JPH07248142A - Air conditioning system - Google Patents
Air conditioning systemInfo
- Publication number
- JPH07248142A JPH07248142A JP6079147A JP7914794A JPH07248142A JP H07248142 A JPH07248142 A JP H07248142A JP 6079147 A JP6079147 A JP 6079147A JP 7914794 A JP7914794 A JP 7914794A JP H07248142 A JPH07248142 A JP H07248142A
- Authority
- JP
- Japan
- Prior art keywords
- temperature
- blower
- air conditioner
- room
- indoor
- 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.)
- Pending
Links
Landscapes
- Air Conditioning Control Device (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】この発明は室内の暖房あるいは冷
房を行うための空気調和機のほか、さらに室内空気を循
環させる送風機を備えた空気調和システムに関するもの
である。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner for heating or cooling a room as well as an air conditioner system including a blower for circulating indoor air.
【0002】[0002]
【従来の技術】上記のような空気調和システムの従来例
としては、例えば特開平1−291043号公報、特開
平2−183755号公報記載の装置を挙げることがで
きる。これらの装置においては、空気調和機と送風手段
とを有し、室内機あるいは送風手段に温度センサを設け
ている。前者の場合は、第2運転モードにてユーザの設
定温度に補正値αを加えた新しい設定温度と上記温度セ
ンサでの検出温度とを比較し、その結果をもとにして、
空気調和機及び扇風機の運転制御を行う。後者の場合
は、運転開始時における温度センサでの初期検出温度を
記憶しておき、上記空気調和機の運転に伴って変化して
いく室内空気に対する上記温度センサでの検出温度と上
記初期検出温度との温度差に応じて循環ファンの作動制
御を行い、部屋温度の均一化を図るようになされてい
る。2. Description of the Related Art As a conventional example of the above-mentioned air conditioning system, for example, the devices described in Japanese Patent Application Laid-Open Nos. 1-291043 and 2-183755 can be cited. These devices have an air conditioner and a blowing unit, and a temperature sensor is provided in the indoor unit or the blowing unit. In the former case, the new set temperature obtained by adding the correction value α to the user set temperature in the second operation mode is compared with the temperature detected by the temperature sensor, and based on the result,
It controls the operation of the air conditioner and fan. In the latter case, the initial detected temperature of the temperature sensor at the start of operation is stored, and the detected temperature of the temperature sensor and the initial detected temperature for the indoor air that changes with the operation of the air conditioner. The operation of the circulation fan is controlled according to the temperature difference between the temperature and the room temperature, and the room temperature is made uniform.
【0003】[0003]
【発明が解決しようとする課題】ところで上記従来例に
おいては、温度センサが室内機あるいは送風手段にしか
設けられていないため、室内全体の温度分布が検出でき
ないので、室内全体の温度を制御することは不可能であ
る。By the way, in the above-mentioned conventional example, since the temperature sensor is provided only in the indoor unit or the blowing means, the temperature distribution in the entire room cannot be detected. Therefore, the temperature in the entire room is controlled. Is impossible.
【0004】この発明は上記従来の欠点を解決するため
になされたものであって、その目的は、空調室内におい
て複数個所の温度を把握し、これにより部屋全体の快適
性を向上し得る空気調和システムを提供することにあ
る。The present invention has been made in order to solve the above-mentioned conventional drawbacks, and its purpose is to ascertain the temperatures at a plurality of locations in an air-conditioned room and thereby improve the comfort of the entire room. To provide a system.
【0005】[0005]
【課題を解決するための手段】そこで請求項1の空気調
和システムは、室内温調用の空気調和機1の室内機2
と、この室内機2から離れた箇所で室内の上層部に据付
けらた室内空気循環用の送風機8と、室内の下層部に配
置された温度検出装置10とにそれぞれ温度検出部1
3、24、32を設け、上記のうち少なくとも2つ以上
の検出温度T1〜T3に基づいて空気調和機制御部18
と送風機制御部22とによって空気調和機1と送風機8
との運転制御を行うことを特徴としている。Therefore, the air conditioning system of claim 1 is an indoor unit 2 of an air conditioner 1 for indoor temperature control.
The temperature detecting unit 1 is provided in the blower 8 for indoor air circulation installed in the upper layer of the room at a location apart from the indoor unit 2 and the temperature detecting device 10 arranged in the lower layer of the room.
3, 24, 32 are provided, and the air conditioner control unit 18 is based on at least two or more detected temperatures T 1 to T 3 among the above.
The air conditioner 1 and the blower 8 by the blower control unit 22 and the blower control unit 22.
It is characterized by performing operation control with.
【0006】また請求項2の空気調和システムは、上記
空気調和機制御部18と送風機制御部22とによって、
室内温度T1〜T3の分布をほぼ均一にするような運転
制御を行うことを特徴としている。The air conditioning system according to a second aspect of the present invention includes the air conditioner controller 18 and the blower controller 22.
It is characterized in that operation control is performed so that the distribution of the indoor temperatures T 1 to T 3 is made substantially uniform.
【0007】さらに請求項3の空気調和システムは、上
記空気調和機制御部18と送風機制御部22とによっ
て、室内全体の温度T1〜T3をユーザの設定温度T4
に近づけるような運転制御を行うことを特徴としてい
る。Furthermore the air conditioning system of claim 3, by the above-mentioned air conditioner control unit 18 and the blower controller 22, setting the temperature T 1 through T 3 of the entire interior of the user the temperature T 4
The feature is that the operation control is performed so as to approach.
【0008】請求項4の空気調和システムは、上記室内
機2、送風機8、温度検出装置10の相互間の信号の伝
送を、電波を用いた無線伝送によって行うことを特徴と
している。The air conditioning system according to claim 4 is characterized in that signals are transmitted among the indoor unit 2, the blower 8 and the temperature detecting device 10 by radio transmission using radio waves.
【0009】[0009]
【作用】上記請求項1の空気調和システムでは、室内の
暖房又は冷房を行う空気調和機の室内機2と、室内の上
層部に据付けらた室内の空気を循環させる送風機8と、
室内の下層部に配置された温度検出装置10にそれぞれ
温度検出部13、24、32を設けており、これらのう
ちの少なくとも2つの検出温度T1〜T3に基づいて運
転制御を行うので、部屋全体の温度分布T1〜T3に基
づいた空調制御を行うことが可能になる。In the air conditioning system according to the first aspect, the indoor unit 2 of the air conditioner for heating or cooling the room, the blower 8 for circulating the indoor air installed in the upper layer of the room,
The temperature detecting devices 10 arranged in the lower part of the room are provided with the temperature detecting units 13, 24 and 32, respectively, and the operation control is performed based on at least two of the detected temperatures T 1 to T 3 . It becomes possible to perform air conditioning control based on the temperature distributions T 1 to T 3 of the entire room.
【0010】また請求項2の空気調和システムでは、検
出した室内全体の温度T1〜T3の分布に応じて空気調
和機1と送風機8との各制御部18、22が、室内全体
の温度分布T1〜T3を均一化するような運転制御を行
う。In the air conditioning system according to the second aspect of the present invention, the control units 18, 22 of the air conditioner 1 and the blower 8 are controlled according to the detected distribution of the temperatures T 1 to T 3 of the entire room. Operation control is performed so as to make the distributions T 1 to T 3 uniform.
【0011】さらに請求項3の空気調和システムでは、
室内全体の温度T1〜T3をユーザの希望する設定温度
T4に近づけるように、上記空気調和機制御部18及び
送風機制御部22を制御する。Further, in the air conditioning system according to claim 3,
The air conditioner control unit 18 and the blower control unit 22 are controlled so that the temperatures T 1 to T 3 of the entire room approach the set temperature T 4 desired by the user.
【0012】請求項4の空気調和システムでは、各装置
の設置条件を大幅に緩和しながらも、良好な伝送状態を
確保でき、システムの動作安定性が向上する。In the air conditioning system according to the fourth aspect, it is possible to secure a good transmission state while greatly relaxing the installation conditions of each device, and improve the operational stability of the system.
【0013】[0013]
【実施例】次にこの発明の空気調和システムの具体的な
実施例について、図面を参照しつつ詳細に説明する。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, specific embodiments of the air conditioning system of the present invention will be described in detail with reference to the drawings.
【0014】図1は空調室Aの縦断面模式図を示してお
り、図のようにこの空調室Aの一壁面には、セパレート
型の空気調和機1の壁設置型室内機2が据付けられてい
る。この室内機2は前面に吸込口3と吹出口4とを有
し、内部には室内熱交換器5及びファン6が設けられて
いる。なお同図において、7は上記空気調和機1の室外
機を示しており、この室外機7は上記室内機2と接続配
管7aによって接続され、その内部には圧縮機、室外熱
交換器、室外ファン等が設けられている。8は空調室A
の天井に据付けられた送風機で、この送風機8には自動
首ふり可能な循環ファン9が設けられている。また空調
室Aの床部には、リモコン等に付設された温度検出装置
10が配置されている。FIG. 1 is a schematic vertical sectional view of the air conditioning room A. As shown in the figure, a wall-mounted indoor unit 2 of a separate type air conditioner 1 is installed on one wall surface of the air conditioning room A. ing. The indoor unit 2 has a suction port 3 and a blowout port 4 on the front surface, and an indoor heat exchanger 5 and a fan 6 are provided inside. In the figure, reference numeral 7 denotes an outdoor unit of the air conditioner 1, and the outdoor unit 7 is connected to the indoor unit 2 by a connection pipe 7a, and inside thereof, a compressor, an outdoor heat exchanger, an outdoor unit. Fans etc. are provided. 8 is the air conditioning room A
The fan is installed on the ceiling of the fan, and the fan 8 is provided with a circulation fan 9 capable of automatically swinging. On the floor of the air conditioning room A, a temperature detecting device 10 attached to a remote controller or the like is arranged.
【0015】上記のような空気調和システムにおいて、
空気調和機1と送風機8と温度検出装置10の運転系統
図をそれぞれ図2、図3、図4に示す。なおこれら各装
置間の伝送は、電波を用いた無線による伝送方式を採用
するのが好ましいが、それは各装置の設置条件の制約を
大幅に緩和しながらも、良好な伝送状態を確保し、シス
テムの作動安定性を向上するためである。図3及び図4
に示すように、送風機の温度検出部24及び温度検出装
置の温度検出部32における検出温度T2及びT3は、
それぞれ送風機の信号送信部23及び温度検出装置の信
号送信部31から空気調和機の信号受信部11へと送信
される。空気調和機においては、図2に示すように、信
号識別部12において送風機8あるいは温度検出装置1
0から送信されてきた検出温度か否かを識別し、識別し
た検出温度T2、T3をそれぞれ第1温度情報記憶部1
4、第2温度情報記憶部15に記憶する。そして空気調
和機の温度検出部13における検出温度T1と設定温度
記憶部16におけるユーザの設定温度T4と共に、第1
温度情報記憶部14と、第2温度情報記憶部15の温度
情報を比較部17に転送し、ここでそれぞれの温度情報
を比較し、比較結果を空気調和機の制御部18へ転送す
る。空気調和機の制御部18では、転送されてきた比較
結果をもとにして、圧縮機5及びファン6を運転し、さ
らに送風機運転信号を空気調和機の信号送信部19から
送風機の信号受信部21へ送信する。送風機8では、送
信されてきた送風機運転信号を制御部22へ転送し、運
転信号にしたがって循環ファン9の運転を行う。In the air conditioning system as described above,
The operation system diagrams of the air conditioner 1, the blower 8, and the temperature detection device 10 are shown in FIGS. 2, 3, and 4, respectively. For the transmission between these devices, it is preferable to adopt a wireless transmission method using radio waves, but this greatly relaxes the restrictions on the installation conditions of each device while ensuring a good transmission state and This is to improve the operational stability of. 3 and 4
As shown in, the detected temperatures T 2 and T 3 in the temperature detection unit 24 of the blower and the temperature detection unit 32 of the temperature detection device are
The signals are respectively transmitted from the signal transmitter 23 of the blower and the signal transmitter 31 of the temperature detecting device to the signal receiver 11 of the air conditioner. In the air conditioner, as shown in FIG. 2, the blower 8 or the temperature detecting device 1 is provided in the signal identifying unit 12.
It is discriminated whether or not the detected temperature is transmitted from 0, and the detected temperatures T 2 and T 3 are respectively identified by the first temperature information storage unit 1.
4, stored in the second temperature information storage unit 15. Then, together with the detected temperature T 1 in the temperature detection unit 13 of the air conditioner and the user set temperature T 4 in the set temperature storage unit 16, the first
The temperature information in the temperature information storage unit 14 and the temperature information in the second temperature information storage unit 15 are transferred to the comparison unit 17, where the respective temperature information is compared, and the comparison result is transferred to the control unit 18 of the air conditioner. In the control unit 18 of the air conditioner, the compressor 5 and the fan 6 are operated based on the transferred comparison result, and a fan operation signal is further transmitted from the signal transmission unit 19 of the air conditioner to the signal reception unit of the blower. 21 to 21. The blower 8 transfers the transmitted blower operation signal to the control unit 22, and operates the circulation fan 9 according to the operation signal.
【0016】図5は空気調和機1の運転を制御する空気
調和機制御部18の制御フローチャートを示している。
以下、同図を参照して空調運転の制御について説明す
る。図5のステップS1は、空気調和機温度検出部13
での検出温度T1の読込みを行うステップであり、次の
ステップS2はユーザの設定温度T4の読込みを行うス
テップである。ステップS3で検出温度T1と設定温度
T4が等しいかが判断され、等しければステップS4に
て空気調和機1を停止する。等しくなければステップS
5へ進み、T1>T4の場合はステップS6にて冷房を
開始し、T1<T4の場合はステップS7にて暖房を開
始する。FIG. 5 shows a control flow chart of the air conditioner controller 18 which controls the operation of the air conditioner 1.
The control of the air conditioning operation will be described below with reference to FIG. Step S1 of FIG. 5 is the air conditioner temperature detection unit 13
Is a step of reading the detected temperature T 1 and the next step S2 is a step of reading the temperature T 4 set by the user. In step S3, it is determined whether the detected temperature T 1 is equal to the set temperature T 4 , and if they are equal, the air conditioner 1 is stopped in step S4. If not equal, step S
5, the cooling starts in step S6 when T 1 > T 4 and the heating starts in step S7 when T 1 <T 4 .
【0017】次に送風機8及び温度検出装置10からの
検出温度情報T2及びT3を無線伝送によってステップ
S8にて受信する。受信した信号をステップS9で識別
し、送風機8から送信してきた検出温度T2ならばステ
ップS10にてT2の記憶を行い、T2でなければステ
ップS11へ進み、温度検出装置10から送信してきた
検出温度T3ならばステップS12にてT3の記憶を行
う。Next, the detected temperature information T 2 and T 3 from the blower 8 and the temperature detecting device 10 are received by wireless transmission in step S8. The received signal identified in step S9, perform storage of T 2 by the detection temperature T 2 if step S10 has been transmitted from the blower 8, the process proceeds to T 2 Otherwise step S11, it has been transmitted from the temperature detector 10 performing storage of T 3 at the detected temperature T 3 if step S12 has.
【0018】次に記憶した検出温度T1、T2、T3、
及びユーザの設定温度T4をステップS13にて読出
し、T1=T2=T3=T4かどうかの判断をステップ
S14で行い、すべて等しければステップS15で送風
機8を停止し、等しくなければステップS16にて送風
機運転信号を送信し、ステップS17の送風機モード選
定に移る。なお上記ステップS14においては、各温度
が一定の範囲内に存するか否かを判断するようにしても
よい。Next, the stored detected temperatures T 1 , T 2 , T 3 ,
And the user set temperature T 4 is read in step S13, it is judged in step S14 whether T 1 = T 2 = T 3 = T 4 , and if all are equal, the blower 8 is stopped in step S15, and if not equal. In step S16, the blower operation signal is transmitted, and the flow proceeds to blower mode selection in step S17. In step S14, it may be determined whether or not each temperature is within a certain range.
【0019】図6は空気調和機の制御部18が送風機8
の運転モードを選定する制御フローチャートを示してい
る。なお送風機8の循環ファン9は、その風力を強と弱
の2段階に切換え得る構成、またその首ふりをONとO
FFで切換え得る構成を有するものとして説明する。ス
テップS20の送風機モード選定では、ステップS21
において記憶した検出温度T1、T2、T3、及びユー
ザの設定温度T4について空調室内の平均温度差TT=
〔|T1−T4|+|T2−T4|+|T3−T4|〕
/3を算出する。そしてTTを予め設定してある第1基
準温度差TS1、第2基準温度差TS2(TS1>T
S2>0)と比較する。ステップS22において、TT
>TS1である場合には、ステップS23にて循環ファ
ン9を強の設定、首ふりONの信号を送出する。ステッ
プS24において、TS1>TT>TS2である場合に
は、ステップS25において循環ファン9を弱に設定、
首ふりONの信号を送出する。ステップS24におい
て、TS2>TTであることが判別された場合には、ス
テップS26において循環ファン9を弱に設定、首ふり
OFFの信号を送出する。In FIG. 6, the control unit 18 of the air conditioner has a blower 8
The control flowchart which selects the operation mode of is shown. The circulation fan 9 of the blower 8 has a configuration capable of switching its wind power between two stages, strong and weak, and its precession is turned on and off.
It will be described as having a configuration in which switching can be performed by FF. In the blower mode selection in step S20, step S21
The average temperature difference T T = in the air-conditioned room for the detected temperatures T 1 , T 2 , T 3 and the user-set temperature T 4 stored in
[| T 1 -T 4 | + | T 2 -T 4 | + | T 3 -T 4 | ]
Calculate / 3. The first reference temperature difference T S1 and the second reference temperature difference T S2 (T S1 > T) in which T T is set in advance are set.
S2 > 0). In step S22, T T
If> T S1 , in step S23, the circulation fan 9 is set to a high level, and a signal to turn on the neck is sent. If T S1 > T T > T S2 in step S24, the circulation fan 9 is set to weak in step S25.
Send a signal to turn on the neck. When it is determined in step S24 that T S2 > T T , the circulation fan 9 is set to be weak in step S26, and a signal to turn off the neck is sent.
【0020】図7は送風機8の運転のフローチャートを
示している。ステップS30は、送風機の温度検出部2
4での検出温度T2の温度検出を行うステップであり、
次のステップS31で検出温度T2を信号送信部23か
ら空気調和機の信号受信部11へ無線で送信する。その
後、ステップS32にて信号受信部21で信号を受信
し、その信号が空気調和機1から送信されてきた送風機
制御信号であるかどうかをステップS33で判断する。
送風機制御信号であればステップS34で運転制御信号
であるかどうかを判断し、運転制御信号であればステッ
プS35にて送風機8の運転/停止の設定を行う。次に
ステップS36で風力制御信号であるかどうかを判断
し、風力制御信号であればステップS37にて風力強/
弱を設定する。次にステップS38で首ふり制御信号で
あるかどうかを判断し、首ふり制御信号であればステッ
プS39で首ふりON/OFFの設定をする。FIG. 7 shows a flow chart of the operation of the blower 8. Step S30 is the temperature detection unit 2 of the blower.
4 is a step of performing temperature detection of the detected temperature T 2 in 4.
In the next step S31, the detected temperature T 2 is wirelessly transmitted from the signal transmission unit 23 to the signal reception unit 11 of the air conditioner. Then, in step S32, the signal receiving unit 21 receives the signal, and in step S33, it is determined whether the signal is the blower control signal transmitted from the air conditioner 1.
If it is a blower control signal, it is determined in step S34 whether it is an operation control signal. If it is an operation control signal, the blower 8 is set to be operated / stopped in step S35. Next, in step S36, it is determined whether or not it is a wind force control signal.
Set weak. Next, in step S38, it is determined whether or not it is a head swing control signal. If it is a head swing control signal, the head swing ON / OFF is set in step S39.
【0021】以上のように送風機8の循環運転をきめ細
かく制御することにより、空調運転を効率的に行うこと
が可能となる。例えば暖房運転では、運転開始直後に循
環ファン9の風力を強に設定し、首ふりをONにして循
環運転を行うことにより、空気調和機1のファンだけで
は届かないところにまで暖気を運ぶことができるので、
室内全体を急速に暖めることができる。また室温が設定
温度付近になると、循環ファン9の風力を弱に設定し、
首ふりをOFFで循環運転を行うことにより、暖気が天
井に滞るのを防ぐことができる。By finely controlling the circulation operation of the blower 8 as described above, it becomes possible to efficiently perform the air conditioning operation. For example, in the heating operation, the wind force of the circulation fan 9 is set to a strong value immediately after the operation is started, the neck swing is turned on, and the circulation operation is performed, so that the warm air is carried to a place where the fan of the air conditioner 1 cannot reach. Because you can
The whole room can be heated quickly. When the room temperature is close to the set temperature, the wind force of the circulation fan 9 is set weak,
By performing the circulation operation with the neck swing off, it is possible to prevent warm air from staying on the ceiling.
【0022】以上にこの発明の具体的な実施例について
説明したが、この発明は上記実施例に限定されるもので
はなく、この発明の範囲内で種々変更して実施すること
ができる。例えば上記ではセパレート型空気調和機を使
用しているが、一体型空気調和機を使用してもよい。ま
た送風機を室内の天井に据付けているが、これは温かい
空気が室内の天井に滞りやすいという理由によるもの
で、室内の天井付近であれば壁面等どの箇所に据付けて
もよい。温度検出装置10も床部に配置しているが、こ
れは人が床部付近にいることを想定したものであり、配
置場所は床上に限るものではなく、人がいる付近であれ
ばどの箇所でもよい。また送風機の循環ファンを首ふり
可能として作動させているが、送風機の吹出口に自動風
向制御板を設置して作動させてもよい。Although the specific embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and various modifications can be made within the scope of the present invention. For example, although the separate air conditioner is used in the above, an integrated air conditioner may be used. Further, the blower is installed on the ceiling in the room, but this is because warm air is apt to stay on the ceiling in the room, and it may be installed on any place such as a wall surface in the vicinity of the ceiling in the room. The temperature detection device 10 is also placed on the floor, but this is based on the assumption that a person is near the floor, and the location is not limited to being on the floor. But it's okay. Further, although the circulation fan of the blower is operated so that it can be swung, an automatic wind direction control plate may be installed at the blower outlet of the blower for operation.
【0023】[0023]
【発明の効果】以上のように請求項1の空気調和システ
ムでは、空気調和機の室内機と室内の上層部に据付けら
た送風機と、室内の下層部に配置された温度検出装置に
それぞれ温度検出部を設け、これらのうち2つ以上の検
出温度に基づいて空調制御を行うので、室内全体のおお
よその温度分布に基づく空調制御を行うことが可能とな
る。As described above, in the air conditioning system according to the first aspect of the invention, the temperature of the indoor unit of the air conditioner, the blower installed in the upper layer of the room, and the temperature detecting device arranged in the lower layer of the room are respectively controlled. Since the detection unit is provided and the air conditioning control is performed based on two or more of the detected temperatures, it is possible to perform the air conditioning control based on the approximate temperature distribution of the entire room.
【0024】また請求項2の空気調和システムでは、検
出した室内全体の温度分布に応じて空気調和機制御部が
室内機及び室外機の運転制御を行うと共に、送風機制御
部が循環ファンの運転制御を行うことにより、室内全体
の温度分布をほぼ均一にするような運転制御を行うよう
にしてあるので、空調快適性が向上できる。In the air conditioning system of claim 2, the air conditioner controller controls the operation of the indoor unit and the outdoor unit according to the detected temperature distribution in the entire room, and the blower controller controls the operation of the circulation fan. By performing the operation control so as to make the temperature distribution in the entire room substantially uniform, the air conditioning comfort can be improved.
【0025】さらに請求項3の空気調和システムでは、
室内全体の温度をユーザの希望する設定温度に近づける
ように、上記空気調和機制御部及び送風機制御部を制御
しているので、空調快適性が一段と向上する。Further, in the air conditioning system of claim 3,
Since the air conditioner control unit and the blower control unit are controlled so that the temperature of the entire room approaches the set temperature desired by the user, air conditioning comfort is further improved.
【0026】請求項4の空気調和システムでは、各装置
の設置条件を大幅に緩和しながらも、良好な伝送状態を
確保でき、システムの動作安定性が向上する。In the air conditioning system according to the fourth aspect of the present invention, a good transmission state can be ensured while the installation conditions for each device are greatly relaxed, and the operational stability of the system is improved.
【図1】この発明の一実施例における空気調和システム
の配置構成を示す空調室の縦断面模式図である。FIG. 1 is a schematic vertical cross-sectional view of an air conditioning room showing an arrangement configuration of an air conditioning system in an embodiment of the present invention.
【図2】空気調和機の運転制御系統図である。FIG. 2 is an operation control system diagram of the air conditioner.
【図3】送風機の運転制御系統図である。FIG. 3 is an operation control system diagram of a blower.
【図4】温度検出装置の運転制御系統図である。FIG. 4 is an operation control system diagram of the temperature detection device.
【図5】空気調和機の運転を制御する空気調和機制御部
の制御フローチャートである。FIG. 5 is a control flowchart of an air conditioner control unit that controls the operation of the air conditioner.
【図6】上記空気調和機制御部が送風機の運転モードを
選定する制御フローチャートである。FIG. 6 is a control flowchart in which the air conditioner control unit selects an operation mode of a blower.
【図7】送風機の運転フローチャートである。FIG. 7 is an operation flowchart of the blower.
1 空気調和機 2 室内機 8 送風機 9 循環ファン 10 温度検出装置 13 空気調和機温度検出部 18 空気調和機制御部 22 送風機制御部 24 送風機温度検出部 32 温度検出装置温度検出部 1 Air Conditioner 2 Indoor Unit 8 Blower 9 Circulation Fan 10 Temperature Detector 13 Air Conditioner Temperature Detector 18 Air Conditioner Controller 22 Blower Controller 24 Blower Temperature Detector 32 Temperature Detector Temperature Detector
Claims (4)
(2)と、この室内機(2)から離れた箇所で室内の上
層部に据付けらた室内空気循環用の送風機(8)と、室
内の下層部に配置された温度検出装置(10)とにそれ
ぞれ温度検出部(13)(24)(32)を設け、上記
のうち少なくとも2つ以上の検出温度(T1〜T3)に
基づいて空気調和機制御部(18)と送風機制御部(2
2)とによって空気調和機(1)と送風機(8)との運
転制御を行うことを特徴とする空気調和システム。1. An indoor unit (2) of an air conditioner (1) for indoor temperature control, and an air blower (8) for indoor air circulation installed in an upper layer of a room at a location distant from the indoor unit (2). ) And the temperature detecting device (10) arranged in the lower part of the room, respectively, are provided with temperature detecting units (13) (24) (32), respectively, and at least two or more of the detected temperatures (T 1 to T 3 ) based on the air conditioner control unit (18) and the blower control unit (2
An air conditioning system characterized in that the operation control of the air conditioner (1) and the blower (8) is performed by (2).
制御部(22)とによって、室内温度(T1〜T3)の
分布をほぼ均一にするような運転制御を行うことを特徴
とする請求項1の空気調和システム。2. The air conditioner control section (18) and the blower control section (22) perform operation control so as to make the distribution of indoor temperatures (T 1 to T 3 ) substantially uniform. The air conditioning system according to claim 1.
制御部(22)とによって、室内全体の温度(T1〜T
3)をユーザの設定温度(T4)に近づけるような運転
制御を行うことを特徴とする請求項2の空気調和システ
ム。3. The temperature (T 1 to T) of the entire room is controlled by the air conditioner controller (18) and the blower controller (22).
The air conditioning system according to claim 2, wherein operation control is performed such that ( 3 ) is brought close to a user set temperature (T 4 ).
検出装置(10)の相互間の信号の伝送を、電波を用い
た無線伝送によって行うことを特徴とする請求項1、請
求項2、又は請求項3の空気調和システム。4. The transmission of signals among the indoor unit (2), the blower (8) and the temperature detecting device (10) is performed by radio transmission using radio waves. The air conditioning system according to claim 2 or claim 3.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP6079147A JPH07248142A (en) | 1994-03-10 | 1994-03-10 | Air conditioning system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP6079147A JPH07248142A (en) | 1994-03-10 | 1994-03-10 | Air conditioning system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH07248142A true JPH07248142A (en) | 1995-09-26 |
Family
ID=13681853
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP6079147A Pending JPH07248142A (en) | 1994-03-10 | 1994-03-10 | Air conditioning system |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH07248142A (en) |
Cited By (11)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2001174026A (en) * | 1999-11-30 | 2001-06-29 | Matsushita Electric Ind Co Ltd | Air-conditioning system and air-conditioning method using the same |
| JP2006177617A (en) * | 2004-12-22 | 2006-07-06 | Hitachi Plant Technologies Ltd | Ventilation system and its method |
| JP2008185271A (en) * | 2007-01-30 | 2008-08-14 | Mitsubishi Electric Corp | Blow-out device system and exhaust heat transfer device system for air-conditioning, and air-conditioning system provided therewith |
| JP2008267795A (en) * | 2007-03-27 | 2008-11-06 | Daikin Ind Ltd | Air-conditioning management system |
| JP2009030845A (en) * | 2007-07-25 | 2009-02-12 | Panasonic Electric Works Co Ltd | Air-conditioning control system |
| WO2014091541A1 (en) * | 2012-12-10 | 2014-06-19 | 三菱電機株式会社 | Air conditioning system |
| CN106051911A (en) * | 2015-04-02 | 2016-10-26 | 松下知识产权经营株式会社 | Fan apparatus and ceiling-suspended air conditioning apparatus |
| CN107120813A (en) * | 2017-06-29 | 2017-09-01 | 广东美的制冷设备有限公司 | Air conditioner air blowing control method, electronic equipment and computer-readable recording medium |
| WO2017183083A1 (en) * | 2016-04-18 | 2017-10-26 | 三菱電機株式会社 | Air-conditioning system |
| CN108954530A (en) * | 2018-08-20 | 2018-12-07 | 珠海格力电器股份有限公司 | Air conditioner and control method thereof |
| JP2020197078A (en) * | 2019-06-04 | 2020-12-10 | 有限会社アークテック | Hazardous material storage house |
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|---|---|---|---|---|
| JPH01291043A (en) * | 1988-05-17 | 1989-11-22 | Matsushita Electric Ind Co Ltd | Air conditioner, blower, and operation control device therefor |
| JPH02183755A (en) * | 1989-01-05 | 1990-07-18 | Daikin Ind Ltd | Air conditioning system |
| JPH04344053A (en) * | 1991-05-22 | 1992-11-30 | Matsushita Seiko Co Ltd | Ceiling fan interlocking type air conditioner |
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1994
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Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH01291043A (en) * | 1988-05-17 | 1989-11-22 | Matsushita Electric Ind Co Ltd | Air conditioner, blower, and operation control device therefor |
| JPH02183755A (en) * | 1989-01-05 | 1990-07-18 | Daikin Ind Ltd | Air conditioning system |
| JPH04344053A (en) * | 1991-05-22 | 1992-11-30 | Matsushita Seiko Co Ltd | Ceiling fan interlocking type air conditioner |
Cited By (16)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2001174026A (en) * | 1999-11-30 | 2001-06-29 | Matsushita Electric Ind Co Ltd | Air-conditioning system and air-conditioning method using the same |
| JP2006177617A (en) * | 2004-12-22 | 2006-07-06 | Hitachi Plant Technologies Ltd | Ventilation system and its method |
| JP2008185271A (en) * | 2007-01-30 | 2008-08-14 | Mitsubishi Electric Corp | Blow-out device system and exhaust heat transfer device system for air-conditioning, and air-conditioning system provided therewith |
| JP2008267795A (en) * | 2007-03-27 | 2008-11-06 | Daikin Ind Ltd | Air-conditioning management system |
| JP2009030845A (en) * | 2007-07-25 | 2009-02-12 | Panasonic Electric Works Co Ltd | Air-conditioning control system |
| WO2014091541A1 (en) * | 2012-12-10 | 2014-06-19 | 三菱電機株式会社 | Air conditioning system |
| JP5984964B2 (en) * | 2012-12-10 | 2016-09-06 | 三菱電機株式会社 | Air conditioning system |
| JP2016197000A (en) * | 2015-04-02 | 2016-11-24 | パナソニックIpマネジメント株式会社 | Fan device and ceiling suspended type air conditioning device |
| CN106051911A (en) * | 2015-04-02 | 2016-10-26 | 松下知识产权经营株式会社 | Fan apparatus and ceiling-suspended air conditioning apparatus |
| CN106051911B (en) * | 2015-04-02 | 2020-10-16 | 松下知识产权经营株式会社 | Fan device and ceiling-suspended air conditioning equipment |
| WO2017183083A1 (en) * | 2016-04-18 | 2017-10-26 | 三菱電機株式会社 | Air-conditioning system |
| JPWO2017183083A1 (en) * | 2016-04-18 | 2018-08-16 | 三菱電機株式会社 | Air conditioning system |
| CN107120813A (en) * | 2017-06-29 | 2017-09-01 | 广东美的制冷设备有限公司 | Air conditioner air blowing control method, electronic equipment and computer-readable recording medium |
| CN107120813B (en) * | 2017-06-29 | 2020-04-21 | 广东美的制冷设备有限公司 | Air conditioner air supply control method, electronic device and computer readable storage medium |
| CN108954530A (en) * | 2018-08-20 | 2018-12-07 | 珠海格力电器股份有限公司 | Air conditioner and control method thereof |
| JP2020197078A (en) * | 2019-06-04 | 2020-12-10 | 有限会社アークテック | Hazardous material storage house |
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