JPH0571849A - Refrigerator - Google Patents
RefrigeratorInfo
- Publication number
- JPH0571849A JPH0571849A JP23601791A JP23601791A JPH0571849A JP H0571849 A JPH0571849 A JP H0571849A JP 23601791 A JP23601791 A JP 23601791A JP 23601791 A JP23601791 A JP 23601791A JP H0571849 A JPH0571849 A JP H0571849A
- Authority
- JP
- Japan
- Prior art keywords
- zone
- temperature
- wind direction
- direction switching
- switching device
- 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
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D2400/00—General features of, or devices for refrigerators, cold rooms, ice-boxes, or for cooling or freezing apparatus not covered by any other subclass
- F25D2400/04—Refrigerators with a horizontal mullion
Landscapes
- Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)
- Devices That Are Associated With Refrigeration Equipment (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、強制通風方式の冷蔵庫
に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a forced ventilation type refrigerator.
【0002】[0002]
【従来の技術】強制通風方式の冷蔵庫において、近年、
特に冷蔵室内をより均一に冷却する目的で、冷却ダクト
を改善した例が増えている。例えば、特開平1−189
477号公報に示される例がそれであり、以下図5に従
い説明する。2. Description of the Related Art Recently, in the forced ventilation type refrigerator,
In particular, an increasing number of examples have improved cooling ducts for the purpose of cooling the refrigeration chamber more uniformly. For example, JP-A-1-189
That is the example shown in Japanese Patent No. 477, which will be described below with reference to FIG.
【0003】1は冷蔵庫本体で外箱2、内箱3及び前記
外箱2、内箱3間に充填された断熱材4により構成され
ている。5は前記冷蔵庫本体1の内部を上下に仕切る区
画壁であり、上部に冷凍室6、下部に冷蔵室7を仕切っ
て形成している。冷蔵室7内は棚8によって複数のゾー
ン9に区画されている。A refrigerator body 1 is composed of an outer box 2, an inner box 3 and a heat insulating material 4 filled between the outer box 2 and the inner box 3. Reference numeral 5 is a partition wall that divides the inside of the refrigerator body 1 into upper and lower parts, and is formed by partitioning a freezer compartment 6 in the upper part and a refrigerating compartment 7 in the lower part. The refrigerating room 7 is divided into a plurality of zones 9 by shelves 8.
【0004】10は前記冷蔵庫本体1の底部後方に収め
た冷凍サイクルの圧縮機である。11は前記冷凍室6の
背面に収めた冷凍サイクルの冷却器であり、12は前記
冷却器10で冷却した冷気を前記冷凍室6、及び冷蔵室
7に強制通風するための送風機である。13は前記冷蔵
室7に冷気を導くための通風ダクト、14は前記冷蔵室
7の入口に設けて電気的入力で冷気流入量を調節するダ
ンパ装置(以下電動ダンパ14という)である。15は
前記電動ダンパ14より前記各ゾーン9に連通する吐出
ダクトであり、16はそれぞれのゾーン9に開口した吐
出口である。17、18はそれぞれ前記冷凍室6、冷蔵
室7内に設けた温度センサである。Reference numeral 10 denotes a refrigerating cycle compressor housed in the bottom rear portion of the refrigerator body 1. Reference numeral 11 is a cooler of the refrigeration cycle housed in the back surface of the freezer compartment 6, and 12 is a blower for forcedly ventilating the cool air cooled by the cooler 10 to the freezer compartment 6 and the refrigerating compartment 7. Reference numeral 13 is a ventilation duct for guiding cold air into the refrigerating compartment 7, and 14 is a damper device (hereinafter referred to as an electric damper 14) which is provided at an inlet of the refrigerating compartment 7 and regulates the amount of cold air inflow by electric input. Reference numeral 15 is a discharge duct that communicates with the zones 9 from the electric damper 14, and 16 is a discharge port that opens in each zone 9. Reference numerals 17 and 18 denote temperature sensors provided in the freezing compartment 6 and the refrigerating compartment 7, respectively.
【0005】かかる構成において、以下その動作を説明
する。通常時は、冷凍室6内に設けた温度センサ17の
設定値に基づいて圧縮機10及び送風機12が断続運転
し、冷却器11によって冷却された冷気が、送風機12
により強制通風されて冷凍室6が一定温度(例えば−2
0℃)を保つように冷却される。The operation of the above arrangement will be described below. Normally, the compressor 10 and the blower 12 are intermittently operated based on the set value of the temperature sensor 17 provided in the freezer compartment 6, and the cool air cooled by the cooler 11 is the blower 12
To force the freezer compartment 6 to reach a constant temperature (for example, -2).
It is cooled so as to keep (0 ° C).
【0006】一方、送風機12による冷気通風は通風ダ
クト13を介して冷蔵室7に対しても行われ、温度セン
サ18の設定値に基づいて電動ダンパ14が開閉制御さ
れる。流入量を調節された冷気は、吐出ダクト15、吐
出口16を介して各ゾーン9内に通風され、一定温度
(例えば4℃)を保つよう冷却される。On the other hand, the cool air ventilation by the blower 12 is also performed to the refrigerating compartment 7 through the ventilation duct 13, and the electric damper 14 is controlled to open and close based on the set value of the temperature sensor 18. The cool air whose inflow amount has been adjusted is ventilated into each zone 9 through the discharge duct 15 and the discharge port 16 and is cooled so as to maintain a constant temperature (for example, 4 ° C.).
【0007】[0007]
【発明が解決しようとする課題】しかしながら、上記の
ような構成では、冷蔵室内の各ゾーン9に対してそれぞ
れ専用の吐出口16が設けられてはいるが、電動ダンパ
14が開放されると、吐出ダクト15を介して一律に各
ゾーン内に冷気が通風されることになるため、冷却を必
要としないゾーンに対しても冷却作用が行われて電力を
浪費したり、過冷却となって食品が凍結してしまう問題
が発生するケースがあった。However, in the above structure, although the discharge ports 16 dedicated to the respective zones 9 in the refrigerating chamber are provided, when the electric damper 14 is opened, Since cold air is uniformly ventilated in each zone through the discharge duct 15, cooling is performed even in a zone that does not require cooling, power is wasted, and supercooling occurs. There was a case where the problem of freezing occurred.
【0008】また、温度センサ17は冷蔵室7内の代表
点一箇所に設けられているため、温度が上昇し冷却を必
要とするのが温度センサ18の設けられていないゾーン
であれば、電動ダンパ14の開放が遅れ冷却作用に時間
的なずれが生じて温度上昇が大きくなり、食品の品質が
劣化してしまう問題が発生するケースもあった。Further, since the temperature sensor 17 is provided at one representative point in the refrigerating chamber 7, if the temperature rises and cooling is required in the zone where the temperature sensor 18 is not provided, the motor is electrically driven. In some cases, the opening of the damper 14 is delayed and a time lag occurs in the cooling action, the temperature rises significantly, and the quality of food deteriorates.
【0009】本発明は、上述した問題点に鑑み、必要な
ゾーンに対して必要なだけの冷却作用を行わせて、電力
の浪費や食品への障害を防止することを目的としてい
る。In view of the above-mentioned problems, the present invention has an object to prevent a waste of electric power and an obstacle to food by causing a necessary zone to perform a necessary cooling action.
【0010】[0010]
【課題を解決するための手段】上記課題を解決するため
に本発明の冷蔵庫は、吐出ダクト内の中間に、各ゾーン
の吐出口に向けて選択的に風向を切り換える風向切り換
え装置を設けると同時に、各ゾーン内にそれぞれ個別に
温度検知手段を設けて、それぞれの温度検知手段の出力
に基づいてダンパ装置及び風向切換装置を制御する制御
手段を付加するものである。In order to solve the above-mentioned problems, the refrigerator of the present invention is provided with an air-direction switching device for selectively switching the air direction toward the discharge port of each zone in the middle of the discharge duct. The temperature detection means is individually provided in each zone, and the control means for controlling the damper device and the wind direction switching device based on the output of each temperature detection means is added.
【0011】[0011]
【作用】本発明は上記した構成によって、冷蔵室内のい
づれかのゾーンの温度が上昇すると、温度検知手段が検
知してダンパ装置が開放するとともに風向切換装置が作
動して、そのゾーンの吐出口に向けて選択的に冷気が供
給され、集中的に冷却作用が行われる。そして、そのゾ
ーン内の温度が低下すると温度検知手段が検知してダン
パ装置が閉塞するものである。According to the present invention, when the temperature of any zone in the refrigerating chamber rises, the temperature detecting means detects the temperature, the damper device is opened, and the wind direction switching device is actuated, so that the discharge port of the zone is operated. Cold air is selectively supplied toward the interior, and the cooling action is performed intensively. Then, when the temperature in the zone decreases, the temperature detecting means detects it and the damper device is closed.
【0012】[0012]
【実施例】以下、本発明の一実施例を図1から図4に従
い説明する。尚、従来と同一構成については同一符合を
付し、その詳細な説明を省略し、異なる部分についての
み述べる。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. The same components as those of the conventional one are designated by the same reference numerals, detailed description thereof is omitted, and only different portions will be described.
【0013】9a、9b、9cは冷蔵室7内に区画され
た各ゾーンであり、18a、18b、18cはそれぞれ
前記各ゾーン9a、9b、9c内の一画に設けられた温
度検知手段(以下温度センサ18a、18b、18cと
いう)である。19は電動ダンパ14より前記各ゾーン
9a、9b、9cに連通する吐出ダクトであり、16
a、16b、16cはそれぞれの吐出口である。20は
前記吐出ダクト19内の中間に設けた風向切換装置であ
る。21は前記電動ダンパ14と風向切換装置20の中
間に設けた補助送風機である。Reference numerals 9a, 9b and 9c are zones defined in the refrigerating compartment 7, and 18a, 18b and 18c are temperature detecting means (hereinafter referred to as "temperature detecting means" provided in one of the zones 9a, 9b and 9c, respectively. Temperature sensors 18a, 18b, 18c). Reference numeral 19 denotes a discharge duct that communicates with the zones 9a, 9b, 9c from the electric damper 14,
Reference numerals a, 16b, and 16c are respective discharge ports. Reference numeral 20 denotes an air flow direction switching device provided in the middle of the discharge duct 19. Reference numeral 21 is an auxiliary blower provided between the electric damper 14 and the wind direction switching device 20.
【0014】また、22は補助送風機を内蔵して一体化
させた風向切換装置である。次に制御関係について説明
する。23はマイクロコンピュータなどより成る制御手
段(以下マイクロコンピュータ23という)であり、前
記風向切換装置20の作動タイムセーフ時間T(例えば
1min)をカウントするタイマ24などが内蔵されて
いる。Reference numeral 22 is a wind direction switching device in which an auxiliary blower is built in and integrated. Next, the control relationship will be described. Reference numeral 23 denotes a control means (hereinafter referred to as a microcomputer 23) including a microcomputer and the like, and a timer 24 for counting an operation time safe time T (for example, 1 min) of the wind direction switching device 20 is built therein.
【0015】前記マイクロコンピュータ23の入力端子
には冷凍室の温度センサ17、冷蔵室内の各ゾーンに対
応する温度センサ18a、18b、18cが接続され、
出力端子には圧縮機10、送風機12、電動ダンパ1
4、風向切換装置20、補助送風機21とそれらをを駆
動するための電磁リレーなどの駆動手段が接続されてい
る。The input terminal of the microcomputer 23 is connected to the temperature sensor 17 in the freezer compartment and the temperature sensors 18a, 18b and 18c corresponding to the zones in the refrigerating compartment,
The output terminal has a compressor 10, a blower 12, and an electric damper 1
4, a wind direction switching device 20, an auxiliary blower 21, and driving means such as an electromagnetic relay for driving them are connected.
【0016】かかる構成において、その動作について図
4のフローチャートトをもとに説明する。The operation of this structure will be described with reference to the flowchart of FIG.
【0017】まず、STEP1で冷凍室の温度センサ1
7の温度が所定値t1 ℃より高いか低いかを判断し、低
ければSTEP1で高くなるまで待機する。STEP1
で温度が高いと判断されると、STEP2に移り圧縮機
10、送風機12が運転される。First, in STEP 1, the temperature sensor 1 in the freezer compartment
It is determined whether the temperature of 7 is higher or lower than the predetermined value t 1 ° C, and if it is lower, the process waits until it becomes higher in STEP 1. STEP1
If it is determined that the temperature is high, the process proceeds to STEP 2 and the compressor 10 and the blower 12 are operated.
【0018】一方冷蔵室側については、STEP3で各
ゾーン9a、9b、9c内のうちいづれか一つのゾーン
の温度、即ち温度センサ18a、18b、18cのいづ
れかが所定値t3 ℃より高いか低いかを判断し、低けれ
ばSTEP3で高くなるまで待機する。STEP3で温
度が高いと判断されると、STEP4に移り電動ダンパ
14が開放され、送風機12及び補助送風機21が同時
に運転されて、冷蔵室7内に連続的に、且つ十分な風量
で冷気が強制的に通風される。On the other hand, regarding the refrigerating compartment side, in STEP 3, whether the temperature of any one of the zones 9a, 9b, 9c, that is, any of the temperature sensors 18a, 18b, 18c is higher or lower than a predetermined value t 3 ° C. If it is low, the process waits in STEP 3 until it becomes high. When it is determined in STEP 3 that the temperature is high, the process proceeds to STEP 4, the electric damper 14 is opened, the blower 12 and the auxiliary blower 21 are simultaneously operated, and cold air is forced in the refrigerating compartment 7 continuously and with a sufficient air volume. Be ventilated.
【0019】これと同時にSTEP5では、風向切換装
置20が食品の収納などで温度の上昇したゾーン(例え
ばゾーン9aとする)の方向に向けて回転し、送風機1
2及び補助送風機21によって多量に通風される冷気
が、吐出口16aを介してゾーン9a内に集中的に送り
こまれる。そして、新たに収納された食品を短時間で冷
却するとともに、ゾーン9a内の既存食品の温度上昇を
抑制する。At the same time, in STEP 5, the wind direction switching device 20 rotates in the direction of the zone (for example, zone 9a) where the temperature has risen due to the storage of food or the like, and the blower 1
A large amount of cool air that is ventilated by 2 and the auxiliary blower 21 is intensively blown into the zone 9a through the discharge port 16a. Then, the newly stored food is cooled in a short time, and the temperature rise of the existing food in the zone 9a is suppressed.
【0020】なお、図2に示すような補助送風機を一体
に備えた風向切換装置22では、STEP5で温度の上
昇したゾーン9aの方向に回転すると同時に強制的に強
制通風が行われる。In the wind direction switching device 22 integrally provided with an auxiliary blower as shown in FIG. 2, at STEP 5, the air is forcedly ventilated while rotating in the direction of the zone 9a in which the temperature has risen.
【0021】次にSTEP6でタイマ24のカウント時
間が所定時間Tmin(例えば1min)に達したかど
うか判断し、到達していなければSTEP6で到達する
まで待機する。STEP6デタイマ24がTminをカ
ウントするとSTEP7に進む。STEP7ではゾーン
9aのほかに温度センサの温度が所定値t3 ℃より高い
ゾーンがないかどうか判断し、なければSTEP8に移
る。一方、ほかに温度センサの温度が所定値t3 ℃より
高いゾーンがあれば(例えばゾーン9b)、STEP5
に戻って風向切換装置20がゾーン9bの方向に向けて
回転し、吐出口16bを介してゾーン9b内に同様に冷
気が集中的に送りこまれて冷却が促進される。Next, in STEP 6, it is judged whether or not the count time of the timer 24 has reached a predetermined time Tmin (for example, 1 min), and if it has not reached, the CPU waits until it reaches in STEP 6. When the STEP6 detimer 24 counts Tmin, the process proceeds to STEP7. In STEP 7, it is determined whether or not there is a zone in which the temperature of the temperature sensor is higher than the predetermined value t 3 ° C in addition to the zone 9a, and if there is no zone, the process proceeds to STEP 8. On the other hand, if there is another zone where the temperature of the temperature sensor is higher than the predetermined value t 3 ° C (for example, zone 9b), STEP5
Then, the wind direction switching device 20 rotates in the direction of the zone 9b, and cool air is likewise intensively sent into the zone 9b through the discharge port 16b to promote cooling.
【0022】このように、一つのゾーンのみが温度上昇
した場合は、風向切換装置20によって選択的にそのゾ
ーンのみを連続して集中的に冷却し、複数のゾーンが同
時に温度上昇した場合は、所定時間毎交互に風向切換装
置20で風向を切り換えて自動的に冷却配分されること
になる。In this way, when the temperature of only one zone rises, the wind direction switching device 20 selectively and continuously cools only that zone, and when the temperature of a plurality of zones rises simultaneously, The wind direction switching device 20 switches the wind direction alternately every predetermined time, and the cooling is automatically distributed.
【0023】このため、冷却を必要とするゾーンを効率
的に短時間で冷却できることになり、食品の温度上昇に
よる品質劣化を防止できるほか、新たに収納した食品に
ついては急冷効果が発揮され、手短に飲食に供すること
ができる。また同時に電力の浪費も防止できる。Therefore, the zone requiring cooling can be efficiently cooled in a short time, the quality deterioration due to the temperature rise of the food can be prevented, and the newly stored food exhibits a rapid cooling effect. Can be used for food and drink. At the same time, waste of power can be prevented.
【0024】次に、STEP8では各ゾーン9a、9
b、9cの温度、即ち温度センサ18a、18b、18
cのいづれもが所定値t4 ℃より高いか低いかを判断
し、高ければSTEP8で低くなるまで待機する。ST
EP8で温度が低いと判断されるとSTEP9に進み、
電動ダンパ14が閉塞し、補助送風機21が停止する。
このため、各ゾーンへの冷却作用も停止する。Next, in STEP 8, each of the zones 9a, 9a
b, 9c, that is, temperature sensors 18a, 18b, 18
It is judged whether any of the values c is higher or lower than the predetermined value t 4 ° C, and if higher, the process waits until it becomes lower in STEP8. ST
If the temperature is judged to be low in EP8, the process proceeds to STEP9,
The electric damper 14 is closed and the auxiliary blower 21 is stopped.
Therefore, the cooling effect on each zone is also stopped.
【0025】ここで、それぞれのゾーンはそのゾーン自
体の温度が所定値まで低下すると、ほかに冷却中のゾー
ンがない場合は冷気の供給が停止し、ほかに冷却中のゾ
ーンがある場合は、風向切り換え装置20の風向が他の
ゾーンに向けられて同じく冷気の供給が停止するため、
むだな冷却や過冷却による食品の凍結が未然に防止でき
る。Here, when the temperature of each zone decreases to a predetermined value, the supply of cold air is stopped if there is no other zone being cooled, and if there is another zone being cooled, Since the wind direction of the wind direction switching device 20 is directed to another zone and the supply of cold air also stops,
It is possible to prevent food from freezing due to wasteful cooling or supercooling.
【0026】STEP9が終了するとSTEP10に移
る。STEP10では冷凍室の温度センサ17の温度が
所定値t2 ℃高いか低いかを判断し、高ければSTEP
8で低くなるまで待機する。STEP10で温度が低い
と判断されるとSTEP11に進み、圧縮機10、送風
機12が停止して一連の冷却作用が終了する。そして、
以後このフローによる作用を繰り返して、冷蔵室7内の
各ゾーン9a、9b、9cはほぼ均一に所定の温度(例
えば4℃)に維持される。When STEP 9 ends, the process moves to STEP 10. At STEP 10, it is determined whether the temperature of the temperature sensor 17 in the freezing room is higher or lower by a predetermined value t 2 ° C.
Wait until it gets low at 8. When it is determined in STEP 10 that the temperature is low, the process proceeds to STEP 11, the compressor 10 and the blower 12 are stopped, and a series of cooling operations are completed. And
After that, the action by this flow is repeated, and each zone 9a, 9b, 9c in the refrigerating chamber 7 is maintained substantially uniformly at a predetermined temperature (for example, 4 ° C.).
【0027】[0027]
【発明の効果】以上のように、本発明の冷蔵庫によると
次のような効果が得られる。As described above, according to the refrigerator of the present invention, the following effects can be obtained.
【0028】(1)冷却の必要なゾーンのみを集中的に
冷却し、ゾーン毎に冷却作用を解除できるため、電力の
浪費をせず食品の温度上昇による品質の劣化や過冷却を
防止できる。(1) Since only the zones requiring cooling can be intensively cooled and the cooling action can be released for each zone, it is possible to prevent deterioration of quality and supercooling due to temperature rise of food without wasting electric power.
【0029】(2)新たに収納した食品に対して自動的
に急冷効果が発揮され、手短に飲食に供することができ
実用上利用価値が高い。(2) The newly stored food product automatically exhibits a rapid cooling effect and can be easily consumed for eating and drinking, which is of high practical utility value.
【0030】(3)冷蔵室内の各ゾーンをほぼ均一に所
定の温度に冷却維持することができる。(3) Each zone in the refrigerating chamber can be cooled and maintained at a predetermined temperature substantially uniformly.
【図1】本発明の一実施例を示す冷蔵庫の縦断面図FIG. 1 is a vertical sectional view of a refrigerator showing an embodiment of the present invention.
【図2】本発明の一実施例のうち補助送風機と風向切換
装置を一体化した例を示す冷蔵庫の縦断面図FIG. 2 is a vertical cross-sectional view of a refrigerator showing an example in which an auxiliary blower and a wind direction switching device are integrated in one embodiment of the present invention.
【図3】図1の冷蔵庫の制御ブロック図FIG. 3 is a control block diagram of the refrigerator shown in FIG.
【図4】図1の冷蔵庫の制御フローチャートFIG. 4 is a control flowchart of the refrigerator shown in FIG.
【図5】従来例を示す冷蔵庫の縦断面図FIG. 5 is a vertical sectional view of a refrigerator showing a conventional example.
6 冷凍室 7 冷蔵室 9a、9b、9c ゾーン 10 圧縮機 12 送風機 13 通風ダクト 14 電動ダンパ(ダンパ装置) 16a、16b、16c 吐出口 18a、18b、18c 温度センサ(温度検知手段) 19 吐出ダクト 20 風向切換装置 21 補助送風機 22 風向切換装置 23 マイクロコンピュータ(制御手段) 6 Freezing room 7 Refrigerating room 9a, 9b, 9c Zone 10 Compressor 12 Blower 13 Ventilation duct 14 Electric damper (damper device) 16a, 16b, 16c Discharge port 18a, 18b, 18c Temperature sensor (temperature detection means) 19 Discharge duct 20 Wind direction switching device 21 Auxiliary blower 22 Wind direction switching device 23 Microcomputer (control means)
Claims (8)
備えた公知の冷凍サイクルと、前記冷却器で冷却した冷
気を強制対流させる送風機と、前記冷蔵室に冷気を導く
通風ダクトと、前記通風ダクトの出口に設けたダンパ装
置と、前記冷蔵室内を複数に区画する棚と、前記棚によ
り区画形成された複数のゾーンと、前記ダンパ装置と前
記各ゾーンの間を連通させる冷気の吐出ダクトと、前記
各ゾーンの入口にそれぞれ設けた冷気の吐出口と、前記
吐出ダクトの中間に設けて前記各ゾーンに選択的に冷気
を導く風向切換装置と、前記各ゾーン内の温度を検知す
る温度検知手段と、前記温度検知手段の出力に基づいて
前記ダンパ装置および風向切換装置を制御する制御手段
とより成る冷蔵庫。1. A known refrigeration cycle including a freezer compartment, a refrigerating compartment, a compressor and a cooler, a blower for forcing convection of the cool air cooled by the cooler, and a ventilation duct for guiding the cool air to the refrigerating compartment. A damper device provided at the outlet of the ventilation duct, a shelf for partitioning the refrigerating chamber into a plurality of zones, a plurality of zones partitioned by the shelf, and cool air for communicating between the damper device and each zone. Of the discharge duct, the discharge port of the cool air provided at the inlet of each zone, the wind direction switching device provided in the middle of the discharge duct to selectively guide the cool air to each zone, and the temperature in each zone. A refrigerator comprising a temperature detecting means for detecting and a control means for controlling the damper device and the wind direction switching device based on the output of the temperature detecting means.
請求項1記載の冷蔵庫。2. The refrigerator according to claim 1, further comprising an auxiliary blower provided in the middle of the discharge duct.
た請求項2記載の冷蔵庫。3. The refrigerator according to claim 2, wherein an auxiliary blower is integrated in the wind direction switching device.
ゾーンに対して独立して分岐させた請求項2記載の冷蔵
庫。4. The refrigerator according to claim 2, wherein the discharge duct downstream of the wind direction switching device is branched independently for each zone.
して運転させる制御手段を備えた請求項2記載の冷蔵
庫。5. The refrigerator according to claim 2, further comprising control means for operating the auxiliary blower in conjunction with the opening of the damper device.
が所定温度以上を検知したときダンパ装置を開放し、風
向切換装置を前記ゾーンに選択的に作用させるととも
に、すべてのゾーンの温度検知手段が所定温度以下を検
知したときダンパ装置を閉塞させる制御手段を備えた請
求項5記載の冷蔵庫。6. A damper device is opened when the temperature detecting means of at least one zone detects a temperature equal to or higher than a predetermined temperature, the wind direction switching device is selectively operated on the zone, and the temperature detecting means of all zones are set to predetermined values. The refrigerator according to claim 5, further comprising control means for closing the damper device when a temperature lower than the temperature is detected.
以上を検知したときは、各ゾーンに対して風向切換装置
を所定時間づつ交互に作用させる制御手段を備えた請求
項6記載の冷蔵庫。7. The refrigerator according to claim 6, further comprising control means for alternately operating the wind direction switching device for each zone for a predetermined period of time when the temperature detecting means of the plurality of zones detect a predetermined temperature or higher.
させる制御手段を備えた請求項6記載の冷蔵庫。8. The refrigerator according to claim 6, further comprising control means for forcibly operating the blower when the damper device is opened.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP23601791A JPH0571849A (en) | 1991-09-17 | 1991-09-17 | Refrigerator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP23601791A JPH0571849A (en) | 1991-09-17 | 1991-09-17 | Refrigerator |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH0571849A true JPH0571849A (en) | 1993-03-23 |
Family
ID=16994541
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP23601791A Pending JPH0571849A (en) | 1991-09-17 | 1991-09-17 | Refrigerator |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0571849A (en) |
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