JPH09236369A - Refrigerator - Google Patents
RefrigeratorInfo
- Publication number
- JPH09236369A JPH09236369A JP6535196A JP6535196A JPH09236369A JP H09236369 A JPH09236369 A JP H09236369A JP 6535196 A JP6535196 A JP 6535196A JP 6535196 A JP6535196 A JP 6535196A JP H09236369 A JPH09236369 A JP H09236369A
- Authority
- JP
- Japan
- Prior art keywords
- compartment
- refrigerating
- outlet
- freezing
- chamber
- 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
- Devices That Are Associated With Refrigeration Equipment (AREA)
- Defrosting Systems (AREA)
- Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)
Abstract
Description
【発明の詳細な説明】Detailed Description of the Invention
【0001】[0001]
【発明の属する技術分野】本発明は、冷蔵庫において、
冷凍室,冷蔵室の冷却性能を向上し、冷却効率を高める
技術に関するものである。[0001] The present invention relates to a refrigerator,
The present invention relates to a technique for improving the cooling performance of a freezer compartment and a refrigerating compartment to enhance cooling efficiency.
【0002】[0002]
【従来の技術】従来の冷蔵庫において、冷凍室,冷蔵室
の冷却効率を高める構成としては、例えば特開平7−1
59014号公報に開示されており、構成説明断面図を
示す図7を参照して説明する。2. Description of the Related Art In a conventional refrigerator, for example, Japanese Patent Application Laid-Open No. 7-1 discloses a structure for increasing the cooling efficiency of a freezer compartment and a refrigerator compartment.
It is disclosed in Japanese Patent Publication No. 59014 and will be described with reference to FIG.
【0003】冷蔵庫内部は、隔壁101により冷凍室1
02および冷蔵室103とに区切られている。冷凍室1
02の奥部には蒸発器104および冷気循環手段として
機能する電動ファン105が設置され、蒸発器104に
よって冷媒を蒸発させることにより空気を冷却し、この
冷却された空気を電動ファン105により冷凍室102
内に循環させて冷凍室102の内部を冷却している。な
お、蒸発器104の近傍には、蒸発器104に付着する
霜を除去する除霜ヒータ手段106および除霜状態を検
知する除霜温度センサ107が取り付けられている。Inside the refrigerator, a freezing room 1 is formed by a partition wall 101.
02 and refrigerating room 103. Freezer 1
An evaporator 104 and an electric fan 105 functioning as a cool air circulation means are installed in the inner part of 02, the evaporator 104 evaporates the refrigerant to cool the air, and the electric fan 105 cools the cooled air. 102
The inside of the freezer compartment 102 is cooled by circulating the inside. In the vicinity of the evaporator 104, a defrost heater means 106 for removing frost attached to the evaporator 104 and a defrost temperature sensor 107 for detecting a defrost state are attached.
【0004】冷凍室102の内部には温度検知手段10
8が設置され、前面には冷凍室扉109が取り付けら
れ、その開閉動作は冷凍室ドアスイッチ110によって
検知される。冷蔵室103の内部には温度検知手段11
1が設置され、前面には冷蔵室扉112が取り付けら
れ、その開閉動作は冷蔵室ドアスイッチ113によって
検知される。冷凍室102と冷蔵室103とを連通する
冷気通路114には、電動ダンパ115が設置され、こ
の電動ダンパ115の開閉動作によって、蒸発器104
により冷却された空気が冷凍室102の内部に流入し、
ついで冷蔵室103に循環して冷凍室102および冷蔵
室103を所定の温度に冷却する。なお、冷蔵室103
の後背部には、冷凍サイクルを形成する圧縮機116が
設置されており、冷凍室102および冷蔵室103の温
度は、冷凍室102の奥部上方に設置した制御装置11
7により制御される。Inside the freezer compartment 102 is a temperature detecting means 10
8 is installed, a freezer compartment door 109 is attached to the front surface, and its opening / closing operation is detected by a freezer compartment door switch 110. Inside the refrigerating room 103, there is a temperature detecting means 11
1 is installed, a refrigerating compartment door 112 is attached to the front surface, and its opening / closing operation is detected by a refrigerating compartment door switch 113. An electric damper 115 is installed in a cold air passage 114 that connects the freezer compartment 102 and the refrigerating compartment 103, and the evaporator 104 is opened and closed by the electric damper 115.
The air cooled by flows into the freezer compartment 102,
Then, it is circulated to the refrigerator compartment 103 to cool the freezer compartment 102 and the refrigerator compartment 103 to a predetermined temperature. The refrigerator compartment 103
A compressor 116 that forms a refrigeration cycle is installed in the rear part of the rear, and the temperatures of the freezing compartment 102 and the refrigerating compartment 103 are controlled by the control device 11 installed above the deep part of the freezing compartment 102.
Controlled by 7.
【0005】次に冷凍室102および冷蔵室103の温
度が制御装置117により制御される動作について説明
する。Next, the operation of controlling the temperatures of the freezing compartment 102 and the refrigerating compartment 103 by the controller 117 will be described.
【0006】圧縮機116の運転により、圧縮機116
より吐出される高温高圧の冷媒は、凝縮器により凝縮液
化され、ついで減圧手段により減圧されたのち蒸発器1
04により蒸発気化させて空気を冷却する。この冷却さ
れた空気が、電動ファン105により冷凍室102およ
び冷蔵室103に熱を搬送し、蒸発器104により気化
した冷媒は圧縮機116に吸入されて冷凍サイクルを形
成する。The operation of the compressor 116 causes the compressor 116 to operate.
The high-temperature and high-pressure refrigerant discharged further is condensed and liquefied by the condenser, and then decompressed by the decompression means, and then the evaporator 1
The air is cooled by evaporating by 04. The cooled air transfers heat to the freezing compartment 102 and the refrigerating compartment 103 by the electric fan 105, and the refrigerant vaporized by the evaporator 104 is sucked into the compressor 116 to form a refrigeration cycle.
【0007】そして、冷凍室102の温度は、予め設定
された所定温度の範囲内で変動するようにしているが、
冷凍室102の温度が設定温度の上限以上の冷却不充分
状態になると、制御装置117は圧縮機116および電
動ファン105を駆動させて冷却運転を開始し、冷凍室
102の温度が設定温度の下限以下の過冷却状態になる
と、制御装置117は圧縮機116および電動ファン1
05の駆動を停止して冷却運転を停止する。このような
動作を繰り返すことにより、冷凍室102を所定温度の
範囲に維持している。The temperature of the freezer compartment 102 is varied within a preset temperature range.
When the temperature of the freezer compartment 102 is in an insufficient cooling state above the upper limit of the set temperature, the controller 117 drives the compressor 116 and the electric fan 105 to start the cooling operation, and the temperature of the freezer compartment 102 becomes the lower limit of the set temperature. When the following supercooled state is reached, the control device 117 causes the compressor 116 and the electric fan 1 to operate.
The drive of No. 05 is stopped and the cooling operation is stopped. By repeating such an operation, the freezer compartment 102 is maintained within a predetermined temperature range.
【0008】また、冷蔵室103の温度も、予め設定さ
れた所定温度の範囲内で変動するようにしているが、冷
蔵室103の温度が設定温度の上限以上の冷却不充分状
態になると、制御装置117は電動ダンパ115および
電動ファン105を駆動させて冷却運転を開始し、冷気
を冷気通路114より冷蔵室103に流入させて冷蔵室
103の温度を低下させる。一方、冷蔵室103の温度
が設定温度の下限以下の過冷却状態になると、制御装置
117は電動ダンパ115および電動ファン105の駆
動を停止して冷却運転を停止する。このような動作を繰
り返すことにより、冷蔵室103を所定温度の範囲に維
持している。Further, the temperature of the refrigerating compartment 103 is also fluctuated within a preset predetermined temperature range. However, when the temperature of the refrigerating compartment 103 is in an insufficient cooling state above the upper limit of the set temperature, control is performed. The device 117 drives the electric damper 115 and the electric fan 105 to start a cooling operation, and causes cool air to flow into the refrigerating chamber 103 through the cold air passage 114 to lower the temperature of the refrigerating chamber 103. On the other hand, when the temperature of the refrigerating room 103 becomes a supercooled state equal to or lower than the lower limit of the set temperature, the controller 117 stops driving the electric damper 115 and the electric fan 105 to stop the cooling operation. By repeating such an operation, the refrigerating compartment 103 is maintained within a predetermined temperature range.
【0009】以上説明したような冷却運転を続行する
と、蒸発器104に循環する空気に含まれている水分
が、熱交換される際に霜として蒸発器104の表面に付
着し、この霜が付着する着霜現象が進行すると、冷却運
転の際の通風抵抗が増加して風速が低下し、また霜層に
より蒸発器104の空気側熱伝達率が減少して蒸発器1
04の熱交換性能が低下し、良好な冷却運転ができなく
なってくる。When the cooling operation as described above is continued, water contained in the air circulating in the evaporator 104 adheres to the surface of the evaporator 104 as frost when heat is exchanged, and the frost adheres to the surface. When the frost formation phenomenon occurs, the ventilation resistance during the cooling operation increases and the wind speed decreases, and the air-side heat transfer coefficient of the evaporator 104 decreases due to the frost layer, and the evaporator 1
The heat exchange performance of No. 04 deteriorates, and good cooling operation cannot be performed.
【0010】そこで、以上のような現象の発生を防止す
るために、所定のタイミングで除霜運転を行い、除霜運
転は、圧縮機116を停止して除霜ヒータ手段106に
通電し、この除霜ヒータ手段106の発熱により蒸発器
104の表面に着霜している霜を融解する。蒸発器10
4の表面の霜が融解すると、除霜温度センサ107が所
定温度(一般的には10〜20℃)以上を感知すること
で除霜の完了を検知して除霜ヒータ手段106への通電
を停止し、通常の冷凍サイクルに復帰する。Therefore, in order to prevent the occurrence of the above phenomenon, the defrosting operation is performed at a predetermined timing. In the defrosting operation, the compressor 116 is stopped and the defrost heater means 106 is energized. The heat generated by the defrosting heater means 106 melts the frost on the surface of the evaporator 104. Evaporator 10
When the frost on the surface of No. 4 melts, the defrost temperature sensor 107 detects a predetermined temperature (generally 10 to 20 ° C.) or more to detect the completion of defrost and energize the defrost heater means 106. Stop and return to normal refrigeration cycle.
【0011】[0011]
【発明が解決しようとする課題】従来の冷蔵庫にあって
は、冷蔵室103を冷却する場合、冷凍室102の温度
状態により、冷凍室102の温度が所定温度範囲の下限
以上で圧縮機116が運転している場合と、冷凍室10
2の温度が所定温度範囲の上限以下で圧縮機116が停
止している場合とがある。In the conventional refrigerator, when cooling the refrigerating compartment 103, depending on the temperature state of the freezing compartment 102, the compressor 116 is operated when the temperature of the freezing compartment 102 is equal to or higher than the lower limit of the predetermined temperature range. When operating, freezer 10
There is a case where the compressor 116 is stopped when the temperature of 2 is below the upper limit of the predetermined temperature range.
【0012】前者の場合、冷却された空気は、風量分配
比率によって冷凍室102と冷蔵室103とに分配さ
れ、冷凍室102と冷蔵室103との比較的温度の高い
空気が蒸発器104に吸引されるため、冷凍室102の
冷却に対しては余分の空気を冷却する必要があり、冷蔵
室103の冷却に対しては冷凍効果も少なく、吸引比体
積も小さく、冷凍能力が低い冷却になるという問題点が
あった。In the former case, the cooled air is distributed to the freezing compartment 102 and the refrigerating compartment 103 according to the air volume distribution ratio, and the air having a relatively high temperature in the freezing compartment 102 and the refrigerating compartment 103 is sucked into the evaporator 104. Therefore, it is necessary to cool extra air for cooling the freezing chamber 102, and there is little refrigeration effect for cooling the refrigerating chamber 103, and the suction specific volume is small, and the cooling capacity is low. There was a problem.
【0013】また、後者の場合、冷却された冷凍室10
2の空気によって冷蔵室103を冷却するので、冷却能
力が小さく、さらに冷凍室102の温度上昇や温度を不
均一にする現象が起こり易いという問題点があった。In the latter case, the refrigerating chamber 10 is cooled.
Since the refrigerating chamber 103 is cooled by the air of No. 2, there is a problem that the cooling capacity is small, and further, the temperature rise of the freezing chamber 102 and the phenomenon of making the temperature nonuniform are likely to occur.
【0014】上記、いずれの場合も、冷蔵室103の冷
却は、冷凍室102の冷却に付随的になされるので、例
えば冷蔵室103の熱負荷が増大した時には、能力不足
は避けられないものになるという問題点もあった。In any of the above cases, the cooling of the refrigerating compartment 103 is accompanied by the cooling of the freezing compartment 102. Therefore, for example, when the heat load of the refrigerating compartment 103 is increased, insufficient capacity is inevitable. There was also the problem that
【0015】また、冷凍室扉109が開放された場合、
圧縮機116が運転状態のまま電動ファン105が停止
するが、圧縮機116の電力量、電動ファン105の起
動過渡期のロスなど省エネルギー上で好ましくないとい
う問題点があった。When the freezer compartment door 109 is opened,
Although the electric fan 105 stops while the compressor 116 is operating, there is a problem in that it is not preferable in terms of energy saving, such as the amount of electric power of the compressor 116 and a loss in the transitional period when the electric fan 105 starts up.
【0016】一方、冷却運転を継続すると、蒸発器10
4に霜が付着する着霜現象が進行し、通風抵抗が増加し
て風速が低下し、霜層により蒸発器104の空気側伝達
率が減少して蒸発器104の熱交換性能が低下し、充分
な冷却運転が不可能となるので、所定のタイミングによ
り除霜することが必要になる。しかし、除霜により蒸発
器104の熱交換性能は回復するが、除霜は一日に2〜
3回のみの実施であるので、蒸発器104は多くの場合
に着霜状態で運転するため、無着霜状態の場合と比べて
蒸発器104の熱交換性能が低下するという問題点もあ
った。On the other hand, when the cooling operation is continued, the evaporator 10
4, the frosting phenomenon in which frost adheres to 4 increases the ventilation resistance and decreases the wind speed, and the air side transmissibility of the evaporator 104 decreases due to the frost layer, and the heat exchange performance of the evaporator 104 decreases. Since sufficient cooling operation becomes impossible, it is necessary to defrost at a predetermined timing. However, although the heat exchange performance of the evaporator 104 is restored by defrosting, the defrosting may be performed in two to one days.
Since the evaporator 104 is operated only three times, the evaporator 104 is often operated in a frosted state, so that there is a problem that the heat exchange performance of the evaporator 104 is deteriorated as compared with the case of no frosted state. .
【0017】また、除霜運転は、除霜ヒータ手段106
により蒸発器104を加熱するので、ヒータの加熱によ
り冷凍室102の温度が上昇し、その上、ヒータ加熱に
よる受熱損出分だけ余計に冷却運転が必要になって消費
電力量が増加するという問題点もあった。The defrosting operation is performed by the defrosting heater means 106.
Since the evaporator 104 is heated by the above, the temperature of the freezer compartment 102 rises due to the heating of the heater, and in addition, an additional cooling operation is required by the amount of heat loss due to heating of the heater, resulting in an increase in power consumption. There were also points.
【0018】さらに、除霜ヒータ手段106は、通常は
除霜効率が良い蒸発器104の下方部に設置されるが、
冷却器室のコンパクト化、有効内容積/外容積で定める
容積効率を向上させる面で問題点があった。Further, the defrost heater means 106 is usually installed in the lower portion of the evaporator 104 which has good defrost efficiency.
There are problems in making the cooler chamber compact and improving the volumetric efficiency determined by the effective inner volume / outer volume.
【0019】[0019]
【課題を解決するための手段】上記問題点を解決するた
めに、本発明の冷蔵庫においては、圧縮機,蒸発器を有
する冷凍サイクルにより冷却器室に発生する冷気が、冷
気循環手段および冷凍室温度検知手段を有し、前記冷却
器室と冷凍室吹出口を介して連通する冷凍室もしくは冷
気循環手段および冷蔵室温度検知手段を有し、前記冷却
器室と冷蔵室吹出口を介して連通する冷蔵室の少なくと
も一方に流入循環するようにし、前記の冷凍室温度検知
手段もしくは冷蔵室温度検知手段により冷却制御手段を
応動させ、この冷却制御手段の動作によって、前記の圧
縮機および冷気循環手段ならびに冷凍室吹出口もしくは
冷蔵室吹出口の開閉動作を制御することとしている。In order to solve the above problems, in the refrigerator of the present invention, the cold air generated in the cooler chamber by the refrigerating cycle having the compressor and the evaporator is the cold air circulating means and the freezing chamber. It has a temperature detecting means and communicates with the cooler chamber via the freezer compartment outlet, a freezing room or a cold air circulating means and a refrigerating compartment temperature detecting means, and communicates with the cooler compartment via the refrigerating compartment outlet. To be circulated in at least one of the refrigerating compartments, and the cooling control means is made to respond by the freezing compartment temperature detecting means or the refrigerating compartment temperature detecting means, and the compressor and the cold air circulating means are operated by the operation of the cooling control means. In addition, the opening / closing operation of the freezer outlet or the refrigerator outlet is controlled.
【0020】そして、このようにすることにより、冷凍
室および冷蔵室の冷却性能を向上させ、冷却効率を高め
ることができる。By doing so, the cooling performance of the freezer compartment and the refrigerating compartment can be improved and the cooling efficiency can be improved.
【0021】[0021]
【発明の実施の形態】本発明の冷蔵庫は、圧縮機,蒸発
器を有する冷凍サイクルにより冷却器室に発生する冷気
を、冷気循環手段および冷凍室温度検知手段を有し、前
記冷却器室と冷凍室吹出口を介して連通する冷凍室に循
環する流路もしくは冷気循環手段および冷蔵室温度検知
手段を有し、前記冷却器室と冷蔵室吹出口を介して連通
する冷蔵室に循環する流路の少なくとも一方に流入し、
前記の冷凍室温度検知手段もしくは冷蔵室温度検知手段
により応動する冷却制御手段によって、前記の圧縮機お
よび冷気循環手段ならびに冷凍室吹出口もしくは冷蔵室
吹出口の開閉動作を制御するものである。BEST MODE FOR CARRYING OUT THE INVENTION A refrigerator according to the present invention has a cool air circulating means and a freezing room temperature detecting means for cooling the cold air generated in a cooler room by a refrigeration cycle having a compressor and an evaporator. Flow that circulates to the freezer compartment communicating via the freezer compartment outlet or has a cool air circulating means and refrigerating compartment temperature detecting means, and circulates to the refrigerator compartment communicating with the cooler compartment and the refrigerating compartment outlet opening Flowing into at least one of the paths,
The opening / closing operation of the compressor and the cool air circulating means and the freezing compartment outlet or the refrigerating compartment outlet is controlled by the cooling control means responsive to the freezing compartment temperature detecting means or the refrigerating compartment temperature detecting means.
【0022】また、圧縮機の停止時には、冷却制御手段
によって、冷凍室吹出口を所定時間閉口し、かつ冷蔵室
吹出口を所定時間開口し、冷蔵室の冷気循環手段により
冷蔵室の空気と蒸発器とを熱交換させるものである。When the compressor is stopped, the cooling control means closes the freezing compartment outlet for a predetermined time and the refrigerating compartment outlet for a predetermined time, and the refrigerating compartment cool air circulating means evaporates the air in the refrigerating compartment. It exchanges heat with the vessel.
【0023】また、冷凍室を開閉する冷凍室扉およびこ
の冷凍室扉の開閉を検知する冷凍室扉開閉検知手段を有
し、冷凍室に冷気が流入している冷却運転中で、かつ冷
凍室扉の開放中は、冷却制御手段により、冷凍室吹出口
を閉口し、冷蔵室吹出口を開口するものである。Further, it has a freezing compartment door for opening / closing the freezing compartment and a freezing compartment door opening / closing detecting means for detecting opening / closing of the freezing compartment, and is in a cooling operation in which cold air is flowing into the freezing compartment and also in the freezing compartment. While the door is open, the freezing compartment outlet is closed and the refrigeration compartment outlet is opened by the cooling control means.
【0024】また、冷蔵室を開閉する冷蔵室扉およびこ
の冷蔵室扉の開閉を検知する冷凍室扉開閉検知手段を有
し、冷蔵室に冷気が流入している冷却運転中で、かつ冷
蔵室扉の開放中は、冷却制御手段により、冷蔵室吹出口
を閉口し、冷凍室吹出口を開口するものである。Further, it has a refrigerating compartment door for opening and closing the refrigerating compartment, and a freezing compartment door opening / closing detecting means for detecting the opening / closing of the refrigerating compartment door, during the cooling operation in which cold air is flowing into the refrigerating compartment and at the same time. During opening of the door, the cooling control means closes the refrigerating compartment outlet and opens the freezing compartment outlet.
【0025】また、所定期間ごとに除霜運転をする時間
を設け、この除霜運転中は圧縮機を停止し、冷却制御手
段によって、冷凍室吹出口を所定時間閉口し、かつ冷蔵
室吹出口を所定時間開口し、冷蔵室の冷気循環手段によ
り冷蔵室の空気と蒸発器とを熱交換させるものである。Further, a time for defrosting operation is provided every predetermined period, the compressor is stopped during the defrosting operation, and the freezing compartment outlet is closed for a prescribed time by the cooling control means and the refrigerating compartment outlet is provided. Is opened for a predetermined time, and the air in the refrigerating compartment and the evaporator are heat-exchanged by the cool air circulating means in the refrigerating compartment.
【0026】また、圧縮機ならびに蒸発器を有する冷凍
サイクルにより冷気を発生する冷却器室と、冷気循環手
段および冷凍室温度検知手段を有し、前記冷却器室と冷
凍室吹出口を介して連通する少なくとも一つの冷凍室
と、冷気循環手段および冷蔵室温度検知手段を有し、前
記冷却器室と冷蔵室吹出口を介して連通する少なくとも
一つの冷蔵室と、前記の冷凍室吹出口および冷蔵室吹出
口を開閉する吹出口切替手段と、前記の冷凍室温度検知
手段もしくは冷蔵室温度検知手段により応動し、前記の
圧縮機および冷気循環手段ならびに吹出口切替手段を制
御する冷気制御手段とを備えるものである。Further, it has a cooler chamber for generating cold air by a refrigerating cycle having a compressor and an evaporator, a cool air circulating means and a freezing room temperature detecting means, and communicates with the cooler chamber via a freezing room outlet. At least one refrigerating chamber, a cold air circulating means and a refrigerating chamber temperature detecting means, and at least one refrigerating chamber communicating with the cooler chamber through a refrigerating chamber outlet, the freezer outlet and the refrigerating chamber. An outlet switching means for opening and closing the chamber outlet, and a cold air control means for controlling the compressor, the cold air circulation means and the outlet switching means in response to the freezing room temperature detecting means or the refrigerating room temperature detecting means. Be prepared.
【0027】さらに、冷凍室が少なくとも一つの冷凍室
扉および冷凍室扉開閉検知手段を有し、冷蔵室が少なく
とも一つの冷蔵室扉および冷蔵室扉開閉検知手段を有す
るものである。Further, the freezing compartment has at least one freezing compartment door and freezing compartment door opening / closing detecting means, and the refrigerating compartment has at least one refrigerating compartment door and refrigerating compartment door opening / closing detecting means.
【0028】上記のように構成された冷蔵庫にあって
は、次に説明するように動作して冷凍室,冷蔵室を冷却
することができる。In the refrigerator constructed as described above, the freezer compartment and the refrigerator compartment can be cooled by operating as described below.
【0029】圧縮機の運転により吐出された高温高圧の
冷媒を、凝縮器により凝縮液化し、毛細管により減圧
し、蒸発器で蒸発液化して周囲の空気を冷却することに
より冷気とし、この冷気を冷気循環手段により冷凍室も
しくは冷蔵室へ循環流入して熱搬送することにより、そ
れぞれの室を冷却し、蒸発器で気化した冷媒は、圧縮機
へ還流して再び吸入させる。The high-temperature and high-pressure refrigerant discharged by the operation of the compressor is condensed and liquefied by a condenser, decompressed by a capillary tube, liquefied and liquefied by an evaporator to cool the ambient air, and the cold air is cooled. The cold air circulating means circulates and flows into the freezing chamber or the refrigerating chamber to transfer heat, thereby cooling the respective chambers, and the refrigerant vaporized in the evaporator is returned to the compressor and sucked again.
【0030】そして、冷凍室および冷蔵室の温度は、冷
凍室温度検知手段もしくは冷蔵室温度検知手段によりそ
れぞれ検知されており、熱侵入や冷凍室扉の開閉や食品
などの熱負荷の収納により冷凍室の温度が上昇し、冷凍
室温度検知手段が所定の冷凍室温度範囲の上限を超える
ことを検知すると、この信号を受けて冷却制御手段が圧
縮機および冷凍室の冷気循環手段を運転し、同時に冷凍
室吹出口が開口するように吹出口切替手段を運転して冷
凍室を冷却する。また、冷凍室の温度が所定の冷凍室温
度範囲の下限を超えることを冷凍室温度検知手段が検知
すると、この信号を受けた冷却制御手段は、圧縮機およ
び冷凍室の冷気循環手段の運転を停止し、同時に冷凍室
吹出口が閉口するように吹出口切替手段を運転して冷凍
室の冷却を停止する。The temperatures of the freezing compartment and the refrigerating compartment are respectively detected by the freezing compartment temperature detecting means or the refrigerating compartment temperature detecting means, and are frozen due to heat intrusion, opening / closing of the freezing compartment door, and storage of a heat load such as food. When the temperature of the room rises and the freezing room temperature detecting means detects that it exceeds the upper limit of the predetermined freezing room temperature range, the cooling control means receives this signal and operates the cool air circulating means of the compressor and the freezing room, At the same time, the air outlet switching means is operated so that the air outlet of the freezer compartment is opened to cool the freezer compartment. Further, when the freezing room temperature detecting means detects that the temperature of the freezing room exceeds the lower limit of the predetermined freezing room temperature range, the cooling control means receiving this signal causes the cooling air circulating means of the compressor and the freezing room to operate. At the same time, the air outlet switching means is operated so that the air outlet of the freezer compartment is closed, and the cooling of the freezer compartment is stopped.
【0031】同様に、冷蔵室の温度が上昇し、冷蔵室温
度検知手段が所定の冷蔵室温度範囲の上限を超えること
を検知すると、この信号を受けて冷却制御手段が圧縮機
および冷蔵室の冷気循環手段を運転し、同時に冷蔵室吹
出口が開口するように吹出口切替手段を運転して冷蔵室
を冷却する。また、冷蔵室の温度が所定の冷蔵室温度範
囲の下限を超えることを冷蔵室温度検知手段が検知する
と、この信号を受けた冷却制御手段は、圧縮機および冷
蔵室の冷気循環手段の運転を停止し、同時に冷蔵室吹出
口が閉口するように吹出口切替手段を運転して冷蔵室の
冷却を停止する。Similarly, when the temperature of the refrigerating compartment rises and the refrigerating compartment temperature detecting means detects that it exceeds the upper limit of the predetermined refrigerating compartment temperature range, upon receipt of this signal, the cooling control means receives the signals from the compressor and the refrigerating compartment. The cold air circulating means is operated, and at the same time, the outlet switching means is operated so that the refrigerating compartment outlet is opened to cool the refrigerating compartment. When the refrigerating compartment temperature detecting means detects that the temperature of the refrigerating compartment exceeds the lower limit of the predetermined refrigerating compartment temperature range, the cooling control means receiving this signal causes the compressor and the cold air circulating means of the refrigerating compartment to operate. At the same time, the outlet switching means is operated so that the outlet of the refrigerating compartment is closed, and the cooling of the refrigerating compartment is stopped.
【0032】次に冷凍室および冷蔵室の温度が上昇し、
冷凍室温度検知手段および冷蔵室温度検知手段がそれぞ
れの室の所定温度範囲の上限を超えることを検知する
と、この信号を受けて冷却制御手段は、圧縮機を運転
し、かつ冷凍室吹出口が開口して冷蔵室吹出口が閉口す
るように吹出口切替手段を運転し、さらに冷凍室の冷気
循環手段を運転する工程と、圧縮機を運転し、かつ冷蔵
室吹出口が開口して冷凍室吹出口が閉口するように吹出
口切替手段を運転し、さらに冷蔵室の冷気循環手段を運
転する工程とを順次切り替えるように動作して冷凍室お
よび冷蔵室を冷却する。また、冷蔵室および冷蔵室の温
度がそれぞれの室の所定の温度範囲の下限を超えること
をそれぞれの室の温度検知手段が検知すると、この信号
を受けた冷却制御手段は、圧縮機およびそれぞれの室の
冷気循環手段の運転を停止し、同時に冷凍室吹出口およ
び冷蔵室吹出口が閉口するように吹出口切替手段を運転
して冷凍室および冷蔵室の冷却を停止する。Next, the temperature in the freezer compartment and the refrigerator compartment rises,
When the freezing room temperature detecting means and the refrigerating room temperature detecting means detect that the temperature exceeds the upper limit of the predetermined temperature range of each room, the cooling control means receives the signal and operates the compressor, and the freezing room outlet is A step of operating the outlet switching means so as to open and close the refrigerating compartment outlet, and further operating the cold air circulating means of the freezing compartment, and operating the compressor, and the refrigerating compartment outlet opening The air outlet switching means is operated so that the air outlet is closed, and the operation of sequentially switching the step of operating the cold air circulation means of the refrigerating compartment is performed to cool the freezing compartment and the refrigerating compartment. Further, when the temperature detecting means of each room detects that the temperature of the refrigerating room and the temperature of the refrigerating room exceeds the lower limit of the predetermined temperature range of each room, the cooling control means receiving this signal causes the compressor and the respective The operation of the cold air circulation means of the chamber is stopped, and at the same time, the outlet switching means is operated so that the freezer compartment outlet and the refrigerator compartment outlet are closed to stop the cooling of the freezer compartment and the refrigerator compartment.
【0033】したがって、冷凍室および冷蔵室は、それ
ぞれ独立に冷却することができ、また冷凍室を冷却する
場合は、冷凍室の空気のみの循環で冷却するので冷却効
率がよくなり、また冷蔵室を冷却する場合は、蒸発器に
吸入する空気が冷蔵室の比較的に高温の空気であるの
で、冷凍効果が大きく、吸入比体積も大きくなって冷凍
能力が大きい冷却が可能になり、また冷凍室および冷蔵
室それぞれの熱負荷に応じた冷却ができるので、例えば
冷蔵室にのみ大きな熱負荷が入った場合でも冷蔵室を効
率よく充分に冷却することができる。Therefore, the freezing compartment and the refrigerating compartment can be cooled independently, and when the freezing compartment is cooled, the cooling efficiency is improved because the air is circulated in the freezing compartment only, and the refrigerating compartment is also cooled. In the case of cooling, the air sucked into the evaporator is a relatively high temperature air in the refrigerating chamber, so the refrigerating effect is large, the suction specific volume is large, and cooling with a large refrigerating capacity becomes possible. Since the cooling can be performed according to the heat load of each of the compartment and the refrigerating compartment, the refrigerating compartment can be efficiently and sufficiently cooled even when a large heat load is applied only to the refrigerating compartment.
【0034】また、圧縮機が停止している時は、冷凍室
および冷蔵室は所定の温度範囲に維持され、冷気循環手
段も停止し、冷凍室吹出口および冷蔵室吹出口は閉口し
ているが、冷却制御手段により、冷蔵室吹出口が開口
し、冷凍室吹出口が閉口するように吹出口切替手段を運
転し、同時に冷蔵室の冷気循環手段を運転すると、冷蔵
室の空気が冷却器室に循環して蒸発器と熱交換すること
により、蒸発器に生じた霜を減少させ、通風抵抗を減少
させて循環風速の低下と蒸発器の空気側熱伝達率の低下
とを防止することができ、さらに蒸発器に着霜した霜を
減少させる際の昇華熱もしくは融解熱により循環する空
気が冷却されるので、冷蔵室の温度を低下させることな
く所定の温度範囲に維持することができる。When the compressor is stopped, the freezing compartment and the refrigerating compartment are maintained in a predetermined temperature range, the cold air circulating means is also stopped, and the freezing compartment outlet and the refrigerating compartment outlet are closed. However, when the cooling control means operates the outlet switching means so that the refrigerating compartment outlet is opened and the freezing compartment outlet is closed, and at the same time the cold air circulating means of the refrigerating compartment is operated, the air in the refrigerating compartment is cooled by the cooler. By circulating the heat in the chamber and exchanging heat with the evaporator, it is possible to reduce frost generated in the evaporator and reduce ventilation resistance to prevent a reduction in circulating wind speed and a reduction in the heat transfer coefficient on the air side of the evaporator. Further, since the circulating air is cooled by the heat of sublimation or the heat of fusion when reducing the frost that has frosted on the evaporator, it is possible to maintain the temperature of the refrigerating room within a predetermined temperature range without lowering it. .
【0035】また、冷却運転中に冷凍室扉が開放される
と、冷凍室扉開放検知手段が扉の開放を検知して冷却制
御手段に信号を送り、信号を受け取った冷却制御手段に
より扉が開放状態である間は、冷凍室吹出口が閉口し、
冷蔵室吹出口が開口するように吹出口切替手段を運転
し、冷凍室の冷気循環手段を停止し、冷蔵室の冷気循環
手段を運転するので、あるいは、冷却運転中に冷蔵室扉
が開放されると、冷蔵室扉開放検知手段が扉の開放を検
知して冷却制御手段に信号を送り、信号を受け取った冷
却制御手段により扉が開放状態である間は、冷蔵室吹出
口が閉口し、冷凍室吹出口が開口するように吹出口切替
手段を運転し、冷蔵室の冷気循環手段を停止し、冷凍室
の冷気循環手段は運転させるので、扉が開放されて室内
の温度が上昇しても、他の室はそのまま冷却されている
ことから、扉が閉じられた後に開放された室内を冷却す
ることに集中でき、速やかに所定の温度範囲に室内を維
持することができ、扉を開放した場合の電力ロスを軽減
することができる。When the freezer compartment door is opened during the cooling operation, the freezer compartment door open detection means detects the opening of the door and sends a signal to the cooling control means, and the cooling control means which receives the signal opens the door. While in the open state, the freezer outlet is closed,
The outlet switching means is operated so that the refrigerating compartment outlet is opened, the cold air circulating means of the freezing compartment is stopped, and the cold air circulating means of the refrigerating compartment is operated, or the refrigerating compartment door is opened during the cooling operation. Then, the refrigerating compartment door opening detection means detects the opening of the door and sends a signal to the cooling control means, and while the door is opened by the cooling control means that has received the signal, the refrigerating compartment outlet is closed, The air outlet switching means is operated so that the freezer outlet is opened, the cold air circulating means in the refrigerating compartment is stopped, and the cold air circulating means in the freezer compartment is operated, so the door is opened and the temperature inside the room rises. However, since the other rooms are cooled as they are, it is possible to concentrate on cooling the room that was opened after the door was closed, and it is possible to quickly maintain the room within the specified temperature range and open the door. The power loss in the case of doing can be reduced.
【0036】さらに、冷却制御手段により、所定の期間
を経過するごとに除霜運転をするので、この除霜運転が
開始されると、冷却制御手段により、圧縮機を停止し、
かつ冷凍室吹出口が閉口し、冷蔵室吹出口が開口するよ
うに吹出口切替手段を運転し、同時に冷蔵室の冷気循環
手段を動作させることにより冷蔵室の空気を蒸発器と熱
交換させるので、蒸発器に着霜した霜が昇華もしくは融
解されて除霜を行うことができ、除霜ヒータを用いた場
合と比較して、蒸発器の受熱損失を阻止し、冷凍室の温
度上昇を阻止し、冷却時の消費電力量を低減することが
できる。Further, since the cooling control means performs the defrosting operation every time a predetermined period elapses, when the defrosting operation is started, the cooling control means stops the compressor,
Moreover, the freezer outlet is closed and the outlet switching means is operated so that the refrigerator outlet is opened, and at the same time, the air in the refrigerator is exchanged with the evaporator by operating the cold air circulation means in the refrigerator. , Defrosting can be performed by sublimating or melting the frost that has frosted on the evaporator. Compared with the case where a defrost heater is used, the heat loss of the evaporator is prevented and the temperature rise of the freezer is prevented. However, the power consumption during cooling can be reduced.
【0037】[0037]
【実施例】その実施例について、図1ないし図6を参照
して詳述する。Embodiments will be described in detail with reference to FIGS. 1 to 6.
【0038】実施例における冷蔵庫について、構成説明
断面図を示す図1を参照して以下説明する。The refrigerator in the embodiment will be described below with reference to FIG. 1 showing a sectional view for explaining the construction.
【0039】冷蔵庫内部は断熱箱体10により形成さ
れ、断熱隔壁1により下部に少なくとも一つの冷凍室
2、上部に少なくとも一つの冷蔵室3が区切られて形成
され、冷凍室2の背部で冷蔵室3の下部には冷却器室
4、冷凍室2の背部で冷却器室4の下部には機械室5が
それぞれ形成されている。冷凍室2と冷却器室4とは冷
凍室吹出口6により、冷蔵室3と冷却器室4とは冷蔵室
吹出口7によりそれぞれ連通している。冷却器室4に
は、蒸発器8が設置され、冷凍室2には電動ファンより
なる第一の冷気循環手段9が設置され、蒸発器8によっ
て冷媒を蒸発させることにより空気を冷却し、この冷却
された空気を、冷気循環手段9により冷凍室吹出口6か
ら冷凍室2内に吸入し、冷凍室2内に空気を循環させて
冷凍室2の内部を冷却している。なお、蒸発器8の近傍
に位置する冷却器室4には、冷却器室4の温度を検知す
る温度検知手段11が配設されている。The inside of the refrigerator is formed by a heat-insulating box body 10. The heat-insulating partition wall 1 divides at least one freezer compartment 2 at the bottom and at least one refrigerating compartment 3 at the upper part, and the refrigerator compartment at the back of the freezer compartment 2. A cooler chamber 4 is formed in the lower portion of the cooling chamber 3, and a machine room 5 is formed in the lower portion of the cooler chamber 4 at the back of the freezing chamber 2. The freezer compartment 2 and the cooler compartment 4 are communicated with each other by the freezer compartment outlet 6, and the refrigerator compartment 3 and the cooler compartment 4 are communicated with each other by the refrigerator compartment outlet 7. An evaporator 8 is installed in the cooler chamber 4, a first cold air circulation means 9 composed of an electric fan is installed in the freezing chamber 2, and the evaporator 8 evaporates the refrigerant to cool the air. The cooled air is sucked into the freezer compartment 2 from the freezer compartment outlet 6 by the cold air circulation means 9, and the air is circulated in the freezer compartment 2 to cool the inside of the freezer compartment 2. A temperature detecting means 11 for detecting the temperature of the cooler chamber 4 is provided in the cooler chamber 4 located near the evaporator 8.
【0040】冷却器室4には、冷凍室吹出口6を開閉す
る電動ダンパからなる吹出口切替手段12および冷蔵室
吹出口7を開閉する電動ダンパからなる吹出口切替手段
13が設置され、機械室5には、圧縮機14,凝縮器1
5および庫外ファン16とが設置されている。なお、吹
出口切替手段12,13は交互にそれぞれの吹出口を開
閉している。In the cooler chamber 4, there are installed blower outlet switching means 12 which is an electric damper that opens and closes the freezer compartment outlet 6, and blower outlet switching means 13 that is an electric damper that opens and closes the refrigerating compartment outlet 7. The chamber 5 includes a compressor 14 and a condenser 1.
5 and the external fan 16 are installed. The outlet switching means 12 and 13 alternately open and close each outlet.
【0041】圧縮機14の運転により、圧縮機14より
吐出される冷媒は、凝縮器15により凝縮液化され、つ
いで毛細管よりなる減圧手段17により減圧されたのち
蒸発器8により蒸発気化させて空気を冷却し、冷却器室
4内に発生した冷気を冷気循環手段9により冷凍室2に
流入させて熱を搬送し、蒸発器8により気化した冷媒は
圧縮機14に吸入させて冷凍サイクルを形成している。When the compressor 14 is operated, the refrigerant discharged from the compressor 14 is condensed and liquefied by the condenser 15, and then decompressed by the decompression means 17 composed of a capillary tube, and then evaporated and vaporized by the evaporator 8 to form air. Cooled air generated in the cooler chamber 4 is made to flow into the freezing chamber 2 by the cold air circulation means 9 to transfer heat, and the refrigerant vaporized by the evaporator 8 is sucked into the compressor 14 to form a refrigeration cycle. ing.
【0042】冷気循環手段9と、吹出口切替手段12,
13と、圧縮機14との動作は、冷却制御手段18によ
り制御され、この冷却制御手段18は、除霜運転の時間
を設定,計時する内部タイマ19を備えている。Cold air circulation means 9 and outlet switching means 12,
The operations of 13 and the compressor 14 are controlled by a cooling control means 18, and this cooling control means 18 includes an internal timer 19 for setting and measuring the time of the defrosting operation.
【0043】また、冷凍室2の前面には少なくとも一つ
の冷凍室扉20が取り付けられ、その開閉動作によって
食品が出し入れされ、冷凍室扉20が閉状態の時は、扉
部材によりプッシュスイッチからなる冷凍室扉開閉検知
手段21を押動作して開閉動作を検知している。なお、
冷凍室2の内部の温度は、サーミスタからなる冷凍室温
度検知手段22により検知される。Further, at least one freezer compartment door 20 is attached to the front surface of the freezer compartment 2, food is taken in and out by the opening / closing operation thereof, and when the freezer compartment door 20 is in the closed state, a push switch is used as the door member. The freezing compartment door open / close detection means 21 is pushed to detect the open / close operation. In addition,
The temperature inside the freezer compartment 2 is detected by the freezer compartment temperature detecting means 22 which is a thermistor.
【0044】冷蔵室3の前面には少なくとも一つの冷蔵
室扉23が取り付けられ、その開閉動作によって食品が
出し入れされ、冷蔵室扉23が閉状態の時は、扉部材に
よりプッシュスイッチからなる冷蔵室扉開閉検知手段2
4を押動作して開閉動作を検知している。なお、冷蔵室
3の内部には電動ファンからなる第二の冷気循環手段2
5を取り付けて冷却器室4の冷気を冷蔵室吹出口7より
吸入し、冷蔵室3内に空気を循環させて冷蔵室3を冷却
し、また内部の温度は、サーミスタからなる冷蔵室温度
検知手段26により検知している。At least one refrigerating compartment door 23 is attached to the front surface of the refrigerating compartment 3, food is taken in and out by opening / closing operation of the refrigerating compartment door 23, and when the refrigerating compartment door 23 is in a closed state, a refrigerating compartment constituted by a push switch by a door member. Door open / close detection means 2
4 is pressed to detect the opening / closing operation. In addition, inside the refrigerating chamber 3, the second cold air circulating means 2 including an electric fan is provided.
5 is attached to suck the cool air in the cooler chamber 4 from the refrigerating chamber outlet 7, circulate air in the refrigerating chamber 3 to cool the refrigerating chamber 3, and detect the temperature inside the refrigerating chamber 3 which is a thermistor. It is detected by the means 26.
【0045】次に冷却制御手段18の動作について説明
する。冷却制御手段18は、冷凍室温度検知手段22,
冷蔵室温度検知手段26,冷凍室扉開閉検知手段21,
冷蔵室扉開閉検知手段24よりの信号を受けて圧縮機1
4、吹出口切替手段12,13、冷気循環手段9,25
を駆動制御する。Next, the operation of the cooling control means 18 will be described. The cooling control means 18 includes a freezer compartment temperature detection means 22,
Refrigerating room temperature detecting means 26, freezing room door open / close detecting means 21,
Upon receiving a signal from the refrigerator compartment door opening / closing detection means 24, the compressor 1
4, outlet switching means 12, 13, cold air circulation means 9, 25
Drive control.
【0046】そして、圧縮機14が停止している時に
は、所定時間だけ吹出口切替手段12により冷凍室吹出
口6を閉口させ、吹出口切替手段13により冷蔵室吹出
口7は開口させ、冷気循環手段25を駆動させることに
より、冷蔵室3内の比較的高温の空気(例えば3℃の空
気)を蒸発器8と熱交換させて冷却する。When the compressor 14 is stopped, the outlet switching means 12 closes the freezer compartment outlet 6 for a predetermined time, and the outlet outlet selector 13 opens the refrigerating compartment outlet 7 to circulate the cold air. By driving the means 25, the relatively high temperature air (for example, air at 3 ° C.) in the refrigerating chamber 3 is heat-exchanged with the evaporator 8 to be cooled.
【0047】また、冷凍室2が冷却されている間に冷凍
室扉20が開放され、冷凍室扉開閉検知手段21よりの
扉開放の信号を検知すると、扉が開放している間は、吹
出口切替手段12により冷凍室吹出口6を閉口させ、吹
出口切替手段13により冷蔵室吹出口7は開口させ、冷
気循環手段9は停止させ、冷気循環手段25は駆動運転
させる。冷蔵室3が冷却されている間に冷蔵室扉23が
開放され、冷蔵室扉開閉検知手段24よりの扉開放の信
号を検知すると、扉が開放している間は、吹出口切替手
段13により冷蔵室吹出口7を閉口させ、吹出口切替手
段12により冷凍室吹出口6は開口させ、冷気循環手段
25は停止させ、冷気循環手段9は駆動運転させる。Further, when the freezing compartment door 20 is opened while the freezing compartment 2 is being cooled and a door opening signal from the freezing compartment door opening / closing detecting means 21 is detected, the air is blown while the door is open. The outlet switching means 12 closes the freezing compartment outlet 6, the outlet switching means 13 opens the refrigerating compartment outlet 7, the cold air circulating means 9 is stopped, and the cold air circulating means 25 is driven. The refrigerating compartment door 23 is opened while the refrigerating compartment 3 is being cooled, and when a door opening signal from the refrigerating compartment door opening / closing detecting means 24 is detected, the air outlet switching means 13 controls the opening of the door. The refrigerating compartment outlet 7 is closed, the freezer outlet 6 is opened by the outlet switching means 12, the cold air circulating means 25 is stopped, and the cold air circulating means 9 is driven.
【0048】さらに、内部タイマ19により計時する所
定期間ごとに除霜運転時間を設定し、その除霜運転時間
中は圧縮機14を停止し、吹出口切替手段12により冷
凍室吹出口6を閉口させ、吹出口切替手段13により冷
蔵室吹出口7は開口させ、冷気循環手段25を駆動させ
ることにより、冷蔵室3内の比較的高温の空気(例えば
3℃の空気)を蒸発器8と熱交換させる。Further, the defrosting operation time is set for each predetermined time period measured by the internal timer 19, the compressor 14 is stopped during the defrosting operation time, and the freezer compartment outlet 6 is closed by the outlet switching means 12. Then, the refrigerating compartment outlet 7 is opened by the outlet switching means 13 and the cold air circulating means 25 is driven, so that the relatively high temperature air (for example, air at 3 ° C.) in the refrigerating compartment 3 and the evaporator 8 are heated. Replace.
【0049】以上説明した構成の冷蔵庫の動作について
説明する。冷凍サイクルの冷却動作は、冷却制御手段1
8の指示により圧縮機14が運転されると、高温高圧の
冷媒は、圧縮機14より吐出し、ついで凝縮器15にお
いて庫外ファン16により強制冷却されて凝縮液化し、
減圧手段17で減圧される。減圧された冷媒を蒸発器8
で蒸発気化して周囲の空気より気化熱を奪うことによ
り、冷却器室4内の蒸発器8周辺の空気を冷却する。こ
の冷却器室4内に発生した冷気は、冷気循環手段9,2
5および吹出口切替手段12,13の動作により、冷凍
室2および冷蔵室3に交互に循環させて熱搬送し、室内
を所定の温度に冷却制御して維持している。一方、蒸発
器8で気化した冷媒は、圧縮機14に再び吸入されて冷
凍サイクルを継続する。The operation of the refrigerator having the above-described structure will be described. The cooling operation of the refrigeration cycle is performed by the cooling control means 1
When the compressor 14 is operated according to the instruction of No. 8, the high-temperature and high-pressure refrigerant is discharged from the compressor 14, and is then forcibly cooled by the external fan 16 in the condenser 15 to be condensed and liquefied.
The pressure is reduced by the pressure reducing means 17. The depressurized refrigerant is the evaporator 8
In this way, the air around the evaporator 8 in the cooler chamber 4 is cooled by being evaporated and vaporized to remove the heat of vaporization from the surrounding air. The cool air generated in the cooler chamber 4 is cooled by the cool air circulating means 9 and 2.
5 and the outlet switching means 12 and 13 operate to alternately circulate the heat in the freezer compartment 2 and the refrigerating compartment 3 for heat transfer, and cool and maintain the interior of the compartment at a predetermined temperature. On the other hand, the refrigerant vaporized in the evaporator 8 is sucked into the compressor 14 again to continue the refrigeration cycle.
【0050】通常運転中は、冷凍室2の温度は冷凍室温
度検知手段22により、冷蔵室3の温度は冷蔵室温度検
知手段26によりそれぞれ検知されているが、冷凍室扉
20,冷蔵室扉23の開閉動作などによる熱負荷の収納
により室内の温度は上昇するので、冷凍サイクルによる
冷却運転を適宜行って室内を所定温度に維持する必要が
ある。そのための冷却運転としては、冷凍室2のみを冷
却するか、冷蔵室3のみを冷却するか、冷凍室2および
冷蔵室3の双方を冷却するかの三通りがあるので、次に
それぞれの場合の冷却運転について説明する。During normal operation, the temperature of the freezing compartment 2 is detected by the freezing compartment temperature detecting means 22 and the temperature of the refrigerating compartment 3 is detected by the refrigerating compartment temperature detecting means 26. Since the temperature of the room rises due to the storage of the heat load due to the opening / closing operation of 23, it is necessary to appropriately perform the cooling operation by the refrigeration cycle to maintain the room at the predetermined temperature. There are three cooling operations for that purpose: cooling only the freezing compartment 2, cooling only the refrigerating compartment 3, or cooling both the freezing compartment 2 and the refrigerating compartment 3. The cooling operation will be described.
【0051】冷凍室2のみを冷却する場合について、運
転動作のタイムチャートを示す図2を参照して説明す
る。この場合は、冷蔵室3の温度は所定範囲に維持され
ており(図2(b)参照)、冷却運転は停止しているの
で、冷気循環手段25は停止し(図2(e)参照)、冷
蔵室吹出口7は閉口している(図2(g)参照)。A case where only the freezer compartment 2 is cooled will be described with reference to FIG. 2 showing a time chart of the operation. In this case, the temperature of the refrigerating chamber 3 is maintained within a predetermined range (see FIG. 2B), and the cooling operation is stopped, so the cold air circulation means 25 is stopped (see FIG. 2E). The refrigerating compartment outlet 7 is closed (see FIG. 2 (g)).
【0052】冷凍室2の温度を冷凍室温度検知手段22
により検知し、温度が予め設定した所定の冷凍室温度
(例えば−18℃)と温度範囲(例えば±1℃)の上限
Tfhを超えること(図2(a)参照)を検知すると
(時間t1,t3)、この検知信号により冷却制御手段
18は、圧縮機14と冷気循環手段9を運転させ(図2
(c),図2(d)参照)、吹出口切替手段12は冷凍
室吹出口6を開口するように運転して(図2(f)参
照)冷凍室2を冷却する。The temperature of the freezer compartment 2 is detected by the freezer compartment temperature detecting means 22.
When the temperature exceeds the upper limit Tfh of the predetermined freezing room temperature (for example, -18 ° C) and the temperature range (for example, ± 1 ° C) (see Fig. 2A) (time t1, At t3), the cooling control means 18 operates the compressor 14 and the cool air circulation means 9 based on this detection signal (see FIG. 2).
(C), FIG. 2 (d)), the outlet switching means 12 is operated so as to open the freezer outlet 6 (see FIG. 2f) to cool the freezer 2.
【0053】温度が予め設定した所定の冷凍室温度(例
えば−18℃)と温度範囲(例えば±1℃)の下限Tf
lを超えること(図2(a)参照)を検知すると(時間
t2)、この検知信号により冷却制御手段18は、圧縮
機14と冷気循環手段9を停止させ(図2(c),図2
(d)参照)、吹出口切替手段12は冷凍室吹出口6を
閉口するように運転して(図2(f)参照)冷凍室2の
冷却を停止する。The lower limit Tf of a predetermined freezing room temperature (for example, -18 ° C) and a temperature range (for example, ± 1 ° C) set in advance.
When it detects that it exceeds 1 (see FIG. 2A) (time t2), the cooling control means 18 stops the compressor 14 and the cold air circulation means 9 by this detection signal (FIG. 2C, FIG.
(See (d)), the outlet switching means 12 operates so as to close the freezer compartment outlet 6 (see FIG. 2 (f)), and stops the cooling of the freezer compartment 2.
【0054】以上の運転動作により冷凍室2の温度を維
持することができる。次に冷蔵室3のみを冷却する場合
について、運転動作のタイムチャートを示す図3を参照
して説明する。この場合は、冷凍室2の温度は所定範囲
に維持されており(図2(a)参照)、冷却運転は停止
しているので、冷気循環手段9は停止し(図2(d)参
照)、冷凍室吹出口6は閉口している(図2(f)参
照)。The temperature of the freezer compartment 2 can be maintained by the above operation. Next, a case where only the refrigerating compartment 3 is cooled will be described with reference to FIG. 3 showing a time chart of the driving operation. In this case, the temperature of the freezer compartment 2 is maintained within a predetermined range (see FIG. 2 (a)), and the cooling operation is stopped, so the cold air circulation means 9 is stopped (see FIG. 2 (d)). The freezer outlet 6 is closed (see FIG. 2 (f)).
【0055】冷蔵室3の温度を冷蔵室温度検知手段26
により検知し、温度が予め設定した所定の冷凍室温度
(例えば3℃)と温度範囲(例えば±1℃)の上限Tr
hを超えること(図2(b)参照)を検知すると(時間
t1,t3)、この検知信号により冷却制御手段18
は、圧縮機14と冷気循環手段25を運転させ(図2
(c),図2(e)参照)、吹出口切替手段13は冷蔵
室吹出口7を開口するように運転して(図2(g)参
照)冷蔵室3を冷却する。The temperature of the refrigerating compartment 3 is detected by the refrigerating compartment temperature detecting means 26.
The upper limit Tr of the predetermined freezer temperature (eg 3 ° C) and temperature range (eg ± 1 ° C) detected by
When it is detected that h is exceeded (see FIG. 2B) (time t1, t3), the cooling control means 18 is generated by this detection signal.
Operates the compressor 14 and the cold air circulation means 25 (see FIG.
(C) and FIG. 2 (e)), the outlet switching means 13 operates to open the refrigerating compartment outlet 7 (see FIG. 2 (g)) to cool the refrigerating compartment 3.
【0056】温度が予め設定した所定の冷凍室温度(例
えば3℃)と温度範囲(例えば±1℃)の下限Trlを
超えること(図2(b)参照)を検知すると(時間t
2)、この検知信号により冷却制御手段18は、圧縮機
14と冷気循環手段25を停止させ(図2(c),図2
(e)参照)、吹出口切替手段13は冷蔵室吹出口7を
閉口するように運転して(図2(g)参照)冷蔵室3の
冷却を停止する。When it is detected that the temperature exceeds the lower limit Trl of the predetermined freezing room temperature (for example, 3 ° C.) and the temperature range (for example ± 1 ° C.) set in advance (see FIG. 2B) (time t)
2), the cooling control means 18 stops the compressor 14 and the cold air circulation means 25 by this detection signal (FIG. 2C, FIG.
(See (e)), the outlet switching means 13 operates so as to close the refrigerating compartment outlet 7 (see FIG. 2 (g)) to stop the cooling of the refrigerating compartment 3.
【0057】以上の運転動作により冷蔵室3の温度を維
持することができる。冷凍室2および冷蔵室3を冷却す
る場合について、運転動作のタイムチャートを示す図4
を参照して説明する。The temperature of the refrigerator compartment 3 can be maintained by the above operation. FIG. 4 shows a time chart of the operation operation in the case of cooling the freezing compartment 2 and the refrigerating compartment 3.
This will be described with reference to FIG.
【0058】冷凍室2の温度が時間t1において温度範
囲の上限Tfhを超えると(図4(a)参照)、圧縮機
14と冷気循環手段9とが運転し(図4(c),図4
(d)参照)、吹出口切替手段12も運転して冷凍室吹
出口6を開口して(図4(f)参照)冷凍室2を冷却す
る。When the temperature of the freezer compartment 2 exceeds the upper limit Tfh of the temperature range at time t1 (see FIG. 4 (a)), the compressor 14 and the cold air circulation means 9 are operated (FIG. 4 (c), FIG. 4).
(See (d)), the outlet switching means 12 is also operated to open the freezer compartment outlet 6 (see FIG. 4 (f)) to cool the freezer compartment 2.
【0059】冷凍室2の冷却中の時間t2,t4におい
て冷蔵室3の温度が温度範囲の上限Trhを超えると
(図4(b)参照)、この検知信号により冷却制御手段
18は冷凍室2と冷蔵室3とがともに冷却運転を必要と
すると判断し、冷気循環手段9と冷気循環手段25とは
交互に運転し(図4(d),図4(e)参照)、同時
に、吹出口切替手段12と吹出口切替手段13とを交互
に運転して冷凍室吹出口6と冷蔵室吹出口7とを交互に
開閉する(図4(f),図4(g)参照)。When the temperature of the refrigerating compartment 3 exceeds the upper limit Trh of the temperature range at times t2 and t4 during cooling of the freezing compartment 2 (see FIG. 4 (b)), the cooling control means 18 causes the refrigerating compartment 2 to operate in response to this detection signal. It is determined that both the cold air circulation means 9 and the cold air circulation means 25 need cooling operation, and the cold air circulation means 9 and the cold air circulation means 25 are alternately operated (see FIGS. 4 (d) and 4 (e)), and at the same time, the air outlet The switching means 12 and the outlet switching means 13 are alternately operated to alternately open and close the freezer compartment outlet 6 and the refrigerator compartment outlet 7 (see FIGS. 4 (f) and 4 (g)).
【0060】すなわち、冷凍室吹出口6が開口して冷蔵
室吹出口7が閉口するように運転し、時間tf経過後、
冷凍室吹出口6が閉口して冷蔵室吹出口7が開口するよ
うに運転し、さらに、時間tr経過後、再び冷凍室吹出
口6が開口して冷蔵室吹出口7が閉口するように運転
し、冷蔵室3の温度が温度範囲の下限Trlを超えると
(時間t3,t5)、冷蔵室3の冷却運転は終了して冷
凍室2のみの冷却運転に戻る。なお、冷蔵室3の冷却運
転中に冷却室2を冷却する場合も同様な動作をする。That is, the freezing compartment outlet 6 is opened and the refrigerating compartment outlet 7 is closed, and after a lapse of time tf,
Operation is performed so that the freezing compartment outlet 6 is closed and the refrigerating compartment outlet 7 is opened, and after the time tr has elapsed, the freezing compartment outlet 6 is opened again and the refrigeration compartment outlet 7 is closed. Then, when the temperature of the refrigerating compartment 3 exceeds the lower limit Trl of the temperature range (time t3, t5), the cooling operation of the refrigerating compartment 3 ends and returns to the cooling operation of only the freezing compartment 2. The same operation is performed when the cooling chamber 2 is cooled during the cooling operation of the refrigerating chamber 3.
【0061】このような冷却運転をすることにより、冷
凍室2および冷蔵室3は独立して冷却され、冷蔵室3の
冷却に冷凍室2の冷気を利用して冷凍室2の温度が上昇
したりすることがなくなり、また、冷却を各室独立に行
うので、冷凍室2の冷却は冷凍室2の空気を吸い込んで
行い、冷凍室2と冷蔵室3との空気を混合して吸い込む
場合に比べ熱効率が良くなる。冷蔵室3の冷却の場合、
混合空気を吸い込んだ場合は吸入空気の温度が3℃と比
較的に高温であるのに比べ冷却効果が大きく、また吸入
比体積が大きいので、冷却能力も大きくなる。By performing such a cooling operation, the freezing compartment 2 and the refrigerating compartment 3 are independently cooled, and the temperature of the freezing compartment 2 rises by using the cold air of the freezing compartment 2 to cool the refrigerating compartment 3. Since each room is cooled independently, the freezing room 2 is cooled by sucking in the air in the freezing room 2, and when the air in the freezing room 2 and the refrigerating room 3 are mixed and sucked in. The thermal efficiency is better than that. In the case of cooling the refrigerator compartment 3,
When the mixed air is sucked in, the temperature of the intake air is relatively high at 3 ° C., so that the cooling effect is large and the suction specific volume is large, so that the cooling capacity is also large.
【0062】さらに、冷凍室2,冷蔵室3それぞれの熱
負荷に応じた冷却が可能となり、冷蔵室3にのみ大きな
熱負荷が入った場合でも、冷蔵室3を充分に冷却するこ
とができ、また冷蔵室3の全域もしくは一部区域を急冷
することもできる。Further, it becomes possible to cool the freezing compartment 2 and the refrigerating compartment 3 according to their respective heat loads, and the refrigerating compartment 3 can be sufficiently cooled even when a large heat load is applied only to the refrigerating compartment 3. It is also possible to rapidly cool the entire refrigerating room 3 or a part thereof.
【0063】なお、以上の説明では、冷凍室吹出口6が
先に開口し、冷蔵室吹出口7が後で開口する場合を示し
たが、逆に冷蔵室吹出口7が先に開口するようにしても
よい。In the above description, the freezer compartment outlet 6 is opened first, and the refrigerating compartment outlet 7 is opened later. However, conversely, the refrigerator compartment outlet 7 may be opened first. You may
【0064】次に冷却運転が停止しているときの動作に
ついて、運転動作のタイムチャートを示す図5を参照し
て説明する。Next, the operation when the cooling operation is stopped will be described with reference to FIG. 5 showing a time chart of the operation operation.
【0065】冷凍室2および冷蔵室3が所定の温度範囲
に維持され(図5(a),図5(b)参照)、圧縮機1
4および冷気循環手段9,25が停止し(図5(c),
図5(d),図5(e)参照)、冷凍室吹出口6および
冷蔵室吹出口7が吹出口切替手段12,13により閉口
状態(図5(f),図5(g)参照)になった時間t1
より、時間tmが経過した後、冷却制御手段18によ
り、冷蔵室吹出口7を開口させ、冷凍室吹出口6を閉口
させ、かつ冷気循環手段25を運転させ(時間t2)、
冷蔵室3の空気を冷却器室4に循環させて蒸発器8と熱
交換させると、通常の運転により蒸発器8に発生した霜
は、循環する冷蔵室3の空気により昇華され、あるいは
融解されて減少し、除霜効果が得られる。また、循環す
る空気は、霜の昇華熱、あるいは融解熱により僅かでは
あるが冷却されるので、冷蔵室3の温度は維持すること
ができる。同時に、蒸発器8に着霜した霜が減少するこ
とにより、循環する空気の流速が低下するのが防止さ
れ、蒸発器8の空気側熱伝達率の低下も防止される。The freezer compartment 2 and the refrigerator compartment 3 are maintained within a predetermined temperature range (see FIGS. 5 (a) and 5 (b)), and the compressor 1
4 and the cold air circulation means 9 and 25 are stopped (Fig. 5 (c),
5 (d) and 5 (e)), the freezer compartment outlet 6 and the refrigerator compartment outlet 7 are closed by the outlet switching means 12 and 13 (see FIGS. 5 (f) and 5 (g)). Time t1
After the time tm has passed, the cooling control means 18 opens the refrigerating compartment outlet 7, closes the freezer compartment outlet 6, and operates the cool air circulating means 25 (time t2).
When the air in the refrigerating compartment 3 is circulated in the cooler compartment 4 to exchange heat with the evaporator 8, the frost generated in the evaporator 8 by normal operation is sublimated or melted by the circulating air in the refrigerating compartment 3. Decrease and the defrosting effect is obtained. Further, since the circulating air is cooled to a slight extent by the heat of sublimation of frost or the heat of melting, the temperature of the refrigerating chamber 3 can be maintained. At the same time, a decrease in the frost that has frosted on the evaporator 8 prevents the flow velocity of the circulating air from decreasing, and also prevents the decrease in the heat transfer coefficient on the air side of the evaporator 8.
【0066】さらに、所定時間tdが経過した後、冷却
制御手段18は、冷蔵室吹出口7が閉口するように吹出
口切替手段13を運転し(図5(g)参照)、冷気循環
手段25を停止(図5(e)参照)させる(時間t
3)。その後、各室の温度が上昇した時点で、再び通常
の冷却運転を行うが(時間t4)、各室の温度が、温度
範囲の上限を超えたことを検知する信号が入った場合
は、時間td内であっても以上説明した冷却運転を開始
する。After the elapse of the predetermined time td, the cooling control means 18 operates the outlet switching means 13 so that the refrigerating compartment outlet 7 is closed (see FIG. 5 (g)), and the cool air circulation means 25. Is stopped (see FIG. 5 (e)) (time t
3). After that, when the temperature of each room rises, the normal cooling operation is performed again (time t4), but if a signal for detecting that the temperature of each room exceeds the upper limit of the temperature range is input, Even within td, the cooling operation described above is started.
【0067】以上の運転動作により、通常の運転におい
ては蒸発器8に着霜が少ない良好な状態で運転できるの
で、効率の良い冷却ができ、消費電力も低減され、その
上、着霜の影響が少ないので、蒸発器8を小型化するこ
とができ、容積効率も向上する。With the above-described operation, the evaporator 8 can be operated in a good condition with little frost formation during normal operation, so efficient cooling can be achieved and power consumption can be reduced. Since the amount is small, the evaporator 8 can be downsized and the volumetric efficiency is improved.
【0068】なお、時間tmがゼロの場合は、冷却運転
に継続して上記時間t2での運転を行うことができるの
で、冷気循環手段25の起動時のロス回数が軽減されて
消費電力量を低減することができる。When the time tm is zero, the cooling operation can be continued and the operation at the time t2 can be continued. Therefore, the number of losses at the time of starting the cold air circulation means 25 can be reduced and the power consumption can be reduced. It can be reduced.
【0069】次に冷凍室扉20,冷蔵室扉23が開閉さ
れた場合について、運転動作のタイムチャートを示す図
6を参照して説明する。Next, the case where the freezer compartment door 20 and the refrigerator compartment door 23 are opened and closed will be described with reference to FIG. 6 showing a time chart of the operation.
【0070】冷凍室2の冷却運転が時間t1から開始さ
れている時に、冷凍室扉20が時間t2で開放されたと
すると(図6(c)参照)、冷凍室扉開閉検知手段21
が扉開放を検知して信号を冷却制御手段18に送り、信
号を受けた冷却制御手段18は、冷蔵室3の温度が温度
範囲の下限を超えない限り(図6(b)参照)、冷凍室
吹出口6が閉口し、冷蔵室吹出口7が開口するように吹
出口切替手段12,13を運転し(図6(h),図6
(i)参照)、同時に、冷気循環手段9は停止し(図6
(f)参照)、冷気循環手段25は駆動する(図6
(g)参照)ように運転する。When the freezing compartment door 20 is opened at the time t2 when the cooling operation of the freezing compartment 2 is started from the time t1 (see FIG. 6 (c)), the freezing compartment door opening / closing detecting means 21.
Detects the opening of the door and sends a signal to the cooling control means 18, and the cooling control means 18 that has received the signal refrigerates unless the temperature of the refrigerating compartment 3 exceeds the lower limit of the temperature range (see FIG. 6 (b)). The outlet switching means 12 and 13 are operated so that the chamber outlet 6 is closed and the refrigerating compartment outlet 7 is opened (Fig. 6 (h), Fig. 6).
(See (i)), at the same time, the cold air circulation means 9 is stopped (see FIG. 6).
(Refer to (f)), the cold air circulation means 25 drives (FIG. 6).
(See (g)).
【0071】また、冷蔵室3の温度が温度範囲の下限を
超えた場合は、冷気循環手段25を停止し、冷凍室扉2
0が閉じられると(時間t3)、冷凍室扉開閉検知手段
21が扉閉鎖を検知して信号を冷却制御手段18に送
り、冷却制御手段18は扉開放前の運転を継続する。When the temperature of the refrigerator compartment 3 exceeds the lower limit of the temperature range, the cold air circulation means 25 is stopped and the freezer compartment door 2 is opened.
When 0 is closed (time t3), the freezing compartment door opening / closing detection means 21 detects the door closing and sends a signal to the cooling control means 18, and the cooling control means 18 continues the operation before opening the door.
【0072】冷凍室2および冷蔵室3の冷却運転が開始
されている時(時間t4)、冷蔵室扉23が時間t5で
開放されたとすると(図6(d)参照)、冷蔵室扉開閉
検知手段24が扉開放を検知して信号を冷却制御手段1
8に送り、信号を受けた冷却制御手段18は、冷凍室2
の温度が温度範囲の下限を超えない限り(図6(a)参
照)、冷蔵室吹出口7が閉口し、冷凍室吹出口6が開口
するように吹出口切替手段12,13を運転し(図6
(h),図6(i)参照)、同時に、冷気循環手段9を
駆動し(図6(f)参照)、冷気循環手段25は停止す
る(図6(g)参照)ように運転する。When the cooling operation of the freezer compartment 2 and the refrigerator compartment 3 is started (time t4), and the refrigerator compartment door 23 is opened at time t5 (see FIG. 6 (d)), the refrigerator compartment door open / closed detection The means 24 detects the door opening and sends a signal to the cooling control means 1
8, the cooling control means 18 receiving the signal sends the signal to the freezer compartment 2.
6 does not exceed the lower limit of the temperature range (see FIG. 6A), the outlet switching means 12, 13 is operated so that the refrigerating compartment outlet 7 is closed and the freezer compartment outlet 6 is opened ( Figure 6
(H) and FIG. 6 (i)), at the same time, the cold air circulation means 9 is driven (see FIG. 6 (f)), and the cold air circulation means 25 is stopped (see FIG. 6 (g)).
【0073】また、冷凍室2の温度が温度範囲の下限を
超えた場合は、冷気循環手段9を停止し、冷蔵室扉23
が閉じられると(時間t6)、冷蔵室扉開閉検知手段2
4が扉閉鎖を検知して信号を冷却制御手段18に送り、
冷却制御手段18は扉開放前の運転を継続し、冷蔵室3
の冷却運転が終了する(時間t7)。When the temperature of the freezer compartment 2 exceeds the lower limit of the temperature range, the cold air circulation means 9 is stopped and the refrigerator compartment door 23 is opened.
When the refrigerator is closed (time t6), the refrigerator compartment door open / close detection means 2
4 detects the door closing and sends a signal to the cooling control means 18,
The cooling control means 18 continues the operation before the door is opened, and the refrigerating room 3
The cooling operation of is finished (time t7).
【0074】冷凍室扉20もしくは冷蔵室扉23が開閉
した場合に、以上説明したような運転を行うことによ
り、一方の扉が開放されてその室内の温度が上昇して
も、他方の室の冷却運転は行っているので、扉が閉鎖さ
れた後は開放された室のみを冷却する運転をすれば良い
ので、所定の温度範囲に速やかに到達させて維持するこ
とができる。When the freezer compartment door 20 or the refrigerating compartment door 23 is opened and closed, by performing the operation described above, even if one of the doors is opened and the temperature in that compartment rises, the other compartment Since the cooling operation is performed, it is only necessary to perform the operation of cooling only the opened chamber after the door is closed, so that the predetermined temperature range can be quickly reached and maintained.
【0075】次に除霜する場合の運転について説明す
る。冷却制御手段18により所定時間ごとに除霜運転の
時間を設定し、除霜運転が開始すると、冷却制御手段1
8により、圧縮機14を停止させ、また、冷凍室吹出口
6が閉口し、冷蔵室吹出口7が開口するように吹出口切
替手段12,13を運転し、同時に、冷気循環手段25
を運転し、冷蔵室3内の空気を循環して蒸発器8と熱交
換させる。この熱交換により、通常の運転で蒸発器8に
発生する霜は、昇華もしくは融解して減少し、循環する
空気自体は昇華熱もしくは融解熱により冷却されるの
で、冷蔵室3の温度は所定の範囲に維持できる。そし
て、所定の時間が経過した後、除霜運転が終了したとし
て冷却制御手段18は通常の運転に復帰させるように動
作する。Next, the operation for defrosting will be described. When the defrosting operation time is set every predetermined time by the cooling control means 18 and the defrosting operation is started, the cooling control means 1
8, the compressor 14 is stopped, the freezing compartment outlet 6 is closed, and the outlet switching means 12 and 13 are operated so that the refrigerating compartment outlet 7 is opened, and at the same time, the cold air circulation means 25 is operated.
Is operated to circulate the air in the refrigerating chamber 3 to exchange heat with the evaporator 8. By this heat exchange, the frost generated in the evaporator 8 in the normal operation is sublimated or melted to be reduced, and the circulating air itself is cooled by the heat of sublimation or the heat of fusion, so that the temperature of the refrigerating chamber 3 is kept at a predetermined level. Can be kept in range. Then, after the lapse of a predetermined time, it is determined that the defrosting operation has ended, and the cooling control means 18 operates to restore the normal operation.
【0076】以上説明したように運転することにより、
除霜のためのヒータが不要となり、またヒータ容積の削
減により容積効率が向上し、さらに蒸発器8には除霜用
ヒータによる受熱損失がなくなるので、冷凍室の温度上
昇を防止し、再冷却運転する際の消費電力量を低減させ
ることができる。By operating as described above,
A heater for defrosting is not required, volumetric efficiency is improved by reducing the heater volume, and the evaporator 8 does not have a heat loss due to the defrosting heater. It is possible to reduce power consumption when driving.
【0077】なお、この実施例においては、冷凍室2が
下方で冷蔵室3が上方に位置する場合について説明した
が、この位置関係に制限されることはなく、また、冷却
器室4は冷凍室2の奥部に設けた場合について説明した
が、冷蔵室3の奥部あるいは断熱隔壁1に設けても効果
に影響はなく、また、凝縮器15を冷却するのに庫外フ
ァン16を用いて強制的に冷却する場合について説明し
たが、凝縮器15の一部を断熱箱体10内に埋設した
り、あるいは、機械室5の外部に凝縮器15を設置した
りして庫外ファン16は用いずに自然冷却する場合でも
良く、さらに、冷凍室吹出口6および冷蔵室吹出口7
に、それぞれ吹出口切替手段12および吹出口切替手段
13を設けた場合について説明したが、循環する空気の
吸込口に設けても同様の効果が得られる。In this embodiment, the case where the freezer compartment 2 is located at the lower side and the refrigerating compartment 3 is located at the upper side has been described, but the positional relationship is not limited, and the cooler compartment 4 is frozen. Although the case where it is provided in the inner part of the chamber 2 has been described, the effect is not affected even if it is provided in the inner part of the refrigerating chamber 3 or in the heat insulating partition wall 1, and the outside fan 16 is used to cool the condenser 15. Although the case where the condenser 15 is forcibly cooled has been described, a part of the condenser 15 is embedded in the heat insulation box body 10 or the condenser 15 is installed outside the machine room 5 so that the outside fan 16 Natural cooling may be performed without using the above, and further, the freezer compartment outlet 6 and the refrigerator compartment outlet 7
In the above description, the case where the air outlet switching means 12 and the air outlet switching means 13 are provided has been described, but the same effect can be obtained even if the air outlet switching means 12 and the air outlet switching means 13 are provided at the suction port of the circulating air.
【0078】[0078]
【発明の効果】本発明は、以上説明したような形態で実
施され、以下に記載されるような効果を奏する。The present invention is embodied in the form described above and has the following effects.
【0079】冷凍室および冷蔵室の冷却能力が向上し、
しかも高い効率で冷却することができ、また、蒸発器と
の熱交換性能を高く維持することができ、さらに、電力
ロスを低減し、消費電力量を低減し、しかも冷蔵庫内部
の容積効率を向上させることができる。The cooling capacity of the freezer compartment and the refrigerator compartment is improved,
Moreover, it can be cooled with high efficiency, and the heat exchange performance with the evaporator can be maintained high. Furthermore, power loss is reduced, power consumption is reduced, and the volumetric efficiency inside the refrigerator is improved. Can be made.
【図1】本発明の実施例における冷蔵庫の構成説明断面
図FIG. 1 is a sectional view illustrating the configuration of a refrigerator according to an embodiment of the present invention.
【図2】同冷蔵庫の冷凍室のみを冷却する場合の冷却運
転動作を示すタイムチャートFIG. 2 is a time chart showing the cooling operation operation when cooling only the freezer compartment of the refrigerator.
【図3】同冷蔵庫の冷蔵室のみを冷却する場合の冷却運
転動作を示すタイムチャートFIG. 3 is a time chart showing a cooling operation operation when cooling only a refrigerating room of the refrigerator.
【図4】同冷蔵庫の冷凍室および冷蔵室を同時に冷却す
る場合の冷却運転動作を示すタイムチャートFIG. 4 is a time chart showing a cooling operation operation in the case of simultaneously cooling the freezer compartment and the refrigerator compartment of the refrigerator.
【図5】同冷蔵庫が冷却運転を停止している場合の運転
動作を示すタイムチャートFIG. 5 is a time chart showing a driving operation when the refrigerator has stopped cooling operation.
【図6】同冷蔵庫が扉開閉時の運転動作を示すタイムチ
ャートFIG. 6 is a time chart showing the operation of the refrigerator when the door is opened and closed.
【図7】従来における冷蔵庫の構成説明断面図FIG. 7 is a cross-sectional view illustrating the configuration of a conventional refrigerator.
2 冷凍室 3 冷蔵室 4 冷却器室 6 冷凍室吹出口 7 冷蔵室吹出口 8 蒸発器 9,25 冷気循環手段 12,13 吹出口切替手段 14 圧縮機 18 冷却制御手段 20 冷凍室扉 21 冷凍室扉開閉検知手段 22 冷凍室温度検知手段 23 冷蔵室扉 24 冷蔵室扉開閉検知手段 26 冷蔵室温度検知手段 2 Freezer room 3 Refrigerator room 4 Cooler room 6 Freezer room outlet 7 Refrigerator room outlet 8 Evaporator 9,25 Cold air circulation means 12, 13 Outlet switching means 14 Compressor 18 Cooling control means 20 Freezer compartment door 21 Freezer room Door opening / closing detecting means 22 Freezing room temperature detecting means 23 Refrigerating room door 24 Refrigerating room door opening / closing detecting means 26 Refrigerating room temperature detecting means
───────────────────────────────────────────────────── フロントページの続き (72)発明者 野田 俊典 大阪府東大阪市高井田本通4丁目2番5号 松下冷機株式会社内 (72)発明者 金岡 伸一 大阪府東大阪市高井田本通4丁目2番5号 松下冷機株式会社内 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Toshinori Noda 4-5 Takaida Hondori, Higashi-Osaka City, Osaka Prefecture Matsushita Refrigerator Co., Ltd. (72) Inventor Shinichi Kanaoka 4-chome Takaidamoto-dori, East Osaka No. 2-5 Matsushita Cold Machinery Co., Ltd.
Claims (7)
より冷却器室に発生する冷気を、冷気循環手段および冷
凍室温度検知手段を有し、前記冷却器室と冷凍室吹出口
を介して連通する冷凍室に循環する流路もしくは冷気循
環手段および冷蔵室温度検知手段を有し、前記冷却器室
と冷蔵室吹出口を介して連通する冷蔵室に循環する流路
の少なくとも一方に流入し、前記の冷凍室温度検知手段
もしくは冷蔵室温度検知手段により応動する冷却制御手
段によって、前記の圧縮機および冷気循環手段ならびに
冷凍室吹出口もしくは冷蔵室吹出口の開閉動作を制御す
る冷蔵庫。1. Cold air generated in a cooler chamber by a refrigerating cycle having a compressor and an evaporator is connected to the cooler chamber via a freezing chamber outlet by having a cool air circulating means and a freezing room temperature detecting means. Having a flow path circulating in the freezer compartment or a cold air circulation means and a refrigerating compartment temperature detecting means, and flowing into at least one of the flow paths circulating in the refrigerating compartment communicating with the cooler compartment and the refrigerating compartment outlet, A refrigerator which controls the opening / closing operation of the compressor and the cold air circulation means and the freezing room outlet or the refrigerating room outlet by the cooling control means responsive to the freezing room temperature detecting means or the refrigerating room temperature detecting means.
って、冷凍室吹出口を所定時間閉口し、かつ冷蔵室吹出
口を所定時間開口し、冷蔵室の冷気循環手段により冷蔵
室の空気と蒸発器とを熱交換させる請求項1記載の冷蔵
庫。2. When the compressor is stopped, the cooling control means closes the freezer compartment outlet for a predetermined time and the refrigerating compartment outlet is opened for a predetermined time, and the refrigerating compartment air is evaporated from the refrigerating compartment air by the cooling air circulating means. The refrigerator according to claim 1, wherein heat is exchanged with the container.
凍室扉の開閉を検知する冷凍室扉開閉検知手段を有し、
冷凍室に冷気が流入する冷却運転中で、かつ冷凍室扉が
開放中は、冷却制御手段により、冷凍室吹出口を閉口
し、冷蔵室吹出口を開口する請求項1もしくは2記載の
冷蔵庫。3. A freezing compartment door for opening and closing the freezing compartment, and a freezing compartment door opening / closing detecting means for detecting opening / closing of the freezing compartment door,
The refrigerator according to claim 1 or 2, wherein the cooling control means closes the freezing compartment outlet and opens the refrigerating compartment outlet during the cooling operation in which cold air flows into the freezing compartment and the freezing compartment door is open.
蔵室扉の開閉を検知する冷蔵室扉開閉検知手段を有し、
冷蔵室に冷気が流入する冷却運転中で、かつ冷蔵室扉の
開放中は、冷却制御手段により、冷蔵室吹出口を閉口
し、冷凍室吹出口を開口する請求項1もしくは2記載の
冷蔵庫。4. A refrigerating compartment door for opening and closing the refrigerating compartment, and a refrigerating compartment door opening / closing detecting means for detecting opening / closing of the refrigerating compartment door,
The refrigerator according to claim 1 or 2, wherein the cooling control means closes the refrigerating compartment outlet and opens the freezing compartment outlet during the cooling operation in which cold air flows into the refrigerating compartment and during the opening of the refrigerating compartment door.
霜運転中は圧縮機を停止し、冷却制御手段によって、冷
凍室吹出口を所定時間閉口し、かつ冷蔵室吹出口を所定
時間開口し、冷蔵室の冷気循環手段により冷蔵室の空気
と蒸発器とを熱交換させる請求項1記載の冷蔵庫。5. The defrosting operation is performed every predetermined period, the compressor is stopped during the defrosting operation, the freezing compartment outlet is closed for a predetermined time by the cooling control means, and the refrigeration compartment outlet is located for a predetermined time. The refrigerator according to claim 1, wherein the refrigerator is opened and heat is exchanged between the air in the refrigerating compartment and the evaporator by means of the cold air circulating means in the refrigerating compartment.
クルにより冷気を発生する冷却器室と、冷気循環手段お
よび冷凍室温度検知手段を有し、前記冷却器室と冷凍室
吹出口を介して連通する少なくとも一つの冷凍室と、冷
気循環手段および冷蔵室温度検知手段を有し、前記冷却
器室と冷蔵室吹出口を介して連通する少なくとも一つの
冷蔵室と、前記の冷凍室吹出口および冷蔵室吹出口を開
閉する吹出口切替手段と、前記の冷凍室温度検知手段も
しくは冷蔵室温度検知手段により応動し、前記の圧縮機
および冷気循環手段ならびに吹出口切替手段を制御する
冷気制御手段とを備える冷蔵庫。6. A cooler chamber for generating cold air by a refrigerating cycle having a compressor and an evaporator, a cool air circulating means and a freezing room temperature detecting means, and communicating with the cooler chamber via a freezing room outlet. At least one refrigerating chamber, a cold air circulating means and a refrigerating chamber temperature detecting means, and at least one refrigerating chamber communicating with the cooler chamber through a refrigerating chamber outlet, the freezer outlet and the refrigerating chamber. An outlet switching means for opening and closing the chamber outlet, and a cold air control means for controlling the compressor, the cold air circulation means and the outlet switching means in response to the freezing room temperature detecting means or the refrigerating room temperature detecting means. A refrigerator to prepare.
び冷凍室扉開閉検知手段を有し、冷蔵室が少なくとも一
つの冷蔵室扉および冷蔵室扉開閉検知手段を有する請求
項6記載の冷蔵庫。7. The refrigerator according to claim 6, wherein the freezing compartment has at least one freezing compartment door and freezing compartment door opening / closing detecting means, and the refrigerating compartment has at least one refrigerating compartment door and refrigerating compartment door opening / closing detecting means.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP6535196A JPH09236369A (en) | 1996-02-26 | 1996-02-26 | Refrigerator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP6535196A JPH09236369A (en) | 1996-02-26 | 1996-02-26 | Refrigerator |
Publications (1)
Publication Number | Publication Date |
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JPH09236369A true JPH09236369A (en) | 1997-09-09 |
Family
ID=13284456
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP6535196A Pending JPH09236369A (en) | 1996-02-26 | 1996-02-26 | Refrigerator |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH09236369A (en) |
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003083667A (en) * | 2001-09-06 | 2003-03-19 | Mitsubishi Electric Corp | Controller for freezer/refrigerator |
JP2003097858A (en) * | 2001-09-21 | 2003-04-03 | Mitsubishi Heavy Ind Ltd | Refrigeration unit for land transportation, and method for controlling operation thereof |
WO2006087840A1 (en) * | 2005-02-17 | 2006-08-24 | Sharp Kabushiki Kaisha | Refrigerator |
JP2011058689A (en) * | 2009-09-09 | 2011-03-24 | Hitachi Appliances Inc | Refrigerator |
WO2012157263A1 (en) | 2011-05-18 | 2012-11-22 | パナソニック株式会社 | Refrigerator |
JP2013057441A (en) * | 2011-09-08 | 2013-03-28 | Panasonic Corp | Refrigerator |
JP2013210180A (en) * | 2012-02-29 | 2013-10-10 | Panasonic Corp | Refrigerator |
KR101328770B1 (en) * | 2007-03-28 | 2013-11-13 | 엘지전자 주식회사 | A reheating dehumidification system for refrigerator |
-
1996
- 1996-02-26 JP JP6535196A patent/JPH09236369A/en active Pending
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003083667A (en) * | 2001-09-06 | 2003-03-19 | Mitsubishi Electric Corp | Controller for freezer/refrigerator |
JP2003097858A (en) * | 2001-09-21 | 2003-04-03 | Mitsubishi Heavy Ind Ltd | Refrigeration unit for land transportation, and method for controlling operation thereof |
JP4745567B2 (en) * | 2001-09-21 | 2011-08-10 | 三菱重工業株式会社 | Refrigeration system for land transportation and operation control method thereof |
WO2006087840A1 (en) * | 2005-02-17 | 2006-08-24 | Sharp Kabushiki Kaisha | Refrigerator |
KR101328770B1 (en) * | 2007-03-28 | 2013-11-13 | 엘지전자 주식회사 | A reheating dehumidification system for refrigerator |
JP2011058689A (en) * | 2009-09-09 | 2011-03-24 | Hitachi Appliances Inc | Refrigerator |
CN102022887A (en) * | 2009-09-09 | 2011-04-20 | 日立空调·家用电器株式会社 | Refrigerator |
WO2012157263A1 (en) | 2011-05-18 | 2012-11-22 | パナソニック株式会社 | Refrigerator |
JP2013057441A (en) * | 2011-09-08 | 2013-03-28 | Panasonic Corp | Refrigerator |
JP2013210180A (en) * | 2012-02-29 | 2013-10-10 | Panasonic Corp | Refrigerator |
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