JPH07225064A - Heat pump hot water supplying apparatus - Google Patents

Heat pump hot water supplying apparatus

Info

Publication number
JPH07225064A
JPH07225064A JP1807894A JP1807894A JPH07225064A JP H07225064 A JPH07225064 A JP H07225064A JP 1807894 A JP1807894 A JP 1807894A JP 1807894 A JP1807894 A JP 1807894A JP H07225064 A JPH07225064 A JP H07225064A
Authority
JP
Japan
Prior art keywords
water
heating
refrigerant
heat exchanger
water heating
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
Application number
JP1807894A
Other languages
Japanese (ja)
Inventor
Yasuyuki Tezuka
靖之 手塚
Katsuya Kubota
勝也 久保田
Yukio Aoki
幸夫 青木
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.)
Hitachi Ltd
Original Assignee
Hitachi 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 Hitachi Ltd filed Critical Hitachi Ltd
Priority to JP1807894A priority Critical patent/JPH07225064A/en
Publication of JPH07225064A publication Critical patent/JPH07225064A/en
Pending legal-status Critical Current

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  • Air Conditioning Control Device (AREA)

Abstract

PURPOSE:To enable operating modes of cooling and heating and water heating to be switched, to delete number of components, and to reduce in size and cost an apparatus by controlling an indoor supply fan, an outdoor supply fan, a water heater water circulating pump and one refrigerant channel switching means. CONSTITUTION:A heat pump hot water supplying apparatus comprises an annular refrigerant circuit in which an outdoor unit 15, a plurality of indoor units 16, 17 and a water heater (water heating heat exchanger) 2 are connected. The unit 15 has a compressor 1, a refrigerant path switching valve 7, an outdoor heat exchanger 8, a supply fan 12, refrigerant control means 9, etc. Both the units 16, 17 respectively have indoor heat exchangers 10, 11, and supply fans 13, 14. Further, heater 2 has water circulating means 4, 5. With such a structure, the fans 12-14 and the means 4, 5 are controlled to switch to independently cooling, heating and water heating or a parallel operation of the cooling and heating water heating.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明はヒートポンプ給湯装置に
係り、特に冷凍サイクル構成に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat pump water heater, and more particularly to a refrigeration cycle structure.

【0002】[0002]

【従来の技術】ヒートポンプ給湯装置の従来例として、
特開昭60−188772に記載のものは、冷暖房と水
加熱の他に冷凍冷蔵庫等の冷凍機負荷も接続可能とする
ための冷水槽を有する装置で、多機能にかかわらずコン
パクト化及び低コスト化が図れる装置とあるが、冷暖房
と水加熱の運転切換えだけでも複数の冷媒制御弁の切換
えが必要となる冷凍サイクル構成となっている。
2. Description of the Related Art As a conventional example of a heat pump water heater,
The device described in JP-A-60-188772 is a device having a cold water tank for connecting a refrigerator load such as a refrigerator and refrigerator in addition to cooling and heating and water heating. There is a refrigeration cycle configuration that requires switching of a plurality of refrigerant control valves just by switching between cooling and heating and water heating.

【0003】又、特開昭58−69340に記載のもの
は、冷房・暖房、水加熱の運転制御に関するものであ
り、四方弁2個と2方弁を複数切換えて運転モード移行
を行なう内容となっている。
Further, Japanese Patent Laid-Open No. 58-69340 relates to operation control of cooling / heating and water heating, and has a content of performing operation mode transition by switching two four-way valves and a plurality of two-way valves. Has become.

【0004】以上のように冷暖房と水加熱運転の運転モ
ード切換え用として、従来は複数の冷媒制御用切換え弁
を必要とする冷凍サイクル構成となっていた。
As described above, in order to switch the operation mode between the cooling and heating operation and the water heating operation, the refrigerating cycle structure conventionally requires a plurality of refrigerant control switching valves.

【0005】[0005]

【発明が解決しようとする課題】上記従来技術では、冷
暖房と水加熱運転との運転モード切換えのために複数の
冷媒制御用切換え弁を必要としていたので冷凍サイクル
構成や弁の制御が複雑になっていた。又、使用する冷媒
制御用切換え弁の数が多いほど、弁の故障や弁コイルの
誤結線による動作不良等、製品の信頼性上の問題も多く
なる。本発明の目的は、冷媒制御用切換え弁1個で冷暖
房と水加熱の運転制御が可能な冷凍サイクル構成として
部品数を減らすことにより、機器の小形化及びコスト低
減を図るとともに、製品の信頼性を上げることにある。
In the above-mentioned prior art, a plurality of refrigerant control switching valves are required for switching between the heating / cooling and water heating operation modes, so the refrigeration cycle configuration and valve control become complicated. Was there. Further, as the number of switching valves for controlling the refrigerant used increases, the problem of product reliability such as malfunction of the valve or malfunction of the valve coil due to incorrect connection will increase. An object of the present invention is to reduce the number of parts as a refrigeration cycle configuration capable of controlling the operation of cooling and heating and water heating with a single refrigerant control switching valve, thereby reducing the size and cost of the device and improving the reliability of the product. To raise.

【0006】[0006]

【課題を解決するための手段】上記目的は、冷媒循環回
路の運転停止中の熱交換器にも冷媒を循環させておき室
内機送風ファン、室外機送風ファン、水加熱器水循環ポ
ンプ及び1個の冷媒流路切換え手段を制御するだけで、
冷暖房と水加熱の運転制御を可能とすることにより達成
できる。
[Means for Solving the Problems] The above-mentioned object is to circulate the refrigerant in a heat exchanger in which the operation of the refrigerant circulation circuit is stopped so that an indoor unit blower fan, an outdoor unit blower fan, a water heater water circulation pump and one By controlling the refrigerant flow path switching means of
This can be achieved by enabling operation control of air conditioning and water heating.

【0007】[0007]

【作用】冷暖房単独運転は水加熱器水循環ポンプを停止
させ、室内機送風ファン、室外機送風ファンを運転する
ことにより可能となる。水加熱単独運転時は水加熱器水
循環ポンプと室外機送風ファンを運転し、室内機送風フ
ァンを停止することにより可能となる。暖房水加熱並行
運転は室内機送風ファン、室外機送風ファン、水加熱器
水循環ポンプを運転することにより可能となる。冷房水
加熱並行運転は水加熱器水循環ポンプと室内機送風ファ
ンを運転することで可能となり、室内熱交換器を蒸発器
として用い、冷房時の廃熱を有効利用することもでき
る。
The cooling / heating independent operation can be performed by stopping the water heater water circulation pump and operating the indoor unit blowing fan and the outdoor unit blowing fan. The water heating alone operation can be performed by operating the water heater water circulation pump and the outdoor unit blowing fan and stopping the indoor unit blowing fan. The heating water heating parallel operation can be performed by operating the indoor unit blower fan, the outdoor unit blower fan, and the water heater water circulation pump. The cooling water heating parallel operation becomes possible by operating the water heater water circulation pump and the indoor unit blower fan, and the indoor heat exchanger can be used as an evaporator to effectively use the waste heat during cooling.

【0008】[0008]

【実施例】以下、本発明の一実施例を図1により説明す
る。図1は1台の室外機15に2台の室内機16、17
を接続して空調を行なうセパレート形空調機の2室空調
時の冷凍サイク構成を示すものであり、1は圧縮機、2
は水加熱用熱交換器であり3は貯湯タンクである。4は
水循環ポンプであり貯湯タンク3の下部より水を引き、
水加熱用熱交換器2へ水を循環させる。水加熱用熱交換
器2で加熱された水は貯湯タンク3上部へ貯えられる。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIG. FIG. 1 shows one outdoor unit 15 and two indoor units 16, 17
2 shows a refrigerating cycle configuration of a separate type air conditioner that is connected to each other to perform air conditioning when two rooms are air-conditioned.
Is a heat exchanger for heating water, and 3 is a hot water storage tank. 4 is a water circulation pump that draws water from the bottom of the hot water storage tank 3,
Water is circulated to the heat exchanger 2 for heating water. The water heated in the water heating heat exchanger 2 is stored in the upper part of the hot water storage tank 3.

【0009】5は水循環量制御弁であり、弁開度を調整
することにより水加熱用熱交換器2での水加熱温度をコ
ントロールする。貯湯タンク3上部に順次貯えられる加
熱水は6の水道蛇口から容易に出湯できる。7は四方弁
等の冷媒流路切換え手段であり、室外熱交換器8と冷媒
制御手段9と室内熱交換器A10、室内熱交換器B11
の冷媒循環の方向を切換える。
Reference numeral 5 is a water circulation amount control valve, which controls the water heating temperature in the water heating heat exchanger 2 by adjusting the valve opening. The heated water sequentially stored in the upper part of the hot water storage tank 3 can be easily tapped from the tap 6 of the tap. Reference numeral 7 denotes a refrigerant flow path switching means such as a four-way valve, which is an outdoor heat exchanger 8, a refrigerant control means 9, an indoor heat exchanger A10, and an indoor heat exchanger B11.
To change the direction of refrigerant circulation.

【0010】12は室外機送風ファン、13は室内機送
風ファンA、14は室内機送風ファンBである。図2に
各運転モードに於ける冷媒流路切換え手段7と室内機送
風ファン13、14、室外機送風ファン12、及び水循
環ポンプ4の動作を示す。冷房単独運転では圧縮機1で
圧縮された高圧ガス冷媒が水加熱用熱交換器2を経て冷
媒流路切換え手段7に入る。この時水循環ポンプ4は停
止しているので水加熱用熱交換器2での熱交換はない。
Reference numeral 12 is an outdoor unit blowing fan, 13 is an indoor unit blowing fan A, and 14 is an indoor unit blowing fan B. FIG. 2 shows the operations of the refrigerant flow path switching means 7, the indoor unit blowing fans 13 and 14, the outdoor unit blowing fan 12, and the water circulation pump 4 in each operation mode. In the cooling only operation, the high pressure gas refrigerant compressed by the compressor 1 enters the refrigerant flow path switching means 7 through the water heating heat exchanger 2. At this time, since the water circulation pump 4 is stopped, there is no heat exchange in the water heating heat exchanger 2.

【0011】圧縮機運転による圧縮機吐出側の高圧冷媒
は、冷媒流路切換え手段7から室外熱交換器8、温度式
膨張弁・電動膨張弁・キャピラリチューブ等の冷媒制御
手段9、室内熱交換器A10、B11の順に循環し、室
外機送風ファン12の運転により室外熱交換器8で熱交
換されて凝縮し、更に冷媒制御手段9で減圧されて低温
となり、室内熱交換器A10、B11に送られる。
The high-pressure refrigerant on the compressor discharge side during the operation of the compressor is supplied from the refrigerant flow path switching means 7, the outdoor heat exchanger 8, the refrigerant control means 9 such as a thermal expansion valve, an electric expansion valve, a capillary tube, and the indoor heat exchange. It circulates in the order of the units A10 and B11, is heat-exchanged and condensed in the outdoor heat exchanger 8 by the operation of the outdoor unit blower fan 12, and is further decompressed by the refrigerant control means 9 to have a low temperature, and is then transferred to the indoor heat exchangers A10 and B11. Sent.

【0012】室内機送風ファンA13、B14の運転に
より冷房運転が行なえ、冷媒は圧縮機1の吸込側へ戻
る。暖房単独運転時も高圧ガス冷媒が冷媒流路切換え手
段7に入るまでは冷房単独運転と同様の動作となり、室
内熱交換器A10、B11、冷媒制御手段9、室外熱交
換器8の順に冷媒が循環し、室内機送風ファンA13、
B14及び室外機送風ファン12の運転により室内熱交
換器A10、B11が凝縮器、室外熱交換器8が蒸発器
となり暖房運転が行なえる。
The indoor unit blowing fans A13 and B14 are operated to perform the cooling operation, and the refrigerant returns to the suction side of the compressor 1. Even in the heating only operation, the same operation as the cooling only operation is performed until the high pressure gas refrigerant enters the refrigerant flow path switching means 7, and the refrigerant is sequentially supplied to the indoor heat exchangers A10 and B11, the refrigerant control means 9, and the outdoor heat exchanger 8. Circulating, indoor unit blower fan A13,
By operating B14 and the outdoor unit blower fan 12, the indoor heat exchangers A10 and B11 serve as condensers and the outdoor heat exchanger 8 serves as an evaporator, so that heating operation can be performed.

【0013】水加熱単独運転の場合、水循環ポンプ4の
運転により水加熱用熱交換器2で水加熱が行なわれるた
め、冷媒流路切換え手段7入口では冷媒は低温状態とな
る。室内熱交換器A10、B11、冷媒制御手段9、室
外熱交換器8の順に冷媒が循環するが、室内機送風ファ
ンA13、B14は運転を停止しているので冷媒は素通
りして冷媒制御手段9で減圧され室外熱交換器8へ送ら
れる。室外機送風ファン12の運転により室外熱交換器
8が蒸発器となって水加熱単独運転が行なえる。
In the case of the water heating only operation, the water circulation pump 4 is operated to heat the water in the water heating heat exchanger 2, so that the refrigerant is in a low temperature state at the inlet of the refrigerant passage switching means 7. The refrigerant circulates in the order of the indoor heat exchangers A10 and B11, the refrigerant control means 9, and the outdoor heat exchanger 8. However, since the indoor unit blower fans A13 and B14 have stopped operating, the refrigerant passes through and the refrigerant control means 9 It is decompressed by and sent to the outdoor heat exchanger 8. By the operation of the outdoor unit blower fan 12, the outdoor heat exchanger 8 serves as an evaporator so that the water heating independent operation can be performed.

【0014】暖房水加熱並行運転は暖房単独運転に水循
環ポンプ4の運転を付加すれば実現できる。このとき水
循環量制御弁5の調整により水加熱と暖房の能力配分を
行なう。例えば、暖房運転開始時などの暖房負荷が大き
い時は水循環量制御弁5の弁開度を小さくして水循環量
を控えめにし、水加熱用熱交換器2での熱交換量を少な
くする。
The heating water heating parallel operation can be realized by adding the operation of the water circulation pump 4 to the heating independent operation. At this time, the capacity of water heating and heating is distributed by adjusting the water circulation amount control valve 5. For example, when the heating load is large, such as at the start of heating operation, the valve opening of the water circulation amount control valve 5 is reduced to reduce the water circulation amount and reduce the heat exchange amount in the water heating heat exchanger 2.

【0015】又、部屋が十分暖かく、暖房負荷が小さい
時は水循環量制御弁5の弁開度を大きくして水循環量を
増やし、水加熱用熱交換器2での熱交換量を多くする。
又、圧縮機1に回転数可変型圧縮機を使用して水加熱用
熱交換器2、室内熱交換器A10、B11での所要熱交
換量を確保することもできる。冷房水加熱並行運転は冷
房単独運転時の冷媒循環経路で水循環ポンプ4を運転
し、室外機送風ファン12を停止することで実現でき
る。
When the room is sufficiently warm and the heating load is small, the opening degree of the water circulation amount control valve 5 is increased to increase the water circulation amount and increase the heat exchange amount in the water heating heat exchanger 2.
It is also possible to use a variable speed compressor for the compressor 1 to ensure the required heat exchange amount in the water heating heat exchanger 2 and the indoor heat exchangers A10, B11. The cooling water heating parallel operation can be realized by operating the water circulation pump 4 in the refrigerant circulation path during the cooling only operation and stopping the outdoor unit blowing fan 12.

【0016】この時、水循環ポンプ4と室内機送風ファ
ンA13、B14が運転し、水加熱用熱交換器2が凝縮
器、室内熱交換器A10、B11が蒸発器となり、冷房
運転時の廃熱を有効利用することもできる。この時、水
加熱量と冷房負荷とがアンバランスになる場合には室外
機送風ファン12の回転数を制御することで、良好な運
転が継続できる。
At this time, the water circulation pump 4 and the indoor unit blowing fans A13 and B14 are operated, the water heating heat exchanger 2 is a condenser, and the indoor heat exchangers A10 and B11 are evaporators, and the waste heat during cooling operation is used. Can be effectively used. At this time, when the water heating amount and the cooling load are unbalanced, the operation can be continued satisfactorily by controlling the rotation speed of the outdoor unit blower fan 12.

【0017】以上のように、室内機送風ファンA13、
B14、室外機送風ファン12、水加熱器水循環ポンプ
5、圧縮機1の運転を制御するだけで、冷暖房単独運
転、水加熱単独運転、冷房水加熱並行運転、暖房水加熱
並行運転の運転モード切換えが冷媒流路切換え手段1個
の簡単な冷凍サイクルの構成で可能となる。又、冷媒流
路切換え手段1個の冷凍サイクル構成であるため信頼性
が向上する。
As described above, the indoor unit blower fan A13,
B14, outdoor unit blower fan 12, water heater water circulation pump 5, just by controlling the operation of the compressor 1, operation mode switching of cooling and heating alone operation, water heating alone operation, cooling water heating parallel operation, heating water heating parallel operation Can be realized by a simple refrigeration cycle configuration with one refrigerant flow path switching means. Further, since the refrigeration cycle has only one refrigerant flow path switching means, the reliability is improved.

【0018】更に、室内機送風ファンA13、B14、
水循環量制御弁5、室外機送風ファン12、圧縮機1の
運転を制御することにより、室内負荷、水加熱負荷に応
じて適正な冷凍サイクル運転ができ、無駄が無くなり運
転維持費が低減できる。又、水加熱運転時に水循環量制
御弁5を用いずに水循環ポンプ4が速度可変型のもので
あってもよい。水加熱運転時に水加熱用熱交換機2の冷
媒入口側温度または加熱水出口温度を検出して所定温度
以下の時は、水循環ポンプ4を停止しておけば貯湯タン
ク3内上部に低温水が混入するのを防止できる。
Further, the indoor unit blower fans A13, B14,
By controlling the operation of the water circulation amount control valve 5, the outdoor unit blower fan 12, and the compressor 1, an appropriate refrigeration cycle operation can be performed in accordance with the indoor load and the water heating load, and waste can be reduced to reduce operation maintenance costs. Further, the water circulation pump 4 may be of a variable speed type without using the water circulation amount control valve 5 during the water heating operation. When the coolant inlet side temperature or the heated water outlet temperature of the water heating heat exchanger 2 is detected during the water heating operation and the temperature is below a predetermined temperature, if the water circulation pump 4 is stopped, low temperature water is mixed in the upper part of the hot water storage tank 3. Can be prevented.

【0019】圧縮機1の回転数、室外ファン12の回転
数、温度式膨張弁・電動膨張弁・キャピラリチューブ等
の冷媒制御手段9による冷媒制御量、室内ファン13、
14の回転数、水循環ポンプ4、水循環量制御弁5、冷
媒制御手段9の弁開度を制御することにより、冷房単独
運転、暖房単独運転、水加熱単独運転、冷房水加熱並行
運転、暖房水加熱並行運転時の各運転モードに於ける低
負荷時や高負荷時の運転に対応できる。例えば、暖房水
加熱並行運転モードで外気温が低く暖房負荷と水加熱負
荷が大きい時には圧縮機1の回転数を増加して必要な暖
房量と水加熱量が確保できるようにする。
The number of revolutions of the compressor 1, the number of revolutions of the outdoor fan 12, the refrigerant control amount by the refrigerant control means 9 such as a temperature type expansion valve, an electric expansion valve, a capillary tube, an indoor fan 13,
By controlling the number of revolutions of 14, the water circulation pump 4, the water circulation amount control valve 5, and the valve opening degree of the refrigerant control means 9, cooling alone operation, heating alone operation, water heating alone operation, cooling water heating parallel operation, heating water It is possible to support low load and high load operation in each operation mode during parallel heating operation. For example, in the heating water heating parallel operation mode, when the outside air temperature is low and the heating load and the water heating load are large, the rotation speed of the compressor 1 is increased so that the required heating amount and water heating amount can be secured.

【0020】暖房負荷が小さくなったら室内ファン1
3、14の回転数を低く抑えるか停止して、水循環量制
御弁5の弁開度を大きくして水加熱量を多くすることが
でき、又、貯湯タンク3の貯湯量が十分にある場合は水
循環ポンプ4を停止するか水循環量制御弁5の弁開度を
小さくして水加熱用熱交換機2での熱交換量を少なくす
ることで、暖房量を十分確保できる。又、暖房と水加熱
両方の負荷が小さい時は圧縮機1の回転数を負荷に応じ
て低く抑え、経済的な運転を行なう。
When the heating load becomes small, the indoor fan 1
When the number of revolutions of Nos. 3 and 14 is kept low or stopped, the valve opening of the water circulation amount control valve 5 can be increased to increase the amount of water heating, and the amount of hot water stored in the hot water storage tank 3 is sufficient. A sufficient heating amount can be secured by stopping the water circulation pump 4 or reducing the valve opening of the water circulation amount control valve 5 to reduce the heat exchange amount in the water heating heat exchanger 2. Further, when the load of both heating and water heating is small, the rotational speed of the compressor 1 is kept low according to the load, and economical operation is performed.

【0021】図4に暖房水加熱運転時の運転制御の一例
を示す。外気温が高い冷房シーズンには冷房時の廃熱を
水加熱に利用する冷房水加熱並行運転を行ない、冷房負
荷相当の水加熱量が得られる。また、冷房水加熱運転時
に冷房負荷が大きくて貯湯タンク3の貯湯量が十分にあ
る場合は水循環ポンプ4を停止して水加熱用熱交換機2
での熱交換がないようにしておき、室外ファン12を運
転して室外熱交換機8を凝縮器として用いる冷房単独運
転モードとなり冷房運転を維持する制御が行なえる。
FIG. 4 shows an example of operation control during heating water heating operation. In the cooling season when the outside temperature is high, the cooling water heating parallel operation is performed by using the waste heat during cooling to heat the water, and the amount of water heating equivalent to the cooling load can be obtained. When the cooling load is large during the cooling water heating operation and the amount of hot water stored in the hot water storage tank 3 is sufficient, the water circulation pump 4 is stopped and the heat exchanger 2 for heating water is heated.
With no heat exchange in place, the outdoor fan 12 is operated to enter the cooling only operation mode in which the outdoor heat exchanger 8 is used as a condenser, and control for maintaining the cooling operation can be performed.

【0022】貯湯タンク3から出湯があり残湯量が少な
くなったり、貯湯タンク3が自然放熱により所定温度よ
り低くなると水循環ポンプ4が運転して室外ファン12
が停止し、水加熱用熱交換機2が凝縮器となり、冷房水
加熱並行運転モードとなる。又、冷房負荷が小さくて水
加熱負荷が大きい時は、室内ファン13、14を停止
し、室外ファン12を運転して所定湯量が確保できるま
で水加熱単独運転を行ない、その後は低負荷運転を行な
うなど、負荷に応じたシステムの制御が可能である。
When the hot water storage tank 3 discharges hot water to reduce the amount of remaining hot water, or when the hot water storage tank 3 falls below a predetermined temperature due to natural heat radiation, the water circulation pump 4 is operated and the outdoor fan 12 is operated.
Is stopped, the water heating heat exchanger 2 becomes a condenser, and the cooling water heating parallel operation mode is set. Further, when the cooling load is small and the water heating load is large, the indoor fans 13 and 14 are stopped, the outdoor fan 12 is operated and the water heating independent operation is performed until a predetermined amount of hot water is secured, and then the low load operation is performed. It is possible to control the system according to the load, for example.

【0023】更に、水加熱運転制御に学習機能を設けて
1日の出湯パターンを認識させることで、水加熱運転の
時間帯制御が可能となる。例えば、出湯量が多い浴槽湯
張りの時間帯までに貯湯タンク3に所定の湯量が確保で
きるようにある時間帯だけ水加熱運転を優先させたり、
出湯量の少ない時間帯に不要な水加熱運転をしないよう
な制御が可能である。各運転モードに於いて、サーモO
FF時や貯湯タンク3が満水沸き上がり時などで冷暖房
及び水加熱運転が不要である場合、室内機送風ファンA
13、B14、及び水循環ポンプ4を停止しておく。
Further, by providing a learning function in the water heating operation control and recognizing the hot water pattern for one sunrise, the time zone control of the water heating operation becomes possible. For example, the water heating operation may be prioritized only during a certain period so that a predetermined amount of hot water can be secured in the hot water storage tank 3 by the time when the bathtub is filled with a large amount of hot water.
It is possible to perform control so that unnecessary water heating operation is not performed during the time when the amount of hot water discharged is small. Thermo O in each operation mode
When cooling / heating and water heating operations are not required, such as during FF or when the hot water storage tank 3 is full of water, indoor unit blower fan A
13, B14, and the water circulation pump 4 are stopped.

【0024】又、室温変化時や貯湯タンク3から出湯が
あり冷暖房及び水加熱運転が必要な時は、直ちに温風や
冷風が得られ、水加熱が行なえる。図3は前記実施例よ
り更に実用化を図った冷凍サイクルの構成を示したもの
である。この例は、図1に於ける冷媒制御手段9を各空
調負荷毎に設け、各室内機の空調負荷に応じて冷媒制御
手段9a、9bの弁開度を制御し、各空調負荷の圧力バ
ランスが適正になるようにしたものと、暖房サイクル時
に停止中の室内機A16、B17から発せられる冷媒音
を低減するための消音器A18a、B18bを設けた冷
凍サイクル構成になっている。その他は図1に於ける実
施例と同様である。
Further, when the room temperature changes or when hot water is discharged from the hot water storage tank 3 and heating / cooling and water heating operations are required, warm air or cold air can be immediately obtained and water heating can be performed. FIG. 3 shows the structure of a refrigeration cycle which is more practical than the above-mentioned embodiment. In this example, the refrigerant control means 9 in FIG. 1 is provided for each air conditioning load, the valve opening of the refrigerant control means 9a, 9b is controlled according to the air conditioning load of each indoor unit, and the pressure balance of each air conditioning load is controlled. And a silencer A18a, B18b for reducing the refrigerant noise emitted from the indoor units A16, B17 that are stopped during the heating cycle. Others are the same as those in the embodiment shown in FIG.

【0025】以上の実施例におけるシステム制御の概略
を図4に示すブロック図により説明する。水加熱負荷の
有無を検出して水加熱運転が必要な場合、水加熱用熱交
換器を流れる冷媒の温度に応じて水循環量制御弁の開度
を調整し、所定の水加熱温度が得られるようにする。所
定の水加熱ができる状態になった時点で水循環ポンプを
駆動して水加熱運転を開始する。
An outline of the system control in the above embodiment will be described with reference to the block diagram shown in FIG. When the presence or absence of a water heating load is detected and water heating operation is required, the opening degree of the water circulation control valve is adjusted according to the temperature of the refrigerant flowing through the water heating heat exchanger to obtain the prescribed water heating temperature. To do so. When the water can be heated to a predetermined level, the water circulation pump is driven to start the water heating operation.

【0026】また、空気調和運転が必要になった場合
は、冷房・暖房の設定に応じて四方弁等の冷媒流路切換
弁の制御を行なった後、室内熱交換器を流れる冷媒温度
を検出して、所定温度の空気調和をできる状態になった
時点で室内機の送風ファンを駆動する。その後負荷に応
じた空気調和運転ができるように室内機の送風ファンの
回転数を制御する。前記水加熱負荷と空気調和負荷、及
び室外気温、室外熱交換器の温度に応じて圧縮機の回転
数と室外機の送風ファン、及び負荷に応じて冷凍サイク
ルのバランスを適正にするため膨張弁などの冷媒制御手
段を調整することで、システム全体の制御が行なえる。
When the air-conditioning operation is required, the temperature of the refrigerant flowing through the indoor heat exchanger is detected after controlling the refrigerant flow path switching valve such as a four-way valve according to the setting of cooling and heating. Then, the blower fan of the indoor unit is driven when the air conditioning at a predetermined temperature is achieved. After that, the rotation speed of the blower fan of the indoor unit is controlled so that the air-conditioning operation according to the load can be performed. The water heating load and the air conditioning load, and the outdoor air temperature, the blower fan of the outdoor unit and the rotation speed of the compressor according to the temperature of the outdoor heat exchanger, and an expansion valve for proper balance of the refrigeration cycle according to the load The entire system can be controlled by adjusting the refrigerant control means such as.

【0027】[0027]

【発明の効果】本発明によれば、室内機送風ファン、室
外機送風ファン、水加熱器水循環ポンプ及び1個の冷媒
流路切換え手段の運転を制御するだけで、冷暖房と水加
熱運転の運転モード切換えが可能であり、冷媒制御用切
換え弁の数が減り、冷凍サイクル構成部品数が削減でき
るため、機器の小形化及びコスト低減が図れるととも
に、製品の信頼性を上げることができる。
According to the present invention, the operation of the cooling / heating and the water heating operation can be performed only by controlling the operation of the indoor unit blower fan, the outdoor unit blower fan, the water heater water circulation pump, and the one refrigerant flow path switching means. Mode switching is possible, the number of refrigerant control switching valves is reduced, and the number of refrigeration cycle components can be reduced, so that downsizing of equipment and cost reduction can be achieved, and product reliability can be improved.

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

【図1】本実施例の冷凍サイクル構成図FIG. 1 is a configuration diagram of a refrigeration cycle of this embodiment

【図2】本実施例の運転切換え動作図FIG. 2 is an operation switching operation diagram of this embodiment.

【図3】本実施例の冷凍サイクル構成図FIG. 3 is a configuration diagram of a refrigeration cycle of this embodiment

【図4】本実施例の冷凍サイクルのシステム制御の概略
を示すブロック図である。
FIG. 4 is a block diagram showing an outline of system control of the refrigeration cycle of the present embodiment.

【符号の説明】[Explanation of symbols]

1…圧縮機 2…水加熱用熱交換器 3…貯湯タンク
4…水循環ポンプ 5…水循環量制御弁 6…水道蛇口
7…冷媒流路切換弁 8…室外熱交換器 9…冷媒制
御手段 10…室内熱交換器A 11…室内熱交換器B
12…室外機送風ファン 13…室内機送風ファンA
14…室内機送風ファンB 15…室外機 16…室
内機A 17…室内機B
1 ... Compressor 2 ... Heat exchanger for heating water 3 ... Hot water storage tank
4 ... water circulation pump 5 ... water circulation amount control valve 6 ... water faucet 7 ... refrigerant flow path switching valve 8 ... outdoor heat exchanger 9 ... refrigerant control means 10 ... indoor heat exchanger A 11 ... indoor heat exchanger B
12 ... Outdoor unit blower fan 13 ... Indoor unit blower fan A
14 ... Indoor unit blower fan B 15 ... Outdoor unit 16 ... Indoor unit A 17 ... Indoor unit B

Claims (4)

【特許請求の範囲】[Claims] 【請求項1】圧縮機、冷媒流路切換え手段、室外側熱交
換器、室外機の送風手段、冷媒制御手段を有する室外機
と、室内側熱交換器と室内機の送風手段を有する室内機
と、水の流動する内管の外周を冷媒凝縮用パイプで覆っ
た水加熱用熱交換器から成る水加熱器とを接続して環状
の冷媒回路を構成するヒートポンプ給湯装置に於いて、
前記室外機と室内機の送風手段、及び前記水加熱器の水
循環手段を制御して、冷房単独運転、暖房単独運転、水
加熱単独運転、冷房水加熱並行運転、暖房水加熱並行運
転を切換える冷凍サイクル構成を特徴とするヒートポン
プ給湯装置。
1. An outdoor unit having a compressor, a refrigerant flow path switching unit, an outdoor heat exchanger, an outdoor unit air blowing unit, a refrigerant control unit, and an indoor unit having an indoor heat exchanger and an indoor unit air blowing unit. In a heat pump hot water supply device that forms an annular refrigerant circuit by connecting a water heater composed of a water heating heat exchanger in which the outer circumference of an inner tube through which water flows is covered with a refrigerant condensation pipe,
Refrigeration for controlling the air-blowing means of the outdoor unit and the indoor unit, and the water circulating means of the water heater to switch between cooling alone operation, heating alone operation, water heating alone operation, cooling water heating parallel operation, and heating water heating parallel operation. A heat pump water heater with a cycle configuration.
【請求項2】圧縮機、冷媒流路切換え手段、室外側熱交
換器、冷媒制御手段から成る室外機と、室内側熱交換器
から成る室内機と、水の流動する内管の外周を冷媒凝縮
用パイプで覆った水加熱用熱交換器から成る水加熱器と
を接続して環状の冷媒回路を構成するヒートポンプ給湯
装置に於いて、冷房単独運転、暖房単独運転、水加熱単
独運転、冷房水加熱並行運転、暖房水加熱並行運転の各
運転モード切換え時に、冷媒循環方向切換えを1個の冷
媒流路切換え手段で行なう冷凍サイクル構成を特徴とす
るヒートポンプ給湯装置。
2. An outdoor unit including a compressor, a refrigerant flow path switching means, an outdoor heat exchanger, and a refrigerant control means, an indoor unit including an indoor heat exchanger, and an outer circumference of an inner pipe through which water flows. In a heat pump water heater that forms a ring-shaped refrigerant circuit by connecting to a water heater consisting of a water heating heat exchanger covered with a condensing pipe, cooling alone operation, heating alone operation, water heating alone operation, cooling A heat pump hot water supply apparatus characterized by a refrigeration cycle configuration in which a refrigerant circulation direction is switched by a single refrigerant flow path switching means when switching between operation modes of water heating parallel operation and heating water heating parallel operation.
【請求項3】圧縮機、冷媒流路切換え手段、室外側熱交
換器、冷媒制御手段から成る室外機と、室内側熱交換器
から成る室内機と、水の流動する内管の外周を冷媒凝縮
用パイプで覆った水加熱用熱交換器から成る水加熱器と
を接続して環状の冷媒回路を構成するヒートポンプ給湯
装置に於いて、冷媒循環回路の圧縮機吐出側と、冷暖房
時の冷媒循環方向切換え用四方弁の間に、水加熱用熱交
換器を直列に接続し、圧縮機運転中は、冷媒回路の全て
の熱交換器に冷媒を循環させる冷凍サイクル構成を特徴
とするヒートポンプ給湯装置。
3. An outdoor unit consisting of a compressor, a refrigerant flow path switching means, an outdoor heat exchanger, a refrigerant control means, an indoor unit consisting of an indoor heat exchanger, and an outer circumference of an inner pipe through which water flows. In a heat pump water heater that forms a ring-shaped refrigerant circuit by connecting a water heater consisting of a water heating heat exchanger covered with a condensing pipe, the compressor discharge side of the refrigerant circulation circuit and the refrigerant during cooling and heating. Heat pump hot water supply characterized by a refrigeration cycle configuration in which a water heating heat exchanger is connected in series between circulation direction switching four-way valves and refrigerant is circulated to all heat exchangers in the refrigerant circuit during compressor operation. apparatus.
【請求項4】圧縮機、冷媒流路切換え手段、室外側熱交
換器、冷媒制御手段から成る室外機と、室内側熱交換器
から成る室内機と、水の流動する内管の外周を冷媒凝縮
用パイプで覆った水加熱用熱交換器から成る水加熱器と
を接続して環状の冷媒回路を構成するヒートポンプ給湯
装置に於いて、冷房単独運転、暖房単独運転、水加熱単
独運転、冷房水加熱並行運転、暖房水加熱並行運転の各
運転モードの負荷に応じて、空調、水加熱の所要温度を
得るように圧縮機、室外ファン、温度式膨張弁・電動膨
張弁・キャピラリチューブ等の冷媒制御手段、室内ファ
ン、水循環ポンプの少なくともいずれか1つを制御する
ことを特徴とするヒートポンプ給湯装置。
4. An outdoor unit consisting of a compressor, a refrigerant flow path switching means, an outdoor heat exchanger, a refrigerant control means, an indoor unit consisting of an indoor heat exchanger, and an outer circumference of an inner pipe through which water flows. In a heat pump water heater that forms a ring-shaped refrigerant circuit by connecting to a water heater consisting of a water heating heat exchanger covered with a condensing pipe, cooling alone operation, heating alone operation, water heating alone operation, cooling Depending on the load of each operation mode of water heating parallel operation, heating water heating parallel operation, compressor, outdoor fan, thermal expansion valve, electric expansion valve, capillary tube, etc. to obtain the required temperature for air conditioning and water heating. A heat pump water heater which controls at least one of a refrigerant control means, an indoor fan, and a water circulation pump.
JP1807894A 1994-02-15 1994-02-15 Heat pump hot water supplying apparatus Pending JPH07225064A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP1807894A JPH07225064A (en) 1994-02-15 1994-02-15 Heat pump hot water supplying apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP1807894A JPH07225064A (en) 1994-02-15 1994-02-15 Heat pump hot water supplying apparatus

Publications (1)

Publication Number Publication Date
JPH07225064A true JPH07225064A (en) 1995-08-22

Family

ID=11961624

Family Applications (1)

Application Number Title Priority Date Filing Date
JP1807894A Pending JPH07225064A (en) 1994-02-15 1994-02-15 Heat pump hot water supplying apparatus

Country Status (1)

Country Link
JP (1) JPH07225064A (en)

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