JP2009074797A - Heat pump water heater - Google Patents

Heat pump water heater Download PDF

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JP2009074797A
JP2009074797A JP2009005631A JP2009005631A JP2009074797A JP 2009074797 A JP2009074797 A JP 2009074797A JP 2009005631 A JP2009005631 A JP 2009005631A JP 2009005631 A JP2009005631 A JP 2009005631A JP 2009074797 A JP2009074797 A JP 2009074797A
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hot water
storage tank
water
heat pump
water storage
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JP4670965B2 (en
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Ryuichi Hiramoto
立一 平本
Koryu Watanabe
興隆 渡邊
Tetsuji Nanatane
哲二 七種
Masaki Toyoshima
正樹 豊島
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Mitsubishi Electric Corp
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Mitsubishi Electric Corp
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a heat pump water heater, preventing hot water shortage by always discharging hot water kept to a preset temperature from a mixing valve even when high temperature water in a hot water storage tank is used in a large quantity in a bathtub and a faucet side. <P>SOLUTION: This heat pump water heater includes: a heat pump type heater 4; switching means 13, 14 for selecting a pipe where water heated by the heat pump type heater 4 flows, a pipe FP1 for guiding heated water to the hot water storage tank 1, or pipes FP4a, FP2 for guiding heated water to the mixing valve 11; and a pipe FP2 for guiding water from the hot water storage tank 1 to the high temperature water side of the mixing valve 11. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

この発明は、貯湯タンク内の水を沸き上げるヒートポンプ給湯器に関するものである。   The present invention relates to a heat pump water heater for boiling water in a hot water storage tank.

図5は、従来のヒートポンプ給湯器を示すシステム構成図である。図5において、1は貯湯タンク、2は貯湯タンク1内に設けられて水を加熱する発熱体、3は貯湯タンク1の下方の外壁部に取り付けられて、そのタンク1内の水の温度を検出する温度検出器である。4は貯湯タンク1内の水を加熱するヒートポンプ式加熱装置であり、圧縮機5、凝縮器6、減圧装置7、蒸発器8を順次連結した冷媒回路から構成する。   FIG. 5 is a system configuration diagram showing a conventional heat pump water heater. In FIG. 5, 1 is a hot water storage tank, 2 is a heating element provided in the hot water storage tank 1 for heating water, and 3 is attached to an outer wall portion below the hot water storage tank 1 to control the temperature of water in the tank 1. It is a temperature detector to detect. 4 is a heat pump type heating device that heats the water in the hot water storage tank 1, and is composed of a refrigerant circuit in which a compressor 5, a condenser 6, a pressure reducing device 7, and an evaporator 8 are sequentially connected.

また、ヒートポンプ式加熱装置4を構成する凝縮器6に接続する配管を介して水を循環する循環ポンプ9および水の循環流量を調整する流量調整弁10が設けられる。さらに、貯湯タンク1の上方に位置する出口部に接続される配管を介して混合弁11が設けられる。12は温度検出器3からの出力に基づいて発熱体2、ヒートポンプ式加熱装置4、循環ポンプ9の動作を断続的に行わせる制御部である。   Further, a circulation pump 9 that circulates water through a pipe connected to a condenser 6 that constitutes the heat pump type heating device 4 and a flow rate adjustment valve 10 that adjusts the circulation flow rate of water are provided. Furthermore, a mixing valve 11 is provided via a pipe connected to an outlet located above the hot water storage tank 1. Reference numeral 12 denotes a control unit that intermittently operates the heating element 2, the heat pump type heating device 4, and the circulation pump 9 based on the output from the temperature detector 3.

次に、こうした構成を有するヒートポンプ給湯器の沸き上げ動作について、図5に示すシステム構成図を併用して説明する。貯湯タンク1内にその下部から水を供給して満タン状態に至った後で、沸き上げ動作を開始する。これにより、圧縮機5が運転を開始し、圧縮された一次冷媒ガスは配管を通じて凝縮器6の方に流れる。そして、凝縮器6から出た一次冷媒ガスの圧力は減圧装置7によって低下する状態となり、低圧レベルに維持された二次冷媒ガスは蒸発器8の方へと流れる。こうした冷媒の流れにより、凝縮器6側は高温状態、蒸発器8側が低温状態となる。次に、貯湯タンク1内の水はその下部から抜け出て、循環ポンプ9から流量調整弁10を通過し、さらに高温状態に維持される凝縮器6を経て貯湯タンク1の中央部から入り込む。   Next, the heating operation of the heat pump water heater having such a configuration will be described with reference to the system configuration diagram shown in FIG. After water is supplied into the hot water storage tank 1 from the lower part to reach a full tank state, the boiling operation is started. Thereby, the compressor 5 starts operation, and the compressed primary refrigerant gas flows toward the condenser 6 through the pipe. Then, the pressure of the primary refrigerant gas coming out of the condenser 6 is lowered by the decompression device 7, and the secondary refrigerant gas maintained at the low pressure level flows toward the evaporator 8. Due to the refrigerant flow, the condenser 6 side is in a high temperature state and the evaporator 8 side is in a low temperature state. Next, the water in the hot water storage tank 1 escapes from the lower part thereof, passes through the flow rate adjustment valve 10 from the circulation pump 9, and enters the central part of the hot water storage tank 1 through the condenser 6 maintained at a high temperature.

そして、貯湯タンク1内の水は再びその下部から抜け出て、循環ポンプ9から凝縮器6を通過して貯湯タンク1の中央部から入り込む。こうした水の循環動作により、貯湯タンク1内の水は凝縮器6を通り所定温度に加熱され、貯湯タンク1内で水との温度差により上部から積層される。なお、発熱体2は圧縮機5などの故障により凝縮器6において加熱できない又は外気温度により所定の高温水が供給できないことを防止するために設けられている。次に、貯湯タンク1内には高温水が作られて、その高温水は混合弁11の高温水側(図5中のA部)へ、さらに水源からの水は混合弁11の低温水側(図5中のB部)にそれぞれ流れていく。そして、混合弁11により適温状態の温水が作られて例えば浴槽側や蛇口側へ供給される。   Then, the water in the hot water storage tank 1 again escapes from the lower portion, passes through the condenser 6 from the circulation pump 9 and enters the central portion of the hot water storage tank 1. By such a water circulation operation, the water in the hot water storage tank 1 passes through the condenser 6 and is heated to a predetermined temperature, and is stacked from above in the hot water storage tank 1 due to a temperature difference with the water. The heating element 2 is provided in order to prevent the condenser 6 from being heated due to a failure of the compressor 5 or the like, or being unable to supply predetermined high-temperature water due to the outside air temperature. Next, high-temperature water is produced in the hot water storage tank 1, and the high-temperature water is directed to the high-temperature water side (A part in FIG. 5) of the mixing valve 11, and the water from the water source is the low-temperature water side of the mixing valve 11. (B section in FIG. 5). And the warm water of an appropriate temperature state is made with the mixing valve 11, and is supplied to the bathtub side or the faucet side, for example.

従来のヒートポンプ給湯器は、前述のように貯湯タンク内に高温水を貯め、必要に応じて混合弁から出た温水を浴槽側および蛇口側へ供給するシステム構成となっている。しかし、貯湯タンク内の高温水を例えば浴槽側や蛇口側などで多量に使用した場合に、その使用量に相当する水が貯湯タンク内に供給される。これにより、貯湯タンク内の高温水の温度は低くなり、混合弁から設定温度よりも低い温水が出る即ち“湯切れ”という問題を生じる。   A conventional heat pump water heater has a system configuration in which hot water is stored in a hot water storage tank as described above and hot water discharged from a mixing valve is supplied to a bathtub side and a faucet side as needed. However, when a large amount of hot water in the hot water storage tank is used, for example, on the bathtub side or faucet side, water corresponding to the amount used is supplied into the hot water storage tank. As a result, the temperature of the high-temperature water in the hot water storage tank is lowered, and there arises a problem that hot water lower than the set temperature is discharged from the mixing valve, that is, “hot water out”.

この発明は、前述のような問題点を解決するためになされたもので、貯湯タンク内の高温水を浴槽側および蛇口側などで多量に使用した場合でも、常に混合弁から設定温度に保たれた温水が出るようにして“湯切れ”を未然に防止することを目的としたものである。   The present invention has been made to solve the above-described problems. Even when a large amount of high-temperature water in the hot water storage tank is used on the bathtub side or the faucet side, the mixing valve is always kept at the set temperature. The purpose is to prevent “hot water out” by allowing hot water to come out.

ヒートポンプ式加熱装置と、ヒートポンプ式加熱装置で加熱される機構を介して水を貯湯タンクに導く配管と、貯湯タンク内から水を導く配管とを備え、貯湯タンク内から水を導く配管又はヒートポンプ式加熱装置で加熱される機構を介して水を貯湯タンクに導く配管のうちいずれか一方を混合弁に導くようにした。   A heat pump type heating device, a pipe for guiding water to the hot water storage tank through a mechanism heated by the heat pump type heating device, and a pipe for guiding water from the hot water storage tank, or a pipe for guiding water from the hot water storage tank or a heat pump type One of the pipes for guiding water to the hot water storage tank through the mechanism heated by the heating device is led to the mixing valve.

ヒートポンプ式加熱装置と、ヒートポンプ式加熱装置で加熱される機構を介して水を貯湯タンクに導く配管と、貯湯タンクの温度を検出する温度検出器と、貯湯タンク内から水を導く配管とを備え、温度検出器の検出結果に基づいて、貯湯タンク内から水を導く配管又はヒートポンプ式加熱装置で加熱される機構を介して水を貯湯タンクに導く配管のうちいずれか一方を混合弁に導くようにした。   A heat pump type heating device, a pipe for guiding water to the hot water storage tank through a mechanism heated by the heat pump type heating device, a temperature detector for detecting the temperature of the hot water storage tank, and a pipe for guiding water from the hot water storage tank Based on the detection result of the temperature detector, either one of the pipe for guiding water from the hot water storage tank or the pipe for guiding water to the hot water storage tank through a mechanism heated by a heat pump type heating device is guided to the mixing valve. I made it.

この発明のヒートポンプ給湯器は、上述のように構成されているので、“湯切れ”を未然に防止することが可能である。   Since the heat pump water heater of the present invention is configured as described above, it is possible to prevent “hot water out”.

この発明のヒートポンプ給湯器に係る実施の形態1を示すシステム構成図 である。BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a system configuration diagram showing Embodiment 1 according to a heat pump water heater of the present invention. 実施の形態1を示す他のシステム構成図である。FIG. 3 is another system configuration diagram showing the first embodiment. 実施の形態1におけるシステム構成の動作の流れを示すフローチャート図 である。FIG. 3 is a flowchart showing a flow of operation of the system configuration in the first embodiment. 実施の形態1を示すさらに他のシステム構成図である。FIG. 6 is still another system configuration diagram showing the first embodiment. 従来のヒートポンプ給湯器のシステム構成図である。It is a system block diagram of the conventional heat pump water heater.

実施の形態1.
図1と図2は、この発明のヒートポンプ給湯器に係る実施の形態1を示すシステム構成図、図3はそのシステム構成の動作の流れを示すフローチャート図である。図1と図2において、従来例と同一の符号は同一または相当部分を示す。13は貯湯タンク1の中央部と凝縮器6との間に配管を介して接続する第1の電動切換弁、14は貯湯タンク1の出口部と混合弁11の高温水側(図1、図2中のC部)との間に配管を介して接続する第2の電動切換弁、15は水源側と混合弁11の低温水側(図1、図2中のD部)との間に配管を介して接続する第3の電動切換弁である。
Embodiment 1 FIG.
1 and 2 are system configuration diagrams showing Embodiment 1 according to the heat pump water heater of the present invention, and FIG. 3 is a flowchart showing an operation flow of the system configuration. 1 and 2, the same reference numerals as those in the conventional example indicate the same or corresponding parts. Reference numeral 13 denotes a first electric switching valve connected via a pipe between the central portion of the hot water storage tank 1 and the condenser 6, and reference numeral 14 denotes an outlet portion of the hot water storage tank 1 and the hot water side of the mixing valve 11 (FIGS. 1 and 2). 2 between the water source side and the low temperature water side of the mixing valve 11 (D portion in FIGS. 1 and 2). It is the 3rd electric switching valve connected via piping.

次に、ヒートポンプ給湯器の沸き上げ動作を図1と図2に示すシステム構成図および図3に示すフローチャート図を併用して説明する。図1において、貯湯タンク1内の下部から水を供給して満タン状態に至った後で沸き上げ動作を開始した場合に(ステップS100)、凝縮器6は加熱状態になると共に循環ポンプ9は貯湯タンク1内の水を循環させる一連の動作、即ち沸き上げ動作が実行される(ステップS101)。これにより、貯湯タンク1内の水はその下部から第1の流路FP1に抜け出て、循環ポンプ9から流量調整弁10の方へと流れていく。そして、その水は高温状態の凝縮器6を通過して第1の電動切換弁13のIN側からOUT側を通じて貯湯タンク1の中央部から入り込む。それ以降は、前述の動作内容を繰り返す。 Next, the heating operation of the heat pump water heater will be described with reference to the system configuration diagram shown in FIGS. 1 and 2 and the flowchart shown in FIG. In FIG. 1, when water is supplied from the lower part in the hot water storage tank 1 and the boiling operation is started after reaching the full tank state (step S100), the condenser 6 is heated and the circulation pump 9 is A series of operations for circulating the water in the hot water storage tank 1, that is, a boiling operation is executed (step S101). Thereby, the water in the hot water storage tank 1 flows out from the lower part to the first flow path FP 1 and flows from the circulation pump 9 toward the flow rate adjusting valve 10. Then, the water passes through the condenser 6 in a high temperature state and enters from the central portion of the hot water storage tank 1 through the OUT side from the IN side of the first electric switching valve 13. Thereafter, the above-described operation content is repeated.

次に、こうした貯湯タンク1内の水を循環させて加熱する過程で沸き上げ温度Tsを検出し(ステップS102)、制御部12は沸き上げ温度Tsが所定温度T1例えば90℃になったかどうかを判断する(ステップS103)。ここで、仮にNO即ち沸き上げ温度Tsが所定温度T1に至らない場合は前述の動作を繰り返す。また、仮にYESの場合は沸き上げ温度Tsが所定温度T1に至ったので、その温度T1に保たれるように凝縮器6などを制御すると共に、“湯切れ”防止の動作が開始する(ステップS104)。この過程で、貯湯タンク1内の90℃相当の高温水はその出口部から第2の流路FP2に抜け出て、第2の電動切換弁14のIN側からOUT側を通じて混合弁11の高温水側(図1中のC部)へ、水源からの水は第3の流路FP3により第3の電動切換弁15のIN側からOUT側を通じて混合弁11の低温水側(図1中のD部)へ、それぞれ流れていく。 Next, to detect the temperature Ts boiling in the process of heating by circulating water in such hot water storage tank 1 (step S102), whether the control unit 12 boiling temperature Ts has reached a predetermined temperature T 1 of example 90 ° C. Is determined (step S103). Here, if NO, that is, the boiling temperature Ts does not reach the predetermined temperature T 1 , the above operation is repeated. Further, if the temperature Ts boiling. If YES reaches the predetermined temperature T 1, as well as controls the condenser 6 to be kept at that temperature T 1, "water out" operation of prevention is started (Step S104). In this process, high-temperature water corresponding to 90 ° C. in the hot water storage tank 1 escapes from the outlet to the second flow path FP 2, and the high temperature of the mixing valve 11 passes from the IN side to the OUT side of the second electric switching valve 14. water side to the (C portion in FIG. 1), the water from the water source cold water side of the mixing valve 11 through the OUT side from the iN side of the third electric switching valve 15 by the third flow path FP 3 (in FIG. 1 To D part).

次に、制御部12は沸き上げ温度Tsが所定温度T2例えば80℃以下であるかどうかを判断する(ステップS105)。なお、所定温度T2は貯湯タンク1内の残湯が混合弁11に流れ、混合弁11から出た温水が“湯切れ”寸前となることを想定した温度閾値である。ここで、仮にNO即ち沸き上げ温度Tsは80℃以下でないと判定された場合は、凝縮器6による追い沸き上げ動作を開始しない。また、仮にYES即ち沸き上げ温度Tsが80℃以下であると判定された場合は、貯湯タンク1内の高温水を使用者が浴槽側や蛇口側で多量に使用したことにより“湯切れ”を起こす可能性が大きいと判断し、凝縮器6による追い沸き上げ動作が実行される(ステップS106)。なお、この追い沸き上げ動作は高温水の温度を90℃に維持することは無理があり、それ以下の温度に保つことが前提である。 Next, the control unit 12 boiling temperature Ts to determine whether it is less than the predetermined temperature T 2 for example 80 ° C. (step S105). Note that the predetermined temperature T 2 is a temperature threshold that assumes that the remaining hot water in the hot water storage tank 1 flows into the mixing valve 11 and that the hot water discharged from the mixing valve 11 is just before “hot water out”. Here, if NO, that is, if it is determined that the boiling temperature Ts is not 80 ° C. or less, the additional boiling operation by the condenser 6 is not started. Further, if YES, that is, if it is determined that the boiling temperature Ts is 80 ° C. or less, the user uses a large amount of high-temperature water in the hot water storage tank 1 on the bathtub side or the faucet side, thereby causing “hot water out”. It is determined that there is a high possibility that it will occur, and the additional boiling operation by the condenser 6 is executed (step S106). In addition, it is impossible to maintain the temperature of the high-temperature water at 90 ° C., and it is assumed that the temperature is lower than that.

次に、図2に示すように第1の電動切換弁13や第2の電動切換弁14が切り換えられ(ステップS107)、水源からの水は循環ポンプ9から流量調整弁10を通じて高温状態に維持される凝縮器6の方へと流れていく。そして、凝縮器6で加熱された高温水は第1の電動切換弁13のIN側からOUT側を通じて第4aの流路FP4aに、さらには第2の電動切換弁14のIN側からOUT側を通じて混合弁11の高温水側(図2中のC部)に流れる。このとき、水源からの水が第3の電動切換弁15のIN側からOUT側を通じて混合弁11の低温水側(図2中のD部)に流れるので、混合弁11からは設定温度通りの温水が出湯される。 Next, as shown in FIG. 2, the first electric switching valve 13 and the second electric switching valve 14 are switched (step S107), and the water from the water source is maintained in a high temperature state from the circulation pump 9 through the flow rate adjusting valve 10. It flows toward the condenser 6 to be used. The high-temperature water heated by the condenser 6 passes from the IN side of the first electric switching valve 13 to the 4th flow path FP 4a through the OUT side, and further from the IN side to the OUT side of the second electric switching valve 14. Flows to the high temperature water side of the mixing valve 11 (C section in FIG. 2). At this time, water from the water source flows from the IN side of the third electric switching valve 15 to the low temperature water side (D portion in FIG. 2) of the mixing valve 11 through the OUT side. Hot water is poured out.

次に、制御部12は使用者が貯湯タンク1内の高温水を殆ど使用しない時間帯、即ち深夜時間帯に入ったかどうかを判断する(ステップS108)。ここで、仮にNO即ち深夜時間帯外の場合は沸き上げ温度Tsが所定温度T2以下であるかどうかを判断する(ステップS105)。これ以降は、前述と同様である。また、仮にYES即ち深夜時間帯の場合は第1の電動切換弁13や第2の電動切換弁14が図1に示すような状態に切り換えられる(ステップS109)。そして、深夜時間帯に貯湯タンク1内の“湯切れ”状態の温水を所定の流路を通じて高温状態に維持する凝縮器6を通過させて貯湯タンク1内へ戻すという沸き上げ動作が実行される(ステップS101)。これによって、貯湯タンク1内に再び高温水を貯えることができる。 Next, the control unit 12 determines whether or not the user has entered a time zone in which the hot water in the hot water storage tank 1 is hardly used, that is, a midnight time zone (step S108). Here, if NO i.e. temperature Ts boiling if outside midnight time zone to determine whether it is less than the predetermined temperature T 2 (step S105). The subsequent steps are the same as described above. If YES, that is, in the midnight time zone, the first electric switching valve 13 and the second electric switching valve 14 are switched to the state shown in FIG. 1 (step S109). Then, a boiling operation is performed in which the hot water in the “hot water out” state in the hot water storage tank 1 is returned to the hot water storage tank 1 through a condenser 6 that maintains a high temperature state through a predetermined flow path at midnight. (Step S101). As a result, the hot water can be stored again in the hot water storage tank 1.

こうした構成を有するヒートポンプ給湯器は、貯湯タンク1内の高温水を使用者が多量に使用して“湯切れ”を起こす可能性が大きいと判断した場合に、凝縮器6を通過した高温水を貯湯タンク1内に戻すことがなく、混合弁11の高温水側へ直接流すようにしたことで、“湯切れ”の事態を未然に防止することができる。貯湯タンク1を大型化しなくても“湯切れ”を防止し易くなることから、当該ヒートポンプ給湯器では、貯湯タンクを大型化する場合に比べて小型化や省エネルギー化を図り図り易いと共に、廃棄時の環境への負荷を低減させ易い。   When the heat pump water heater having such a configuration determines that there is a high possibility that the user will use a large amount of high-temperature water in the hot water storage tank 1 to cause “hot water out”, the high-temperature water that has passed through the condenser 6 is used. By flowing directly to the high temperature water side of the mixing valve 11 without returning to the hot water storage tank 1, the situation of "hot water out" can be prevented. Since it is easy to prevent “hot water out” without increasing the size of the hot water storage tank 1, the heat pump water heater is easier to reduce the size and save energy than when the hot water storage tank is increased in size. It is easy to reduce the load on the environment.

なお、前述の沸き上げ温度Tsが所定温度T2以下であるかどうかを判断する過程で(ステップS105)、仮にYES即ち“湯切れ”を起こす可能性が大きい場合は、図4に示すように第1の電動切換弁13や第3の電動切換弁15を切り換える。そして、凝縮器6を通過した高温水を第1の電動切換弁13のIN側からOUT側を通じて第4bの流路FP4bへ、さらには第3の電動切換弁15のIN側からOUT側へと流す。次に、その高温水を混合弁11の低温水側(図4中のD部)に流し、一方貯湯タンク1内の高温水を第2の電動切換弁14のIN側からOUT側を通過させて混合弁11の高温水側(図4中のC部)へ流すように構成しても良い。 In the process of determining whether or not the boiling temperature Ts is equal to or lower than the predetermined temperature T 2 (step S105), if there is a high possibility of causing YES, that is, “hot water out”, as shown in FIG. The first electric switching valve 13 and the third electric switching valve 15 are switched. Then, the high-temperature water that has passed through the condenser 6 passes from the IN side of the first electric switching valve 13 to the fourth flow path FP 4b through the OUT side, and further from the IN side to the OUT side of the third electric switching valve 15. And flow. Next, the high-temperature water is allowed to flow to the low-temperature water side (D portion in FIG. 4) of the mixing valve 11, while the high-temperature water in the hot water storage tank 1 is allowed to pass from the IN side to the OUT side of the second electric switching valve 14. It may be configured to flow to the high temperature water side (C portion in FIG. 4) of the mixing valve 11.

1 貯湯タンク、2 発熱体、3 温度検出器、4 ヒートポンプ式加熱装置、5 圧縮機、6 凝縮器、7 減圧装置、8 蒸発器、9 循環ポンプ、10 流量調整弁、11 混合弁、12 制御部、13 第1の電動切換弁、14 第2の電動切換弁、15 第3の電動切換弁、 FP1 第1の流路、 FP2 第2の流路、 FP3 第3の流路、FP4a 第4aの流路、 FP4b 第4bの流路。 DESCRIPTION OF SYMBOLS 1 Hot water storage tank, 2 Heat generating body, 3 Temperature detector, 4 Heat pump type heating device, 5 Compressor, 6 Condenser, 7 Decompression device, 8 Evaporator, 9 Circulation pump, 10 Flow control valve, 11 Mixing valve, 12 Control 13, the first electric switching valve, 14 the second electric switching valve, 15 the third electric switching valve, FP 1 first flow path, FP 2 second flow path, FP 3 third flow path, FP 4a 4a channel, FP 4b 4b channel.

Claims (4)

貯湯タンクと、
ヒートポンプ式加熱装置と、
前記ヒートポンプ式加熱装置で加熱された水が流れる配管と、
前記加熱された水を前記貯湯タンクに導く配管と、前記加熱された水を混合弁に導く配管と、を切り替える切替手段と、
前記貯湯タンクから水を前記混合弁の高温水側に導く配管と、
を備えるヒートポンプ給湯器。
A hot water storage tank,
A heat pump heating device;
Piping through which the water heated by the heat pump heating device flows;
Switching means for switching between a pipe for guiding the heated water to the hot water storage tank and a pipe for guiding the heated water to a mixing valve;
A pipe for guiding water from the hot water storage tank to the high temperature water side of the mixing valve;
Heat pump water heater equipped with.
貯湯タンクと、
ヒートポンプ式加熱装置と、
前記ヒートポンプ式加熱装置で加熱された水が流れる配管と、
前記加熱された水を前記貯湯タンクに導く配管と、前記加熱された水を混合弁に導く配管と、を切り替える切替手段と、
前記貯湯タンクから水を前記混合弁の高温水側に導く配管と、
前記貯湯タンクの温度を検出する温度検出器と、
を備え、
前記温度検出器の検出結果に基づいて、前記切替手段を動作させることを特徴とするヒートポンプ給湯器。
A hot water storage tank,
A heat pump heating device;
Piping through which the water heated by the heat pump heating device flows;
Switching means for switching between a pipe for guiding the heated water to the hot water storage tank and a pipe for guiding the heated water to a mixing valve;
A pipe for guiding water from the hot water storage tank to the high temperature water side of the mixing valve;
A temperature detector for detecting the temperature of the hot water storage tank;
With
A heat pump water heater, wherein the switching means is operated based on a detection result of the temperature detector.
貯湯タンクと、
前記貯湯タンク内の水を循環させる第1の流路と、
第1の流路に設けた循環ポンプと、
第1の流路の途中でその循環水を加熱するヒートポンプ式加熱装置と、
前記貯湯タンク内に貯えた高温水を温水混合弁の高温水側に供給する第2の流路と、
水源側からの低温水を温水混合弁の低温水側に供給する第3の流路と、
を備えたヒートポンプ給湯器において、
前記第1の流路に設けた第1の電動切換弁と、
前記第2の流路に設けた第2の電動切換弁と、
前記第3の流路に設けた第3の電動切換弁と、
前記第1の電動切換弁と前記第2の電動切換弁とを結ぶ第4の流路と、
前記第1の電動切換弁と前記第3の電動切換弁とを結ぶ第5の流路と、
を備え、
前記ヒートポンプ式加熱装置で加熱された水は、前記第1の流路から前記貯湯タンクへ直に流れるとともに、前記貯湯タンクからの水を前記第2の流路を経由させて前記混合弁へ流れるようにした、
ことを特徴とするヒートポンプ給湯器。
A hot water storage tank,
A first flow path for circulating water in the hot water storage tank;
A circulation pump provided in the first flow path;
A heat pump heating device that heats the circulating water in the middle of the first flow path;
A second flow path for supplying hot water stored in the hot water storage tank to the hot water side of the hot water mixing valve;
A third flow path for supplying low temperature water from the water source side to the low temperature water side of the hot water mixing valve;
In the heat pump water heater with
A first electric switching valve provided in the first flow path;
A second electric switching valve provided in the second flow path;
A third electrically operated switching valve provided in the third flow path;
A fourth flow path connecting the first electric switching valve and the second electric switching valve;
A fifth flow path connecting the first electric switching valve and the third electric switching valve;
With
The water heated by the heat pump heating device flows directly from the first flow path to the hot water storage tank, and flows from the hot water storage tank to the mixing valve via the second flow path. Like,
A heat pump water heater characterized by that.
前記貯湯タンク内の高温水の温度を検出する温度検出器と、
前記第1〜第3の電動切換弁を制御する制御部と、
をさらに備え、
前記制御部は、前記温度検出器からの出力に基づいて、前記第1〜第3の電動切換弁を制御し、前記ヒートポンプ式加熱装置で加熱された高温水を前記第1の流路から前記貯湯タンクへ流すとともに、前記貯湯タンクからの水を前記第2の流路を経由させて前記混合弁へ流す、
ことを特徴とする請求項3に記載のヒートポンプ給湯器。
A temperature detector for detecting the temperature of the hot water in the hot water storage tank;
A control unit for controlling the first to third electric switching valves;
Further comprising
The control unit controls the first to third electric switching valves based on the output from the temperature detector, and the high-temperature water heated by the heat pump heating device is transferred from the first flow path to the first flow path. Flowing to the hot water storage tank and flowing water from the hot water storage tank to the mixing valve via the second flow path;
The heat pump water heater according to claim 3.
JP2009005631A 2009-01-14 2009-01-14 Heat pump water heater Expired - Fee Related JP4670965B2 (en)

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JP2018059667A (en) * 2016-10-05 2018-04-12 株式会社ミヤワキ Internal circulation type hot water system

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CN106288413A (en) * 2015-06-03 2017-01-04 济南九创装饰工程有限公司 Electric drinking water heater

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JPS60233441A (en) * 1984-05-07 1985-11-20 Matsushita Electric Ind Co Ltd Heat-pump type hot water supplier
JPH0517442U (en) * 1991-08-15 1993-03-05 大阪瓦斯株式会社 Water heater
JPH09126547A (en) * 1995-11-02 1997-05-16 Matsushita Electric Ind Co Ltd Heat pump type hot water supply apparatus
JPH09243174A (en) * 1996-03-13 1997-09-16 Mitsubishi Electric Corp Storage type hot-water feed system

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JPS60103256A (en) * 1983-11-11 1985-06-07 松下電器産業株式会社 Heat-pump hot-water supply heater
JPS60233441A (en) * 1984-05-07 1985-11-20 Matsushita Electric Ind Co Ltd Heat-pump type hot water supplier
JPH0517442U (en) * 1991-08-15 1993-03-05 大阪瓦斯株式会社 Water heater
JPH09126547A (en) * 1995-11-02 1997-05-16 Matsushita Electric Ind Co Ltd Heat pump type hot water supply apparatus
JPH09243174A (en) * 1996-03-13 1997-09-16 Mitsubishi Electric Corp Storage type hot-water feed system

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
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