JPH0271069A - Portable refrigerating ice box and carbonated drinking water manufacturing apparatus using dry ice - Google Patents
Portable refrigerating ice box and carbonated drinking water manufacturing apparatus using dry iceInfo
- Publication number
- JPH0271069A JPH0271069A JP22323788A JP22323788A JPH0271069A JP H0271069 A JPH0271069 A JP H0271069A JP 22323788 A JP22323788 A JP 22323788A JP 22323788 A JP22323788 A JP 22323788A JP H0271069 A JPH0271069 A JP H0271069A
- Authority
- JP
- Japan
- Prior art keywords
- drinking water
- dry ice
- refrigerant liquid
- fed
- carbonated drinking
- 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
- CURLTUGMZLYLDI-UHFFFAOYSA-N Carbon dioxide Chemical compound O=C=O CURLTUGMZLYLDI-UHFFFAOYSA-N 0.000 title claims abstract description 37
- 235000011089 carbon dioxide Nutrition 0.000 title claims abstract description 16
- 239000003651 drinking water Substances 0.000 title claims abstract description 16
- 235000020188 drinking water Nutrition 0.000 title claims abstract description 16
- 238000004519 manufacturing process Methods 0.000 title claims description 3
- 239000007788 liquid Substances 0.000 claims abstract description 22
- 239000003507 refrigerant Substances 0.000 claims abstract description 21
- 238000001816 cooling Methods 0.000 claims abstract description 8
- 229910002092 carbon dioxide Inorganic materials 0.000 claims description 9
- 239000001569 carbon dioxide Substances 0.000 claims description 9
- 230000008016 vaporization Effects 0.000 claims description 4
- 229910002090 carbon oxide Inorganic materials 0.000 abstract 2
- 230000004913 activation Effects 0.000 abstract 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 abstract 1
- 235000014171 carbonated beverage Nutrition 0.000 description 3
- 238000009834 vaporization Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 238000007710 freezing Methods 0.000 description 2
- 230000008014 freezing Effects 0.000 description 2
- LFQSCWFLJHTTHZ-UHFFFAOYSA-N Ethanol Chemical compound CCO LFQSCWFLJHTTHZ-UHFFFAOYSA-N 0.000 description 1
- 230000002528 anti-freeze Effects 0.000 description 1
- 230000007423 decrease Effects 0.000 description 1
- 235000013611 frozen food Nutrition 0.000 description 1
- 239000000203 mixture Substances 0.000 description 1
Abstract
Description
【発明の詳細な説明】
本発明は、ドライアイスを使用した携帯用冷凍冷蔵庫、
及び炭酸飲料水製造装置の構造に関するもので、構造が
簡単でかつ性能が優れた冷却が出来る目的に開発された
ものである。DETAILED DESCRIPTION OF THE INVENTION The present invention provides a portable refrigerator-freezer using dry ice;
This invention relates to the structure of a carbonated beverage production device, and was developed for the purpose of providing cooling with a simple structure and excellent performance.
従来、携帯冷蔵庫は、冷蔵庫内へ氷等を入れて品物を冷
していたが、冷凍機能が無い為め冷凍食品の持運びが出
来ない欠点があった。そこで本発明は、冷凍機能を持た
せ、尚かつ炭酸飲料水(気抜は炭酸飲料水活性化)が出
来る様に考案したものである。Conventionally, portable refrigerators have been used to cool items by putting ice or the like inside the refrigerator, but because they do not have a freezing function, they have the disadvantage that frozen foods cannot be carried around. Therefore, the present invention has been devised to have a freezing function and to be able to produce carbonated drinking water (the carbonated drinking water is activated when the air is removed).
本発明の携帯冷凍冷蔵庫は、第1図に示されて居る様に
、冷凍室(4)と熱交換器(3)及び冷蔵室(5)から
構成される装置
α●〜(ホ)及び、冷V&液(至)循環機器(ハ)〜(
至)から成り立つている。As shown in FIG. 1, the portable refrigerator-freezer of the present invention comprises devices α● to (E) consisting of a freezer compartment (4), a heat exchanger (3), and a refrigerator compartment (5); Cold V & liquid (to) circulation equipment (c) ~ (
(to).
ドライアイス収納容器(7)内にドライアイス(財)を
入れ,蓋0’e @J t L/ 、パツキンなDによ
り密封出来る。Dry ice (goods) can be placed in the dry ice storage container (7) and sealed with a lid 0'e @J t L/ and a tight D.
冷媒液備(アルコール等ドライアイスの気化熱に対し不
凍液の事)は熱伝導により.容器(ト)に熱が伝わりド
ライアイス(財)を気化さす,その時の気化熱で冷V&
液(自)は冷却される。その冷却された冷媒液03は、
外部の熱を吸収しない様に、冷媒液収納容器0力と外客
WHの間(1)は真空に成っている(蓋09■の間(支
)も真空)1.ドライアイス(ハ)が気化した冷炭酸ガ
スは、容器Q場内に充満し圧力が上り。Liquid refrigerant (antifreeze liquid, as opposed to the heat of vaporization of dry ice such as alcohol) uses heat conduction. Heat is transferred to the container (G) and vaporizes the dry ice (goods), and the heat of vaporization at that time makes it cold.
The liquid (self) is cooled. The cooled refrigerant liquid 03 is
In order to prevent external heat from being absorbed, a vacuum is created between the refrigerant liquid storage container 0 and the outside customer WH (1) (the gap (support) between the lid 09■ is also vacuum)1. The cold carbon dioxide gas vaporized by the dry ice (c) fills the container Q and the pressure rises.
エアーモーター(1)を回す圧力に成ると、温度センサ
ー(15B)の信号により電磁弁四が開に成り、冷炭酸
ガスは矢印(G1)より(02)電磁弁−を通り(G4
)の方行へ流れて、エアーモーター(ホ)を回し、矢印
(G5)へと流れ、冷凍庫のガス入口(8)より冷凍庫
内(4)へ入り、冷凍室(4)を冷却しながら矢印(G
6)の方行に流れ、出口(9)より冷蔵室(5)へ入る
。そして冷蔵室(5)を冷却しながら矢印(C7)より
(C8)そして出口Oqより外部(C9)へと流れ、冷
凍冷蔵室(4)(5)を冷却する事が出来る。それと同
時にエアーモーター(7)と連結されている。冷媒液循
環ポンプ(26A)が回るので、冷媒液収納容器α力の
冷媒液出口@より矢印(At) (A2)を通り、熱交
換器冷K M入口(B1より熱交換器(3)へ入り矢印
(A3)出口(7)矢印(A4)戻り口(7)へと冷媒
液は循環して、冷凍冷蔵室(4) (51を冷却する事
が出来る。そして熱交換器(3)の温度が目的の温度に
低下すると、温度セ・ンサー(1511)の信号で電磁
弁の電気回路を開にし電磁弁を閉ざす。それによって冷
炭酸ガス、冷媒液の流れは止り、一定の温度調節が出来
る。尚、容器(至)内の圧力が高く成り過ぎると安全弁
(至)が自動的に開いて、矢印(02) (G3)と冷
炭酸ガスは流れて前記と同じ働きをする。この場合は、
冷凍冷Sa室(4) (53内の温度が高く熱交換が激
しく行なわれた為め。When the pressure reaches the level that turns the air motor (1), the signal from the temperature sensor (15B) opens solenoid valve 4, and the cold carbon dioxide gas passes through the solenoid valve (02) from the arrow (G1) (G4).
), rotates the air motor (E), flows in the direction of the arrow (G5), enters the freezer (4) from the freezer gas inlet (8), and moves in the direction of the arrow while cooling the freezer compartment (4). (G
6) and enters the refrigerator compartment (5) through the exit (9). Then, while cooling the refrigerator compartment (5), it flows from the arrows (C7) to (C8) and from the outlet Oq to the outside (C9), thereby cooling the freezer and refrigerator compartments (4) and (5). At the same time, it is connected to the air motor (7). As the refrigerant liquid circulation pump (26A) rotates, the refrigerant liquid outlet of the refrigerant liquid storage container α passes through the arrow (At) (A2) and the heat exchanger cold KM inlet (from B1 to the heat exchanger (3) The refrigerant liquid circulates from the entry arrow (A3) to the exit (7), to the arrow (A4), and to the return port (7), and can cool the freezer/refrigerator compartment (4) (51). When the temperature drops to the target temperature, the signal from the temperature sensor (1511) opens the electric circuit of the solenoid valve and closes the solenoid valve.As a result, the flow of cold carbon dioxide gas and refrigerant liquid is stopped, and constant temperature control is maintained. Yes, it can be done. In addition, if the pressure inside the container (to) becomes too high, the safety valve (to) will automatically open, and the cold carbon dioxide gas will flow as shown by the arrow (02) (G3), and the same function as above will occur. In this case, teeth,
Refrigerated cold Sa chamber (4) (53 This was due to high temperature and intense heat exchange.
ドライアイスの多fSt気化に伴うもので、冷凍冷蔵室
(41(5)の急冷させる必要条件で、冷凍冷蔵室(4
) (5)の温度が極低下する心配は無い。そして容器
(ト)内の圧力が低くエアーモーターが回らない状態な
らば、圧力センサー(2)が信号を出し、電磁弁四の′
電気回路を開にし温度センサー(15I3)の信号が出
ても′電磁弁は開かない。そのかわりに温度センサー(
1511)の、信号と圧力センサー四の信号が加わって
モーター勾が回る電気回路が出来モーター翰と同軸状に
ある。冷媒液循環ポンプ(26B)が回り 冷媒液は矢
印(A5) CA2)を通り、その後は前記と同じく熱
交換器(3)を通り、戻り口(至)へと循環する。そし
て、熱交換器(3)の温度が目的の温度に低下すると。This is due to the high fSt vaporization of dry ice, which is a necessary condition for rapid cooling in the freezer/refrigerator compartment (41(5)).
) There is no need to worry about the temperature in (5) becoming extremely low. If the pressure inside the container (G) is low and the air motor does not rotate, the pressure sensor (2) will issue a signal and the solenoid valve 4'
Even if the electric circuit is opened and a signal from the temperature sensor (15I3) is output, the solenoid valve will not open. Instead, a temperature sensor (
1511) and the signal from pressure sensor 4 are added to form an electric circuit that rotates the motor, which is coaxial with the motor. The refrigerant liquid circulation pump (26B) rotates, and the refrigerant liquid passes through the arrow (A5) (CA2), then passes through the heat exchanger (3) as described above, and is circulated to the return port (to). Then, when the temperature of the heat exchanger (3) decreases to the target temperature.
温度センサー(15B)の信号で、モーター勿の電気回
路が開に成り、モーター縛は止り、冷媒液の循環も止っ
て、一定の温度調節が出来る。冷媒液出口GQの温度が
ある一定の温度より高くなれば、温度センサー(15A
)の信号によりモーター@の+7(< 気回路を開にし
、電池(1)の消費を防止する様に工夫しである。The signal from the temperature sensor (15B) opens the electric circuit of the motor, stopping the motor from binding and stopping the circulation of the refrigerant, allowing constant temperature control. If the temperature of the refrigerant liquid outlet GQ becomes higher than a certain temperature, the temperature sensor (15A
) signal opens the +7 (< air circuit of the motor @) and is devised to prevent battery (1) consumption.
次に炭酸飲料水(気抜は炭酸飲料水の店主化)を作れる
原理。Next is the principle that allows you to make carbonated drinks (Kairaku is the owner of a carbonated drinks shop).
容器(ト)内の圧力がある高さまで上ると、圧力センサ
ー(2)により信号を出し、第2図に示す、標示ラング
tl(lが点灯する。その時に、コック曹を開けば炭酸
ガスは矢印(0+) (C1to) (Gll)と、飲
料水容器Gll内へ流れ、飲料水に溶は込み炭酸飲料水
並びに活化が出来る。尚、炭酸ガス封入口に)はパツキ
ン婚を取付けられ、炭酸ガス封入時のガスの漏えいを防
いでいる。そして、蒲斗(じょうご)型に成っているの
は、飲料水容器の口の大小に適応出来る様に工夫しであ
る。When the pressure inside the container (G) rises to a certain level, the pressure sensor (2) outputs a signal and the indicator tl (l) shown in Figure 2 lights up.At that time, if you open the cock, the carbon dioxide gas will be released. The arrow (0+) (C1to) (Gll) flows into the drinking water container Gll, dissolves in the drinking water, and can be activated as carbonated drinking water. Prevents gas leakage when gas is filled. The funnel-shaped design allows it to be adapted to the size of the mouth of the drinking water container.
第1図は機器の断面図並びに配管図で、第2図は″混気
自動制御配線展開図である。
(1) 、 (2) 冷凍冷M、庫本体 (27)
モーター(3) 熱交換器 (211)
圧力センサー(4) 冷凍室 (2
9) 電磁弁(5) 冷蔵室 (30
) デ全弁(2) 冷媒液 (31)
コック(14A)、 (14B) ドアースイッチ
(321(311)漏斗 (じ社うご)(tsA)
、 (tsn)温度センサー (34) 飲料水収
納容器萌、職に翰、憾@、翰 ドライアイス (35
) 飲料水収納容器 (39) 〜電
池(ハ) ドライアイス (40) 標示ラン
プ(イ) エアーモーター
(26A)、 (zaB)冷媒液循環ポンプ以 上Figure 1 is a sectional view and piping diagram of the equipment, and Figure 2 is a developed diagram of the automatic air mixture control wiring. (1), (2) Freezer cold M, refrigerator body (27)
Motor (3) Heat exchanger (211)
Pressure sensor (4) Freezer compartment (2
9) Solenoid valve (5) Refrigerator room (30
) Full valve (2) Refrigerant liquid (31)
Cock (14A), (14B) Door switch (321 (311) Funnel (tsA)
, (tsn) Temperature sensor (34) Drinking water storage container Moe, work is 翰, Sorry @, 翰 Dry ice (35
) Drinking water storage container (39) ~Battery (c) Dry ice (40) Indicator lamp (a) Air motor (26A), (zaB) Refrigerant liquid circulation pump and above
Claims (1)
液を使用して、間接的冷却、及びドライアイスの気化し
た、冷炭酸ガスを冷凍冷蔵庫内へ直接引入れて、冷す携
帯用冷凍冷蔵庫 (B)ドライアイスの気化した、冷炭酸ガスを冷凍冷蔵
庫内に引入れる時に、エアーモーターを回し冷媒液循環
ポンプを動かす装置 2、(A)ドライアイスの気化によって、高圧炭酸ガス
が出来るのを直接利用して、炭酸飲料水(気抜け炭酸飲
料水活生)を作る装置 (B)飲料水(気抜け炭酸飲料水)に炭酸ガスを封入す
る。大小経自在型封入口[Claims] 1. (A) Using dry ice as a cold energy source, using a refrigerant liquid for indirect cooling, and directly drawing cold carbon dioxide gas vaporized from dry ice into a refrigerator-freezer, (B) Device 2 that turns the air motor to operate the refrigerant liquid circulation pump when drawing the cold carbon dioxide vaporized from dry ice into the refrigerator, (A) High pressure by vaporizing dry ice. Device for producing carbonated drinking water (airless carbonated drinking water life) by directly utilizing the production of carbon dioxide (B) Carbon dioxide gas is sealed in drinking water (airless carbonated drinking water). Large and small size adjustable filling port
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP22323788A JPH0271069A (en) | 1988-09-06 | 1988-09-06 | Portable refrigerating ice box and carbonated drinking water manufacturing apparatus using dry ice |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP22323788A JPH0271069A (en) | 1988-09-06 | 1988-09-06 | Portable refrigerating ice box and carbonated drinking water manufacturing apparatus using dry ice |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH0271069A true JPH0271069A (en) | 1990-03-09 |
Family
ID=16794949
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP22323788A Pending JPH0271069A (en) | 1988-09-06 | 1988-09-06 | Portable refrigerating ice box and carbonated drinking water manufacturing apparatus using dry ice |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0271069A (en) |
-
1988
- 1988-09-06 JP JP22323788A patent/JPH0271069A/en active Pending
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