JPH06109359A - Simple liquid nitrogen manufacturer - Google Patents
Simple liquid nitrogen manufacturerInfo
- Publication number
- JPH06109359A JPH06109359A JP4280945A JP28094592A JPH06109359A JP H06109359 A JPH06109359 A JP H06109359A JP 4280945 A JP4280945 A JP 4280945A JP 28094592 A JP28094592 A JP 28094592A JP H06109359 A JPH06109359 A JP H06109359A
- Authority
- JP
- Japan
- Prior art keywords
- gas
- nitrogen gas
- base flange
- storage tank
- nitrogen
- 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.)
- Granted
Links
Classifications
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01B—NON-METALLIC ELEMENTS; COMPOUNDS THEREOF; METALLOIDS OR COMPOUNDS THEREOF NOT COVERED BY SUBCLASS C01C
- C01B21/00—Nitrogen; Compounds thereof
- C01B21/04—Purification or separation of nitrogen
-
- 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
- F25D3/00—Devices using other cold materials; Devices using cold-storage bodies
- F25D3/10—Devices using other cold materials; Devices using cold-storage bodies using liquefied gases, e.g. liquid air
Landscapes
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Analytical Chemistry (AREA)
- Inorganic Chemistry (AREA)
- Separation By Low-Temperature Treatments (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、理科学機器等に冷熱源
として使用する液体窒素を簡単に製造する装置に関す
る。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for easily producing liquid nitrogen used as a cold heat source for scientific instruments.
【0002】[0002]
【従来技術】従来、液体窒素の製造装置は、断熱容器で
形成した冷媒貯蔵槽の上端開口部から極低温冷凍機のコ
ールドヘッドを冷媒貯蔵槽内に突入配置し、冷媒貯蔵槽
に空気分離装置で分離した窒素ガスを気体状態で注入
し、コールドヘッドに発生する冷熱を窒素ガスに作用さ
せて液化させるように形成していた。2. Description of the Related Art Conventionally, in a liquid nitrogen production apparatus, a cold head of a cryogenic refrigerator is thrust into an inside of a refrigerant storage tank from an upper end opening of the refrigerant storage tank formed by an adiabatic container, and an air separation device is installed in the refrigerant storage tank. The nitrogen gas separated in step 1 was injected in a gaseous state, and cold heat generated in the cold head was applied to the nitrogen gas to liquefy it.
【0003】[0003]
【発明が解決しようとする課題】ところが、従来の液体
窒素製造装置では、空気分離装置では大気中のヘリウム
ガス等の低沸点ガスを完全に取り除くことはできず、こ
れら低沸点ガスが窒素とともに断熱容器内に供給される
ことになる。断熱容器内では低沸点ガスは液化せず、ガ
ス体で断熱容器内に滞留する。そして、この低沸点ガス
の滞留量が増大すると、窒素とコールドヘッドとの冷熱
授受が阻害されて液化量が減少するという問題があっ
た。本発明は、このような点に着目してなされたもの
で、冷媒貯蔵槽での低沸点ガスの滞留をなくして高能力
の液体窒素製造装置を提供することを目的とする。However, in the conventional liquid nitrogen production apparatus, the low-boiling point gas such as helium gas in the atmosphere cannot be completely removed by the air separation apparatus, and the low-boiling point gas is adiabatic together with nitrogen. It will be supplied in the container. The low boiling point gas is not liquefied in the heat insulating container, and remains in the heat insulating container as a gas body. If the amount of the low boiling point gas retained increases, the transfer of cold heat between nitrogen and the cold head is hindered, and the amount of liquefaction decreases. The present invention has been made in view of such a point, and an object of the present invention is to provide a high-performance liquid nitrogen production apparatus by eliminating retention of low boiling point gas in a refrigerant storage tank.
【0004】[0004]
【課題を解決するための手段】上述の目的を達成するた
めに、本発明は、冷媒貯蔵槽の上面開口部を閉塞する状
態で配置したベースフランジにコールドヘッドを固定支
持し、このベースフランジにコールドエンド挿通孔を透
設し、ベースフランジに窒素ガス導入ポートとガス放出
ポートとを形成し、この窒素ガス導入ポートをコールド
ヘッド挿通孔に窒素ガス導入路で連通するとともに、ガ
ス放出ポートをガス放出路で連通し、窒素ガス導入路及
びガス放出路をベースフランジの肉壁内に透設したこと
を特徴とする。In order to achieve the above-mentioned object, the present invention fixedly supports a cold head on a base flange arranged so as to close an upper opening of a refrigerant storage tank, and the base flange is fixed to the base flange. A cold end insertion hole is made transparent, and a nitrogen gas introduction port and a gas release port are formed on the base flange.The nitrogen gas introduction port is connected to the cold head insertion hole by a nitrogen gas introduction path, and the gas release port is connected to the gas release port. It is characterized in that the nitrogen gas introduction passage and the gas discharge passage are communicated with each other through the discharge passage and are transparently provided in the wall of the base flange.
【0005】[0005]
【作用】本発明では、冷媒貯蔵槽の上面開口部を閉塞す
る状態で配置したベースフランジにコールドヘッドを固
定支持し、このベースフランジにコールドエンド挿通孔
を透設し、ベースフランジに窒素ガス導入ポートとガス
放出ポートとを形成し、この窒素ガス導入ポートをコー
ルドヘッド挿通孔に窒素ガス導入路で連通するととも
に、ガス放出ポートをガス放出路で連通し、窒素ガス導
入路及びガス放出路をベースフランジの肉壁内に透設す
るように構成しているので、冷媒貯蔵槽内に流入した非
凝縮性低沸点ガスは余分の窒素ガスとともにガス放出路
から槽外に排出されることになり、冷媒貯蔵槽内に非凝
縮性低沸点ガスが滞留することがなくなる。According to the present invention, the cold head is fixedly supported on the base flange arranged so as to close the upper opening of the refrigerant storage tank, the cold end insertion hole is provided through this base flange, and the nitrogen gas is introduced into the base flange. A port and a gas release port are formed, and the nitrogen gas introduction port is connected to the cold head insertion hole by a nitrogen gas introduction path, and the gas release port is connected by a gas release path to connect the nitrogen gas introduction path and the gas release path. Since it is configured to penetrate through the meat wall of the base flange, the non-condensable low boiling point gas that has flowed into the refrigerant storage tank will be discharged from the tank through the gas discharge path together with the extra nitrogen gas. The non-condensable low boiling point gas does not stay in the refrigerant storage tank.
【0006】[0006]
【実施例】図面は本発明の実施例を示し、図1は断熱容
器の要部縦断面図、図2は液体窒素製造装置の概略構成
図、図3は図1のA−A線断面図である。この液体窒素
製造装置は、断熱容器で構成した冷媒貯蔵槽(1)と、こ
の冷媒貯蔵槽(1)の上端開口部にコールドヘッド(2)を
配置した極低温冷凍機(3)と、冷媒貯蔵槽(1)に冷媒ガ
スを供給する圧力振動式空気分離装置(4)とで構成して
ある。なお、図中符号(5)は極低温冷凍機(3)の圧縮機
ユニットである。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The drawings show an embodiment of the present invention. FIG. 1 is a longitudinal sectional view of an essential part of a heat insulating container, FIG. 2 is a schematic configuration diagram of a liquid nitrogen production apparatus, and FIG. Is. This liquid nitrogen manufacturing apparatus includes a refrigerant storage tank (1) composed of an insulating container, a cryogenic refrigerator (3) having a cold head (2) arranged at an upper end opening of the refrigerant storage tank (1), and a refrigerant. It comprises a pressure oscillation type air separation device (4) for supplying a refrigerant gas to the storage tank (1). Reference numeral (5) in the figure denotes a compressor unit of the cryogenic refrigerator (3).
【0007】コールドヘッド(2)は冷媒貯蔵槽(1)の上
端開口部を密閉するベースフランジ(6)に載置固定して
あり、そのコールドエンド(7)はベースフランジ(6)に
立て向きに透設したコールドエンド挿入孔(8)から冷媒
貯蔵槽(1)内に突入する状態で配置してある。そして、
冷媒貯蔵槽(1)の上端部には、コールドエンド(7)部分
を取り囲む状態で断熱材製リング(9)が配置してある。The cold head (2) is mounted and fixed on a base flange (6) that seals the upper end opening of the refrigerant storage tank (1), and the cold end (7) faces the base flange (6) vertically. It is arranged so as to project into the refrigerant storage tank (1) from the cold end insertion hole (8) which is transparently provided. And
A ring (9) made of a heat insulating material is arranged at the upper end of the refrigerant storage tank (1) so as to surround the cold end (7).
【0008】冷媒貯蔵槽(1)の上端開口部に配置したベ
ースフランジ(6)には窒素ガス導入路(10)と窒素ガス放
出路(11)がその外周面(12)からコールドエンド挿通孔
(8)まで透設してあり、窒素ガス導入路(10)の外周面側
端部に窒素ガス導入ポート(13)が、また、窒素ガス放出
路(11)には窒素ガス放出ポート(14)がそれぞれ形成して
ある。そして、窒素ガス導入路(10)はメタルホースで形
成した窒素ガス移送管(15)で空気分離装置(4)の製品槽
に接続してある。一方、窒素ガス放出ポート(14)は室内
に向けて開口している。A nitrogen gas introduction passage (10) and a nitrogen gas discharge passage (11) are provided in the base flange (6) arranged at the upper end opening of the refrigerant storage tank (1) from the outer peripheral surface (12) of the cold end insertion hole.
It is transparently provided up to (8), and a nitrogen gas introduction port (13) is provided at the outer peripheral side end of the nitrogen gas introduction passage (10), and a nitrogen gas release port (14) is provided at the nitrogen gas release passage (11). ) Are formed respectively. The nitrogen gas introduction passage (10) is connected to the product tank of the air separation device (4) by a nitrogen gas transfer pipe (15) formed of a metal hose. On the other hand, the nitrogen gas discharge port (14) is open to the room.
【0009】図中符号(16)は液体窒素移送管、(17)は冷
媒貯蔵槽(1)内での液面位置を検出する液面計、(18)は
ベースフランジ(6)に透設した液体窒素移送管装着孔、
(19)は液面計装着孔であり、液体窒素移送管(16)は冷媒
貯蔵槽(1)内の底部に開口している。In the figure, reference numeral (16) is a liquid nitrogen transfer pipe, (17) is a liquid level gauge for detecting the liquid level position in the refrigerant storage tank (1), and (18) is transparently provided on the base flange (6). Liquid nitrogen transfer pipe mounting hole,
(19) is a level gauge mounting hole, and the liquid nitrogen transfer pipe (16) is open at the bottom of the refrigerant storage tank (1).
【0010】このように構成した液体窒素製造装置で
は、空気から分離精製した窒素ガスを利用して冷媒貯蔵
槽(1)内に液体窒素を生成するのであるが、冷媒貯蔵槽
(1)には窒素ガスとともに空気分離装置(4)で分離しき
れなかったヘリウム、ネオン、クセノン、クリプトン等
の低沸点ガスが流入する。冷媒貯蔵槽(1)に流入した窒
素ガスはコールドエンド(7)からの冷熱で液化するが、
窒素ガスとともに流入した低沸点ガスは凝縮液化せずガ
ス体のまま冷媒貯蔵槽(1)内に残留しようとするが、ベ
ースフランジ(6)のコールドエンド挿入孔(8)部分には
窒素ガス導入路(10)とともに窒素ガス放出路(11)が連通
形成してあることから、コールドエンド挿入孔(8)部分
に流れ込んで来た導入ガスの一部がこの窒素ガス放出路
(11)から槽外に放出される際に、冷媒貯蔵槽(1)内にガ
ス体となって残留している低沸点ガスを連れ去ることに
なる。In the liquid nitrogen production apparatus configured as described above, the liquid nitrogen is generated in the refrigerant storage tank (1) by utilizing the nitrogen gas separated and purified from the air.
A low boiling point gas, such as helium, neon, xenon, or krypton, which cannot be completely separated by the air separation device (4), flows into (1) together with nitrogen gas. The nitrogen gas flowing into the refrigerant storage tank (1) is liquefied by the cold heat from the cold end (7),
The low boiling point gas that has flown in together with the nitrogen gas does not condense and liquefy, but tends to remain in the refrigerant storage tank (1) as a gas body, but nitrogen gas is introduced into the cold end insertion hole (8) of the base flange (6). Since the nitrogen gas discharge passage (11) is formed to communicate with the passage (10), a part of the introduced gas flowing into the cold end insertion hole (8) part is the nitrogen gas discharge passage.
When discharged from the tank (11) to the outside of the tank, the low boiling point gas remaining as a gas body in the refrigerant storage tank (1) is taken away.
【0011】これにより、窒素ガスの液化に伴い低沸点ガ
スが冷媒貯蔵槽(1)内に残留して冷媒貯蔵槽(1)の上部
に低沸点ガス層が形成されることを抑制して、この低沸
点ガス層の増大に伴う窒素液化効率の低下を防止するこ
とができる。With this, it is possible to prevent the low boiling point gas from remaining in the refrigerant storage tank (1) due to the liquefaction of the nitrogen gas and forming a low boiling point gas layer on the refrigerant storage tank (1). It is possible to prevent a decrease in nitrogen liquefaction efficiency due to the increase in the low boiling point gas layer.
【0012】[0012]
【発明の効果】本発明では、冷媒貯蔵槽の上面開口部を
閉塞する状態で配置したベースフランジにコールドヘッ
ドを固定支持し、このベースフランジにコールドエンド
の挿通孔を透設し、ベースフランジに窒素ガス導入ポー
トとガス放出ポートとを形成し、この窒素ガス導入ポー
トをコールドヘッド挿通孔に窒素ガス導入路で連通する
とともに、ガス放出ポートをガス放出路で連通し、窒素
ガス導入路及びガス放出路をベースフランジの肉壁内に
透設するように構成しているので、冷媒貯蔵槽内に流入
した未液化の低沸点ガスは余分の窒素ガスとともにガス
放出路から槽外に排出されることになり、冷媒貯蔵槽内
に低沸点ガスが滞留することはなくなる。これにより、
低沸点ガスの滞留量増加に伴う液化効率の低下を防止し
て、高効率で窒素ガスを液化することができ、液化ガス
の貯蔵量を減少させることがなくなる。According to the present invention, the cold head is fixedly supported on the base flange arranged so as to close the upper opening of the refrigerant storage tank, and the base flange is provided with the cold end insertion hole. A nitrogen gas introducing port and a gas releasing port are formed, and the nitrogen gas introducing port is connected to the cold head insertion hole through the nitrogen gas introducing passage, and the gas releasing port is connected through the gas releasing passage to form the nitrogen gas introducing passage and the gas. Since the discharge passage is configured to penetrate through the wall of the base flange, the unliquefied low boiling point gas that has flowed into the refrigerant storage tank is discharged from the gas discharge passage to the outside of the tank together with the extra nitrogen gas. Therefore, the low boiling point gas does not stay in the refrigerant storage tank. This allows
It is possible to prevent the liquefaction efficiency from being lowered due to an increase in the retention amount of the low boiling point gas, to liquefy the nitrogen gas with high efficiency, and to reduce the storage amount of the liquefied gas.
【図1】断熱容器の要部縦断面図である。FIG. 1 is a vertical cross-sectional view of a main part of a heat insulating container.
【図2】液体窒素製造装置の概略構成図である。FIG. 2 is a schematic configuration diagram of a liquid nitrogen production apparatus.
【図3】図1のA−A線断面図である。3 is a cross-sectional view taken along the line AA of FIG.
1…冷媒貯蔵槽、 2…コールドヘ
ッド、3…極低温冷凍機、 4…空気
分離装置、6…ベースフランジ、 8…
コールドエンド挿通孔、10…窒素ガス導入路、
11…ガス放出路、13…窒素ガス導入ポート、
14…ガス放出ポート。DESCRIPTION OF SYMBOLS 1 ... Refrigerant storage tank, 2 ... Cold head, 3 ... Cryogenic refrigerator, 4 ... Air separation device, 6 ... Base flange, 8 ...
Cold end insertion hole, 10 ... Nitrogen gas introduction path,
11 ... Gas discharge path, 13 ... Nitrogen gas introduction port,
14 ... Gas release port.
フロントページの続き (72)発明者 菅崎 幸也 滋賀県守山市勝部町1095番地 イワタニプ ランテック株式会社滋賀工場内 (72)発明者 鐘江 剛 滋賀県守山市勝部町1095番地 イワタニプ ランテック株式会社滋賀工場内 (72)発明者 近藤 文五 滋賀県守山市勝部町1095番地 イワタニプ ランテック株式会社滋賀工場内Front page continuation (72) Inventor Yukiya Sugazaki 1095 Katsube-cho, Moriyama-shi, Shiga Iwataniprantech Co., Ltd.Shiga factory (72) Inventor Tsuyoshi Kanae 1095, Katsube-cho, Moriyama-shi, Shiga Iwatanip Runtech Co., Ltd.Shiga factory ( 72) Inventor Bungo Kondo 1095 Katsube Town, Moriyama City, Shiga Prefecture Iwatani Planech Co., Ltd. Shiga Plant
Claims (1)
端開口部から極低温冷凍機(3)のコールドヘッド(2)を
冷媒貯蔵槽(1)内に突入する状態で配置し、この冷媒貯
蔵槽(1)に空気分離装置(4)で分離した窒素ガスを気体
状態で注入し、コールドヘッド(2)からの冷熱で冷媒ガ
スを液化させるように構成したガス液化装置において、 冷媒貯蔵槽(1)の上面開口部を閉塞する状態で配置した
ベースフランジ(6)にコールドヘッド(2)を固定支持
し、このベースフランジ(6)にコールドエンド挿通孔
(8)を透設し、ベースフランジ(6)に窒素ガス導入ポー
ト(13)とガス放出ポート(14)とを形成し、この窒素ガス
導入ポート(13)をコールドエンド挿通孔(8)に窒素ガス
導入路(10)で連通するとともに、ガス放出ポート(14)を
ガス放出路(11)で連通し、窒素ガス導入路(10)及びガス
放出路(11)をベースフランジ(6)の肉壁内に透設したこ
とを特徴とする簡易液体窒素製造装置。1. A cold head (2) of a cryogenic refrigerator (3) is arranged in such a manner that it rushes into the refrigerant storage tank (1) through an upper end opening of the refrigerant storage tank (1) formed of an insulating container. In the gas liquefaction device configured to inject the nitrogen gas separated by the air separation device (4) in a gaseous state into the refrigerant storage tank (1) and liquefy the refrigerant gas by the cold heat from the cold head (2), A cold head (2) is fixedly supported on a base flange (6) arranged so as to close the upper opening of the storage tank (1), and a cold end insertion hole is provided in this base flange (6).
(8) is provided through the base flange (6) to form a nitrogen gas introduction port (13) and a gas release port (14). The nitrogen gas introduction port (13) is used as a cold end insertion hole (8). The nitrogen gas introduction passage (10) communicates with each other, the gas discharge port (14) communicates with the gas discharge passage (11), and the nitrogen gas introduction passage (10) and the gas discharge passage (11) connect to the base flange (6). A simple liquid nitrogen manufacturing device characterized by being transparently installed in a meat wall.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4280945A JPH0726785B2 (en) | 1992-09-25 | 1992-09-25 | Simple liquid nitrogen production equipment |
CN93100960.XA CN1087825C (en) | 1992-09-25 | 1993-02-04 | Simplified apparatus for producing liquid nitrogen |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4280945A JPH0726785B2 (en) | 1992-09-25 | 1992-09-25 | Simple liquid nitrogen production equipment |
CN93100960.XA CN1087825C (en) | 1992-09-25 | 1993-02-04 | Simplified apparatus for producing liquid nitrogen |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH06109359A true JPH06109359A (en) | 1994-04-19 |
JPH0726785B2 JPH0726785B2 (en) | 1995-03-29 |
Family
ID=36808171
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP4280945A Expired - Fee Related JPH0726785B2 (en) | 1992-09-25 | 1992-09-25 | Simple liquid nitrogen production equipment |
Country Status (2)
Country | Link |
---|---|
JP (1) | JPH0726785B2 (en) |
CN (1) | CN1087825C (en) |
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WO2017221575A1 (en) * | 2016-06-24 | 2017-12-28 | 株式会社アルバック | Germ-free liquefied gas production apparatus |
WO2019092934A1 (en) * | 2017-11-07 | 2019-05-16 | 株式会社アルバック | Aseptic liquefied gas apparatus and tie-in pipe for aseptic liquefied gas device |
CN113740789B (en) * | 2018-01-19 | 2023-09-19 | 北京绪水互联科技有限公司 | Method for quantitatively describing cold head efficiency |
JP7080066B2 (en) * | 2018-02-14 | 2022-06-03 | アルバック・クライオ株式会社 | Cryogenic liquefied gas generator |
-
1992
- 1992-09-25 JP JP4280945A patent/JPH0726785B2/en not_active Expired - Fee Related
-
1993
- 1993-02-04 CN CN93100960.XA patent/CN1087825C/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5966944A (en) * | 1997-04-09 | 1999-10-19 | Aisin Seiki Kabushiki Kaisha | Superconducting magnet system outfitted with cooling apparatus |
Also Published As
Publication number | Publication date |
---|---|
CN1090921A (en) | 1994-08-17 |
JPH0726785B2 (en) | 1995-03-29 |
CN1087825C (en) | 2002-07-17 |
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