JPH11173710A - Defrosting system using exhaust heat of compressor - Google Patents
Defrosting system using exhaust heat of compressorInfo
- Publication number
- JPH11173710A JPH11173710A JP34123597A JP34123597A JPH11173710A JP H11173710 A JPH11173710 A JP H11173710A JP 34123597 A JP34123597 A JP 34123597A JP 34123597 A JP34123597 A JP 34123597A JP H11173710 A JPH11173710 A JP H11173710A
- Authority
- JP
- Japan
- Prior art keywords
- compressor
- heat
- evaporator
- defrosting
- heat storage
- 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
- Defrosting Systems (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、冷凍機、冷蔵庫、
空調機などの圧縮機の排熱を利用した除霜システムに関
する。The present invention relates to a refrigerator, a refrigerator,
The present invention relates to a defrost system using exhaust heat of a compressor such as an air conditioner.
【0002】[0002]
【従来の技術】従来、冷凍回路中の蒸発器に付いた霜を
除去する時は、電熱ヒータを利用する方法、圧縮機から
吐出される熱冷媒を直接蒸発器に送って除霜する方法
(特開平4−292761号公報)などがある。しか
し、電熱ヒータを利用する方法は除霜のためのエネルギ
を別に必要とするので不経済であり、圧縮機から吐出さ
れる熱冷媒を直接蒸発器に送って除霜する方法は、除霜
中も圧縮機の運転を続ける必要があり、また熱冷媒が圧
縮機に逆流する虞れがあるなどの問題がある。2. Description of the Related Art Conventionally, when removing frost from an evaporator in a refrigeration circuit, a method using an electric heater or a method of directly sending a hot refrigerant discharged from a compressor to an evaporator for defrosting ( JP-A-4-292762). However, the method using an electric heater is uneconomical because it requires energy for defrosting separately, and the method of directly sending the heat refrigerant discharged from the compressor to the evaporator to defrost is used during defrosting. However, there is also a problem that the operation of the compressor needs to be continued, and that the heat refrigerant may flow back into the compressor.
【0003】[0003]
【発明が解決しようとする課題】本発明の目的は、前述
の問題を解決し、除霜のために電熱ヒータなどの別のエ
ネルギを使用せず、圧縮機から吐出される熱冷媒を利用
するが除霜中に圧縮機の運転を続ける必要がなく、また
除霜中に熱冷媒が圧縮機に逆流しない、除霜システムを
提供することを目的とする。SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems and to use a heat refrigerant discharged from a compressor without using another energy such as an electric heater for defrosting. It is an object of the present invention to provide a defrosting system in which it is not necessary to continue the operation of the compressor during defrosting, and the heat refrigerant does not flow back to the compressor during defrosting.
【0004】[0004]
【問題点を解決するための手段】上記課題を解決するた
め請求項1の発明は、圧縮機で圧縮した冷媒を凝縮器、
キャピラリーチューブ、蒸発器に順次圧送し前記圧縮機
に戻す冷凍回路と、前記圧縮機の排熱を一旦蓄える蓄熱
部と、この蓄熱部に蓄えられた熱を利用して前記蒸発器
の除霜を行う除霜回路とを備え、前記冷凍回路と前記除
霜回路を適宜作動させる圧縮機の排熱を利用した除霜シ
ステムにおいて、前記圧縮機から吐出された冷媒を前記
蓄熱部に移送してこの圧縮機の排熱を一旦この蓄熱部に
蓄熱した後、前記凝縮器を介して前記圧縮機に戻す冷媒
回路を備え、前記除霜回路は前記蓄熱部と前記蒸発器と
の間に媒体を循環させる媒体循環回路から成り、前記蒸
発器の除霜時には前記蓄熱部で加熱された媒体循環回路
の媒体を蒸発器に移送して除霜することを特徴とする。
本発明においては、圧縮機の吐出側に蓄熱部を設け、こ
の蓄熱部に蓄熱された熱により加熱された熱媒体を除霜
時に蒸発器に移送して除霜する。除霜に必要なエネルギ
を別に用いず圧縮機の排熱を利用して除霜するので、省
エネルギ効果がある上、除霜中に圧縮機の運転を続ける
必要がなく、また熱冷媒が圧縮機に逆流する虞れもな
い。圧縮機から吐出された冷媒を蓄熱部に移送した後、
凝縮器を経て熱交換した後、圧縮機に戻すことにより圧
縮機に戻る冷媒の温度を低下でき、圧縮機中の冷凍機油
の温度上昇を防止できる。Means for Solving the Problems In order to solve the above-mentioned problems, the invention according to claim 1 is directed to a condenser for compressing refrigerant compressed by a compressor,
A capillary tube, a refrigeration circuit for sequentially feeding to the evaporator and returning to the compressor, a heat storage unit for temporarily storing the exhaust heat of the compressor, and defrosting the evaporator using the heat stored in the heat storage unit. A defrosting circuit that performs the defrosting circuit, and in the defrosting system that uses the exhaust heat of the compressor that appropriately operates the refrigeration circuit and the defrosting circuit, transfers the refrigerant discharged from the compressor to the heat storage unit, A refrigerant circuit for temporarily storing the exhaust heat of the compressor in the heat storage unit and returning the heat to the compressor via the condenser, wherein the defrost circuit circulates a medium between the heat storage unit and the evaporator The dehumidifier is characterized in that the medium in the medium circulation circuit heated by the heat storage unit is transferred to the evaporator for defrosting when the evaporator is defrosted.
In the present invention, a heat storage section is provided on the discharge side of the compressor, and the heat medium heated by the heat stored in the heat storage section is transferred to the evaporator for defrosting when defrosting. Since defrosting is performed using the exhaust heat of the compressor without separately using the energy required for defrosting, there is an energy saving effect, and there is no need to continue operating the compressor during defrosting, and the heat refrigerant is compressed. There is no danger of backflow to the machine. After transferring the refrigerant discharged from the compressor to the heat storage unit,
After the heat exchange through the condenser, the temperature of the refrigerant returning to the compressor can be reduced by returning to the compressor, and the temperature of the refrigerating machine oil in the compressor can be prevented from rising.
【0005】上記課題を解決するため請求項2の発明
は、圧縮機で圧縮した冷媒を凝縮器、キャピラリーチュ
ーブ、蒸発器に順次圧送し前記圧縮機に戻す冷凍回路
と、前記圧縮機の排熱を一旦蓄える蓄熱部と、この蓄熱
部に蓄えられた熱を利用して前記蒸発器の除霜を行う除
霜回路とを備え、前記冷凍回路と前記除霜回路を適宜作
動させる圧縮機の排熱を利用した除霜システムにおい
て、前記圧縮機から吐出された冷媒を前記蓄熱部に移送
してこの圧縮機の排熱を一旦この蓄熱部に蓄熱した後、
凝縮器へ流す冷媒回路を備え、前記除霜回路は前記蓄熱
部と前記蒸発器との間に媒体を循環させる媒体循環回路
から成り、前記蒸発器の除霜時には前記蓄熱部で加熱さ
れた媒体循環回路の媒体を蒸発器に移送して除霜するこ
とを特徴とする。圧縮機から吐出された冷媒を蓄熱部に
移送してこの圧縮機の排熱を一旦この蓄熱部に蓄熱した
後、凝縮器へ直接戻すようにした以外は請求項1に記載
の除霜システムと同様になっている。このようにするこ
とにより冷媒回路を簡略化することができる。In order to solve the above-mentioned problems, a second aspect of the present invention is to provide a refrigeration circuit for sequentially feeding a refrigerant compressed by a compressor to a condenser, a capillary tube, and an evaporator and returning the refrigerant to the compressor, and exhaust heat of the compressor. And a defrost circuit for defrosting the evaporator using heat stored in the heat storage unit, and a compressor for operating the refrigeration circuit and the defrost circuit appropriately. In the defrosting system using heat, after the refrigerant discharged from the compressor is transferred to the heat storage unit and the exhaust heat of the compressor is temporarily stored in the heat storage unit,
A refrigerant circuit that flows to a condenser, wherein the defrost circuit includes a medium circulation circuit that circulates a medium between the heat storage unit and the evaporator, and the medium heated by the heat storage unit during defrosting of the evaporator. It is characterized in that the medium in the circulation circuit is transferred to an evaporator for defrosting. The defrosting system according to claim 1, except that the refrigerant discharged from the compressor is transferred to a heat storage unit, and the exhaust heat of the compressor is temporarily stored in the heat storage unit, and then directly returned to the condenser. It is similar. By doing so, the refrigerant circuit can be simplified.
【0006】[0006]
【発明の実施の形態】以下、図面に基づき本発明の実施
の形態を詳述する。図1は、本発明の圧縮機の排熱を利
用した除霜システムを説明する説明図である。図2は、
本発明の圧縮機の排熱を利用した他の除霜システムを説
明する説明図である。図3は、本発明の除霜システムを
備えた冷蔵庫の一実施例を示す断面説明図である。図3
において、この冷蔵庫はその冷蔵庫本体1を断熱壁にて
形成してなり、この冷蔵庫本体1内に食品を収容する食
品収容室2を設けている。また、この食品収容室2の下
部には蒸発器3を、食品収容室2の背面側には上下に延
びるダクト4を、またこのダクト4の上部には冷気循環
用の送風ファン5を設置しており、蒸発器3にて冷却さ
れた空気を図中実線矢印に示すように循環し食品収容室
2内を冷却している。この冷蔵庫本体1の下方には機械
室6が設置されている。この機械室6内には圧縮機7、
凝縮器8、凝縮器用ファン9、蓄熱部10が設置され、
この蓄熱部10に蓄熱された熱により加熱された熱媒体
を除霜時に蒸発器3に移送して除霜する。そして凝縮器
用ファン9により圧縮機7及び凝縮器8にて発生した熱
を機械室6の外に排出する。図2の例では、蓄熱部10
の配置位置は凝縮器3の風下側としたが、配置位置はこ
れに限定されず、凝縮器3の風上側でも、あるいは機械
室6の他の位置でもよい。Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is an explanatory diagram illustrating a defrosting system using exhaust heat of a compressor of the present invention. FIG.
It is explanatory drawing explaining the other defrost system using the exhaust heat of the compressor of this invention. FIG. 3 is an explanatory sectional view showing an embodiment of the refrigerator provided with the defrosting system of the present invention. FIG.
In this refrigerator, the refrigerator main body 1 is formed by a heat insulating wall, and the refrigerator main body 1 is provided with a food storage chamber 2 for storing food. Further, an evaporator 3 is provided at a lower portion of the food storage room 2, a duct 4 extending vertically is provided at a back side of the food storage room 2, and a blower fan 5 for circulating cool air is provided at an upper portion of the duct 4. The air cooled by the evaporator 3 is circulated as shown by the solid line arrow in the figure to cool the food storage chamber 2. A machine room 6 is provided below the refrigerator body 1. Inside the machine room 6, a compressor 7,
A condenser 8, a condenser fan 9, and a heat storage unit 10 are installed.
The heat medium heated by the heat stored in the heat storage unit 10 is transferred to the evaporator 3 for defrosting when defrosting. Then, the heat generated in the compressor 7 and the condenser 8 by the condenser fan 9 is discharged out of the machine room 6. In the example of FIG.
Is located on the leeward side of the condenser 3, but the arrangement position is not limited to this, and may be on the leeward side of the condenser 3 or another position in the machine room 6.
【0007】図1はこの冷蔵庫の冷却回路を示すもの
で、圧縮機7の冷媒を図中実線矢印に示すように、凝縮
器8→キャピラリチューブ11→蒸発器3→アキュムレ
ータ12→圧縮機7へと順次循環する冷凍回路を有し、
これにより、食品収容室2内を冷却する。一方、この冷
蔵庫は、圧縮機7から吐出された冷媒を蓄熱部10に移
送してこの圧縮機7の排熱を一旦この蓄熱部10に蓄熱
した後、凝縮器8の一部に設けられた放熱器8aを経て
熱交換(デスーパーヒーター回路)した後、圧縮機7に
戻す図中破線矢印で示す冷媒回路と、蓄熱部10と蒸発
器3との間に媒体を循環させる図中一点鎖線矢印で示す
媒体循環回路を有している。13は媒体を循環させるポ
ンプである。FIG. 1 shows a cooling circuit of the refrigerator. The refrigerant in the compressor 7 is supplied to the condenser 8 → the capillary tube 11 → the evaporator 3 → the accumulator 12 → the compressor 7 as shown by a solid arrow in the drawing. And a refrigeration circuit that circulates sequentially,
Thereby, the inside of the food storage chamber 2 is cooled. On the other hand, the refrigerator is provided in a part of the condenser 8 after transferring the refrigerant discharged from the compressor 7 to the heat storage unit 10 and temporarily storing the exhaust heat of the compressor 7 in the heat storage unit 10. A heat exchanger (desuperheater circuit) is passed through the radiator 8a, and then returned to the compressor 7. The medium is circulated between the heat storage unit 10 and the evaporator 3 by a dashed line in the figure and a dashed line in the figure. It has a medium circulation circuit indicated by an arrow. 13 is a pump for circulating the medium.
【0008】この蓄熱部10は、内部に図示しない蓄熱
剤を充填しており、この蓄熱剤中に前記冷媒回路および
媒体循環回路の管路を配置し、この蓄熱剤と各管路との
間で熱交換が行われるようになっている。The heat storage section 10 is filled with a heat storage agent (not shown), and the refrigerant circuit and the medium circulation circuit are arranged in the heat storage agent. The heat exchange is performed in the.
【0009】冷凍回路を動作させ食品収容室2を冷却す
るときは、圧縮機7から吐出された高温(例えば約80
℃)高圧の冷媒は図中破線矢印で示すように先ず蓄熱部
10に送られてその熱を蓄熱部10中の蓄熱剤に蓄熱し
た後、凝縮器8の一部に設けられた放熱器8aを経て熱
交換して冷却(例えば約50℃)された後、圧縮機7に
戻り、圧縮機7に戻った冷媒は図中実線矢印に示すよう
に、凝縮器8→キャピラリチューブ11→蒸発器3→ア
キュムレータ12→圧縮機7へと順次循環することによ
り、食品収容室2内を冷却する。ここで、圧縮機7から
の高温高圧の吐出冷媒は凝縮器8に入る前に蓄熱部10
に流れるため、前記冷媒回路の管路と蓄熱剤との間で熱
交換が行われ、蓄熱剤に吐出冷媒の熱が蓄積される。蓄
熱部10への蓄熱時には、圧縮機7から吐出された冷媒
からの蓄熱部10および凝縮器8の一部に設けられた放
熱器8aでの放熱によって圧縮機7へ戻る冷媒の温度を
一層下げることができるので、圧縮機7の能力を向上で
きる。そして、蓄熱部10の蓄熱剤には既に吐出冷媒の
熱が蓄積されているため、この熱が前記媒体循環回路の
管路を介して媒体に付加されて加熱される。When the refrigeration circuit is operated to cool the food storage chamber 2, the high temperature (for example, about 80
C) The high-pressure refrigerant is first sent to the heat storage unit 10 to store the heat in the heat storage agent in the heat storage unit 10 as shown by the dashed arrow in the figure, and then the radiator 8a provided in a part of the condenser 8 After being cooled by heat exchange (for example, about 50 ° C.), the refrigerant returns to the compressor 7 and the refrigerant returned to the compressor 7 is, as shown by a solid arrow in the figure, a condenser 8 → a capillary tube 11 → an evaporator. By circulating sequentially from 3 → accumulator 12 → compressor 7, the inside of food storage chamber 2 is cooled. Here, the high-temperature and high-pressure refrigerant discharged from the compressor 7 is supplied to the heat storage unit 10 before entering the condenser 8.
Therefore, heat exchange is performed between the pipeline of the refrigerant circuit and the heat storage agent, and the heat of the discharged refrigerant is accumulated in the heat storage agent. At the time of storing heat in the heat storage unit 10, the temperature of the refrigerant returning to the compressor 7 is further reduced by heat radiation from the refrigerant discharged from the compressor 7 and the radiator 8a provided in a part of the condenser 8 from the refrigerant. Therefore, the capacity of the compressor 7 can be improved. Since the heat of the discharged refrigerant has already been accumulated in the heat storage agent of the heat storage unit 10, the heat is added to the medium via the medium circulation circuit and heated.
【0010】この冷凍回路の動作を継続するときは蒸発
器3には霜が付着する。このようなときは前記媒体循環
回路に設けたポンプ13を作動させると前述の如く図中
一点鎖線矢印に示すように、加熱された媒体が蒸発器3
に送られ、さらに媒体が循環することにより、蒸発器3
に循環する媒体温度がさらに上昇する。このようにして
蒸発器3の除霜が効率よく行われる。When the operation of the refrigeration circuit is continued, frost adheres to the evaporator 3. In such a case, when the pump 13 provided in the medium circulation circuit is operated, the heated medium is supplied to the evaporator 3 as shown by the dashed line arrow in the figure as described above.
To the evaporator 3 by the circulation of the medium.
The temperature of the medium circulating in the air further increases. In this way, defrosting of the evaporator 3 is performed efficiently.
【0011】図2に示したように、本発明の圧縮機の排
熱を利用した他の除霜システムにおいては、圧縮機7か
ら吐出された冷媒を蓄熱部10に移送して圧縮機7の排
熱を一旦蓄熱部10に蓄熱した後、凝縮器8へ直接戻
す。蓄熱部10からの冷媒を凝縮器8へ直接戻すように
した以外は図1に示した除霜システムと同様になってい
る。このようにすることにより冷媒回路を簡略化するこ
とができる。As shown in FIG. 2, in another defrosting system using the exhaust heat of the compressor of the present invention, the refrigerant discharged from the compressor 7 is transferred to a heat storage unit 10 to After temporarily storing the exhaust heat in the heat storage unit 10, the heat is directly returned to the condenser 8. It is the same as the defrosting system shown in FIG. 1 except that the refrigerant from the heat storage unit 10 is directly returned to the condenser 8. By doing so, the refrigerant circuit can be simplified.
【0012】なお、本発明は上記実施例に限定されるも
のではないので、特許請求の範囲に記載の趣旨から逸脱
しない範囲で各種の変形実施が可能である。Since the present invention is not limited to the above embodiment, various modifications can be made without departing from the spirit of the appended claims.
【0013】[0013]
【発明の効果】本発明の除霜システムは、除霜のために
電熱ヒータなどの別のエネルギを使用せず、圧縮機から
吐出される熱冷媒を利用して容易に蒸発器の除霜を行う
ことができるので省エネルギを図ることができる。ま
た、本発明の除霜システムは、除霜中に圧縮機の運転を
続ける必要がなく、除霜中に熱冷媒が圧縮機に逆流しな
いなどの効果がある。According to the defrosting system of the present invention, the defrosting of the evaporator can be easily performed by using the heat refrigerant discharged from the compressor without using another energy such as an electric heater for defrosting. Energy saving can be achieved. In addition, the defrosting system of the present invention does not need to keep the compressor running during defrosting, and has the effect that the heat refrigerant does not flow back to the compressor during defrosting.
【図1】 本発明の除霜システムを説明する説明図であ
る。FIG. 1 is an explanatory diagram illustrating a defrosting system of the present invention.
【図2】 本発明の他の除霜システムを説明する説明図
である。FIG. 2 is an explanatory diagram illustrating another defrosting system of the present invention.
【図3】 本発明の除霜システムを備えた冷蔵庫の一実
施例を示す断面説明図である。FIG. 3 is an explanatory sectional view showing an embodiment of a refrigerator provided with the defrosting system of the present invention.
1 冷蔵庫本体 2 食品収容室 3 蒸発器 4 ダクト 5 送風ファン 6 機械室 7 圧縮機7 8 凝縮器 8a 放熱器 9 凝縮器用ファン 10 蓄熱部 11 キャピラリーチューブ 12 アキュムレータ 13 ポンプ DESCRIPTION OF SYMBOLS 1 Refrigerator main body 2 Food storage room 3 Evaporator 4 Duct 5 Blow fan 6 Machine room 7 Compressor 7 8 Condenser 8a Radiator 9 Condenser fan 10 Heat storage part 11 Capillary tube 12 Accumulator 13 Pump
Claims (2)
ラリーチューブ、蒸発器に順次圧送し前記圧縮機に戻す
冷凍回路と、前記圧縮機の排熱を一旦蓄える蓄熱部と、
この蓄熱部に蓄えられた熱を利用して前記蒸発器の除霜
を行う除霜回路とを備え、前記冷凍回路と前記除霜回路
を適宜作動させる圧縮機の排熱を利用した除霜システム
において、 前記圧縮機から吐出された冷媒を前記蓄熱部に移送して
この圧縮機の排熱を一旦この蓄熱部に蓄熱した後、前記
凝縮器を介して前記圧縮機に戻す冷媒回路を備え、前記
除霜回路は前記蓄熱部と前記蒸発器との間に媒体を循環
させる媒体循環回路から成り、前記蒸発器の除霜時には
前記蓄熱部で加熱された媒体循環回路の媒体を蒸発器に
移送して除霜することを特徴とする圧縮機の排熱を利用
した除霜システム。A refrigeration circuit for sequentially feeding the refrigerant compressed by the compressor to a condenser, a capillary tube, and an evaporator and returning the refrigerant to the compressor; a heat storage unit for temporarily storing exhaust heat of the compressor;
A defrosting circuit that performs defrosting of the evaporator using heat stored in the heat storage unit, and that uses exhaust heat of a compressor that appropriately operates the refrigeration circuit and the defrosting circuit. A refrigerant circuit that transfers the refrigerant discharged from the compressor to the heat storage unit, temporarily stores the exhaust heat of the compressor in the heat storage unit, and then returns the compressor to the compressor via the condenser. The defrost circuit includes a medium circulation circuit that circulates a medium between the heat storage unit and the evaporator, and transfers the medium of the medium circulation circuit heated by the heat storage unit to the evaporator when the evaporator is defrosted. A defrosting system using the exhaust heat of a compressor, wherein defrosting is performed.
ラリーチューブ、蒸発器に順次圧送し前記圧縮機に戻す
冷凍回路と、前記圧縮機の排熱を一旦蓄える蓄熱部と、
この蓄熱部に蓄えられた熱を利用して前記蒸発器の除霜
を行う除霜回路とを備え、前記冷凍回路と前記除霜回路
を適宜作動させる圧縮機の排熱を利用した除霜システム
において、 前記圧縮機から吐出された冷媒を前記蓄熱部に移送して
この圧縮機の排熱を一旦この蓄熱部に蓄熱した後、凝縮
器へ流す冷媒回路を備え、前記除霜回路は前記蓄熱部と
前記蒸発器との間に媒体を循環させる媒体循環回路から
成り、前記蒸発器の除霜時には前記蓄熱部で加熱された
媒体循環回路の媒体を蒸発器に移送して除霜することを
特徴とする圧縮機の排熱を利用した除霜システム。2. A refrigeration circuit for sequentially feeding a refrigerant compressed by a compressor to a condenser, a capillary tube, and an evaporator and returning the refrigerant to the compressor, a heat storage unit for temporarily storing exhaust heat of the compressor,
A defrosting circuit that performs defrosting of the evaporator using heat stored in the heat storage unit, and that uses exhaust heat of a compressor that appropriately operates the refrigeration circuit and the defrosting circuit. A refrigerant circuit that transfers refrigerant discharged from the compressor to the heat storage unit, temporarily stores exhaust heat of the compressor in the heat storage unit, and then flows the refrigerant to a condenser, wherein the defrost circuit includes the heat storage unit. A medium circulation circuit that circulates a medium between the unit and the evaporator, and when defrosting the evaporator, transferring the medium in the medium circulation circuit heated by the heat storage unit to the evaporator for defrosting. A defrosting system that uses the exhaust heat of the compressor.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP34123597A JPH11173710A (en) | 1997-12-11 | 1997-12-11 | Defrosting system using exhaust heat of compressor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP34123597A JPH11173710A (en) | 1997-12-11 | 1997-12-11 | Defrosting system using exhaust heat of compressor |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH11173710A true JPH11173710A (en) | 1999-07-02 |
Family
ID=18344441
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP34123597A Pending JPH11173710A (en) | 1997-12-11 | 1997-12-11 | Defrosting system using exhaust heat of compressor |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH11173710A (en) |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1795838A2 (en) * | 2002-11-07 | 2007-06-13 | Sanyo Electric Co., Ltd. | Multistage compression type rotary compressor and cooling device |
US7669647B2 (en) * | 2002-07-16 | 2010-03-02 | Toyota Jidosha Kabushiki Kaisha | Air conditioning apparatus |
JP2010181093A (en) * | 2009-02-05 | 2010-08-19 | Toyo Eng Works Ltd | Defrosting device in carbon dioxide circulation cooling system |
US8220284B2 (en) | 2006-03-27 | 2012-07-17 | Toyota Jidosha Kabushiki Kaisha | Vehicle heat pump with a selective heat storing element and two circulation loops |
CN103868309A (en) * | 2014-03-19 | 2014-06-18 | 天津大学 | Device for assisting in defrosting through electric heating by utilizing air outside refrigerating chamber and operating method of device |
JP2016142481A (en) * | 2015-02-03 | 2016-08-08 | 三菱重工冷熱株式会社 | Freezer unit and defrosting method for load cooler |
CN105890269A (en) * | 2016-04-15 | 2016-08-24 | 合肥华凌股份有限公司 | Circulating defrosting system, refrigerator and defrosting method |
CN110762936A (en) * | 2019-12-09 | 2020-02-07 | 电子科技大学中山学院 | Heat accumulation defrosting system for cold storage air cooler and cold storage |
CN111271796A (en) * | 2020-03-26 | 2020-06-12 | 宁波奥克斯电气股份有限公司 | Air conditioner and defrosting control method and device thereof |
JP7088579B1 (en) * | 2021-04-09 | 2022-06-21 | 日本熱源システム株式会社 | Freezing and refrigerating system |
-
1997
- 1997-12-11 JP JP34123597A patent/JPH11173710A/en active Pending
Cited By (14)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7669647B2 (en) * | 2002-07-16 | 2010-03-02 | Toyota Jidosha Kabushiki Kaisha | Air conditioning apparatus |
EP1795838A2 (en) * | 2002-11-07 | 2007-06-13 | Sanyo Electric Co., Ltd. | Multistage compression type rotary compressor and cooling device |
EP1795838A3 (en) * | 2002-11-07 | 2007-06-27 | Sanyo Electric Co., Ltd. | Multistage compression type rotary compressor and cooling device |
US8220284B2 (en) | 2006-03-27 | 2012-07-17 | Toyota Jidosha Kabushiki Kaisha | Vehicle heat pump with a selective heat storing element and two circulation loops |
JP2010181093A (en) * | 2009-02-05 | 2010-08-19 | Toyo Eng Works Ltd | Defrosting device in carbon dioxide circulation cooling system |
CN105222478A (en) * | 2014-03-19 | 2016-01-06 | 天津大学 | Utilize the method that freezer outside air auxiliary electrical heater defrosts |
CN103868309A (en) * | 2014-03-19 | 2014-06-18 | 天津大学 | Device for assisting in defrosting through electric heating by utilizing air outside refrigerating chamber and operating method of device |
CN105222478B (en) * | 2014-03-19 | 2017-10-17 | 天津大学 | The method defrosted using freezer outside air auxiliary electrical heater |
JP2016142481A (en) * | 2015-02-03 | 2016-08-08 | 三菱重工冷熱株式会社 | Freezer unit and defrosting method for load cooler |
CN105890269A (en) * | 2016-04-15 | 2016-08-24 | 合肥华凌股份有限公司 | Circulating defrosting system, refrigerator and defrosting method |
CN110762936A (en) * | 2019-12-09 | 2020-02-07 | 电子科技大学中山学院 | Heat accumulation defrosting system for cold storage air cooler and cold storage |
CN111271796A (en) * | 2020-03-26 | 2020-06-12 | 宁波奥克斯电气股份有限公司 | Air conditioner and defrosting control method and device thereof |
CN111271796B (en) * | 2020-03-26 | 2024-02-09 | 宁波奥克斯电气股份有限公司 | Air conditioner and defrosting control method and device thereof |
JP7088579B1 (en) * | 2021-04-09 | 2022-06-21 | 日本熱源システム株式会社 | Freezing and refrigerating system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP3933613B2 (en) | Refrigerator and defroster | |
JPH1123135A (en) | Refrigerator having defrosting device | |
JP2007218459A (en) | Refrigerating cycle device and cool box | |
JP3746496B2 (en) | refrigerator | |
JP2001099446A (en) | Air conditioning apparatus, and non-humidifying heating body-containing cooling equipment | |
JP2010038516A (en) | Refrigerator-freezer and cooling storage | |
KR20060089752A (en) | Cooling box | |
JPH11173710A (en) | Defrosting system using exhaust heat of compressor | |
JP6004734B2 (en) | Transportation refrigeration equipment | |
US20040134218A1 (en) | Air conditioning system, interior heat exchanger coil unit and method for conditioning ambient air | |
JP2002162143A (en) | Refrigerator with freezer | |
JP5056026B2 (en) | vending machine | |
JP2002213832A (en) | Cooling device | |
JP2018063058A (en) | Refrigerator and control method for the same | |
JP2004020056A (en) | Cooling chamber | |
JPH06272992A (en) | Air conditioner | |
KR100950402B1 (en) | Heat pump system for electric-car | |
JPH04251170A (en) | Refrigerating device and operation method thereof in cogeneration system | |
JP3164079B2 (en) | Refrigeration equipment | |
KR100479116B1 (en) | Condensation system for using heat of machine room in refrigerator | |
JP2004116930A (en) | Gas heat pump type air conditioner | |
JPH10227498A (en) | Thermal storage type cooling and heating method | |
KR950006023Y1 (en) | Defrost apparatus in refregerator | |
KR20040007078A (en) | An apparatus and method for excluding the frost of evaporator | |
JP2000111189A (en) | Air conditioner |