JPH04203739A - Air conditioner - Google Patents

Air conditioner

Info

Publication number
JPH04203739A
JPH04203739A JP2335069A JP33506990A JPH04203739A JP H04203739 A JPH04203739 A JP H04203739A JP 2335069 A JP2335069 A JP 2335069A JP 33506990 A JP33506990 A JP 33506990A JP H04203739 A JPH04203739 A JP H04203739A
Authority
JP
Japan
Prior art keywords
temperature
indoor
indoor suction
outputs
specified
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.)
Granted
Application number
JP2335069A
Other languages
Japanese (ja)
Other versions
JP2939328B2 (en
Inventor
Katsunori Onobayashi
斧林 克典
Toru Yasuda
透 安田
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.)
Panasonic Holdings Corp
Original Assignee
Matsushita Electric Industrial Co 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 Matsushita Electric Industrial Co Ltd filed Critical Matsushita Electric Industrial Co Ltd
Priority to JP2335069A priority Critical patent/JP2939328B2/en
Publication of JPH04203739A publication Critical patent/JPH04203739A/en
Application granted granted Critical
Publication of JP2939328B2 publication Critical patent/JP2939328B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Landscapes

  • Air Conditioning Control Device (AREA)

Abstract

PURPOSE:To inhibit a drop in room temperature, increase a dehumidification capacity to a maximum and hence create comfortable living environment by reducing a rotary speed of an indoor fan motor when indoor suction temperature fails to exceed a specified temperature during dehumidification operation and open air temperature drops below said specified temperature. CONSTITUTION:When indoor suction temperature drops below a specified room temperature, a comparison means 7 compares the indoor suction temperature sampled by an outdoor temperature detection means 5 which detects the open air temperature with the specified room temperature set by an outdoor temperature setting means 6, which decides the outdoor temperature. When the outdoor temperature fails to exceed the specified outdoor temperature, dehumidification operation will start. An indoor fan speed change over means 21 and an output means 22 reduces the rotary speed of an indoor fan 23 compared with that available during cooling operation. At the end, an attempt is made to decide the indoor suction temperature by comparing the indoor suction temperature in such a manner that the indoor suction temperature sampled by an indoor suction temperature detection means 1 may compared with the specified indoor suction temperature set by an indoor suction temperature setting means 2.

Description

【発明の詳細な説明】 産業上の利用分野 本発明は、空気調和機の除湿運転時に室内の湿度をコン
トロールすることにより快適住環境を創造するための運
転制御に関するものである。DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to operation control for creating a comfortable living environment by controlling indoor humidity during dehumidifying operation of an air conditioner.

従来の技術 従来の空気調和機は、除湿運転時に室内ファンモータの
回転速度を下げるのみてあった。2. Description of the Related Art Conventional air conditioners only reduce the rotational speed of the indoor fan motor during dehumidification operation.

また上記構成に加えて、絞り量可変パルス式膨張弁を装
備しているが、最適な絞り量に到達するまで時間を要し
、 また上記構成に加えて、外気温度に応じた除湿運転時冷
媒吐出温度の設定などが最適な状態でなかった。In addition to the above configuration, it is equipped with a pulse type expansion valve with variable throttle amount, but it takes time to reach the optimal throttle amount. The discharge temperature settings were not optimal.

発明が解決しようとする課題 従来の制御では、外気負荷に対応したパルス式膨張弁の
絞り開度を設定することは非常に困難であり、いち早く
快適な住環境を創造することはできない。例えば、室外
気温が比較的低く相対湿度が高い場合、冷凍能力が負荷
に比へて大きくなり、コンプレッサーの運転停止の繰り
返しを生し、室内の湿度を快適にコントロールすること
ができなかった。Problems to be Solved by the Invention With conventional control, it is extremely difficult to set the throttle opening of a pulse type expansion valve that corresponds to the outside air load, and it is not possible to quickly create a comfortable living environment. For example, when the outdoor temperature is relatively low and the relative humidity is high, the refrigeration capacity becomes large compared to the load, resulting in repeated shutdowns of the compressor, making it impossible to comfortably control the indoor humidity.

本発明は上記課題を解決するためのもので、室内吸込温
度がある一定の規定温度以下になり、かつ外気温度があ
る一定の規定温度以下になると、室内ファンモータの制
御を行うことを目的とする。The present invention is intended to solve the above problems, and has the object of controlling an indoor fan motor when the indoor suction temperature falls below a certain specified temperature and the outside air temperature falls below a certain specified temperature. do.

また本発明は上記のばおいてあり、かつ空気調和機の運
転モードが冷房から除湿運転に変化する場合、絞り量可
変パルス式膨張弁の絞り開度を絞り、室内ファンモータ
の制御を行うことを目的とする。Further, the present invention has the above-mentioned features, and when the operation mode of the air conditioner changes from cooling to dehumidifying operation, the throttle opening of the variable throttle pulse type expansion valve is throttled and the indoor fan motor is controlled. With the goal.

また本発明はL記のはおいてあり、かつ除湿運転時の外
気温度の負荷により冷媒吐出温度設定を個別に行い、絞
り量可変パルス式膨張弁の絞り開度を調整することによ
り目標吐出温度を実現し、室内ファンモータの制御を行
うことを目的とする。In addition, the present invention has the above features, and the refrigerant discharge temperature is individually set according to the external temperature load during dehumidification operation, and the target discharge temperature is set by adjusting the throttle opening of the variable throttle pulse type expansion valve. The purpose is to realize this and control indoor fan motors.

また本発明は上記のはあいであり、かつ空気調和機の運
転モードが冷房から除湿運転に変化する場合、絞り量可
変パルス式膨張弁の絞り開度を絞り、かつ除湿運転時の
外気温度の負荷により冷媒吐出温度設定を個別に行い、
絞り量可変パルス式膨張弁の絞り開度を調整することに
より目標吐出温度を実現し、室内ファンモータの制御を
行うことを目的とする。Further, the present invention satisfies the above, and when the operation mode of the air conditioner changes from cooling to dehumidification operation, the throttle opening of the variable throttle pulse type expansion valve is reduced, and the outside air temperature during dehumidification operation is reduced. The refrigerant discharge temperature is set individually depending on the load.
The purpose is to achieve a target discharge temperature by adjusting the throttle opening of a variable throttle pulse type expansion valve and to control an indoor fan motor.

課題を解決するための手段 上記課題を解決するために、本発明は、外気温度検出手
段と室内ファンモータを利用し、除湿運転時に室内吸込
温度がある一定の規定温度以下になりかつ外気温度があ
る一定の規定温度以下になると室内ファンモータの回転
速度を下げる制御を行う。Means for Solving the Problems In order to solve the above problems, the present invention utilizes an outside air temperature detection means and an indoor fan motor, and uses an outside air temperature detection means and an indoor fan motor to detect when the indoor suction temperature is below a certain specified temperature and the outside air temperature is When the temperature falls below a certain specified temperature, control is performed to reduce the rotation speed of the indoor fan motor.

本発明は外気温度検出手段と室内ファンモータ、絞り量
町変パルス式膨張弁を利用し、除湿運転時に室内吸込温
度がある一定の規定温度以下になりかつ外電温度がある
一定の規定温度以下になり、かつ空気調和機の運転モー
1ζが冷房から除湿運転に変化する場合、絞り量可変パ
ルス式膨張弁の絞り開度を絞り、室内ファンモータの回
転速度を下げる制御を行う。The present invention utilizes an outside air temperature detection means, an indoor fan motor, and a variable throttle expansion valve, so that during dehumidification operation, the indoor suction temperature becomes below a certain specified temperature, and the external electric current temperature becomes below a certain certain specified temperature. When the operation mode 1ζ of the air conditioner changes from cooling to dehumidifying operation, control is performed to reduce the throttle opening of the variable throttle pulse type expansion valve and reduce the rotational speed of the indoor fan motor.

本発明は外気温度検出手段と室内ファンモータ、絞り量
可変パルス式膨張弁を利用し、除湿運転時に室内吸込温
度がある一定の規定温度以下になりかつ外気温度がある
一定の規定温度以下になるとスクロールコンプレッサー
の低運転周波数連続運転(低能力運転)を行い、かつ除
湿運転時の外気温度の負荷により冷媒吐出温度設定を個
別に行い、絞り′員可変パルス式膨張弁の絞り開度を調
整することにより目標吐出温度を実現し、室内ファンモ
ータの回転速度を下げる制御を行う。The present invention utilizes an outside air temperature detection means, an indoor fan motor, and a variable throttling pulse type expansion valve, and when the indoor suction temperature falls below a certain specified temperature and the outside air temperature falls below a certain specified temperature during dehumidification operation. Continuously operate the scroll compressor at a low operating frequency (low capacity operation), set the refrigerant discharge temperature individually depending on the outside air temperature load during dehumidification operation, and adjust the throttle opening of the variable throttle pulse type expansion valve. By doing so, the target discharge temperature is achieved and control is performed to lower the rotation speed of the indoor fan motor.

本発明は外気温度検出手段と室内ファンモータ、絞り量
可変パルス式膨張弁を利用し、除湿運転時に室内吸込温
度がある一定の規定温度以下になりかつ外気温度がある
一定の規定温度以下になり、かつ空気調和機の運転モー
ドが冷房から除湿運転に変化する場合、絞り量可変パル
ス式膨張弁の絞り開度を絞り、かつ除湿運転時の外気温
度の負荷により冷媒吐出温度設定を個別に行い、絞り量
可変パルス式膨張弁の絞り開度を調整することにより目
標吐出温度を実現し、室内ファンモータの回転速度を下
げる制御を行う。The present invention utilizes an outside air temperature detection means, an indoor fan motor, and a variable throttling pulse type expansion valve, so that the indoor suction temperature becomes below a certain specified temperature and the outside air temperature becomes below a certain certain specified temperature during dehumidification operation. , and when the operation mode of the air conditioner changes from cooling to dehumidification, the throttle opening of the variable throttle pulse type expansion valve is reduced, and the refrigerant discharge temperature is individually set according to the outside air temperature load during dehumidification. By adjusting the throttle opening of the variable throttle pulse type expansion valve, the target discharge temperature is achieved and the rotational speed of the indoor fan motor is controlled to be lowered.

作用 本発明は外気温度を判定し室内ファンモータの回転速度
を下げることにより、除湿能力を最大に上昇させ、室内
の絶対湿度を下げる。Function: The present invention determines the outside air temperature and lowers the rotational speed of the indoor fan motor, thereby maximizing the dehumidification capacity and lowering the indoor absolute humidity.

また本発明は上記の作用の他に冷房運転から除湿運転に
切り換わった時冷房運転時とは別のパルス式膨張弁の絞
り開度の初期設定値を持ち、従来よりも急速に除湿能力
を最大に上昇させる。In addition to the above-mentioned effects, the present invention has an initial setting value for the throttle opening of the pulse type expansion valve that is different from that during cooling operation when switching from cooling operation to dehumidification operation, and the dehumidification capacity can be increased more rapidly than before. Raise to maximum.

さらに本発明は上記作用の他に除湿運転時の外気温度に
応じた冷媒吐出温度を設定することにより、室内及び室
外の負荷に対して最適な絞り開度の設定を実現したうえ
で、室内ファンモータの回転速度を下げる。Furthermore, in addition to the above-mentioned effects, the present invention sets the refrigerant discharge temperature according to the outside air temperature during dehumidification operation, thereby realizing the optimal throttle opening setting for indoor and outdoor loads, and Reduce the motor rotation speed.

ざらに、本発明は上記の作用の他に冷房運転から除湿運
転に切り換わった時冷房運転時とは別のパルス式膨張弁
の絞り開度の初期設定値を持ち、また除湿運転時の外気
温度に応じた冷媒吐出温度を設定することにより、室内
及び室外の負荷に対して最適な絞り開度の設定を実現し
たうえて、室内ファンモータの回転速度を下げることに
より室内熱交換器の温度を下げ除湿能力を最大に上昇さ
せ、室内の実態湿度をさげる。つまり快適住環境の創造
を可能にする。Roughly speaking, in addition to the above-mentioned effects, the present invention has an initial setting value for the throttle opening of the pulse type expansion valve that is different from that during cooling operation when switching from cooling operation to dehumidification operation, and also has a By setting the refrigerant discharge temperature according to the temperature, it is possible to set the optimal throttle opening for indoor and outdoor loads, and by lowering the rotation speed of the indoor fan motor, the temperature of the indoor heat exchanger can be adjusted. It lowers the humidity and maximizes the dehumidifying capacity, reducing the actual humidity in the room. In other words, it makes it possible to create a comfortable living environment.

実施例 以下、本発明の実施例について、図面第1図、第2図を
参照して説明する。Embodiments Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 and 2 of the drawings.

図に示すようにリモコンまたは強制運転などにより冷房
または除湿運転の指示が出るとくステップ5IOI)、
空気調和機の室内ファン、室外ファン、コンプレッサー
の運転が始まる(ステップ5102)。これと同時に室
内吸込温度を室内吸込温度検出手段1によりサンプリン
グした室内吸込温度T111と室内吸込温度設定手段2
による規定室内吸込温度Taを比較手段3で比較するこ
とにより(ステップ5103)室内吸込温度の判定を行
い室内吸込温度Tinが規定室内吸込温度Taを下回る
場合(Tin≦Ta)、室外温度を室外温度検出手段5
によりサンブリンクした室内吸込温度Toutと室外温
度設定手段6による規定室外温度TIを比較手段7て比
較することにより(ステップ5104)室外温度の判定
を行い室外温度Toutが規定室外温度TIを下回る場
合(T out≦TI)除湿運転を開始する(ステップ
5105)。As shown in the figure, instructions for cooling or dehumidifying operation are issued using the remote control or forced operation.Step 5IOI)
The indoor fan, outdoor fan, and compressor of the air conditioner start operating (step 5102). At the same time, the indoor suction temperature T111 sampled by the indoor suction temperature detection means 1 and the indoor suction temperature setting means 2
The indoor suction temperature is determined by comparing the specified indoor suction temperature Ta with the comparison means 3 (step 5103), and if the indoor suction temperature Tin is lower than the specified indoor suction temperature Ta (Tin≦Ta), the outdoor temperature is set as the outdoor temperature. Detection means 5
The outdoor temperature is determined by comparing the indoor suction temperature Tout which has been sampled with the specified outdoor temperature TI set by the outdoor temperature setting means 6 using the comparing means 7 (step 5104), and if the outdoor temperature Tout is lower than the specified outdoor temperature TI ( Tout≦TI) Dehumidifying operation is started (step 5105).

次に室内ファン速度切換手段21及び出力手段22によ
り室内ファン230回転速度を冷房運転時よりも減少さ
せる。すなわち、この段階で、室内側の風量を減少させ
てしまう(ステップ5106)。Next, the indoor fan speed switching means 21 and the output means 22 reduce the rotational speed of the indoor fan 230 compared to during cooling operation. That is, at this stage, the air volume on the indoor side is reduced (step 5106).

最後に、室内吸込温度を室内吸込温度検出手段1により
サンプリングした室内吸込温度Tinと室内吸込温度設
定手段2による規定室内吸込温度Tcを比較手段3で比
較することにより(ステップ5107)室内吸込温度の
判定を行い室内吸込温度Tinが規定室内吸込温度Tc
を下回る場合、ステップ5106とステップ5107の
間の位置にもどる。また室内吸込温度Tinが規定室内
吸込温度Tcを上回る場合、ステップ5102とステッ
プS103の間の位置にもどろ。これは、外乱等により
室内または室外の負荷に変化か発生した場合、除湿運転
から通常冷房運転に切り換える働きをする。Finally, the indoor suction temperature is determined by comparing the indoor suction temperature Tin sampled by the indoor suction temperature detecting means 1 with the specified indoor suction temperature Tc determined by the indoor suction temperature setting means 2 using the comparing means 3 (step 5107). The indoor suction temperature Tin is determined to be the specified indoor suction temperature Tc.
If it is less than , the process returns to the position between step 5106 and step 5107. If the indoor suction temperature Tin exceeds the specified indoor suction temperature Tc, return to the position between step 5102 and step S103. This functions to switch from dehumidifying operation to normal cooling operation when a change occurs in the indoor or outdoor load due to disturbance or the like.

次に本発明の他の実施例について、図面第3図、第4図
を参照して説明する。Next, another embodiment of the present invention will be described with reference to FIGS. 3 and 4.

図に示すようにリモコンまたは強制運転などにより冷房
または除湿運転の指示が出ると(ステップ5201)、
空気調和機の室内ファン、室外ファン、コンプレッサー
の運転が始まる(ステップ5202)。これと同時に室
内吸込温度を室内吸込温度検出手段1によりサンプリン
グした室内吸込温度Tinと室内吸込温度設定手段2に
よる規定室内吸込温度Taを比較手段3で比較すること
により(ステップ5203)室内吸込温度の判定を行い
室内吸込温度Tinが規定室内吸込温度Taを下回る場
合(Tin≦Ta)、室外温度を室外温度検出手段5に
よりサンプリングした室内吸込温度Toutと゛室外温
度設定手段6による規定室外温度T1を比較手段7で比
較することにより(ステップ5204)室外温度の判定
を行い、室外温度Toutが規定室外温度T1を下回る
場合(Tout≦TI)除湿運転を開始する(ステ・ン
ブ5205)・次に室内ファン速度切換手段21及び出
力手段22により室内ファン23の回転速度を冷房運転
時よりも減少させる。すなわち、この段階で、室内側の
風量を減少させてしまう(ステップ5206)。As shown in the figure, when an instruction for cooling or dehumidifying operation is issued by the remote control or forced operation (step 5201),
The indoor fan, outdoor fan, and compressor of the air conditioner start operating (step 5202). At the same time, the comparison means 3 compares the indoor suction temperature Tin sampled by the indoor suction temperature detection means 1 with the specified indoor suction temperature Ta determined by the indoor suction temperature setting means 2 (step 5203). When the indoor suction temperature Tin is lower than the specified indoor suction temperature Ta (Tin≦Ta), the indoor suction temperature Tout obtained by sampling the outdoor temperature by the outdoor temperature detection means 5 is compared with the specified outdoor temperature T1 determined by the outdoor temperature setting means 6. The outdoor temperature is determined by comparison in means 7 (step 5204), and if the outdoor temperature Tout is lower than the specified outdoor temperature T1 (Tout≦TI), the dehumidification operation is started (step 5205).Next, the indoor fan The speed switching means 21 and the output means 22 reduce the rotational speed of the indoor fan 23 compared to during cooling operation. That is, at this stage, the air volume on the indoor side is reduced (step 5206).

次に再度、室外温度を室外温度検出手段5によりサンプ
リングした室内吸込温度Toutと室外温度設定手段6
による規定室外温度T2を比較手段7て比較することζ
こより(ステップ5207)室外温度の判定を行い、室
外温度Toutが規定室外温度T2を上回る場合(To
ut≧T2)パルス式膨張弁絞り開度設定手段10によ
りパルス式膨張弁絞り開度の初期値PIを設定し出力手
段12より信号を出力し、パルス出力手段17、移行手
段18、出力手段19によりパルス式膨張弁を紋る(ス
テップ320B)。Next, the indoor suction temperature Tout obtained by sampling the outdoor temperature by the outdoor temperature detection means 5 and the outdoor temperature setting means 6
Comparing the specified outdoor temperature T2 using the comparison means 7
From this (step 5207), the outdoor temperature is determined, and if the outdoor temperature Tout exceeds the specified outdoor temperature T2 (To
ut≧T2) The pulse type expansion valve throttle opening setting means 10 sets the initial value PI of the pulse type expansion valve throttle opening, and the output means 12 outputs a signal, and the pulse output means 17, the transition means 18, and the output means 19 The pulse expansion valve is activated (step 320B).

また前記ステップ5207にて室外温度Tootが規定
室外温度T2を下回る場合、パルス式膨張弁絞り開度設
定手段10によりパルス式膨張弁絞り開度の初期値P2
を設定しくP2はPlに比べ絞り量が大きい)、出力手
段12より信号を出力し、パルス出力手段I7、移行手
段18、出力手段19によりパルス式膨張弁を紋る(ス
テップ5209)。Further, if the outdoor temperature Toot is lower than the specified outdoor temperature T2 in step 5207, the pulse type expansion valve throttle opening setting means 10 sets the initial value P2 of the pulse type expansion valve throttle opening.
(P2 has a larger aperture amount than Pl), the output means 12 outputs a signal, and the pulse output means I7, transition means 18, and output means 19 actuate the pulse type expansion valve (step 5209).

最後に、室内吸込温度を室内吸込温度検出手段1により
サンプリングした室内吸込温度T団と室内吸込温度設定
手段2による規定室内吸込温度Tcを比較手段3で比較
することにより(ステップ5210)室内吸込温度の判
定を行い、室内吸込温度Tinが規定室内吸込温度Tc
を下回る場合、ステップ5210の手前の位置にもとる
。また室内吸込温度Tinが規定室内吸込温度Tcを上
回る場合、ステップ5202とステップ8203の間の
位置にもどる。これは、外乱等により室内または室外の
負荷に変化が発生した場合、除湿運転から通常冷房運転
に切り換える働きをする。Finally, the comparison means 3 compares the indoor suction temperature group T sampled by the indoor suction temperature detection means 1 with the specified indoor suction temperature Tc determined by the indoor suction temperature setting means 2 (step 5210). The indoor suction temperature Tin is determined to be the specified indoor suction temperature Tc.
If the value is less than , it is set to a position before step 5210. If the indoor suction temperature Tin exceeds the specified indoor suction temperature Tc, the process returns to the position between step 5202 and step 8203. This functions to switch from dehumidifying operation to normal cooling operation when a change occurs in the indoor or outdoor load due to disturbance or the like.

次に本発明の他の実施例について、図面第5図、第6図
を参照して説明する。Next, another embodiment of the present invention will be described with reference to FIGS. 5 and 6.

図に示すようにリモコンまたは強制運転などにより冷房
または除湿運転の指示が出ると(ステップ5301)、
空気調和機の室内ファン、室外ファン、コンプレッサー
の運転が始まる(ステップS 302 )。これと同時
に室内吸込温度を室内吸込温度検出手段lによりサンプ
リンクした室内吸込温度”I’inと、室内吸込温度設
定手段2による規定室内吸込温度Taを比較手段3て比
較することにより(ステップ5303)室内吸込温度の
判定を行い、室内吸込温度Tinが規定室内吸込温度T
aを下回る場合(Tin≦Ta’)、室外温度を室外温
度検出手段5によりサンブリンクした室内吸込温度To
utと室外温度設定手段6による規定室外温度T1を比
較手段7て比較することにより(ステップ5304)、
室外温度の判定を行い、室外温度Toutが規定室外温
度TIを下回る場合(Tout≦TI)除湿運転を開始
する(ステップ5305)。As shown in the figure, when an instruction for cooling or dehumidifying operation is issued by the remote control or forced operation (step 5301),
The indoor fan, outdoor fan, and compressor of the air conditioner start operating (step S302). At the same time, the comparison means 3 compares the indoor suction temperature "I'in" sampled by the indoor suction temperature detection means 1 with the specified indoor suction temperature Ta determined by the indoor suction temperature setting means 2 (step 5303 ) The indoor suction temperature is determined, and the indoor suction temperature Tin is determined to be the specified indoor suction temperature T.
When the temperature is lower than a (Tin≦Ta'), the indoor suction temperature To is obtained by linking the outdoor temperature with the outdoor temperature detection means 5.
By comparing ut with the specified outdoor temperature T1 determined by the outdoor temperature setting means 6 using the comparison means 7 (step 5304),
The outdoor temperature is determined, and if the outdoor temperature Tout is lower than the specified outdoor temperature TI (Tout≦TI), the dehumidification operation is started (step 5305).

次に室内ファン速度切換手段21及び出力手段22によ
り室内ファン23の回転速度を冷房運転時よりも減少さ
せる。すなわち、この段階で、室内側の風量を減少させ
てしまう(ステツブ5306)。Next, the rotational speed of the indoor fan 23 is decreased by the indoor fan speed switching means 21 and the output means 22 compared to that during cooling operation. That is, at this stage, the air volume on the indoor side is reduced (Step 5306).

次に再度、室外温度を室外温度検出手段5によりサンプ
リングした室内吸込温度Toutと室外温度設定手段6
による規定室外温度T2を比較手段7て比較することに
より(ステップ5307)室外温度の判定を行い、室外
温度1’outが規定室外温度T 2を上回る場合、冷
媒吐出設定手段18により、規定冷媒吐出温度設定値T
d2を設定しくステップ5308)、さらに冷媒吐出温
度を冷媒吐出温度検出手段13によりサンプリングした
冷媒吐出温度Tdと前記ステップ8308で設定した規
定冷媒吐出温度設定値Td2とを比較手段15て比較す
ることにより(ステップ5309)冷媒吐出温度の判定
を行い、冷媒吐出温度Tdが規定冷媒吐出温度設定値T
d2と等し・ければ次のステップSに進む。Next, the indoor suction temperature Tout obtained by sampling the outdoor temperature by the outdoor temperature detection means 5 and the outdoor temperature setting means 6
The outdoor temperature is determined by comparing the specified outdoor temperature T2 with the comparison means 7 (step 5307), and if the outdoor temperature 1'out exceeds the specified outdoor temperature T2, the refrigerant discharge setting means 18 sets the specified refrigerant discharge. Temperature set value T
d2 (step 5308), and by comparing the refrigerant discharge temperature Td sampled by the refrigerant discharge temperature detection means 13 with the specified refrigerant discharge temperature set value Td2 set in step 8308 using the comparison means 15. (Step 5309) The refrigerant discharge temperature is determined, and the refrigerant discharge temperature Td is the specified refrigerant discharge temperature set value T.
If it is equal to d2, proceed to the next step S.

もし等しくない場合は、再度冷媒吐出温度Tdと規定冷
媒吐出温度設定値’rd2を比較手段15で比較するこ
とにより(ステップ5310)冷媒吐出温度の判定を行
い、TdがTd2よりも温度的に低けれはパルス出力手
段17、移行手段18、出力り段19によりパルス式膨
張弁を規定最小量のみ紋る(ステップ5311)、、ま
た前記ステップ5310にて冷媒吐出温度の判定を行い
、′「dがTd2よりも温度的に高けれはパルス出力手
段17、移行手段18、出力手段19によりパルス式膨
張弁を規定最小量のみ開く(ステ・ツブ5312)。そ
の後再度ステップS:□309にて冷媒吐出温度Tdと
規定冷媒吐出温度設定1aTd2の比較を行い冷媒吐出
温度Tdが規定冷媒吐出温度設定11αTd2と等しく
なるまで、ステップS 310からステップ5312の
動作を繰り返す。If they are not equal, the refrigerant discharge temperature is determined by comparing the refrigerant discharge temperature Td and the specified refrigerant discharge temperature setting value 'rd2 again by the comparing means 15 (step 5310), and if Td is lower than Td2 in terms of temperature. The pulse output means 17, the transition means 18, and the output stage 19 actuate the pulse type expansion valve only by a specified minimum amount (step 5311), and the refrigerant discharge temperature is determined in the step 5310, and 'd is If the temperature is higher than Td2, the pulse output means 17, transition means 18, and output means 19 open the pulse type expansion valve by the specified minimum amount (step 5312).Then, in step S: □309 again, the refrigerant discharge temperature is Td is compared with the specified refrigerant discharge temperature setting 1aTd2, and the operations from step S310 to step 5312 are repeated until the refrigerant discharge temperature Td becomes equal to the specified refrigerant discharge temperature setting 11αTd2.

次に前記ステップS 307の段階で室外温度の判定を
行い、室外温度Toutが規定室外温度T2を下回る場
合、冷媒吐出設定手段14により、規定冷媒吐出温度設
定値’I”dl(但し、′rdl<Td2)を設定しく
ステップ5313)、さらに冷媒吐出温度を冷媒吐出温
度検出手段13によりサンプリングした冷媒吐出温度T
dと前記ステップ5313で設定した規定冷媒吐出温度
設定値Tdlを比較手段15て比較することにより(ス
テップS 314)冷媒吐出温度の判定を行い、冷媒吐
出温度Tdが規定冷媒吐出温度設定値Tdlと等しけれ
ば次のステップSに進む。もし等しくない場合は、再度
冷媒吐出温度Tdと規定冷媒吐出温度設定値Tdlを比
較手段15で比較することにより(ステップ5315)
冷媒°吐出温度の判定を行い、TdがT d 1よりも
温度的に低ければパルス出力手段17、移行手段18、
出力手段19によりパルス式膨張弁を規定最小量のみ紋
る(ステップ5316)。また前記ステップ5315に
て冷媒吐出温度の判定を行い、TdがTdlよりも温度
的に高けれはパルス出力手段17、移行手段18、出力
手段19によりパルス式膨張弁を規定最小量のみ開く(
ステ・ツブ5317)。その後再度ステップ5314に
て冷媒吐出温度Tdと規定冷媒吐出温度設定1a T 
d 1の比較を行い冷媒吐出温度Tdが規定冷媒吐出温
度設定値Tdlと等しくなるまで、ステップ5315か
らステ・ツブ5317の動作を繰り返す。Next, in step S307, the outdoor temperature is determined, and if the outdoor temperature Tout is lower than the specified outdoor temperature T2, the refrigerant discharge setting means 14 sets the specified refrigerant discharge temperature set value 'I'dl (however, 'rdl <Td2) is set in step 5313), and the refrigerant discharge temperature T obtained by sampling the refrigerant discharge temperature by the refrigerant discharge temperature detection means 13 is set.
By comparing d with the specified refrigerant discharge temperature set value Tdl set in the step 5313 using the comparison means 15 (step S314), the refrigerant discharge temperature is determined, and the refrigerant discharge temperature Td is compared with the specified refrigerant discharge temperature set value Tdl. If they are equal, proceed to the next step S. If they are not equal, the comparison means 15 compares the refrigerant discharge temperature Td and the specified refrigerant discharge temperature set value Tdl again (step 5315).
The refrigerant discharge temperature is determined, and if Td is lower than Td1, the pulse output means 17, the transition means 18,
The output means 19 operates the pulse type expansion valve only by a prescribed minimum amount (step 5316). Further, in step 5315, the refrigerant discharge temperature is determined, and if Td is higher than Tdl, the pulse output means 17, transition means 18, and output means 19 open the pulse type expansion valve by the specified minimum amount (
Ste Tubu 5317). Thereafter, in step 5314 again, the refrigerant discharge temperature Td and the specified refrigerant discharge temperature setting 1a T
d1 is compared and the operations from step 5315 to step 5317 are repeated until the refrigerant discharge temperature Td becomes equal to the specified refrigerant discharge temperature set value Tdl.

最後に、室内吸込温度を室内吸込温度検出手段1により
サンプリングした室内吸込温度′r団と室内吸込温度設
定手段2による規定室内吸込温度1”cを比較手段3て
比較することにより(ステップ゛5318)室内吸込温
度の判定を行い、室内吸込温度Tinが規定室内吸込温
度Tcを下回る場合・ ステップ5307の手前の位置
にもとる。また室内吸込温度T団が規定室内吸込温度T
cを−L回る場合、ステップ5302とステップ530
3の開の位置にもどる。これは、外乱等により室内また
は室外の負荷に変化が発生した場合、除湿運転から通常
冷房運転に切り換える働きをする。Finally, the comparison means 3 compares the indoor suction temperature 'r sampled by the indoor suction temperature detection means 1 with the specified indoor suction temperature 1''c determined by the indoor suction temperature setting means 2 (step 5318). ) The indoor suction temperature is determined, and if the indoor suction temperature Tin is lower than the specified indoor suction temperature Tc, the position is set before step 5307. Also, if the indoor suction temperature group T is the specified indoor suction temperature T
Step 5302 and step 530 when traveling around c by -L
Return to the open position in step 3. This functions to switch from dehumidifying operation to normal cooling operation when a change occurs in the indoor or outdoor load due to disturbance or the like.

次に本発明の他の実施例について、図面第7図、第8図
を参照して説明する。Next, another embodiment of the present invention will be described with reference to FIGS. 7 and 8.

図に示すようにリモコンまたは強制運転などにより冷房
または除湿運転の指示が出ろと(ステ・・lブS401
 )、空気調和機の室内ファン、室外ファン、コンプレ
・ソサーの運転が始まる(ステップ5402)。これと
同時に室内吸込温度を室内吸込温度検出手段lによりサ
ンブリンクした室内吸込温度Tinと室内吸込温度設定
手段2による規定室内吸込温度Taを比較手段3て比較
することにより(ステップS 403 )、室内吸込温
度の判定を行い、室内吸込温度Tinが規定室内吸込温
度Taを下回る場合(Tin≦Ta)、室外温度を室外
温度検出手段5によりサンプリングした室内吸込温度T
outと室外温度設定手段6による規定室外温度TIを
比較手段7て比較することにより(ステップ5404)
室外温度の判定を行い、室外温度Toutが規定室外温
度T1を下回る場合(Tout≦TI)除湿運転を開始
する(ステップ5405)。As shown in the figure, instructions for cooling or dehumidifying operation are issued using the remote control or forced operation (step S401).
), the indoor fan, outdoor fan, and compressor saucer of the air conditioner start operating (step 5402). At the same time, the comparison means 3 compares the indoor suction temperature Tin obtained by sampling the indoor suction temperature by the indoor suction temperature detection means 1 with the specified indoor suction temperature Ta determined by the indoor suction temperature setting means 2 (step S 403 ). When the suction temperature is determined and the indoor suction temperature Tin is lower than the specified indoor suction temperature Ta (Tin≦Ta), the indoor suction temperature T obtained by sampling the outdoor temperature by the outdoor temperature detection means 5 is determined.
By comparing out and the specified outdoor temperature TI set by the outdoor temperature setting means 6 using the comparing means 7 (step 5404).
The outdoor temperature is determined, and if the outdoor temperature Tout is lower than the specified outdoor temperature T1 (Tout≦TI), the dehumidification operation is started (step 5405).

次に室内ファン速度tJJ換手段21及び出力手段22
により室内ファン230回転速度を冷房運転時よりも減
少させる。すなわち、この段階で、室内側の風量を減少
させてしまう(ステップ5406)。Next, indoor fan speed tJJ conversion means 21 and output means 22
This causes the indoor fan 230 rotational speed to be lower than that during cooling operation. That is, at this stage, the air volume on the indoor side is reduced (step 5406).

次に再度、室外温度を室外温度検出手段5によりサンプ
リングした室内吸込温度Toutと室外温度設定手段6
による規定室外温度T2を比較手段7で比較することに
より(ステップS4,07)室外温度の判定を行い、室
外温度Toutが規定室外温度T2を上回る場合(To
ut≧T2)、パルス式膨張弁絞り開度設定手段10に
よりパルス式膨張弁絞り開度の初期値P1を設定し出力
手段12より信号を出力し、パルス出力手段17、移行
手段18、出力手段19によりパルス式膨張弁を絞る(
ステップ540B)。Next, the indoor suction temperature Tout obtained by sampling the outdoor temperature by the outdoor temperature detection means 5 and the outdoor temperature setting means 6
The outdoor temperature is determined by comparing the specified outdoor temperature T2 by the comparison means 7 (step S4, 07), and if the outdoor temperature Tout exceeds the specified outdoor temperature T2 (To
ut≧T2), the pulse type expansion valve throttle opening setting means 10 sets the initial value P1 of the pulse type expansion valve throttle opening, the output means 12 outputs a signal, the pulse output means 17, the transition means 18, the output means Throttle the pulse expansion valve with 19 (
Step 540B).

また前記ステップ5407にて室外温度Tautが規定
室外温度T2を下回る場合、パルス式膨張弁絞り開度設
定手段lOによりパルス式膨張弁絞り開度の初期値P2
を設定しくP2はPIに比べ絞り量が大きい)、出力手
段12より信号を出力し、パルス出力手段17、移行手
段18、出力手段19によりパルス式膨張弁を紋る(ス
テップ5409)。Further, if the outdoor temperature Tout is lower than the specified outdoor temperature T2 in step 5407, the pulse type expansion valve throttle opening setting means lO sets the initial value P2 of the pulse type expansion valve throttle opening.
(P2 has a larger aperture amount than PI), the output means 12 outputs a signal, and the pulse output means 17, transition means 18, and output means 19 actuate the pulse type expansion valve (step 5409).

次に再度、室外温度を室外温度検出手段5によりサンプ
リングした室内吸込温度Toutと室外温度設定手段6
による規定室外温度T2を比較手段7て比較することに
より(ステップ5410)室外温度の判定を行い、室外
温度Toutが規定室外温度T3を上回る場合、冷媒吐
出設定手段18により、規定冷媒吐出温度設定値’Fd
2を設定しくステップ5411)、ざらに冷媒吐出温度
を冷媒吐出温度検出手段13によりサンプリングした冷
媒吐出温度Tdと前記ステップ5411で設定した規定
冷媒吐出温度設定値Td2とを比較手段15て比較する
ことにより(ステップS412)冷媒吐出温度の判定を
行い、冷媒吐出温度Tdが規定冷媒吐出温度設定値Td
2と等しけれは次のステップSに進む。Next, the indoor suction temperature Tout obtained by sampling the outdoor temperature by the outdoor temperature detection means 5 and the outdoor temperature setting means 6
The outdoor temperature is determined by comparing the specified outdoor temperature T2 with the comparison means 7 (step 5410), and if the outdoor temperature Tout exceeds the specified outdoor temperature T3, the refrigerant discharge setting means 18 sets the specified refrigerant discharge temperature setting value. 'Fd
In step 5411), the comparison means 15 compares the refrigerant discharge temperature Td roughly sampled by the refrigerant discharge temperature detection means 13 with the specified refrigerant discharge temperature set value Td2 set in step 5411. (Step S412) The refrigerant discharge temperature is determined, and the refrigerant discharge temperature Td is the specified refrigerant discharge temperature setting value Td.
If it is equal to 2, proceed to the next step S.

もし等しくない場合、再度冷媒吐出温度Tdと規定冷媒
吐出温度設定値Td2を比較手段15で比較することこ
こより(ステップ5413)冷媒吐出温度の判定を行い
、TdかTr12よりも温度的に低ければパルス出力手
段17、移行手段18、出力手段19によりパルス式膨
張弁を規定最小量のみ絞る(ステップ5414)。また
前記ステップ5413にて冷媒吐出温度の判定を行い、
TdがTd2よりも温度的に高ければパルス出力手段1
7、移行手段18、出力手段19によりパルス式膨張弁
を規定最小量のみ開く(ステップ5415)。その後再
度ステップ5412にて冷媒吐出温度Tdと規定冷媒吐
出温度設定値Td2の比較を行い冷媒吐出温度Tdが規
定冷媒吐出温度設定11αTd2と等しくなるまで、ス
テップ5413からステップ5415の動作を繰り返す
If they are not equal, compare the refrigerant discharge temperature Td and the specified refrigerant discharge temperature set value Td2 again by the comparison means 15.From here (step 5413), the refrigerant discharge temperature is determined, and if it is lower in temperature than Td or Tr12, the refrigerant discharge temperature is determined. The pulse-type expansion valve is throttled by a prescribed minimum amount by the pulse output means 17, the transition means 18, and the output means 19 (step 5414). Also, in step 5413, the refrigerant discharge temperature is determined,
If Td is higher than Td2 in terms of temperature, pulse output means 1
7. The pulse type expansion valve is opened by the specified minimum amount by the transition means 18 and the output means 19 (step 5415). Thereafter, in step 5412, the refrigerant discharge temperature Td and the specified refrigerant discharge temperature setting value Td2 are compared again, and the operations from step 5413 to step 5415 are repeated until the refrigerant discharge temperature Td becomes equal to the specified refrigerant discharge temperature setting 11αTd2.

次に前記ステップ5410の段階で室外温度の判定を行
い、室外温度Toutが規定室外温度T2をF回る場合
、冷媒吐出設定手段14により、規定冷媒吐出温度設定
値Tdl (但し、Tdl<Td2)を設定しくステッ
プS4 L 6)、さらに冷媒吐出温度を冷媒吐出温度
検出手段13によりサンプリングした冷媒吐出温度Td
と前記ステップ3416で設定した規定冷媒吐出温度設
定値Tdlを比較手段15で比較することにより(ステ
ップ5417)冷媒吐出温度の判定を行い、冷媒吐出温
度Tdが規定冷媒吐出温度設定値Tdlと等しければ次
のステップSに進む。もし等しくない場合は、再度冷媒
吐出温度Tdと規定冷媒吐出温度設定値Tdlを比較手
段15て比較することにより(ステップ8418)冷媒
吐出温度の判定を行い、TdがTdlよりも温度的に低
ければパルス出力手段17、移行手段18、出力手段1
9によりパルス式膨張弁を規定最小量のみ絞る(ステッ
プ5419)。また前記ステップ5418にて冷媒吐出
温度の判定を行い、TdがTdlよりも温度的に高けれ
はパルス出力手段17、移行手段18、出力手段19に
よりパルス式膨張弁を規定最小量のみ開く(ステップS
 420 ’)。その後再度ステップ5417にて冷媒
吐出温度Tdと規定冷媒吐出温度設定値Tdlの比較を
行い冷媒吐出温度Tdが規定冷媒吐出温度設定値Tdl
と等しくなるまで、ステップ3418からステップ54
20の動作を繰り返す。Next, in step 5410, the outdoor temperature is determined, and if the outdoor temperature Tout is F times higher than the specified outdoor temperature T2, the refrigerant discharge setting means 14 sets the specified refrigerant discharge temperature set value Tdl (where Tdl<Td2). Step S4 L 6) to set the refrigerant discharge temperature Td sampled by the refrigerant discharge temperature detection means 13
The comparison means 15 compares the specified refrigerant discharge temperature set value Tdl set in step 3416 to determine the refrigerant discharge temperature (step 5417), and if the refrigerant discharge temperature Td is equal to the specified refrigerant discharge temperature set value Tdl, then Proceed to the next step S. If they are not equal, the refrigerant discharge temperature is determined by comparing the refrigerant discharge temperature Td and the specified refrigerant discharge temperature set value Tdl again using the comparison means 15 (step 8418), and if Td is lower in temperature than Tdl, the refrigerant discharge temperature is determined. Pulse output means 17, transition means 18, output means 1
9, the pulse type expansion valve is throttled by a specified minimum amount (step 5419). Further, the refrigerant discharge temperature is determined in step 5418, and if Td is higher than Tdl, the pulse output means 17, transition means 18, and output means 19 open the pulse type expansion valve by a specified minimum amount (step S
420'). After that, in step 5417, the refrigerant discharge temperature Td and the specified refrigerant discharge temperature setting value Tdl are compared again, and the refrigerant discharge temperature Td is the specified refrigerant discharge temperature setting value Tdl.
from step 3418 to step 54 until equal to
Repeat step 20.

最後に、室内吸込温度を室内吸込温度検出手段lにより
サンプリングした室内吸込温度Tinと室内吸込温度設
定手段2による規定室内吸込温度Tcを比較手段3で比
較することにより(ステップ5421)室内吸込温度の
判定を行い、室内吸込温度Tinが規定室内吸込温度T
cを下回る場合、ステップ5410の手前の位置にもど
る。また室内吸込温度Tinが規定室内吸込温度Tcを
−L回る場合、ステップ5402とステップ5403の
間の位置にもどる。これは、外乱等により室内または室
外の負荷に変化が発生した場合、除湿運転から通常冷房
運転に切り換える働きをする。Finally, the indoor suction temperature is determined by comparing the indoor suction temperature Tin sampled by the indoor suction temperature detection means 1 with the specified indoor suction temperature Tc determined by the indoor suction temperature setting means 2 by the comparison means 3 (step 5421). The indoor suction temperature Tin is determined to be the specified indoor suction temperature T.
If the value is less than c, the process returns to the position before step 5410. Further, when the indoor suction temperature Tin turns -L times around the specified indoor suction temperature Tc, the process returns to the position between step 5402 and step 5403. This functions to switch from dehumidifying operation to normal cooling operation when a change occurs in the indoor or outdoor load due to disturbance or the like.

発明の効果 上記実施例から明らかなように本発明は、室内吸込温度
と外気温度によって、室内ファンモータ回転速度を下げ
ることにより、除湿運転時に室内気温の降下を抑えつつ
除湿能力を最大に増加させ、快適な住環境を創造するも
のである。Effects of the Invention As is clear from the above embodiments, the present invention maximizes the dehumidification capacity while suppressing the drop in indoor temperature during dehumidification operation by lowering the rotational speed of the indoor fan motor depending on the indoor suction temperature and the outdoor air temperature. , creating a comfortable living environment.

また外気温度に対するパルス式膨張弁の絞り開度の初期
設定値を設定することにより冷房運転から除湿運転にモ
ード変更した時急速に除湿能力を最大に増加させ、室内
気温の降下を抑えつつ快適な住環境を創造するものであ
る。In addition, by setting the initial setting value for the throttle opening of the pulse type expansion valve based on the outside air temperature, when the mode is changed from cooling operation to dehumidification operation, the dehumidification capacity can be rapidly increased to the maximum, suppressing the drop in indoor temperature and maintaining comfort. It creates a living environment.

また、除湿運転時に外気温度に対応する冷媒吐出温度を
を持ち、パルス式膨張弁ζこより1記冷媒吐出温度を実
現することにより、室外負荷が変化しても、室内気温の
降下を抑えつつ除湿能力を最大に増加させ、快適な住環
境を創造するものてあまた、外気温度に対するパルス式
膨張弁の絞り開度の初期設定値を設定することにより冷
房運転から除湿運転にモード変更した時、また除湿運転
時に外気温度に対応する冷媒吐出温度をを持ち、パルス
式膨張弁により北記冷媒吐出温度を実現することにより
、室外負荷が変化してもまたモード変更した時でも急速
に除湿能力を最大に増加させ、また、パルス式膨張弁の
絞り開度を最適に制御することにより、除湿運転時に室
内気温の降下を抑えつつ除湿能力を最大に増加させ、快
適な住環境を創造するものである。In addition, during dehumidification operation, the refrigerant discharge temperature corresponds to the outside air temperature, and by realizing the refrigerant discharge temperature of In addition, by setting the initial setting value of the throttle opening of the pulse type expansion valve according to the outside temperature, when changing the mode from cooling operation to dehumidification operation, During dehumidification operation, the refrigerant discharge temperature corresponds to the outside air temperature, and by achieving the refrigerant discharge temperature listed above using a pulse type expansion valve, the dehumidification capacity can be maximized rapidly even when the outdoor load changes or when changing modes. In addition, by optimally controlling the throttle opening of the pulse-type expansion valve, the dehumidifying capacity is maximized while suppressing the drop in indoor temperature during dehumidifying operation, creating a comfortable living environment. .

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

第1図は本発明の一実施例における空気調和機の制御を
示すフローチャート、第2図は同制御ブロック図、第3
図は本発明の他の実施例における空気調和機の制御を示
すフローチャート、第4図は同制御ブロック図、第5図
は本発明の他の実施例における空気調和機の制御を示す
フローチャート、第6図は同制御ブロック図、第7図は
本発明の他の実施例における空気調和機の制御を示すフ
ローチャート、第8図は同制御ブロック図である。 l・・・室内吸込温度検出手段、3.7.11.15.
19.22・・・出力手段、5・・・外気温度検出手段
、9・・・パルス式膨張弁絞り開度検出手段、13・・
・冷媒吐出温度検出手段、17・・・パルス出方手段、
18・・・移行手段、21・・・室内ファンモータ回転
速度切換手段。 代理人 弁理士 松 1)市 道 第 1 図 第3図 第 5 図(芝の7) 第5図(その2) 第7図(釦]) 第7図(2の2)FIG. 1 is a flowchart showing control of an air conditioner in an embodiment of the present invention, FIG. 2 is a control block diagram of the same, and FIG.
4 is a flowchart showing control of an air conditioner in another embodiment of the present invention, FIG. 4 is a block diagram of the same control, and FIG. FIG. 6 is a control block diagram of the same, FIG. 7 is a flowchart showing control of an air conditioner in another embodiment of the present invention, and FIG. 8 is a control block diagram of the same. l... Indoor suction temperature detection means, 3.7.11.15.
19.22...Output means, 5...Outside air temperature detection means, 9...Pulse type expansion valve throttle opening detection means, 13...
- Refrigerant discharge temperature detection means, 17... pulse output means,
18... Transition means, 21... Indoor fan motor rotation speed switching means. Agent Patent Attorney Matsu 1) City Road 1 Figure 3 Figure 5 (Shiba 7) Figure 5 (Part 2) Figure 7 (Button)) Figure 7 (2 of 2)

Claims (4)

【特許請求の範囲】[Claims] (1)室内吸込温度を検知し、出力する室内吸込温度検
出手段と、この室内吸込温度と設定値を比較し制御信号
を出力する第1の比較手段と、空気調和機の運転モード
(冷房・暖房・除湿)を判定する判定手段と、外気温度
を検知し、出力する外気温度検出手段と、この外気温度
と設定置を比較し制御信号を出力する第2の比較手段と
、室内ファンモータ回転速度を変更する室内ファンモー
タ回転速度変更手段を設けたことを特徴とする空気調和
機。(1) An indoor suction temperature detection means that detects and outputs the indoor suction temperature, a first comparison means that compares the indoor suction temperature with a set value and outputs a control signal, and an air conditioner operation mode (cooling, (heating/dehumidification), an outside air temperature detection means that detects and outputs the outside air temperature, a second comparing means that compares the outside air temperature with a set point and outputs a control signal, and an indoor fan motor rotation An air conditioner characterized by being provided with an indoor fan motor rotation speed changing means for changing the speed. (2)室内吸込温度を検知し、出力する室内吸込温度検
出手段と、この室内吸込温度と設定値を比較し制御信号
を出力する第1の比較手段と、空気調和機の運転モード
(冷房・暖房・除湿)を判定する判定手段と、外気温度
を検知し、出力する外気温度検出手段と、この外気温度
と設定置を比較し制御信号を出力する第2の比較手段と
、この比較手段により決定される、絞り量可変パルス式
膨張弁の絞り開度設定値を設定するパルス式膨張弁絞り
開度設定手段と、前記パルス式膨張弁絞り開度を移行す
るためのパルス出力手段及び移行手段と出力手段と、室
内ファンモータ回転速度を変更する室内ファンモータ回
転速度変更手段を設けたことを特徴とする空気調和機。(2) An indoor suction temperature detection means that detects and outputs the indoor suction temperature; a first comparison means that compares the indoor suction temperature with a set value and outputs a control signal; (heating/dehumidification); an outside temperature detection means that detects and outputs the outside air temperature; a second comparison means that compares the outside air temperature with a set point and outputs a control signal; Pulse expansion valve throttle opening setting means for setting the throttle opening setting value of the variable throttle expansion pulse expansion valve, and pulse output means and transition means for shifting the pulse expansion valve throttle opening. An air conditioner comprising: output means; and indoor fan motor rotation speed changing means for changing the indoor fan motor rotation speed. (3)室内吸込温度を検知し、出力する室内吸込温度検
出手段と、この室内吸込温度と設定値を比較し制御信号
を出力する第1の比較手段と、空気調和機の運転モード
(冷房・暖房・除湿)を判定する判定手段と、外気温度
を検知し、出力する外気温度検出手段と、この外気温度
と設定置を比較し制御信号を出力する第2の比較手段と
、前記第2の比較手段により決定される冷媒吐出温度設
定値と冷媒吐出温度検出手段により検出される冷媒吐出
温度を比較し制御信号を出力する第3の比較手段と、前
記第3の比較手段からの信号により前記パルス式膨張弁
の開度を制御するためのパルス出力手段及び移行手段と
出力手段と、室内ファンモータ回転速度を変更する室内
ファンモータ回転速度変更手段を設けたことを特徴とす
る空気調和機。(3) An indoor suction temperature detection means that detects and outputs the indoor suction temperature; a first comparison means that compares the indoor suction temperature with a set value and outputs a control signal; (heating/dehumidification); an outside temperature detection means that detects and outputs the outside air temperature; a second comparing means that compares the outside air temperature with a set point and outputs a control signal; a third comparison means for comparing the refrigerant discharge temperature set value determined by the comparison means and the refrigerant discharge temperature detected by the refrigerant discharge temperature detection means and outputting a control signal; An air conditioner comprising: pulse output means, transition means, and output means for controlling the opening degree of a pulse type expansion valve; and indoor fan motor rotation speed changing means for changing the indoor fan motor rotation speed. (4)室内吸込温度を検知し、出力する室内吸込温度検
出手段と、この室内吸込温度と設定値を比較し制御信号
を出力する第1の比較手段と、空気調和機の運転モード
(冷房・暖房・除湿)を判定する判定手段と、外気温度
を検知し、出力する外気温度検出手段と、この外気温度
と設定置を比較し制御信号を出力する第2の比較手段と
、この比較手段により決定される、絞り量可変パルス式
膨張弁の絞り開度設定値を設定するパルス式膨張弁絞り
開度設定手段と、前記第2の比較手段により決定される
冷媒吐出温度設定値と冷媒吐出温度検出手段により検出
される冷媒吐出温度を比較し制御信号を出力する第3の
比較手段と、前記第3の比較手段からの信号により前記
パルス式膨張弁の開度を制御するためのパルス出力手段
及び移行手段と出力手段と、室内ファンモータ回転速度
を変更する室内ファンモータ回転速度変更手段を設けた
ことを特徴とする空気調和機。(4) An indoor suction temperature detection means that detects and outputs the indoor suction temperature, a first comparison means that compares the indoor suction temperature with a set value and outputs a control signal, and an air conditioner operation mode (cooling, (heating/dehumidification); an outside temperature detection means that detects and outputs the outside air temperature; a second comparison means that compares the outside air temperature with a set point and outputs a control signal; A pulse type expansion valve throttle opening setting means for setting a throttle opening set value of a variable throttle amount pulse type expansion valve, and a refrigerant discharge temperature set value and a refrigerant discharge temperature determined by the second comparison means. a third comparing means for comparing refrigerant discharge temperatures detected by the detecting means and outputting a control signal; and a pulse outputting means for controlling the opening degree of the pulse type expansion valve based on the signal from the third comparing means. An air conditioner comprising: a transition means, an output means, and an indoor fan motor rotation speed changing means for changing the indoor fan motor rotation speed.
JP2335069A 1990-11-29 1990-11-29 Air conditioner Expired - Fee Related JP2939328B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2335069A JP2939328B2 (en) 1990-11-29 1990-11-29 Air conditioner

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2335069A JP2939328B2 (en) 1990-11-29 1990-11-29 Air conditioner

Publications (2)

Publication Number Publication Date
JPH04203739A true JPH04203739A (en) 1992-07-24
JP2939328B2 JP2939328B2 (en) 1999-08-25

Family

ID=18284416

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2335069A Expired - Fee Related JP2939328B2 (en) 1990-11-29 1990-11-29 Air conditioner

Country Status (1)

Country Link
JP (1) JP2939328B2 (en)

Also Published As

Publication number Publication date
JP2939328B2 (en) 1999-08-25

Similar Documents

Publication Publication Date Title
JP3137114B1 (en) Multi-room air conditioner
JPH0361098B2 (en)
JP3011708B1 (en) Wind direction control method for air conditioner
JP2697282B2 (en) Air conditioner
JP2695288B2 (en) Multi-room air conditioner
JP3223918B2 (en) Multi-room air conditioning system
JP2697281B2 (en) Control device for air conditioner
JPH04203739A (en) Air conditioner
JP2720594B2 (en) Air conditioner
JP2720595B2 (en) Air conditioner
JP2808465B2 (en) Control device for air conditioner
JP3109369B2 (en) Air conditioner
JPH04240338A (en) Air conditioner
JP2767964B2 (en) Air conditioner
JPS5927145A (en) Air conditioner
JP2612864B2 (en) Multi-room air conditioner
JP2006145111A (en) Dehumidifying operation control method for air conditioner
JPH05106931A (en) Multi-chamber air-conditioning device
JPH03213942A (en) Controller of air-conditioner
EP3798528A1 (en) Air conditioner
JP3279111B2 (en) Heat pump cooling / heating dehumidification control device for electric vehicles
JPH04190055A (en) Multi-chamber type air conditioner
JP2578998B2 (en) Air conditioner
JPH07824Y2 (en) Air conditioner
JP2928646B2 (en) Multi-type air conditioner

Legal Events

Date Code Title Description
LAPS Cancellation because of no payment of annual fees