JP3614349B2 - Liquid container cooling device - Google Patents

Liquid container cooling device Download PDF

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Publication number
JP3614349B2
JP3614349B2 JP2000192614A JP2000192614A JP3614349B2 JP 3614349 B2 JP3614349 B2 JP 3614349B2 JP 2000192614 A JP2000192614 A JP 2000192614A JP 2000192614 A JP2000192614 A JP 2000192614A JP 3614349 B2 JP3614349 B2 JP 3614349B2
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Japan
Prior art keywords
liquid container
container
cooling device
liquid
main body
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Expired - Fee Related
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JP2000192614A
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Japanese (ja)
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JP2002013855A (en
Inventor
豊彦 高槻
一浩 西川
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Zojirushi Corp
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Zojirushi Corp
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Priority to JP2000192614A priority Critical patent/JP3614349B2/en
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Description

【0001】
【発明の属する技術分野】
本発明は、缶ビールなどの缶入りの飲料、ペットボトルや紙パック入りの飲料その他の液体容器を迅速に冷却するための冷却装置に関する発明である。
【0002】
【従来の技術】
缶ビールなどの容器入りの飲料をできるだけ短時間で飲み頃の温度に冷却するための装置として、特開平10−141825号に開示されるように、氷の入った容器の中に回転台を設けて飲料缶を直接回転させて冷却するものや、特開平10−141827号に開示されるように、モータ軸に設けた吸盤で飲料缶を吸着させて水平方向に保持し、水平方向に保持した飲料缶を氷の入った容器の中で回転させるものが知られている。
【0003】
【発明が解決しようとする課題】
本発明は上記、従来の冷却装置よりもより迅速に液体容器を冷却することができる冷却装置を提供することを目的とするものである。液体容器、特に比較的大容量である2リットル、3リットルといった缶ビールを飲み頃温度に冷却するには長時間を要するのが普通である。本発明は、このような場合に例えば5〜15分といった短時間に冷却することができるようにする。
【0004】
【課題を解決するための手段】
上記目的を達成するため本発明は、冷却される液状の熱媒体中に液体容器を配置し、この液体容器を一定方向に間歇回転させる。これにより、温度境界層の発生を効果的に阻止し、極めて効果的に液体容器を冷却することができる。
【0005】
上記目的を達成するための別の方法として本発明は、冷水中に液体容器を配置し、この液体容器を回転させる際に、冷水室に配置する液体容器に断面変形アタッチメントを装着することによって、液体容器の断面形状を円形以外の形状に変形させる。これにより、液体容器と冷水の相対的な流れに乱れ、乱流を生ぜしめ温度境界層の発生を阻止し、攪拌作用によって液体容器表面とこれに接する冷水の温度差を大きくさせ冷却効果を高めることができる。
【0006】
【発明の実施の形態】
以下、本発明の液体容器冷却装置の実施の形態を添付の図面に基づいて説明する。
図1、図2は、本発明の冷却装置の一例を示すもので、図1は縦断面図、図2は蓋11を除いた平面図である。この実施形態は本体9の内部に断熱材10を介して円筒状の本体容器1を設け、本体容器1の中心部に氷が入り込まない網目の網材で円筒状に形成した保護枠2を配置し、保護枠2の内方を冷水室3に、本体容器1と保護枠2の間の空間を氷室としたものである。
【0007】
本体容器1内の氷室4に氷を入れるとともに、本体容器1内に所定量の水を投入し、冷水室3内に冷却しようとする缶ビールなどの液体容器5を位置させ、氷によって冷やされた冷水で液体容器5を冷却す。このとき冷水室3に位置させる液体容器5は、上方から吊るすように支持し、間歇的に回転駆動す
【0008】
液体容器5を、上方から吊るすように支持し間歇的に回転駆動させるには、本体9の天板部分に配置したモータ12から水平方向に保護枠2の中心部に向けて動力伝達杆13を突出させ、その先端に装着した支持杆14によって液体容器5を支持するとよい。すなわち、動力伝達杆13の先端に上下方向に装着した支持杆14は、動力伝達杆13を介してモータ12によって回転駆動することができるようにするとともに、支持杆14の下端に設けた保持手段15によって液体容器5を保持することができるようにする。支持杆14の下端に設ける保持手段15には、チャック装置や吸盤装置を利用することができる。また、動力伝達杆13は平面的に回動させ所定位置で固定することができるようにするとともに、支持杆14は上下方向に移動させ所定位置で固定することができるようにしておくと液体容器5の着脱に便利である。
【0009】
比較的大容量の缶ビールでは、注出器16を利用してコップなどに注ぎ出すのが便利である。図3に示す実施形態は、冷却装置の冷水室3に収容した液体容器5に注出器16を接続し、注出器16のコック18を操作することによって冷却されたビールなどの飲料を注出することができ。すなわち、本体9の外側面に固定した注出器16の注出パイプ17を液体容器5のキャップ19に接続る。液体容器5のキャップ19に接続した注出パイプ17は、先端が液体容器5の内底部に開口する吸引パイプ20に接続するとともに、キャップ19には圧力パイプ21を接続する圧力パイプ21を通して、図示していない炭酸ガスボンベによって高圧ガス液体容器5内に送り込まれ、高圧ガスの圧力によってコック18操作によって注ぎ口22からビールなどの飲料を注出することができる。
【0010】
前記、注出器16の注出パイプ17は、液体容器5の冷却が完了して停止させた状態で液体容器のキャップ19に接続するとよい。しかしながら、注出パイプ17としてゴムホースのように自由に撓むものを使用し、かつ液体容器5を一定角度の範囲を正逆反転させて回動を繰り返すようにすると、注出パイプ17を液体容器のキャップ19に接続しておき、冷却中においても注出器16のコック18操作によって注液することができる。このとき、液体容器の回転は、モータ12及び制御器23の制御によって制御するとともに、液体容器5に断面変形アタッチメントを装着しておくと従来のものに比較してより効果的に冷却することができる
【0011】
図4及び図5には、本体容器1を回転駆動させる冷却装置の実施形態を示している。この実施形態は、架台24にモータ25によって回転駆動される回転台6を設け、この回転台6の上に本体容器1を載置させたものである。すなわち、回転台6を回転することによって本体容器1を回転し、本体容器1内の水と氷に回転による攪拌作用を生じさせ、冷水室3内に配置した液体容器を効果的に冷却することになる。
【0012】
回転運動をする本体容器1の内壁面には、図4、図5に示すように縦方向にリブ状の突起物7を設けている。この突起物7は、本体容器1の回転によって氷室4内の氷を攪拌し、冷水室3の水の温度を下げて液体容器5の冷却効果を向上させ。本体容器1が定常的に一定速度で回転を続けると、その内部の氷や水もやがて本体容器1の回転速度に近い状態で回転することになる。したがって、液体容器5は本体容器内に収容され、本体容器1と一緒に回転するものであってもよいが、二点鎖線で示す保持手段15によって固定的に保持し、あるいは本体容器とは逆方向に回転させ冷水との相対速度を大きくするものであってもよい。
【0013】
以上述べた本発明に係る冷却装置の実施形態では、保護枠によって氷の侵入が阻止された冷水室の中に液体容器5を配置し、液体容器5もしくは本体容器1を回転させることによって冷水と液体容器の間に相対的な速度を生じさせるため、温度境界層の発生を抑制する攪拌作用によって冷却効果を向上させることができる。水の中で液体容器が定常的に回転を続けると、その表面近くの水にはその粘性によって液体容器の回転方向と同じ方向の回転を生じ、相対的な速度差が減少して温度境界層発生の抑制効果や冷水の攪拌効果が減少する可能性がある。
【0014】
上記、液体容器5とその表面の水との相対的な速度差の減少を回避する方法として、本発明者らはモータによって回転駆動する液体容器を間歇的に回転させることを工夫した。これによって、液体容器5とその表面の水との間に相対的な大きな速度差を維持し、温度境界層の発生を効果的に抑制し、液体容器5の冷却効果をより向上させることができた。液体容器を間歇回転ではなく、定常的な回転や正逆回転をさせる場合は、液体容器に断面変形アタッチメントを装着することによって冷却効果を向上させることができる。
【0015】
本体容器1の内部に配置する保護枠2は、大きな氷を通過させずに水ができるだけ自由に通過するものであればよい。そのもっとも一般的な構造として、網カゴが考えられるが、図6に示すように多数の孔26,26を穿設した筒状体や、図7に示すように多数のスリット27,27を穿設した筒状体を保護枠2として使用することもできる。
【0016】
図9に示す断面変形アタッチメント8は、アタッチメント本体8Aと、締め上げ環8Bとで構成している。アタッチメント本体8Aは、円環状に形成した基部8aの四方に脚片8bを突出させたものである。下方に延びる脚片8bの途中には内方への凹み部8cを形成するとともに、下端部にネジ部8dを形成している。この、アタッチメント本体8Aは、液体容器5に被せるように装着した後、脚片8bの下端に形成したネジ部8dに締め上げ環8Bを装着し、脚片8bを締め上げることによって強制的に液体容器5の断面形状を変形させるものである。締め上げ環8Bの代わりに、任意の締め上げ金具を用いて脚片8bを締め上げるものであってもよい。
【0017】
図9に示す断面変形アタッチメント8は、予め液体容器5に装着し、断面変形アタッチメント8を装着した液体容器5を回転駆動するための支持杆14に装着するように使用することができる。しかしながら、図8に示すように液体容器5を上方から支持して回転駆動させる支持杆14の先端部に断面変形アタッチメント8を固定しておき、この断面変形アタッチメント8によって液体容器を支持するようにすることもできる。この場合、基部8aの中心位置に回転機構である支持杆14への取付部8eを形成しておく。例えば、支持杆14の先端に設けた液体容器の保持手段が吸盤である場合、吸盤が吸着し易い平滑面としておくと安定した吸着保持が可能となる。
【0018】
図10は別の断面変形アタッチメント28の一例を示す斜視図である。 図10に示す断面変形アタッチメント28は、全体を板バネのような弾性材で形成したものであって、円環状に形成した基部28a の四方に脚片28b を突出させ、脚片28b を斜め内方へ向けて折曲している。したがって、この断面変形アタッチメント28を液体容器5の上面もしくは底面から装着すると、脚片28b が液体容器5の胴を押圧しその弾性的な押圧力によって液体容器5を変形させることができる。
【0019】
【発明の効果】
請求項1記載の本発明の液体容器冷却装置によれば、冷却される液状の熱媒体中に缶ビールなどの液体容器を配置し、この液体容器を一定方向に間歇回転させることによって、極めて短時間で冷却することができる。その理由は、まず液状の熱媒体中において缶ビールなどの液体容器を回転させると、液体容器が回転することによって容器表面と熱媒体及び容器表面と内溶液との相対速度によって温度境界層の発生が抑制され、間歇回転によって温度境界層の発生抑制効果が継続するためである。
【0020】
請求項2記載の液体容器冷却装置によれば、冷却される液状の熱媒体中に液体容器を配置して液体容器を回転させる際に、液体容器に断面変形アタッチメントを装着して液体容器の断面形状を円形以外の形状に変形させる。これにより、液体容器と熱媒体 ( 冷水 )の相対的な流れに乱れ、乱流を生ぜしめ温度境界層の発生をより確実に阻止し、攪拌作用によって液体容器表面とこれに接する冷水の温度差を大きくさせ冷却効果を高めることができる。
【図面の簡単な説明】
【図1】本発明の冷却装置の一例を示す縦断面図、
【図2】図1の冷却装置の蓋を除いた平面図、
【図3】液体容器内の液体の注出器を備えた冷却装置の一例を示す冷却装置全体の縦断面図、
【図4】本発明の別の実施形態の冷却装置の一例を示す縦断面図、
【図5】図4の冷却装置の横縦断面図、
【図6】本体容器の内部に配置する保護枠の一例を示す斜視図、
【図7】本体容器の内部に配置する保護枠の別の一例を示す斜視図、
【図8】断面変形アタッチメントを装着して使用する実施形態の冷却装置全体の縦断面図、
【図9】図8の冷却装置に使用する断面変形アタッチメントの分解斜視図、
【図10】断面変形アタッチメントの変形例を示す斜視図。
【符号の説明】
1…本体容器、 2…保護枠、 3…冷水室、 4…氷室、 5…液体容器、
6…回転台、 7…突起物、 8,28…断面変形アタッチメント、 8A…アタッチメント本体、 8B…締め上げ環、 8a,28a…基部、 8b,28b…脚片、 8c…凹み部、 8d…ネジ部、 8e…取付部、 9…本体、 10…断熱剤、 11…蓋、 12,25…モータ、 13…動力伝達杆、 14…支持杆、 15…保持手段、 16…注出器、 17…注出パイプ、 18…コック、 19…キャップ、 20…吸引パイプ、 21…圧力パイプ、 22…注ぎ口、 23…制御器、 24…架台、 25…作動モータ、 26…孔、 27…スリット。
[0001]
BACKGROUND OF THE INVENTION
The present invention is an invention related to cold 却装 location for rapidly cooling canned beverages, such as beer cans, beverages and other liquid containers of plastic bottles and paper packs.
[0002]
[Prior art]
As disclosed in JP-A-10-141825, a rotating table is provided in a container containing ice as an apparatus for cooling a beverage in a container such as canned beer to a temperature suitable for drinking in as short a time as possible. The beverage can is directly rotated and cooled, or as disclosed in JP-A-10-141827, the beverage can is adsorbed by a suction cup provided on the motor shaft and held in the horizontal direction, and held in the horizontal direction. It is known to rotate a beverage can in a container containing ice.
[0003]
[Problems to be solved by the invention]
An object of the present invention is to provide a cooling device capable of cooling a liquid container more rapidly than the conventional cooling device. It usually takes a long time to cool a liquid container, especially canned beer such as 2 liters and 3 liters, which have a relatively large capacity, to the temperature when drinking. In this case, the present invention makes it possible to cool in a short time such as 5 to 15 minutes.
[0004]
[Means for Solving the Problems]
In order to achieve the above object, according to the present invention, a liquid container is disposed in a liquid heat medium to be cooled, and the liquid container is intermittently rotated in a certain direction. Thereby, generation | occurrence | production of a temperature boundary layer can be prevented effectively and a liquid container can be cooled very effectively.
[0005]
The present invention as another method for achieving the above object, a liquid container is placed in cold water, when rotating the liquid container, by mounting the cross-sectional deformation attachment to a liquid container placed in cold water chamber, The cross-sectional shape of the liquid container is deformed to a shape other than a circle. Thereby, disturbance in the relative flow of the cold water liquid container, to prevent the occurrence of the temperature boundary layer caused turbulence, the cooling effect by increasing the temperature difference between cold water in contact with this and the liquid container surface by the agitating action Can be increased.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a liquid container cooling device according to the present invention will be described below with reference to the accompanying drawings.
1 and 2 show an example of the cooling device of the present invention. FIG. 1 is a longitudinal sectional view, and FIG. 2 is a plan view excluding a lid 11. In this embodiment, a cylindrical main body container 1 is provided inside a main body 9 via a heat insulating material 10, and a protective frame 2 formed in a cylindrical shape with a mesh material of ice that does not enter into the center of the main body container 1 is disposed. The inside of the protective frame 2 is the cold water chamber 3 and the space between the main body container 1 and the protective frame 2 is the ice chamber 4 .
[0007]
Ice is put into the ice chamber 4 in the main body container 1, a predetermined amount of water is put into the main body container 1, and a liquid container 5 such as canned beer to be cooled is positioned in the cold water chamber 3, and is cooled by ice. cool the liquid container 5 in cold water. The liquid container 5 for this time is positioned in the cold water chamber 3, and supported so as to hang from above, it drives intermittently rotated.
[0008]
In order to support the liquid container 5 so as to be suspended from above and rotationally drive it intermittently, a power transmission rod 13 is horizontally directed from the motor 12 disposed on the top plate portion of the main body 9 toward the center of the protective frame 2. is projected, may we support the liquid container 5 by the support rod 14 mounted on its tip. That is, the support rod 14 mounted on the tip of the power transmission rod 13 in the vertical direction can be driven to rotate by the motor 12 via the power transmission rod 13, and the holding means provided at the lower end of the support rod 14 The liquid container 5 can be held by 15. As the holding means 15 provided at the lower end of the support rod 14, a chuck device or a suction cup device can be used. The power transmission rod 13 can be rotated in a plane so that it can be fixed at a predetermined position, and the support rod 14 can be moved up and down to be fixed at a predetermined position. Convenient for attaching and detaching 5.
[0009]
For relatively large-capacity canned beer, it is convenient to pour into a glass using the dispenser 16. In the embodiment shown in FIG. 3, a dispenser 16 is connected to the liquid container 5 accommodated in the cold water chamber 3 of the cooling device, and a beverage such as beer cooled by operating the cock 18 of the dispenser 16 is poured. Ru can be out. That is, to connect the dispensing pipe 17 of the dispensing device 16 which is fixed to the outer surface of the body 9 to the cap 19 of the liquid container 5. Pouring pipe 17 connected to the cap 19 of the liquid container 5, the tip is connected to the suction pipe 20 which opens in the inner bottom portion of the liquid container 5, through the pressure pipe 21 when connecting the pressure pipe 21 to the cap 19, Included feeding high-pressure gas by carbon dioxide gas cylinder (not shown) within the liquid container 5 rare, beverages such as beer from spout 22 by the operation of the cock 18 by the pressure of the high pressure gas can be dispense.
[0010]
The pouring pipe 17 of the pouring device 16 may be connected to the cap 19 of the liquid container in a state where the cooling of the liquid container 5 is completed and stopped. However, when a pipe that freely bends like a rubber hose is used as the pouring pipe 17 and the liquid container 5 is repeatedly rotated by reversing the range of a certain angle, the pouring pipe 17 is connected to the liquid container. The liquid can be injected by operating the cock 18 of the dispenser 16 even during cooling while being connected to the cap 19. At this time, the rotation of the liquid container is adapted to control by the control of the motor 12 and controller 23, more effective cooling as compared with the conventional idea to attach the cross-sectional deformation attachment to the liquid container 5 Can
[0011]
4 and 5 show an embodiment of a cooling device that rotationally drives the main body container 1. In this embodiment, a turntable 6 that is rotationally driven by a motor 25 is provided on a gantry 24, and the main body container 1 is placed on the turntable 6. That is, the main body container 1 is rotated by rotating the turntable 6, and the water and ice in the main body container 1 are caused to agitate by rotation, thereby effectively cooling the liquid container disposed in the cold water chamber 3. become.
[0012]
As shown in FIGS. 4 and 5, rib-shaped projections 7 are provided on the inner wall surface of the main body container 1 that rotates. The projections 7, stirring ice icehouse 4 by the rotation of the main body container 1, Ru improve the cooling effect of the liquid container 5 to lower the temperature of the water in the cold water chamber 3. If the main body container 1 continues to rotate constantly at a constant speed, the ice and water inside the main container 1 will eventually rotate in a state close to the rotational speed of the main body container 1. Accordingly, the liquid container 5 may be accommodated in the main body container and rotated together with the main body container 1, but is fixedly held by the holding means 15 indicated by a two-dot chain line, or opposite to the main body container. It may be rotated in the direction to increase the relative speed with cold water.
[0013]
In the embodiment of the cooling device according to the present invention described above, the liquid container 5 is placed in the cold water chamber in which the intrusion of ice is prevented by the protective frame, and the liquid container 5 or the main body container 1 is rotated to for causing relative velocity between the liquid container, Ru can improve the cooling effect by inhibiting stirring action generation of thermal boundary layer. As the liquid container continues to rotate constantly in the water, the water near its surface rotates in the same direction as the liquid container due to its viscosity, reducing the relative speed difference and causing a temperature boundary layer. There is a possibility that the effect of suppressing the generation and the stirring effect of cold water are reduced.
[0014]
Above, as a method of avoiding a reduction in the relative speed difference between the water of the liquid container 5 and its surface, the present inventors have devised that is intermittently rotated a liquid container which is rotationally driven by a motor. Thereby, a relatively large speed difference can be maintained between the liquid container 5 and the water on the surface thereof, generation of the temperature boundary layer can be effectively suppressed, and the cooling effect of the liquid container 5 can be further improved. It was. When the liquid container is rotated intermittently or forward / reversely instead of intermittently rotating, the cooling effect can be improved by attaching the cross-section deformation attachment to the liquid container.
[0015]
The protective frame 2 disposed inside the main body container 1 may be any one that allows water to pass through as freely as possible without passing large ice. The most common structure is a net cage. As shown in FIG. 6, a cylindrical body having a large number of holes 26, 26, or a large number of slits 27, 27 as shown in FIG. The provided cylindrical body can also be used as the protective frame 2.
[0016]
The cross-sectional deformation attachment 8 shown in FIG. 9 includes an attachment body 8A and a tightening ring 8B. The attachment body 8A is obtained by projecting leg pieces 8b on four sides of a base 8a formed in an annular shape. An inwardly recessed portion 8c is formed in the middle of the leg piece 8b extending downward, and a screw portion 8d is formed at the lower end portion. After the attachment body 8A is mounted so as to cover the liquid container 5, the tightening ring 8B is mounted on the screw portion 8d formed at the lower end of the leg piece 8b, and the leg piece 8b is tightened to force the liquid. The cross-sectional shape of the container 5 is changed. Instead of the tightening ring 8B, the leg piece 8b may be tightened using an arbitrary tightening fitting.
[0017]
The cross-sectional deformation attachment 8 shown in FIG. 9 can be used so as to be mounted on the liquid container 5 in advance and mounted on a support rod 14 for rotationally driving the liquid container 5 on which the cross-section deformation attachment 8 is mounted. However, as shown in FIG. 8, the cross-section deformation attachment 8 is fixed to the tip of a support rod 14 that supports and rotates the liquid container 5 from above, and the cross-section deformation attachment 8 supports the liquid container. You can also In this case, an attachment portion 8e to the support rod 14 as a rotation mechanism is formed at the center position of the base portion 8a. For example, when the holding means for the liquid container provided at the tip of the support rod 14 is a suction cup, a stable suction holding is possible if the suction cup is a smooth surface that is easy to suck.
[0018]
FIG. 10 is a perspective view showing an example of another cross-section deformation attachment 28. The cross-sectional deformation attachment 28 shown in FIG. 10 is formed entirely of an elastic material such as a leaf spring.The leg piece 28b protrudes in four directions of a base 28a formed in an annular shape, and the leg piece 28b is slanted inside. It is bent towards the direction. Therefore, when the cross-section deformation attachment 28 is mounted from the upper surface or the bottom surface of the liquid container 5, the leg piece 28b presses the body of the liquid container 5, and the liquid container 5 can be deformed by the elastic pressing force.
[0019]
【The invention's effect】
According to the liquid container cooling device of the present invention of claim 1 Symbol placing a liquid container such as a can of beer were placed in liquid heating medium to be cooled, by intermittently Rotation of the liquid container in a predetermined direction It can be cooled in a very short time. The reason is that when a liquid container such as canned beer is first rotated in a liquid heat medium, the temperature boundary layer is generated by the relative speed between the container surface and the heat medium and the container surface and the internal solution. This is because the effect of suppressing the generation of the temperature boundary layer is continued by intermittent rotation.
[0020]
According to the liquid container cooling device of claim 2 , when the liquid container is disposed in the liquid heat medium to be cooled and the liquid container is rotated, the cross section of the liquid container is attached with the cross-section deformation attachment attached to the liquid container. The shape is changed to a shape other than a circle. As a result, the relative flow between the liquid container and the heat medium ( cold water ) is turbulent, creating a turbulent flow and more reliably preventing the generation of a temperature boundary layer. To increase the cooling effect.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing an example of a cooling device of the present invention,
FIG. 2 is a plan view of the cooling device of FIG.
FIG. 3 is a longitudinal sectional view of an entire cooling device showing an example of a cooling device provided with a liquid dispenser in a liquid container;
FIG. 4 is a longitudinal sectional view showing an example of a cooling device according to another embodiment of the present invention;
5 is a horizontal and vertical cross-sectional view of the cooling device of FIG.
FIG. 6 is a perspective view showing an example of a protective frame disposed inside the main body container;
FIG. 7 is a perspective view showing another example of a protective frame arranged inside the main body container;
FIG. 8 is a longitudinal sectional view of an entire cooling device according to an embodiment that is used with a sectional deformation attachment;
9 is an exploded perspective view of a cross-section deformation attachment used in the cooling device of FIG.
FIG. 10 is a perspective view showing a modification of the cross-section deformation attachment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Main body container, 2 ... Protective frame, 3 ... Cold water chamber, 4 ... Ice chamber, 5 ... Liquid container,
6 ... turntable, 7 ... projection, 8, 28 ... cross-section deformation attachment, 8A ... attachment body, 8B ... tightening ring, 8a, 28a ... base, 8b, 28b ... leg piece, 8c ... recess, 8d ... screw 8e ... Mounting part, 9 ... Main body, 10 ... Heat insulation, 11 ... Lid, 12,25 ... Motor, 13 ... Power transmission rod, 14 ... Support rod, 15 ... Holding means, 16 ... Extractor, 17 ... Dispensing pipe, 18 ... cock, 19 ... cap, 20 ... suction pipe, 21 ... pressure pipe, 22 ... spout, 23 ... controller, 24 ... mount, 25 ... actuation motor, 26 ... hole, 27 ... slit.

Claims (2)

冷却される液状の熱媒体中に液体容器を配置し、該液体容器を回転させる液体容器冷却装置において、液体容器を一定方向に間歇回転させることを特徴とする液体容器冷却装置The liquid container placed in liquid heating medium to be cooled, the liquid container cooling device for rotating the liquid container, the liquid container cooling system, characterized in that to intermittently rotate the liquid container in a predetermined direction. 冷却される液状の熱媒体中に液体容器を配置し、該液体容器を回転させる液体容器冷却装置において、前記液体容器に断面変形アタッチメントを装着して液体容器の断面形状を円形以外の形状に変形させることを特徴とする液体容器冷却装置 In a liquid container cooling device in which a liquid container is arranged in a liquid heat medium to be cooled and the liquid container is rotated, a cross-sectional deformation attachment is attached to the liquid container to change the cross-sectional shape of the liquid container to a shape other than a circle. A liquid container cooling device characterized by causing the liquid container to cool .
JP2000192614A 2000-06-27 2000-06-27 Liquid container cooling device Expired - Fee Related JP3614349B2 (en)

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Publication number Priority date Publication date Assignee Title
US6945069B2 (en) * 2003-01-24 2005-09-20 Lg Electronics Inc. Quick cooling device
JP4584037B2 (en) * 2004-08-05 2010-11-17 ホシザキ電機株式会社 Counter draft
US8833609B2 (en) 2007-05-30 2014-09-16 Koninklijke Philips N.V. Paper-based beer container and dispensing appratus therefor
GB2471865B (en) 2009-07-15 2011-06-29 Bright Light Solar Ltd Refrigeration apparatus
JP5188614B2 (en) * 2011-09-12 2013-04-24 株式会社電昭舎 Food refrigeration equipment
EP2807433B1 (en) 2012-01-27 2021-05-19 The Sure Chill Company Limited Refrigeration apparatus
GB201301494D0 (en) 2013-01-28 2013-03-13 True Energy Ltd Refrigeration apparatus
CN105556224B (en) 2013-07-23 2019-10-11 确保冷藏有限公司 Refrigerating plant and method
EP3341665A4 (en) 2015-09-11 2019-05-01 The Sure Chill Company Limited Portable refrigeration apparatus
JP7119579B2 (en) * 2018-05-28 2022-08-17 東洋製罐グループホールディングス株式会社 Heating device and temperature rising method for liquid content at normal temperature in frozen state
CN114750387B (en) * 2022-03-31 2024-01-26 徐州宏马塑业有限公司 Multilayer co-extrusion wire drawing machine for plastic woven bags and use method thereof

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