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JPS60181570A - Cooling device for freezing refrigerator, etc. - Google Patents

Cooling device for freezing refrigerator, etc.

Info

Publication number
JPS60181570A
JPS60181570A JP3645184A JP3645184A JPS60181570A JP S60181570 A JPS60181570 A JP S60181570A JP 3645184 A JP3645184 A JP 3645184A JP 3645184 A JP3645184 A JP 3645184A JP S60181570 A JPS60181570 A JP S60181570A
Authority
JP
Japan
Prior art keywords
evaporator
refrigerator
compartment
air
ventilation
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP3645184A
Other languages
Japanese (ja)
Inventor
米田 浩
長生 木戸
聡 丹野
小間 八郎
管 宏明
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Panasonic Holdings Corp
Original Assignee
Matsushita Refrigeration Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Matsushita Refrigeration Co filed Critical Matsushita Refrigeration Co
Priority to JP3645184A priority Critical patent/JPS60181570A/en
Publication of JPS60181570A publication Critical patent/JPS60181570A/en
Pending legal-status Critical Current

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  • Defrosting Systems (AREA)

Abstract

(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。
(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

【発明の詳細な説明】 産業上の利用分野 本発明は強制通風式冷凍冷蔵庫等の冷却装置に関し、特
にデフロスト用ヒータとして面ヒータを用いたものに係
わる。
DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a cooling device such as a forced draft refrigerator/freezer, and particularly to one using a surface heater as a defrosting heater.

従来例の構成とその問題点 従来の冷凍冷蔵庫の要部断面を第1図に、蒸発器の斜ネ
見図を筑2図に示1.贈明すると−1は冷凍冷蔵庫本体
、2は冷凍室、3は冷蔵室、4は冷凍室2と冷蔵室3と
を区画する区画壁である。
Structure of the conventional example and its problems Fig. 1 shows a cross-section of the main parts of a conventional refrigerator-freezer, and Fig. 2 shows a diagonal perspective view of the evaporator. Specifically, -1 is the refrigerator-freezer main body, 2 is the freezer compartment, 3 is the refrigerator compartment, and 4 is the partition wall that partitions the freezer compartment 2 and the refrigerator compartment 3.

この区画壁4内の通風路δ内には、冷凍システムの一部
を成すフィンチューブ型の蒸発器6と、冷気を強制通風
する送風機7と、蒸発器6の上部と下部に設けられた断
熱材8.8′ がある。前記蒸発器6は多数の小フィン
9と大フィン9′ と冷 ゛媒パイプ10とエンドプレ
ート11と、除霜用パイプヒータ12とよシ成ると共に
、前記小フィン9と大フィン9′は交互にかつ通風風下
側に各フィン9,9′ 端部をそろえて設けであるため
、通風風上側のフィンピッチは、風下側のフィンピッチ
より大きくなっている。
In the ventilation passage δ in the partition wall 4, there is a fin-tube type evaporator 6 that forms part of the refrigeration system, a blower 7 for forcing cold air, and heat insulation provided at the top and bottom of the evaporator 6. There is material 8.8'. The evaporator 6 consists of a large number of small fins 9, large fins 9', a refrigerant pipe 10, an end plate 11, and a defrosting pipe heater 12, and the small fins 9 and large fins 9' are arranged alternately. In addition, since the ends of the fins 9 and 9' are aligned on the ventilation and leeward side, the fin pitch on the ventilation and windward side is larger than the fin pitch on the leeward side.

次に風の流れについて説明する。前記送風機7により、
冷凍室2内の空気は冷凍室側吸込口13を経て、また冷
蔵室3内の空気は冷蔵室側吸込口14を経て、両室2,
3からの空気は混シ合って蒸発器6を通シ吸引され、送
風機7後方では、吐出ダクト16を通り、それぞれ冷凍
室2と冷蔵室3にもどされる。
Next, the flow of wind will be explained. By the blower 7,
The air in the freezer compartment 2 passes through the freezer compartment side suction port 13, and the air in the refrigerator compartment 3 passes through the refrigerator compartment side suction port 14.
The air from 3 is mixed and sucked through an evaporator 6, and behind the blower 7, it passes through a discharge duct 16 and is returned to the freezer compartment 2 and the refrigerator compartment 3, respectively.

次に蒸発器6に着霜が進んだ時の風の流れについて説明
する。前記蒸発器6の着霜は、通風空気の風上側より徐
々に風下側へ進んでいくのだが、冷凍室2内からの空気
と冷蔵室3内からの空気が蒸発器6の風上側の通風路6
内で混シ合って蒸発器6へ流入するため、蒸発器60通
風風上側全体に渡って着霜が始まる。そして、徐々に着
霜量が増えるにつれ、霜層厚さが大きくなり通風抵抗の
増加と共に通風量が減少し、やがてはフィン9゜9′間
を被ってしまい、着霜による目詰りとなりほとんど通風
されなくなってしまう。この時、蒸発器6の着霜負荷と
しては、冷蔵室3は冷凍室2に比べ、庫内容積が大きい
こと、庫内温度が高く蒸発器6との温度差が大きいこと
、などのため冷蔵室3から空気がかなり大なるものとな
っている。
Next, the flow of air when the evaporator 6 is frosted will be explained. The frost on the evaporator 6 gradually advances from the upwind side of the ventilation air to the leeward side, but the air from the freezer compartment 2 and the air from the refrigerator compartment 3 are transferred to the upwind side of the evaporator 6. Road 6
As the ice mixes within the air and flows into the evaporator 6, frost begins to form over the entire upwind side of the evaporator 60. Then, as the amount of frost gradually increases, the thickness of the frost layer increases, the ventilation resistance increases, and the ventilation volume decreases, eventually covering the fins 9° and 9', causing clogging due to frost formation and causing almost no ventilation. It will no longer be done. At this time, the frosting load on the evaporator 6 is due to the fact that the refrigerator compartment 3 has a larger internal volume than the freezer compartment 2, the temperature inside the refrigerator is high, and the temperature difference between it and the evaporator 6 is large. The air from room 3 is quite large.

しかし、前述の如く、冷凍室2からの空気と冷蔵室3か
らの空気とが蒸発器6の通風風上側で混り合うため蒸発
器6は均一に着霜が進行していき、着霜に伴ない通風量
が減少し、冷却能力が低下してしまうという欠点があっ
た。
However, as mentioned above, since the air from the freezer compartment 2 and the air from the refrigerator compartment 3 mix on the upstream side of the evaporator 6, frosting progresses uniformly in the evaporator 6. This has the disadvantage that the amount of ventilation is reduced and the cooling capacity is reduced.

また、除霜について説明すれば、あらかじめ蛇行曲げさ
れたパイプヒータ12が各2イン9.e′及びエンドプ
レート11に外側よりンイン9,9′及びエンドプレー
ト11に設けられたヒータスロッ) 16 、16’ 
、 17にはさみ込む様に配置されておシ、除霜時には
パイプヒータ12に通電され熱伝導に依りフィン9.9
’、冷媒パイプ1oを加熱し除霜を行なう。このため、
パイプヒータ12を蒸発器6に配置するには、あらかじ
め蛇行曲げした上、一つ一つヒータスロット16,16
’、17にはめ込むという手間がかかり、多くの工程を
要するという欠点を有していた。
Also, to explain defrosting, pipe heaters 12 each having a 2-in. Heater slots (9, 9', and heater slots provided in the end plate 11 from the outside) 16, 16'
, 17, and when defrosting, the pipe heater 12 is energized and the fins 9.9
', the refrigerant pipe 1o is heated and defrosted. For this reason,
In order to arrange the pipe heater 12 in the evaporator 6, the pipe heater 12 is bent in a meandering manner in advance, and then the heater slots 16, 16 are inserted one by one.
', 17, which is troublesome and requires many steps.

発明の目的 そこで本発明は、冷蔵室と冷凍室との空気を蒸発器通風
風上側の通風路内で分離し、着霜負荷を分離することに
よって着霜による目詰り時間を延長し長時間冷却能力を
維持し、かつ、ヒータの取付手間を減らし製造工程を減
らすことを目的とする0 発明の構成 この目的を達成するため本発明は、フィンチューブ型の
第1蒸発器、第2蒸発器及び両蒸発器間に介在した面ヒ
ータより成る蒸発器において、前記面ヒータは蒸発器の
通風吸込風路を第1蒸発器側と第2蒸発器側とに分離す
る位置に設け、かつ、第2蒸発器のフィンピッチは第1
蒸発器に比べ大きくすることによシ、ヒータの取付手間
、工程を減らし、かつ、着霜負荷を分離することによっ
て着霜による目詰シ時間を延長し長時間冷却能力を維持
することを可能にしたものである。
Purpose of the Invention Therefore, the present invention separates the air between the refrigerator compartment and the freezing compartment in the ventilation path on the upper side of the evaporator ventilation, and separates the frost formation load, thereby extending the time for clogging due to frost formation and achieving long-term cooling. Structure of the Invention In order to achieve this object, the present invention has a fin tube type first evaporator, a second evaporator, and a fin tube type first evaporator, a second evaporator, and In an evaporator comprising a plane heater interposed between both evaporators, the plane heater is provided at a position that separates the ventilation suction air path of the evaporator into a first evaporator side and a second evaporator side, and Evaporator fin pitch is 1st
By making it larger than the evaporator, it reduces the labor and process required to install the heater, and by separating the frosting load, it is possible to extend the time for clogging due to frosting and maintain cooling capacity for a long time. This is what I did.

実施例の説明 以下本発明の一実施例を添付図面に従い説明する。Description of examples An embodiment of the present invention will be described below with reference to the accompanying drawings.

第3図、第4図において、21は冷凍冷蔵庫本体、22
は冷凍室、23は冷蔵室、24は冷凍室22と冷蔵室2
3とを区画する区画壁である。
In Figures 3 and 4, 21 is the refrigerator-freezer body, 22
is the freezer compartment, 23 is the refrigerator compartment, and 24 is the freezer compartment 22 and refrigerator compartment 2.
This is a partition wall that partitions 3 and 3.

この区画壁24内の通風路25内には、冷凍システムの
一部を成す蒸発器26と、冷気を強制通風する送風機2
7と、蒸発器26の上部と下部に設けられた断熱材28
.28’とがある。前記蒸発器26は、第1蒸発器29
と第2蒸発器3oと、両蒸発器29.s6’!間に熱交
換的に介在した除霜用面ヒータ31とより成り、また、
前記面ヒータ31は、蒸発器26の吸込側通風路を第1
蒸発器29側の冷凍室側吸込通風路33と第2蒸発器3
0側の冷蔵室側吸込通風路34とに分離して位置してい
る。そして前記第1蒸発器29と第2蒸発器幻とはそれ
ぞれフィン35’、36と冷媒パイプ37とエンドプレ
ート32.32’とにょシ構成されておシ、そのフィン
ピッチは第2蒸発器3oが第1蒸発器29に比べ大きな
ものとなっている。
In the ventilation passage 25 in the partition wall 24, there is an evaporator 26 that forms part of the refrigeration system, and a blower 2 that forces cold air through the air.
7 and a heat insulating material 28 provided at the upper and lower parts of the evaporator 26
.. 28'. The evaporator 26 is a first evaporator 29
and a second evaporator 3o, and both evaporators 29. s6'! It consists of a defrosting surface heater 31 interposed in between for heat exchange, and
The surface heater 31 connects the suction side ventilation path of the evaporator 26 to the first
Freezer compartment side suction ventilation passage 33 on the evaporator 29 side and the second evaporator 3
It is located separately from the refrigerator compartment side suction ventilation passage 34 on the zero side. The first evaporator 29 and the second evaporator are each composed of fins 35' and 36, a refrigerant pipe 37, and an end plate 32, 32', and the fin pitch is the second evaporator 3o. is larger than that of the first evaporator 29.

次に風の流れについて説明する。前記送風機27によシ
、冷凍室22内の空気は冷凍室側吸込口38を経て面ヒ
ータ31によって仕切られた冷凍室側吸込通風路33と
第1蒸発器29を通9、また、冷蔵室23内の空気は冷
蔵室側吸込口39を経て面ヒータ31によって仕切られ
た冷蔵室側吸込通風路34と第2蒸発器30を通電、そ
れぞれ合流吸引され、送風機27後方では吐出ダク)4
0を通り、それぞれ冷凍室22と冷蔵室23とにもどさ
れる。
Next, the flow of wind will be explained. By means of the blower 27, the air in the freezer compartment 22 passes through the freezer compartment side suction port 38, the freezer compartment side suction ventilation passage 33 partitioned by the surface heater 31, and the first evaporator 29 (9), and the refrigerator compartment side suction port 38. The air in the refrigerator 23 passes through the refrigerator compartment side suction port 39, is energized to the refrigerator compartment side suction ventilation passage 34 partitioned by the surface heater 31, and the second evaporator 30, is merged with each other, and is sucked, and at the rear of the blower 27 is discharged into a discharge duct) 4
0 and are returned to the freezer compartment 22 and refrigerator compartment 23, respectively.

次に着霜が進んだ時の風の流れについて説明する。前記
蒸発器26の着霜は、通風空気の吸込側つ捷り風上側か
ら風下側へと徐々に進んでいくのだが、冷凍室22内か
らの空気と冷蔵室23内からの空気が面ヒータ31とに
よって分離されているため、着霜の進み方がそれぞれ異
なってくる。
Next, we will explain the flow of wind when frost has progressed. The frosting on the evaporator 26 gradually progresses from the upwind side to the leeward side of the suction side of the ventilation air, but the air from the freezer compartment 22 and the air from the refrigerator compartment 23 are heated by the surface heater. 31, the frosting progresses differently in each case.

冷蔵室23側の庫内容積が冷凍室23側のものに比べ大
きいだめ、また冷蔵室23の庫内温度と蒸発器26との
温度差も冷凍室22のものと比べ大きいため、早期にし
かも大量の着霜が進行する。
The internal volume of the refrigerator compartment 23 side is larger than that of the freezer compartment 23 side, and the temperature difference between the internal temperature of the refrigerator compartment 23 and the evaporator 26 is also larger than that of the freezer compartment 22. A large amount of frost builds up.

しかし、第2蒸発器3oのフィンピッチは第1蒸発器2
9より大きいため、霜による目詰シは起こシにくくなっ
ている。このため、着霜による目詰りが起こシにり<、
通風量の減少或は冷却能力の減少が少なく、冷却能力が
長時間維持できる。また、更に着霜が進んで第2蒸発器
3oが着霜による目詰シで冷蔵室側吸込通風路34がほ
ぼ閉されて通風量が大巾に減少して冷蔵室23が冷却さ
れなくなっても、第1蒸発器29はその着霜負荷量が第
2蒸発器29に比べ小さいため着霜にょる目詰シが起こ
らず、その冷凍室側吸込通風路33及び第1蒸発器29
での通風量がl”Lとんど減少せず冷凍室22側の冷却
能力はなおも維持しうるものである。
However, the fin pitch of the second evaporator 3o is
Since it is larger than 9, clogging due to frost is less likely to occur. For this reason, clogging due to frost formation may occur.
There is little reduction in ventilation volume or cooling capacity, and cooling capacity can be maintained for a long time. In addition, as the frosting progresses further, the second evaporator 3o becomes clogged due to frosting, and the refrigerator compartment side suction ventilation passage 34 is almost closed, the amount of ventilation is drastically reduced, and the refrigerator compartment 23 is no longer cooled. Also, since the frosting load amount of the first evaporator 29 is smaller than that of the second evaporator 29, clogging due to frosting does not occur, and the freezer compartment side suction air passage 33 and the first evaporator 29
The amount of ventilation in the refrigerator does not decrease by l''L, and the cooling capacity on the freezer compartment 22 side can still be maintained.

また、除霜用ヒータとして面ヒータ31を採用したため
、従来のパイプヒータの様に前もっての蛇行曲げ加工や
、その取付手間、工程が大巾に減らせることができるよ
うになった。
In addition, since the surface heater 31 is adopted as the defrosting heater, it is possible to greatly reduce the serpentine bending process, installation effort, and process required for conventional pipe heaters.

従って、着霜による目詰り時間を延長し長時間冷却能力
を維持することを可能にし、また、冷蔵室側第2蒸発器
30が着霜による目詰シで冷却能力を維持できなくなっ
た時にも、更に冷凍室側は充分冷却能力を維持すること
ができ、除霜用ヒータの取付手間、工程も減らすことが
できるという効果が得られる。
Therefore, it is possible to extend the time of clogging due to frost formation and maintain cooling capacity for a long time, and even when the second evaporator 30 on the refrigerator compartment side cannot maintain cooling capacity due to clogging due to frost formation. In addition, the freezer compartment side can maintain sufficient cooling capacity, and the time and effort required to install the defrosting heater can also be reduced.

発明の効果 以上の説明からも明らかなように本発明は、フィンチュ
ーブ型の第1蒸発器、第2蒸発器及び両蒸発器間に介在
した面ヒータとを備え、前記面ヒータは蒸発器の通風吸
込風路を第1蒸発器側と第2蒸発器側とに分離する位置
に設け、かつ、第2蒸発器のフィンピッチは第1蒸発器
に比べ大きくしたものであるから、除霜用ヒータの取付
手間、工程を減らし、かつ、着霜負荷を分離することに
よって着霜による目詰シ時間を延長し長時間冷却能力を
維持し、また、更に第2蒸発器が着霜による目詰りで冷
却能力を維持できなくなった時にも第1蒸発器では冷却
能力をなおかつ維持できるという効果が得られるもので
ある。
Effects of the Invention As is clear from the above description, the present invention includes a fin-tube type first evaporator, a second evaporator, and a surface heater interposed between both evaporators, and the surface heater is connected to the evaporator. The ventilation suction air passage is provided in a position that separates the first evaporator side and the second evaporator side, and the fin pitch of the second evaporator is larger than that of the first evaporator, so it is suitable for defrosting. By reducing the time and process required to install the heater and separating the frosting load, the time required for clogging due to frosting is extended and cooling capacity is maintained for a long period of time. Even when the cooling capacity cannot be maintained in the first evaporator, the cooling capacity can still be maintained in the first evaporator.

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

第1図は従来の冷凍冷蔵庫の要部断面図、第2図はその
蒸発器の斜視図、第3図は本発明の一実施例による冷却
装置を備えた冷凍冷蔵庫の要部断面図、第4図は同蒸発
器の斜視図である。 26・・・・・・蒸発器、29・・・甲第1蒸発器、3
0・・τ・・・第2蒸発器、31・・・・・・面ヒータ
。 代理人の氏名 弁理士 中 尾 敏 男 はが1名”7
 。 /− 第2囚 2
FIG. 1 is a sectional view of a main part of a conventional refrigerator-freezer, FIG. 2 is a perspective view of its evaporator, and FIG. 3 is a sectional view of a main part of a refrigerator-freezer equipped with a cooling device according to an embodiment of the present invention. FIG. 4 is a perspective view of the evaporator. 26...Evaporator, 29...A first evaporator, 3
0...τ...Second evaporator, 31...Surface heater. Name of agent: Patent attorney Toshio Nakao 1 person”7
. /- 2nd prisoner 2

Claims (1)

【特許請求の範囲】[Claims] 冷凍室及び冷蔵室と連通している通風路内に並設したフ
ィンチューブ型の第1蒸発器、第2蒸発器及びこの両蒸
発器間に介在した面ヒータより成る蒸発器を配置し、前
記面ヒータは蒸発器の通風吸込風路を冷凍室側の第1蒸
発器側と冷蔵室側の第2蒸発器側とに分離する位置に設
け、かつ、第2蒸発器のフィンピッチを第1蒸発器に比
べ大きくした冷凍冷蔵庫等の冷却装置。
An evaporator consisting of a fin-tube type first evaporator, a second evaporator, and a surface heater interposed between both evaporators are disposed in parallel in an air passage communicating with the freezer compartment and the refrigerator compartment, and The surface heater is provided at a position that separates the ventilation suction air path of the evaporator into the first evaporator side on the freezing compartment side and the second evaporator side on the refrigerator compartment side, and the fin pitch of the second evaporator is set to the first evaporator side on the refrigerator compartment side. A cooling device such as a refrigerator-freezer that is larger than an evaporator.
JP3645184A 1984-02-27 1984-02-27 Cooling device for freezing refrigerator, etc. Pending JPS60181570A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP3645184A JPS60181570A (en) 1984-02-27 1984-02-27 Cooling device for freezing refrigerator, etc.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP3645184A JPS60181570A (en) 1984-02-27 1984-02-27 Cooling device for freezing refrigerator, etc.

Publications (1)

Publication Number Publication Date
JPS60181570A true JPS60181570A (en) 1985-09-17

Family

ID=12470177

Family Applications (1)

Application Number Title Priority Date Filing Date
JP3645184A Pending JPS60181570A (en) 1984-02-27 1984-02-27 Cooling device for freezing refrigerator, etc.

Country Status (1)

Country Link
JP (1) JPS60181570A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2009008281A (en) * 2007-06-26 2009-01-15 Toshiba Corp Refrigerator
JP2014089000A (en) * 2012-10-30 2014-05-15 Sharp Corp Refrigerator

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2009008281A (en) * 2007-06-26 2009-01-15 Toshiba Corp Refrigerator
JP2014089000A (en) * 2012-10-30 2014-05-15 Sharp Corp Refrigerator

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