御の本来特性上、十分な調
整精度や応答性を得ることができず、この点、こ
の室圧制御形態においても未だ満足な室圧制御性
が得られない問題がある。
However, even if the adjustment of air supply and exhaust volume balance by controlling fan capacity is basic, it is not possible to obtain sufficient adjustment accuracy and responsiveness due to the inherent characteristics of fan capacity control. However, even in this room pressure control mode, there is still a problem that satisfactory room pressure controllability cannot be obtained.

本第1及び第2発明の目的は、強制換気風路に
おける合理的な通風量調整、すなわち、換気対象
室に対する合理的な給排気量収支調整により、室
圧制御の対応巾を十分に広く確保しながら、通常
微小室圧変動に対する室圧制御の安定化、及び、
精度向上を図る点にある。
The purpose of the first and second inventions is to ensure a sufficiently wide range of room pressure control by rationally adjusting the airflow volume in the forced ventilation air path, that is, by rationally adjusting the air supply and exhaust volume balance for the room to be ventilated. Meanwhile, stabilization of room pressure control against normal minute room pressure fluctuations, and
The aim is to improve accuracy.

(第1発明) 〔課題を解決するための手段〕 本第1発明による空調装置の特徴構成は、 換気対象室に接続の強制換気風路に、通風量調
整により前記換気対象室の給排気量収支を調整し
て前記換気対象室の室圧を調整するための第1ダ
ンパを介装し、室圧センサによる前記換気対象室
の室圧検出に基づき、検出室圧を設定値に維持す
るように前記第1ダンパの開度を調整する室圧制
御器を設ける構成において、 前記強制換気風路に、通風量調整により前記換
気対象室の給排気量収支を調整する第2ダンパを
前記第1ダンパとは並列の状態で介装し、前記第
1ダンパを全閉及び全閉近傍への閉じが不能な構
造に構成し、前記第1ダンパの開度調整による室
圧調整機能が維持されるように、前記室圧センサ
による検出室圧に基づき、又は、前記第1ダンパ
の開度検出に基づき、前記第2ダンパの開度を調
整する基本室圧制御器を設けたことにあり、 その作用・効果は次の通りである。
(First Invention) [Means for Solving the Problems] The characteristic configuration of the air conditioner according to the first invention is as follows: A forced ventilation air path connected to a room to be ventilated is configured to control the air supply and exhaust volume of the room to be ventilated by adjusting the ventilation volume. A first damper is provided to adjust the room pressure of the room to be ventilated by adjusting income and expenditure, and the detected room pressure is maintained at a set value based on the room pressure detected by the room pressure sensor in the room to be ventilated. In the configuration in which a room pressure controller is provided to adjust the opening degree of the first damper, a second damper is installed in the forced ventilation air path to adjust the supply and exhaust amount balance of the room to be ventilated by adjusting the ventilation amount. The first damper is interposed in parallel with the damper, and the first damper is configured to have a structure in which it is impossible to close the first damper to a fully closed position or close to a fully closed position, so that the room pressure adjustment function is maintained by adjusting the opening degree of the first damper. According to the present invention, there is provided a basic room pressure controller that adjusts the opening degree of the second damper based on the room pressure detected by the room pressure sensor or based on the opening degree detection of the first damper. The actions and effects are as follows.

〔作用〕[Effect]

つまり、上記した本第1発明の特徴構成では、
第1ダンパを全閉及び全閉近傍への閉じが不能な
構造に構成することにより、第1ダンパの開度調
整可能範囲そのものをダンパ構造上で小範囲に制
限(例えば、第5図において破線で示す領域への
開度調整を不能に構成して、開度調整可能範囲を
第5図中実線で示す領域に制限)し、これによつ
て、その開度調整可能範囲の全域にわたつて第1
ダンパの開度が室圧制御器による開度調整で変更
されたとしても、換気対象室に対する第1ダンパ
の給排気量収支調整特性(単位量のダンパ開度変
更に対する通風量の変化率)があまり変化しない
ようにする。
In other words, in the characteristic configuration of the first invention described above,
By configuring the first damper in a structure that makes it impossible to close it completely or close to fully closed, the adjustable opening range of the first damper itself is limited to a small range on the damper structure (for example, in Figure 5, the broken line By disabling the opening adjustment to the area indicated by , the adjustable opening range is limited to the area shown by the solid line in Figure 5), and thereby the entire adjustable opening range is 1st
Even if the damper opening is changed by adjusting the opening with the room pressure controller, the supply/exhaust volume balance adjustment characteristics of the first damper for the room to be ventilated (rate of change in ventilation volume per unit change in damper opening) Try not to change too much.

そして、第1ダンパとは並列に強制換気風路に
介装した第2ダンパの開度調整として、第1ダン
パの開度調整による室圧調整機能が維持されるよ
うに、すなわち、何らかの室圧変動要因の発生に
よる大きな室圧変動や、フイルタの目詰まり等に
よる強制換気風路の大きな抵抗増大に対して、室
圧制御器による開度調整上で第1ダンパの開度が
上記開度調整可能範囲の下限開度や上限開度に至
つたままの状態となつて、第1ダンパの室圧調整
機能が損なわれることのないように、室圧センサ
による検出室圧に基づき、又は、第1ダンパの開
度検出に基づき、基本室圧制御器をもつて第2ダ
ンパの開度を調整することにより、大きな室圧変
動や大きな風路抵抗増大に対しては、先述のフア
ン能力制御を並行実施する室圧制御形態における
フアン能力制御による給排気量収支の基本調整に
代え、第2ダンパの開度調整により給排気量収支
を基本的に調整してしまうことで対処する形態と
し、これによつて、何らかの変圧変動要因の発生
による大きな室圧変動や、フイルタの目詰まり等
による強制換気風路の大きな抵抗増大の発生後、
それら室圧変動要因や風路抵抗増大が解消されて
いない状態での通常微小室圧変動に対しても、上
記の如く小範囲に制限した開度調整可能範囲内で
の第1ダンパの開度調整による給排気量収支調整
をもつて室圧を設定値に調整維持できるようにす
る。
Then, by adjusting the opening of the second damper installed in the forced ventilation air path in parallel with the first damper, the room pressure adjustment function is maintained by adjusting the opening of the first damper. In response to large room pressure fluctuations due to the occurrence of fluctuation factors or large resistance increases in the forced ventilation air path due to filter clogging, etc., the opening of the first damper is adjusted as described above in order to adjust the opening using the room pressure controller. In order to prevent the room pressure adjustment function of the first damper from being impaired due to the lower limit opening degree or upper limit opening degree of the possible range being reached, the first damper By adjusting the opening of the second damper using a basic room pressure controller based on the detection of the opening of the first damper, the aforementioned fan capacity control can be applied in response to large room pressure fluctuations and large increases in air resistance. Instead of basic adjustment of the air supply/exhaust volume balance by fan capacity control in the room pressure control mode that is carried out in parallel, this is handled by basically adjusting the air supply/exhaust volume balance by adjusting the opening degree of the second damper. After a large change in room pressure occurs due to some pressure fluctuation factor or a large increase in resistance in the forced ventilation air path due to filter clogging, etc.
Even in the case of normal small room pressure fluctuations in a state where these room pressure fluctuation factors and increased air path resistance have not been resolved, the opening of the first damper can be adjusted within the adjustable opening range, which is limited to a small range as described above. It is possible to adjust and maintain the room pressure at a set value by adjusting the supply/exhaust volume balance through adjustment.

〔発明の効果〕〔Effect of the invention〕

以上作用の結果、本第1発明によれば、給排気
量収支の調整特性、すなわち、室圧調整特性があ
まり変化しないようにダンパ構成上で小範囲に制
限した開度調整可能範囲内での第1ダンパ開度調
整による室圧調整機能が維持されるから、換言す
れば、室圧制御器により第1ダンパの開度を調整
して給排気量収支を調整することで換気対象室の
室圧を設定値に調整維持することにおいて、大き
な室圧変動や、フイルタの目詰まり等による強制
換気風路の大きな抵抗増大に対しても、第1ダン
パの給排気量収支調整特性、すなわち、室圧調整
特性が大きく変化することがないから、単一のダ
ンパの開度調整のみにより室圧を調整する形式、
つまり、大きな室圧変動や、フイルタの目詰まり
等による強制換気風路の大きな抵抗増大に対して
単一ダンパの給排気量収支調整特性、室圧調整特
性が大きく変化することとなつていた従来形式に
比べ、通常微小室圧変動に対する室圧制御の安定
性、及び、調整精度を大きく向上し得るに至る。
As a result of the above actions, according to the first invention, the opening can be adjusted within the adjustable range of the damper, which is limited to a small range in the damper configuration, so that the adjustment characteristics of the air supply/exhaust volume balance, that is, the room pressure adjustment characteristics, do not change too much. Since the room pressure adjustment function by adjusting the opening degree of the first damper is maintained, in other words, by adjusting the opening degree of the first damper using the room pressure controller and adjusting the supply/exhaust balance, the room pressure in the room to be ventilated can be adjusted. In adjusting and maintaining the pressure at the set value, the first damper's supply/exhaust volume balance adjustment characteristics Since the pressure adjustment characteristics do not change significantly, this type of system adjusts the room pressure only by adjusting the opening of a single damper.
In other words, in the past, the supply/exhaust volume adjustment characteristics and room pressure adjustment characteristics of a single damper would change significantly in response to large room pressure fluctuations or large increases in resistance in the forced ventilation air path due to filter clogging, etc. Compared to conventional types, the stability of room pressure control against small room pressure fluctuations and the adjustment accuracy can be greatly improved.

そして、そのように通常微小室圧変動に対する
室圧制御の安定性、及び、調整精度を大きく向上
しながらも、室圧制御の対応巾は、第2ダンパの
開度調整による給排気量収支の基本調整もつて広
く確保することができて、何らかの室圧変動要因
の発生により生ずる大きな室圧変動や、フイルタ
の目詰まり等による強制換気風路の大きな抵抗増
大に対しても室圧制御機能を十分に維持し得る。
In this way, although the stability and adjustment accuracy of room pressure control against normal minute room pressure fluctuations are greatly improved, the response range of room pressure control is limited to the balance of supply and exhaust volume by adjusting the opening degree of the second damper. The basic adjustment can be maintained over a wide range, and the room pressure control function can be maintained even in the event of large room pressure fluctuations caused by some room pressure fluctuation factors or large increases in resistance in the forced ventilation air path due to filter clogging, etc. Sufficiently maintainable.

また、フアンの能力制御に比べ調整精度や応答
性が高いダンパ(第2ダンパ)の開度調整をもつ
て給排気量収支の基本調整を行うから、先述の如
く、強制換気フアンの能力制御をもつて給排気量
収支の基本調整を行う形式に比べても、給排気量
収支基本調整の調整精度及び応答性を向上でき
て、より優れた室圧制御性を得ることができる。
In addition, the basic adjustment of the air supply and exhaust volume balance is performed by adjusting the opening of the damper (second damper), which has higher adjustment accuracy and response than fan capacity control, so as mentioned earlier, forced ventilation fan capacity control is effective. Even when compared to a method in which the basic adjustment of the supply/exhaust volume balance is performed, the adjustment accuracy and responsiveness of the basic adjustment of the supply/exhaust volume balance can be improved, and better room pressure controllability can be obtained.

また、ちなみに、全閉及び全閉近傍への閉じを
不能に構成した上記第1ダンパと、給排気量収支
の基本調整を行わせる上記第2ダンパとを、直列
に配置して強制換気風路に介装することも考えら
れるが、この場合、第1ダンパ及び第2ダンパの
相互において、一方のダンパの開度変更による通
風量変化の影響で他方のダンパの通風量調整特性
が変化し易く、このために、室圧制御の安定性向
上及び精度向上が制限されるといつたことが生じ
る。
Incidentally, the forced ventilation air path is constructed by arranging in series the first damper, which is configured to be unable to close fully closed or near fully closed, and the second damper, which performs basic adjustment of the supply/exhaust volume balance. It is also possible to interpose the damper in the first damper and the second damper, but in this case, the ventilation adjustment characteristics of the other damper are likely to change due to the change in the ventilation amount due to the change in the opening of one damper. As a result, improvements in stability and accuracy of room pressure control are limited.

これに対し、本第1発明であれば、第1ダンパ
と第2ダンパとを並列の関係で強制換気風路に介
装するから、上記の如き相互干渉的な通風量調整
特性の変化を抑制できて、室圧制御の安定性向上
及び精度向上をより効果的に達成し得る。
On the other hand, according to the first invention, since the first damper and the second damper are installed in the forced ventilation air path in a parallel relationship, the above-mentioned mutually interfering changes in the ventilation volume adjustment characteristics are suppressed. As a result, it is possible to more effectively improve the stability and accuracy of room pressure control.

(第2発明) 〔課題を解決するための手段〕 本第2発明による空調装置の特徴構成は、 換気対象室に接続の強制換気風路に、通風量調
整により前記換気対象室の給排気量収支を調整し
て前記換気対象室の室圧を調整するための第1ダ
ンパを介装し、室圧センサによる前記換気対象室
の室圧検出に基づき、検出室圧を設定値に維持す
るように前記第1ダンパの開度を調整する室圧制
御器を設ける構成において、 前記強制換気風路に、通風量調整により前記換
気対象室の給排気量収支を調整する第2ダンパを
前記第1ダンパとは並列の状態で介装し、前記第
1ダンパが全閉及び全閉近傍、ないし、全開及び
全開近傍に至ることがないように、前記室圧セン
サによる検出室圧に基づき、又は、前記第1ダン
パの開度検出に基づき、前記第2ダンパの開度を
調整する基本室圧制御器を設けたことにあり、 その作用・効果は次の通りである。
(Second Invention) [Means for Solving the Problems] The characteristic configuration of the air conditioner according to the second invention is as follows: A forced ventilation air path connected to a room to be ventilated has an air supply and exhaust volume adjusted to the ventilation target room. A first damper is provided to adjust the room pressure of the room to be ventilated by adjusting income and expenditure, and the detected room pressure is maintained at a set value based on the room pressure detected by the room pressure sensor in the room to be ventilated. In the configuration in which a room pressure controller is provided to adjust the opening degree of the first damper, a second damper is installed in the forced ventilation air path to adjust the supply and exhaust amount balance of the room to be ventilated by adjusting the ventilation amount. Interposed in parallel with the damper, based on the room pressure detected by the room pressure sensor, so that the first damper does not reach the fully closed state, near the fully closed state, or the fully open state, or near the fully open state, or The present invention includes a basic room pressure controller that adjusts the opening degree of the second damper based on the detection of the opening degree of the first damper, and its functions and effects are as follows.

〔作用〕[Effect]

つまり、上記した本第2発明の特徴構成では、
第1ダンパとは並列に強制換気風路に介装した第
2ダンパの開度調整として、第1ダンパが全閉及
び全閉近傍、ないし、全開及び全開近傍に至るこ
とがないように、すなわち、何らかの室圧変動要
因の発生による大きな室圧変動や、フイルタの目
詰まり等による強制換気風路の大きな抵抗増大に
対して、室圧制御器による開度調整上で第1ダン
パの開度が全閉及び全閉近傍(例えば、第5図に
おいて破線で示す領域)に至つて、ないし、全開
及び全開近傍に至つて、換気対象室に対する第1
ダンパの給排気量収支調整特性(単位量のダンパ
開度変更に対する通風量の変化率)が大きく変化
しないように、室圧センサによる検出室圧に基づ
き、又は、第1ダンパの開度検出に基づき、基本
室圧制御器をもつて第2ダンパの開度を調整する
ことにより、大きな室圧変動や大きな風路抵抗増
大に対しては、先述のフアン能力制御を並行実施
する室圧制御形態におけるフアン能力制御による
給排気量収支の基本調整に代え、第2ダンパの開
度調整により給排気量収支を基本的に調整してし
まうことで対処する形態とし、これによつて、何
らかの室圧変動要因の発生による大きな室圧変動
や、フイルタの目詰まり等による強制換気風路の
大きな抵抗増大の発生後、それら室圧変動要因や
風路抵抗増大が解消されていない状態での通常微
小室圧変動に対しても、全閉及び全閉近傍、ない
し、全開及び全開近傍へ至らない小範囲での第1
ダンパの開度調整による給排気量収支調整をもつ
て室圧を設定値に調整維持できるようにする。
In other words, in the characteristic configuration of the second invention described above,
The opening degree of the second damper, which is installed in parallel with the first damper in the forced ventilation air path, is adjusted so that the first damper does not become fully closed or close to fully closed, or fully open or close to fully open. , the opening of the first damper is adjusted by the room pressure controller in response to large room pressure fluctuations due to some room pressure fluctuation factor or large resistance increases in the forced ventilation air path due to filter clogging, etc. When the room is fully closed and close to fully closed (for example, the area shown by the broken line in FIG. 5), or when it is fully open and close to fully open, the first
In order to prevent the damper's air supply/exhaust balance adjustment characteristics (the rate of change in ventilation volume with respect to a unit change in the damper opening) from changing significantly, it is possible to Based on this, by adjusting the opening degree of the second damper using a basic room pressure controller, we have developed a room pressure control system that performs the above-mentioned fan capacity control in parallel in response to large room pressure fluctuations and large increases in air path resistance. Instead of the basic adjustment of the air supply/exhaust volume balance by controlling the fan capacity, the system is basically adjusted by adjusting the opening of the second damper. After a large change in room pressure due to the occurrence of a fluctuation factor or a large increase in resistance in the forced ventilation air path due to filter clogging, etc., a normal micro-chamber is created in a state where the room pressure change factor and increase in air path resistance have not been resolved. Even in response to pressure fluctuations, the 1st position is fully closed and close to fully closed, or fully open and in a small range that does not reach close to fully open.
The room pressure can be adjusted and maintained at a set value by adjusting the supply/exhaust volume balance by adjusting the opening degree of the damper.

〔発明の効果〕〔Effect of the invention〕

以上作用の結果、本第2発明によれば、給排気
量収支の調整特性、すなわち、室圧調整特性を大
きく変化させない小範囲での第1ダンパ開度調整
による室圧調整機能が維持されるから、換言すれ
ば、室圧制御器により第1ダンパの開度を調整し
て給排気量収支を調整することで換気対象室の室
圧を設定値に調整維持することにおいて、大きな
室圧変動や、フイルタの目詰まり等による強制換
気風路の大きな抵抗増大に対しても、第1ダンパ
の給排気量収支調整特性、すなわち、室圧調整特
性が大きく変化することがないから、単一のダン
パの開度調整のみにより室圧を調整する形式、つ
まり、大きな室圧変動や、フイルタの目詰まり等
による強制換気風路の大きな抵抗増大に対して単
一ダンパの給排気量収支調整特性、室圧調整特性
が大きく変化することになつていた従来形式に比
べ、先述の第1発明と同様、通常微小室圧変動に
対する室圧制御の安定性、及び、調整精度を大き
く向上し得るに至る。
As a result of the above operations, according to the second invention, the room pressure adjustment function is maintained by adjusting the first damper opening in a small range that does not significantly change the adjustment characteristics of the supply/exhaust flow balance, that is, the room pressure adjustment characteristics. In other words, in adjusting and maintaining the room pressure of the room to be ventilated at the set value by adjusting the opening degree of the first damper with the room pressure controller and adjusting the supply/exhaust volume balance, large room pressure fluctuations can be avoided. Even if there is a large increase in resistance in the forced ventilation air path due to filter clogging, etc., the air supply/exhaust volume adjustment characteristics of the first damper, that is, the room pressure adjustment characteristics, will not change significantly. A type that adjusts the room pressure only by adjusting the opening of the damper, in other words, a single damper has the ability to adjust the supply and exhaust volume balance against large room pressure fluctuations and large increases in resistance in the forced ventilation air path due to filter clogging, etc. Compared to the conventional type in which the room pressure adjustment characteristics were to change significantly, as with the first invention described above, the stability of room pressure control against normal minute room pressure fluctuations and the adjustment accuracy can be greatly improved. .

そして、そのように通常微小室圧変動に対する
室圧制御の安定化、及び、調整精度を大きく向上
しながらも、室圧制御の対応巾についても、先述
の第1発明と同様に、第2ダンパの開度調整によ
る給排気量収支の基本調整もつて広く確保するこ
とができて、何らかの室圧変動要因の発生により
生じる大きな室圧変動や、フイルタの目詰まり等
による強制換気風路の大きな抵抗増大に対しても
室圧制御機能を十分に維持し得る。
Although the stabilization of the room pressure control and the adjustment accuracy for normal minute room pressure fluctuations are greatly improved, the response width of the room pressure control is also improved by using the second damper, as in the first invention described above. Basic adjustment of the air supply/exhaust volume balance by adjusting the opening degree of the air supply/exhaust gas can be easily ensured, and it is possible to prevent large room pressure fluctuations caused by some room pressure fluctuation factor or large resistance in the forced ventilation air path due to filter clogging, etc. Even when the pressure increases, the room pressure control function can be maintained sufficiently.

また、フアンの能力制御に比べ調整精度や応答
性が高いダンパ(第2ダンパ)の開度調整をもつ
て給排気量収支の基本調整を行うから、強制換気
フアンの能力制御をもつて給排気量収支の基本調
整を行う形式に比べても、先述第1発明と同様、
給排気量収支基本調整の調整精度及び応答性を向
上できて、より優れた室圧制御性を得ることがで
きる。
In addition, since the basic adjustment of the air supply and exhaust volume balance is performed by adjusting the opening of the damper (second damper), which has higher adjustment accuracy and response than the capacity control of the fan, it is possible to Similar to the first invention mentioned above, even when compared to the form of basic adjustment of quantity balance,
It is possible to improve the adjustment accuracy and responsiveness of the basic adjustment of the supply/exhaust volume balance, and to obtain better room pressure controllability.

更に、上記第1ダンパと上記第2ダンパとを、
直列に配置して強制換気風路に介装することに比
べても、先述第1発明と同様、第1ダンパと第2
ダンパとを並列の関係で強制換気風路に介装する
から、一方のダンパの開度変更による通風量変化
の影響で他方のダンパの通風量調整特性が変化し
易いといつた相互干渉的な通風量調整特性の変化
を抑制できて、室圧制御の安定性向上及び精度向
上をより効果的に達成し得る。
Furthermore, the first damper and the second damper,
Compared to arranging them in series and interposing them in the forced ventilation air path, the first damper and the second damper are similar to the first invention described above.
Since the damper and the damper are installed in the forced ventilation air path in parallel, there is a possibility of mutual interference, such as a change in the airflow volume due to a change in the opening of one damper, which tends to change the airflow adjustment characteristics of the other damper. Changes in ventilation volume adjustment characteristics can be suppressed, and stability and precision of room pressure control can be more effectively achieved.

〔実施例〕〔Example〕

次に本第1発明の実施例を説明する。 Next, an embodiment of the first invention will be described.

第1図に示すように、吸気ガラリ1から取り入
れた外気を温湿度調整する空調機2、及び、その
空調機2により調整された空気を複数のクリーン
ルーム3に給送する給気フアン4を設け、他方、
クリーンルーム3夫々の室内空気を排気ガラリ5
から外部へ排出する排気フアン6、及び、その排
気フアン6からの給送風の一部を空調機2に戻す
還気風路7を設け、もつて、換気対象室としての
各クリーンルーム3に対する換気装置を構成して
ある。
As shown in FIG. 1, an air conditioner 2 that adjusts the temperature and humidity of outside air taken in from an intake louver 1, and an air supply fan 4 that feeds the air conditioned by the air conditioner 2 to a plurality of clean rooms 3 are installed. , on the other hand,
Exhaust indoor air from each clean room 3 louver 5
An exhaust fan 6 is provided to discharge air from the exhaust fan 6 to the outside, and a return air passage 7 is provided to return a portion of the air supplied from the exhaust fan 6 to the air conditioner 2. It is configured.

給気フアン4からの給気風路8を各クリーンル
ーム3に接続する分岐給気路9の夫々には、風量
センサ10及び風量調整用ダンパ11を装備する
とともに、風量センサ10により検出風量をシス
テムコントローラ12により指示された風量に維
持するように風量調整用ダンパ11を自動操作す
る風量制御器13を装備してある。
Each branch air supply path 9 that connects the air supply air path 8 from the air supply fan 4 to each clean room 3 is equipped with an air volume sensor 10 and a damper 11 for adjusting the air volume, and the air volume detected by the air volume sensor 10 is controlled by a system controller. An air volume controller 13 is provided which automatically operates the air volume adjustment damper 11 so as to maintain the air volume at the air volume instructed by the air volume controller 12.

又、排気フアン6に接続した排気風路14に対
して各クリーンルーム3の接続する分岐排気路1
5の夫々には、各クリーンルーム3に対する室圧
制御手段として、室圧調整用ダンパ装置16を介
装するとともに、各クリーンルーム3に付設した
室圧センサ17による検出室圧をシステムコント
ローラ12により指示された室圧に維持するよう
に、室圧調整用ダンパ装置16を自動操作して各
分岐排気路15の通風量調整により各クリーンル
ーム3の給排気量収支を調整する室圧制御器18
を装備してある。
Further, a branch exhaust passage 1 is connected to each clean room 3 to the exhaust air passage 14 connected to the exhaust fan 6.
Each of the clean rooms 5 is equipped with a damper device 16 for adjusting the room pressure as a room pressure control means for each clean room 3, and the room pressure detected by the room pressure sensor 17 attached to each clean room 3 is instructed by the system controller 12. A room pressure controller 18 adjusts the supply/exhaust volume balance of each clean room 3 by automatically operating the room pressure adjustment damper device 16 and adjusting the ventilation volume of each branch exhaust path 15 so as to maintain the room pressure at the same room pressure.
It is equipped with.

つまり、システムコントローラ12に対するプ
ログラム設定により、各クリーンルーム3に対す
る給気風量、並びに、各クリーンルーム3の室圧
を、クリーンルーム3夫々の使用条件に応じて自
動制御するようにしてある。
That is, by setting a program for the system controller 12, the amount of air supplied to each clean room 3 and the room pressure of each clean room 3 are automatically controlled according to the usage conditions of each clean room 3.

給気フアン4に対しては、給気風路8に付設し
た給気圧センサ19による検出給気圧をシステム
コントローラ12により指示された給気圧に維持
するように給気フアン4を能力制御する給気圧制
御機20を付設してあり、排気フアン6に対して
は、排気風路14に付設した排気圧センサ21に
よる検出排気圧をシステムコントローラ12によ
り指示された排気圧に維持するように排気フアン
6を能力制御する排気圧制御器22を付設してあ
る。
For the supply air fan 4, there is a supply pressure control that controls the capacity of the supply air fan 4 so that the supply pressure detected by the supply pressure sensor 19 attached to the supply air passage 8 is maintained at the supply pressure instructed by the system controller 12. The exhaust fan 6 is installed in such a way that the exhaust pressure detected by the exhaust pressure sensor 21 attached to the exhaust air passage 14 is maintained at the exhaust pressure instructed by the system controller 12. An exhaust pressure controller 22 is attached to control the capacity.

そして、給気圧制御器20及び排気圧制御器2
2に対して制御目標とする給気圧及び排気圧をシ
ステムコントローラ12から指示するための制御
システムとしては、各風量制御器13による風量
制御の結果としてシステムコントローラ12にフ
イードバツクされる風量調整用ダンパ11夫々の
ダンパ開度のうち最大のものが全開度近くに設定
してある適性開度範囲に入るような給気圧を給気
圧制御器20に対して指示する制御構成となつて
おり、一方、排気圧については、各室圧制御器1
8による室圧制御の結果としてシステムコントロ
ーラ12にフイードバツクされる室圧調整用ダン
パ装置16夫々のダンパ開度の全てが全開開度付
近及び全閉開度付近を除いて設定してある適性中
間開度範囲に入るような排気圧を排気圧制御器2
2に対して指示する制御構成となつている。
Then, the supply pressure controller 20 and the exhaust pressure controller 2
As a control system for instructing the system controller 12 to control the supply pressure and exhaust pressure as control targets for the air volume control system 2, the air volume adjustment damper 11 is fed back to the system controller 12 as a result of air volume control by each air volume controller 13. The control configuration is such that the supply pressure is instructed to the supply pressure controller 20 such that the maximum opening of each damper falls within an appropriate opening range set close to the full opening. For atmospheric pressure, each room pressure controller 1
As a result of the room pressure control by 8, all of the damper openings of the damper devices 16 for adjusting the room pressure, which are fed back to the system controller 12, are set to appropriate intermediate openings, except for the vicinity of the fully open position and the vicinity of the fully closed position. Exhaust pressure controller 2 adjusts the exhaust pressure so that it falls within the range of
The control configuration is such that instructions are given to 2.

つまり、給気圧については、フイードバツクさ
れた風量調整用ダンパ11夫々のダンパ開度a1
a2,a3,a4のうち最大のものが第2図イに示すよ
うに設定適性開度範囲axを開き側に逸脱してい
るときには給気圧を徐々に上昇させて、又、フイ
ードバツクされた風量調整用ダンパ11夫々のダ
ンパ開度a1,a2,a3,a4のうち最大のものが第2
図ハに示すように設定適性開度範囲axをを閉じ
側に逸脱しているときには給気圧を徐々に低下さ
せて、結果的に、第2図ロに示すように、風量調
整用ダンパ11夫々のダンパ開度度a1,a2,a3
a4のうち最大のものが全開開度近くに設定された
適性開度範囲ax内に維持されるように給気圧制
御が実行される。
In other words, regarding the supply pressure, the damper opening degrees a 1 ,
If the maximum of a 2 , a 3 , and a 4 deviates from the set appropriate opening range ax toward the opening side as shown in Figure 2 A, the supply pressure is gradually increased and feedback is applied. The maximum damper opening degree a 1 , a 2 , a 3 , a 4 of each of the air volume adjustment dampers 11 is the second one.
As shown in Figure 2C, when the setting appropriate opening range ax deviates to the closing side, the supply pressure is gradually lowered, and as a result, as shown in Figure 2B, each of the air volume adjustment dampers 11 damper opening degree a 1 , a 2 , a 3 ,
Supply pressure control is performed so that the maximum of a4 is maintained within the appropriate opening range ax, which is set close to the full opening.

他方、排気圧については、フイードバツクされ
た室圧調整用ダンパ装置16夫々のダンパ開度
b1,b2,b3,b4のうち少なくとも1つが第3図イ
に示すように設定適性開度範囲bxを開き側に逸
脱しているときには排気圧を徐々に低下させて、
また、フイードバツクされた室圧調整用ダンパ装
置16夫々のダンパ開度b1,b2,b3,b4のうち少
なくとも1つが第3図ハに示すように設定適性開
度範囲bxを閉じ側に逸脱しているときには排気
圧を徐々に上昇させて、結果的に、第3図ロに示
すように、室圧調整用ダンパ装置16夫々のダン
パ開度b1,b2,b3,b4の全てが全開開度付近及び
全開開度付近を除いて設定され適性中間開度範囲
bx内に維持されるように排気圧制御が実行され
る。
On the other hand, regarding the exhaust pressure, the damper opening degree of each damper device 16 for adjusting the room pressure is fed back.
When at least one of b 1 , b 2 , b 3 , and b 4 deviates from the set appropriate opening range bx toward the opening side as shown in Fig. 3A, the exhaust pressure is gradually lowered,
In addition, at least one of the damper opening degrees b 1 , b 2 , b 3 , b 4 of each of the damper devices 16 for adjusting the room pressure that has been fed back is set to the closed side as shown in FIG. 3C. When the exhaust pressure deviates from the above, the exhaust pressure is gradually increased, and as a result, as shown in FIG . All of 4 are set except for near full open position and near full open position, and are within the appropriate intermediate opening range.
Exhaust pressure control is performed to maintain it within bx.

すなわち、各風量制御器13による風量制御、
及び、各室圧制御器18による室圧制御により、
各クリーンルーム3に対する給気風量、及び、各
クリーンルーム3の室圧の夫々を適切に維持しな
がらも、上述の如き給気圧制御、並びに、排気圧
制御を行うことにより、給気フアン4及び排気フ
アン6の消費動力を節減するようにしてある。
That is, air volume control by each air volume controller 13,
And, by controlling the room pressure by each room pressure controller 18,
By performing the above-mentioned supply pressure control and exhaust pressure control while appropriately maintaining the supply air volume to each clean room 3 and the room pressure of each clean room 3, the supply air fan 4 and the exhaust fan It is designed to reduce the power consumption of 6.

各クリーンルーム3に対する室圧制御手段につ
いて更に詳述すると、前述の室圧調整用ダンパ装
置16として、第4図に示すように、夫々、通風
量調整によりクリーンルーム3の給排気量収支を
調整するための第1ダンパ23及び第2ダンパ2
4を、各クリーンルーム3に対する強制換気風路
の一部である分岐排気路15に並列に並べて介装
し、そして、それら第1及び第2ダンパ23,2
4のうち、第1ダンパ23を全閉及び全閉近傍へ
の閉じが不能なダンパ、すなわち、第1ダンパ2
3の回転弁体23Aがダンパ風路F1に対して直
交する姿勢となつても回転弁体23Aとダンパケ
ーシングとの間にバイパス風路Fbが形成される
ダンパに構成し、一方、第2ダンパ24を全閉可
能なダンパ、すなわち、第2ダンパ24の回転弁
体23Aがダンパ風路F2に対して直交する姿勢
となつたときダンパ風路F2が全閉となるダンパ
に構成してある。
To explain in more detail the room pressure control means for each clean room 3, as the damper device 16 for adjusting the room pressure described above, as shown in FIG. The first damper 23 and the second damper 2
4 are arranged in parallel and interposed in the branch exhaust passage 15 which is a part of the forced ventilation air passage for each clean room 3, and the first and second dampers 23, 2
4, the damper that cannot close the first damper 23 fully or close to fully closed, that is, the first damper 2
The damper is configured such that a bypass air passage Fb is formed between the rotary valve element 23A and the damper casing even when the rotary valve element 23A of No. 3 is in a posture orthogonal to the damper air passage F1 . The damper 24 is constructed as a damper that can be fully closed, that is, a damper that completely closes the damper air passage F 2 when the rotary valve body 23A of the second damper 24 assumes a posture perpendicular to the damper air passage F 2 . There is.

つまり、上述の如く第1ダンパ23を全閉及び
全閉近傍への閉じが不能な構造(本例において
は、第5図中破線で示す領域への閉じが不能な構
造)に構成することにより、第1ダンパ23の開
度調整可能範囲cxそのものをダンパ構造上で小
範囲に制限(本例においては、第5図中実線で示
す領域に制限)し、これによつて、室圧制御上、
その開度調整可能範囲cxの全域にわたつて第1
ダンパ23の開度cが変更されたとしても、クリ
ーンルーム3に対する第1ダンパ23の給排気量
収支調整特性(単位量の開度c変更に対する通風
量Qの変化率)があまり変化しないようにしてあ
る。
In other words, as described above, by configuring the first damper 23 in a structure in which it is impossible to close the first damper 23 to a fully closed position or close to a fully closed position (in this example, a structure in which it is impossible to close it in the area shown by the broken line in FIG. 5). , the adjustable opening range cx of the first damper 23 itself is limited to a small range on the damper structure (in this example, limited to the area shown by the solid line in Fig. 5), thereby improving room pressure control. ,
1st position over the entire opening adjustment range cx.
Even if the opening degree c of the damper 23 is changed, the air supply/exhaust volume balance adjustment characteristic of the first damper 23 for the clean room 3 (the rate of change in the ventilation amount Q with respect to a change in the opening degree c of the unit amount) is made so that it does not change much. be.

又、その第1ダンパ23とは並列に配置して第
2ダンパ24を分岐排気路15に介装することに
より、上述の如く第1ダンパ23の開度調整可能
範囲cxをダンパ構造上で小範囲に制限しながら
も、必要時には、第2ダンパ24の開度調整をも
つて分岐排気路15の全体通風量を大きく変更で
きるようにし、これによつて、給排気量収支調整
による室圧調整の対応巾を広く確保して、何らか
の室圧変動要因の発生による大きな室圧変動や、
風路中に介装したフイルタの目詰まり等による大
きな風路抵抗増大に対しても室圧調整機能を維持
できるようにしてある。
In addition, by placing the second damper 24 in parallel with the first damper 23 and interposing it in the branch exhaust passage 15, the adjustable opening range cx of the first damper 23 can be reduced in terms of the damper structure, as described above. Although the range is limited, when necessary, the overall ventilation volume of the branch exhaust passage 15 can be greatly changed by adjusting the opening degree of the second damper 24, thereby making it possible to adjust the room pressure by adjusting the supply and exhaust amount balance. By ensuring a wide range of response, we can prevent large room pressure fluctuations caused by some room pressure fluctuation factor,
The room pressure adjustment function can be maintained even in the face of a large increase in air passage resistance due to clogging of a filter inserted in the air passage.

第1及び第2ダンパ23,24夫々の開度調整
については、前述の室圧制御器18を、室圧セン
サ17による室圧検出に基づき、検出室圧をシス
テムコントローラ12により指示された室圧に維
持するように第1ダンパ23の開度cを調整する
構成とするとともに、その第1ダンパ23の開度
調整による室圧調整機能が維持されるように、す
なわち、何らかの室圧変動要因の発生による大き
な室圧変動や、介装フイルタの目詰まり等による
大きな風路抵抗増大に対して、室圧制御器18に
よる第1ダンパ23の開度調整上で第1ダンパ2
3の開度cが前述の如く小範囲に制限した開度調
整可能範囲cxの下限開度や上限開度に至つたま
まの状態となつて、第1ダンパ23の室圧調整機
能が損なわれることのないように、同じく室圧セ
ンサ17による検出室圧に基づいて第2ダンパ2
4の開度bを調整する基本室圧制御器18Aを設
けてある。
Regarding the opening degree adjustment of each of the first and second dampers 23 and 24, the above-mentioned room pressure controller 18 is controlled to adjust the detected room pressure to the room pressure instructed by the system controller 12 based on the room pressure detected by the room pressure sensor 17. In addition, the opening degree c of the first damper 23 is adjusted so that the opening degree c of the first damper 23 is maintained. In order to deal with large room pressure fluctuations due to generation of air pressure, large increases in air passage resistance due to clogging of intervening filters, etc., the room pressure controller 18 adjusts the opening of the first damper 23.
3 remains at the lower limit or upper limit of the adjustable opening cx, which is limited to a small range as described above, and the room pressure adjustment function of the first damper 23 is impaired. Similarly, the second damper 2 is adjusted based on the chamber pressure detected by the chamber pressure sensor 17 to avoid
A basic room pressure controller 18A for adjusting the opening degree b of No. 4 is provided.

つまり、第6図に示すように、システムコント
ローラ12により指示された室圧値P0と室圧セ
ンサ17による検出室圧値Pxとの差値(ΔP=
Px−P0)として、正側(Px>P0)に大きな差値
ΔPが生ずるほど第1ダンパ23の開度cを増大
側に大きく変更し、かつ、負側(Px>P0)に大
きな差値ΔPが生ずるほど第1ダンパ23の開度
cを減少側に大きく変更するように、室圧制御器
18により第1ダンパ23を開度調整することに
より、クリーンルーム3の給排気量収支を微調整
して検出室圧Pxをシステムコントローラ12に
よる指示室圧Poに調整維持させるものであり、
また、これに対し、差値ΔPの許容変動巾dを設
定しておき、差値ΔPがその許容変動巾dの上限
(ΔPmax(正値)を逸脱したときには、その逸脱
量に応じて第2ダンパ24の開度bを大きくする
ように、かつ、差値ΔPがその許容変動巾dの下
限(ΔPmin(負値)を逸脱したときには、その逸
脱量に応じて第2ダンパ24の開度bを小さくす
るように、基本室圧制御器18Aにより第2ダン
パ24を開度調整してクリーンルーム3の給排気
量収支を基本的に調整してしまう(換言すれば、
第1ダンパ23の開度調整による室圧調整の対応
レンジを変更してしまう)ことにより、その基本
調整の結果として、第6図におけるイ部分やロ部
分に示すように、差値ΔPを許容変動巾d内に復
帰維持するようにし、これによつて、何らかの室
圧変動要因の発生による大きな室圧変動や、介装
フイルタの目詰まり等による大きな風路抵抗増大
に対しても、室圧制御器18による第1ダンパ2
3の開度調整上で第1ダンパ23の開度cが前述
の如く小範囲に制限した開度調整可能範囲cxの
下限開度や上限開度に至つたままの状態とならな
いようにして、第1ダンパ23の開度調整をもつ
て行う通常微小室圧変動に対する室圧調整機能を
維持するようにしてある。
In other words, as shown in FIG. 6 , the difference value (ΔP=
Px−P 0 ), the larger the difference value ΔP is generated on the positive side (Px>P 0 ), the greater the opening degree c of the first damper 23 is changed to the increasing side, and the larger the difference value ΔP is on the negative side (Px>P 0 ), By adjusting the opening degree of the first damper 23 using the room pressure controller 18 so that the larger the difference value ΔP is generated, the more the opening degree c of the first damper 23 is changed to the decreasing side, the supply and exhaust amount balance of the clean room 3 can be adjusted. The detection chamber pressure Px is adjusted and maintained at the indicated chamber pressure Po by the system controller 12 by finely adjusting the
In addition, a permissible fluctuation range d of the difference value ΔP is set, and when the difference value ΔP deviates from the upper limit (ΔPmax (positive value)) of the permissible fluctuation range d, a second In order to increase the opening degree b of the damper 24, and when the difference value ΔP deviates from the lower limit of the allowable variation range d (ΔPmin (negative value)), the opening degree b of the second damper 24 is increased according to the amount of deviation. The basic room pressure controller 18A adjusts the opening of the second damper 24 so as to reduce the amount of air in the clean room 3 (in other words,
As a result of the basic adjustment, the difference value ΔP is allowed as shown in parts A and B in Fig. 6. By doing so, the room pressure can be maintained within the range of fluctuation d, even if there is a large change in room pressure due to some room pressure fluctuation factor or a large increase in air resistance due to clogging of the intervening filter, etc. First damper 2 by controller 18
3, so that the opening degree c of the first damper 23 does not remain at the lower limit or upper limit of the adjustable opening range cx, which is limited to a small range as described above. The room pressure adjustment function for normal minute room pressure fluctuations is maintained by adjusting the opening degree of the first damper 23.

尚、第7図は第2ダンパ24の各開度(40゜、
50゜、60゜、70゜、80゜)時における第1ダンパ23
の開度cと第1及び第2ダンパ23,24の全体
としての抵抗係数(すなわち、前記の室圧調整用
ダンパ装置16としての抵抗係数)との相関を示
すグラフである。
In addition, FIG. 7 shows various opening degrees of the second damper 24 (40°,
50°, 60°, 70°, 80°) first damper 23
It is a graph showing the correlation between the opening degree c and the resistance coefficient of the first and second dampers 23 and 24 as a whole (that is, the resistance coefficient of the room pressure adjustment damper device 16).

以上、室圧制御について要約すると、何らかの
室圧変動要因の発生による大きな室圧変動や、ま
た、介装フイルタの目詰まり等による大きな風路
抵抗増大に対しては、第2ダンパ24の開度調整
による給排気量収支の基本調整をもつて対処する
ことで、室圧制御の対応巾を広く確保し、そし
て、給排気量収支調整特性、すなわち、室圧調整
特性があまり変化しないように第1ダンパ23の
開度調整可能範囲cxをダンパ構成上で小範囲に
制限することに対して、その開度調整可能範囲
cx内での第1ダンパ23の開度調整による通常
微小室圧変動に対する室圧調整機能を、上記の如
き大きな室圧変動や大きな風路抵抗増大に対して
も、第2ダンパ24の開度調整による給排気量収
支の基本調整もつて維持することで、通常微小室
圧変動に対する室圧制御の安定性向上、及び、精
度向上を図つてある。
To summarize the room pressure control above, the opening of the second damper 24 should be By making basic adjustments to the air supply/exhaust volume balance through adjustment, a wide range of room pressure control can be secured, and measures can be taken to ensure that the air supply/exhaust volume balance adjustment characteristics, that is, the room pressure adjustment characteristics, do not change too much. 1 The adjustable opening range cx of the damper 23 is limited to a small range due to the damper configuration.
The opening degree of the second damper 24 can be adjusted by adjusting the opening degree of the first damper 23 in the cx to normally respond to small room pressure fluctuations, but also in response to large room pressure fluctuations and large increases in air resistance as described above. By maintaining the basic adjustment of the supply/exhaust volume balance through adjustment, the stability and accuracy of room pressure control against normal minute room pressure fluctuations is improved.

図中23M及び24Mは、第1ダンパ23及び
第2ダンパ24の操作モータであり、第1ダンパ
23及び第2ダンパ24の開度調整にあたつて
は、それら操作モータ23M,24Mが室圧制御
器18及び基本室圧制御器18Aにより自動操作
される。
In the figure, 23M and 24M are operation motors for the first damper 23 and the second damper 24, and when adjusting the opening degrees of the first damper 23 and the second damper 24, these operation motors 23M and 24M are used to control the room pressure. It is automatically operated by the controller 18 and the basic room pressure controller 18A.

尚、前述の排気圧制御器22による排気圧制御
のためにシステムコントローラ12にフイートバ
ツクする室圧調整用ダンパ装置16のダンパ開度
としては、第2ダンパ24の開度bをフイードバ
ツクするようにしてある。
Note that the damper opening degree of the damper device 16 for adjusting room pressure, which is fed back to the system controller 12 for the exhaust pressure control by the exhaust pressure controller 22 described above, is set so that the opening degree b of the second damper 24 is fed back. be.

又、排気圧制御器22による排気圧制御を、シ
ステムコントローラ12にフイードバツクする第
2ダンパ24の開度bを全開開度付近及び全閉開
度付近を除いて設定した前記の適性中間開度範囲
bx内に維持するように、排気圧検出に基づき排
気フアン6を能力制御するものとしたことによ
り、その排気フアン6の能力制御を、第2ダンパ
24の開度bを第2ダンパ24の給排気量収支調
整特性があまり大きく変化しない中間開度範囲
bx内に維持するという意味において、第2ダン
パ24の開度調整による給排気量収支の基本調整
よりも更に基本的な給排気量収支の基本調整に利
用し、これによつて、排気フアン6の消費動力節
減を兼ねて室圧制御の一層の安定化及び精度向上
を図つてある。
Furthermore, the opening degree b of the second damper 24, which feeds back the exhaust pressure control by the exhaust pressure controller 22 to the system controller 12, is set within the appropriate intermediate opening range, excluding the vicinity of the fully open position and the vicinity of the fully closed position.
By controlling the capacity of the exhaust fan 6 based on the detection of the exhaust pressure so that the opening degree b of the second damper 24 is maintained within bx, Intermediate opening range where the displacement balance adjustment characteristics do not change significantly
In the sense of maintaining the balance within bx, it is used for basic adjustment of the supply and exhaust volume balance, which is even more basic than the basic adjustment of the supply and exhaust volume balance by adjusting the opening degree of the second damper 24. The aim is to further stabilize and improve the accuracy of room pressure control while also reducing power consumption.

〔別実施例〕[Another example]

前述実施例においては、検出室圧を設定値に維
持するように室圧制御器18により開度調整する
第1ダンパ23を全閉及び全閉近傍けの閉じが不
能な構造に構成することにより、第1ダンパ23
の開度調整可能範囲cxそのものを、第1ダンパ
23の給排気量収支調整特性があまり大きく変化
しない小範囲に制限し、そして、その制限した開
度調整可能範囲cx内での第1ダンパ23の開度
調整による室圧調整機能を維持するように、基本
室圧制御器18Aにより第2ダンパ24を開度調
整する構成としたが、これに代えて、本第2発明
の実施例として、検出室圧を設定値に維持するよ
うに室圧制御器18により開度調整する第1ダン
パ23に通常の全閉可能なダンパを採用し、そし
て、この第1ダンパ23とは並列に配置した第2
ダンパ24の開度調整として、第1ダンパ23が
全閉及び全閉近傍、ないし、全開及び全開近傍に
至ることがないように、基本室圧制御器18Aに
より第2ダンパ24の開度bを調整することで、
第1ダンパ23の給排気量収支調整特性をあまり
大きく変化させないようにしてもよい。
In the above-described embodiment, the first damper 23 whose opening degree is adjusted by the room pressure controller 18 so as to maintain the detected room pressure at the set value is configured to have a structure in which it cannot be closed fully or close to fully closed. , first damper 23
The adjustable opening range cx itself is limited to a small range in which the air supply/exhaust balance adjustment characteristics of the first damper 23 do not change significantly, and the first damper 23 within the limited adjustable opening range cx Although the basic room pressure controller 18A is configured to adjust the opening of the second damper 24 so as to maintain the room pressure adjustment function by adjusting the opening of The first damper 23 whose opening degree is adjusted by the room pressure controller 18 so as to maintain the detection room pressure at the set value is a normal fully closable damper, and is arranged in parallel with the first damper 23. Second
To adjust the opening degree of the damper 24, the opening degree b of the second damper 24 is adjusted by the basic room pressure controller 18A so that the first damper 23 does not become fully closed or close to fully closed, or fully open or close to fully open. By adjusting
The air supply/displacement amount balance adjustment characteristic of the first damper 23 may not be changed too much.

尚、第8図は第1ダンパ23が全閉及び全閉近
傍に至らないように第2ダンパ24の開度bを調
整する場合の例を示し、ダンパ風格F1の方向に
対して第1ダンパ23の回転弁体23Aが成す角
度θが0゜(全開)〜40゜程度の範囲内で第1ダンパ
23が開度調整されるように、第2ダンパ24を
開度調整し、そして、その結果として、バイパス
風路Fbが確保されるようにしている。
In addition, FIG. 8 shows an example in which the opening degree b of the second damper 24 is adjusted so that the first damper 23 does not reach fully closed or near fully closed. Adjust the opening of the second damper 24 so that the angle θ formed by the rotary valve body 23A of the damper 23 is within the range of about 0° (fully open) to 40°, and As a result, the bypass air path Fb is secured.

本第1発明において、第1ダンパ23を全閉及
び全閉近傍への閉じが不能な構造に構成するに、
前述実施例の如く、第1ダンパ23の回転弁体2
3Aがダンパ風路F1に対して直交する姿勢とな
つてもバイパス風路Fbが形成されるような構成
を採用すれば、開度調整可能範囲cxは小範囲に
制限しながらも、ダンパ風路F1の方向に対して
第1ダンパ23の回転弁体23Aが成す角度θが
0゜〜90゜の大きな動作範囲を採れることから、第
1ダンパ23の開度調整特性(回転角調整)その
ものを精度良く行うことができて、ひいては、室
圧調整精度を高くし得る利点がある。
In the first invention, when the first damper 23 is configured to have a structure in which it is impossible to close the first damper 23 to a fully closed state or close to a fully closed state,
As in the above embodiment, the rotary valve body 2 of the first damper 23
If a configuration is adopted in which a bypass air path Fb is formed even when 3A is in a position perpendicular to the damper air path F1 , the damper air flow can be adjusted even though the adjustable opening range cx is limited to a small range. The angle θ formed by the rotary valve body 23A of the first damper 23 with respect to the direction of the path F1 is
Since a large operating range of 0° to 90° is possible, the opening adjustment characteristic (rotation angle adjustment) of the first damper 23 itself can be performed with high precision, which has the advantage of increasing the accuracy of room pressure adjustment. be.

又、そのようなバイパス風路Fbを形成するに
あたつては、第9図に示すように第1ダンパ23
の回転弁体23Aに通風孔25を形成しておくこ
とや、第10図に示すように、第1ダンパ23に
対して外部バイパスダクト26を設けておくこと
も考えられる。
In addition, in forming such a bypass air path Fb, as shown in FIG.
It is also conceivable to form a ventilation hole 25 in the rotary valve body 23A, or to provide an external bypass duct 26 for the first damper 23, as shown in FIG.

本第2発明の実施においては、前述の第8図に
示す如く第1ダンパ23が全閉及び全閉近傍への
み至ることがないように、第2ダンパ24の開度
bを調整する形態、また、第11図に示すよう
に、第1ダンパ23が全開及び全開近傍へのみ至
ることがないように、第2ダンパ24の開度bを
調整する形態、さらには、第12図に示すよう
に、第1ダンパ23が全閉及び全閉近傍と全開及
び全開近傍との夫々へ至ることがないように、第
2ダンパ24の開度bを調整する形態のいずれを
採用してもよい。
In the implementation of the second invention, as shown in FIG. 8, the opening degree b of the second damper 24 is adjusted so that the first damper 23 is not fully closed or close to fully closed. In addition, as shown in FIG. 11, the opening degree b of the second damper 24 is adjusted so that the first damper 23 does not reach fully open or close to fully open. Alternatively, the opening degree b of the second damper 24 may be adjusted so that the first damper 23 is not fully closed or close to fully closed, or fully open or close to fully open.

尚、本第2発明の実施の態様を示す第8図、第
11図、第12図の夫々におけるcxは、本第1
発明においてダンパ構成上で小範囲に制限する第
1ダンパ23の開度調整可能範囲とは異なり、第
2ダンパ24の開度調整により制限する第1ダン
パ23の開度調整範囲を示す。
Note that cx in each of FIGS. 8, 11, and 12 showing the embodiment of the second invention is the same as that in the first invention.
In the present invention, the opening adjustment range of the first damper 23 is limited by adjusting the opening of the second damper 24, unlike the adjustable opening range of the first damper 23 which is limited to a small range due to the damper configuration.

本第1発明及び第2発明の夫々において、第1
ダンパ23及び第2ダンパ24には、回転弁体形
式のものに代えて、スライド形式や多翼シヤツタ
ー形式のもの等、夫々、種々の形式のダンパを適
用できる。
In each of the first invention and the second invention, the first invention
The damper 23 and the second damper 24 may be of various types, such as a slide type or a multi-blade shutter type, instead of a rotary valve type.

本第1発明及び第2発明の夫々において、第2
ダンパ24を開度調整するに、先述の実施例の如
く室圧検出に基づいて第2ダンパ24を開度調整
する形態を採用してもよく、また、本第1発明及
び第2発明のいずれにしても要は第1ダンパ23
の開度cが問題となるのであるから、第1ダンパ
23の開度検出に基づき第2ダンパ24を開度調
整する形態を採用してもよい。
In each of the first invention and the second invention, the second invention
In order to adjust the opening degree of the damper 24, the opening degree of the second damper 24 may be adjusted based on room pressure detection as in the above-mentioned embodiment. However, the main point is the first damper 23
Since the opening degree c of the first damper 23 is a problem, a configuration may be adopted in which the opening degree of the second damper 24 is adjusted based on the opening degree detection of the first damper 23.

尚、室圧検出に基づいて第2ダンパ24を開度
調整する形態を採用する場合、第2ダンパ24の
開度調整のための室圧検出と、第1ダンパ23の
開度調整のための室圧検出とを別個の室圧センサ
で行つてもよい。
In addition, when adopting a configuration in which the opening degree of the second damper 24 is adjusted based on room pressure detection, the room pressure detection for adjusting the opening degree of the second damper 24 and the opening degree adjustment of the first damper 23 are performed. Room pressure detection may be performed using a separate room pressure sensor.

本第1発明及び第2発明の夫々において、室圧
制御器18及び基本室圧制御器18Aの具体的制
御構造は、例えばマイクロコンピユータを利用し
た構造や、単なる電気回路から成る構造等、種々
の構成変更が可能である。
In each of the first and second inventions, the specific control structure of the room pressure controller 18 and the basic room pressure controller 18A may be various, such as a structure using a microcomputer or a structure consisting of a simple electric circuit. Configuration changes are possible.

本第1発明及び第2発明の夫々において、第1
ダンパ23及び第2ダンパ24を換気対象室3に
対する排気側の強制換気風路に介装するに代え
て、換気対象室3の給気側の強制換気風路に介装
してもよい。
In each of the first invention and the second invention, the first invention
Instead of installing the damper 23 and the second damper 24 in the forced ventilation air path on the exhaust side of the ventilation target room 3, they may be installed in the forced ventilation air path on the air supply side of the ventilation target room 3.

本第1発明及び第2発明の夫々において、先述
実施例で採用したように、検出室圧をシステムコ
ントローラ12から指示される室圧に維持するよ
うに室圧制御を行うに代えて、人為設定した室圧
に検出室圧を維持するように室圧制御に行わせて
もよく、また、第2ダンパ24の開度bを適性中
間開度範囲bx内に維持するようなフアンの能力
制御を省略してもよい。
In each of the first and second inventions, instead of controlling the detected chamber pressure to maintain the detected chamber pressure at the chamber pressure instructed by the system controller 12, as adopted in the previous embodiment, The room pressure may be controlled to maintain the detected room pressure at the same room pressure, and the fan capacity may be controlled to maintain the opening b of the second damper 24 within the appropriate intermediate opening range bx. May be omitted.

本第1発明及び第2発明は、クリーンルームや
実験ルーム等、室圧制御を要する各種用途の換気
対象室に対し適用できる。
The first and second inventions can be applied to rooms to be ventilated for various purposes that require room pressure control, such as clean rooms and laboratory rooms.

尚、本第1発明及び第2発明は室圧制御を目的
とするものであるが、本第1発明及び第2発明の
技術を応用するものとして、例えば、各種目的の
給気風路系や排気風路系に第1ダンパ及び第2ダ
ンパを並列に介装するとともに、風路系に装備し
た通風量センサによる通風量検出に基づいて、検
出通風量を設定風量に維持するように第1ダンパ
を開度調整する風量制御器を設け、そして、本第
1発明の応用としては、第1ダンパを全閉及び全
閉近傍への閉じが不能な構造に構成した上で、第
1ダンパの開度調整による風量調整機能が維持さ
れるように、通風量検出に基づき、又は、第1ダ
ンパの開度検出に基づき、第2ダンパの開度を調
整する基本風量制御器を設け、一方、本第2発明
の応用としては、第1ダンパが全閉及び全閉近
傍、ないし、全開及び全開近傍に至ることがない
ように、通風量検出に基づき、又は、第1ダンパ
の開度検出に基づき、第2ダンパの開度を調整す
る基本風量制御器を設け、もつて、風量制御の安
定化及び精度向上を図るようにすることも考えら
れる。
Although the first and second inventions are aimed at controlling room pressure, the techniques of the first and second inventions can be applied to, for example, air supply duct systems and exhaust air systems for various purposes. A first damper and a second damper are installed in parallel in the air path system, and the first damper is configured to maintain the detected airflow amount at a set airflow amount based on the airflow amount detected by the airflow amount sensor installed in the air path system. An air volume controller that adjusts the opening is provided, and as an application of the first invention, the first damper is configured to have a structure in which it is impossible to close the first damper completely or close to the fully closed position, and then the opening of the first damper is adjusted. In order to maintain the air volume adjustment function by adjusting the airflow rate, a basic air volume controller is provided that adjusts the opening degree of the second damper based on the ventilation rate detection or based on the opening degree detection of the first damper. As an application of the second invention, based on the ventilation amount detection or based on the opening degree detection of the first damper so that the first damper does not reach the fully closed or near fully closed state or the fully open state or near fully open state. It is also conceivable to provide a basic air volume controller that adjusts the opening degree of the second damper in order to stabilize and improve the accuracy of air volume control.

尚、特許請求の範囲の項に図面との対照を便利
にするため符号を記すが、該記入により本第1発
明及び第2発明が添付図面の構成に限定されるも
のではない。
Incidentally, although reference numerals are written in the claims section for convenient comparison with the drawings, the first and second inventions are not limited to the configurations of the attached drawings by such entry.

【図面の簡単な説明】[Brief explanation of drawings]

第1図ないし第7図は本第1発明の実施例を示
し、第1図は全体構成を示す系統図、第2図イ,
ロ,ハは給気圧制御を説明する図、第3図イ,
ロ,ハは排気圧制御を説明する図、第4図は室圧
調整用ダンパ装置の拡大図、第5図は第1ダンパ
の調整特性を示すグラフ、第6図は室圧制御形態
を示す図、第7図は室圧調整用ダンパ装置の調整
特性を示すグラフであり、第9図及び第10図は
夫々、本第1発明の別実施例を示し、第9図は回
転弁体の斜視図、第10図は室圧調整用ダンパ装
置の拡大図である。第8図、第11図、及び、第
12図は夫々、本第2発明の実施例を示し、第8
図は室圧調整用ダンパ装置の拡大図、第11図、
及び、第12図は第1ダンパの調整特性を示すグ
ラフである。 3……換気対象室、15……強制換気風路、1
7……室圧センサ、18……室圧制御器、18A
……基本室圧制御器、23……第1ダンパ、24
……第2ダンパ、c……第1ダンパ開度、b……
第2ダンパ開度。
1 to 7 show embodiments of the first invention, FIG. 1 is a system diagram showing the overall configuration, and FIG.
B, C are diagrams explaining air supply pressure control, Figure 3 A,
B and C are diagrams explaining exhaust pressure control, Fig. 4 is an enlarged view of the damper device for adjusting room pressure, Fig. 5 is a graph showing the adjustment characteristics of the first damper, and Fig. 6 shows the form of room pressure control. 7 are graphs showing the adjustment characteristics of the damper device for adjusting room pressure, and FIGS. 9 and 10 each show another embodiment of the first invention, and FIG. The perspective view and FIG. 10 are enlarged views of the damper device for adjusting room pressure. FIG. 8, FIG. 11, and FIG. 12 each show an embodiment of the second invention.
The figure is an enlarged view of the damper device for adjusting room pressure, Figure 11,
FIG. 12 is a graph showing the adjustment characteristics of the first damper. 3... Room to be ventilated, 15... Forced ventilation air path, 1
7... Room pressure sensor, 18... Room pressure controller, 18A
... Basic room pressure controller, 23 ... First damper, 24
...Second damper, c...First damper opening, b...
Second damper opening degree.

Claims (1)

【特許請求の範囲】 1 換気対象室3に接続の強制換気風路15に、
通風量調整により前記換気対象室3の給排気量収
支を調整して前記換気対象室3の室圧を調整する
ための第1ダンパ23を介装し、室圧センサ17
による前記換気対象室3の室圧検出に基づき、検
出室圧を設定値に維持するように前記第1ダンパ
23の開度cを調整する室圧制御器18を設けた
空調装置であつて、 前記強制換気風路15に、通風量調整により前
記換気対象室3の給排気量収支を調整する第2ダ
ンパ24を前記第1ダンパ23とは並列の状態で
介装し、前記第1ダンパ23を全閉及び全閉近傍
への閉じが不能な構造に構成し、前記第1ダンパ
23の開度調整による室圧調整機能が維持される
ように、前記室圧センサ17による検出室圧に基
づき、又は、前記第1ダンパ23の開度検出に基
づき、前記第2ダンパ24の開度bを調整する基
本室圧制御器18Aを設けた空調装置。 2 換気対象室3に接続の強制換気風路15に、
通風量調整により前記換気対象室3の給排気量収
支を調整して前記換気対象室3の室圧を調整する
ための第1ダンパ23を介装し、室圧センサ17
による前記換気対象室3の室圧検出に基づき、検
出室圧を設定値に維持するように前記第1ダンパ
23の開度cを調整する室圧制御器18を設けた
空調装置であつて、 前記強制換気風路15に、通風量調整により前
記換気対象室3の給排気量収支を調整する第2ダ
ンパ24を前記第1ダンパ23とは並列の状態で
介装し、前記第1ダンパ23が全閉及び全閉近
傍、ないし、全開及び全開近傍に至ることがない
ように、前記室圧センサ17による検出室圧に基
づき、又は、前記第1ダンパ23の開度検出に基
づき、前記第2ダンパ24の開度bを調整する基
本室圧制御器18Aを設けた空調装置。
[Claims] 1. In the forced ventilation air passage 15 connected to the room 3 to be ventilated,
A first damper 23 is interposed to adjust the air supply/exhaust balance of the ventilation target room 3 by adjusting the ventilation volume, thereby adjusting the room pressure of the ventilation target room 3, and a room pressure sensor 17 is installed.
The air conditioner is equipped with a room pressure controller 18 that adjusts the opening degree c of the first damper 23 to maintain the detected room pressure at a set value based on the room pressure detected in the ventilation target room 3 by A second damper 24 is installed in the forced ventilation air path 15 in parallel with the first damper 23 for adjusting the air supply and exhaust balance of the room 3 to be ventilated by adjusting the ventilation volume. is configured such that it cannot be closed completely or close to fully closed, and in order to maintain the room pressure adjustment function by adjusting the opening degree of the first damper 23, it is possible to adjust the pressure based on the room pressure detected by the room pressure sensor 17. Or, an air conditioner including a basic room pressure controller 18A that adjusts the opening degree b of the second damper 24 based on the detection of the opening degree of the first damper 23. 2 In the forced ventilation air path 15 connected to the ventilation target room 3,
A first damper 23 is interposed to adjust the air supply/exhaust balance of the ventilation target room 3 by adjusting the ventilation volume, thereby adjusting the room pressure of the ventilation target room 3, and a room pressure sensor 17 is installed.
The air conditioner is equipped with a room pressure controller 18 that adjusts the opening degree c of the first damper 23 to maintain the detected room pressure at a set value based on the room pressure detected in the ventilation target room 3 by A second damper 24 is installed in the forced ventilation air path 15 in parallel with the first damper 23 for adjusting the air supply and exhaust balance of the room 3 to be ventilated by adjusting the ventilation volume. Based on the room pressure detected by the room pressure sensor 17 or based on the opening degree detection of the first damper 23, the 2. This air conditioner is equipped with a basic room pressure controller 18A that adjusts the opening degree b of the damper 24.
JP2252984A 1990-09-21 1990-09-21 Air-conditioner Granted JPH03207944A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2252984A JPH03207944A (en) 1990-09-21 1990-09-21 Air-conditioner

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2252984A JPH03207944A (en) 1990-09-21 1990-09-21 Air-conditioner

Publications (2)

Publication Number Publication Date
JPH03207944A JPH03207944A (en) 1991-09-11
JPH0416683B2 true JPH0416683B2 (en) 1992-03-24

Family

ID=17244888

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2252984A Granted JPH03207944A (en) 1990-09-21 1990-09-21 Air-conditioner

Country Status (1)

Country Link
JP (1) JPH03207944A (en)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2393799B (en) * 2002-08-22 2006-03-08 Richard Gatley Gas flow control systems
JP4036735B2 (en) * 2002-11-28 2008-01-23 株式会社大気社 Room pressure control system
JP4540521B2 (en) * 2005-03-30 2010-09-08 ダイダン株式会社 Flow rate adjustment method for fluid transfer equipment
JP4567576B2 (en) * 2005-11-08 2010-10-20 株式会社山武 Room pressure control system
JP4814170B2 (en) * 2007-07-31 2011-11-16 エイチ・アール・ディー・シンガポール プライベート リミテッド Residential ventilation system

Also Published As

Publication number Publication date
JPH03207944A (en) 1991-09-11

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