CN1106523C - Automatic fluid container refill device - Google Patents

Automatic fluid container refill device Download PDF

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Publication number
CN1106523C
CN1106523C CN97182423A CN97182423A CN1106523C CN 1106523 C CN1106523 C CN 1106523C CN 97182423 A CN97182423 A CN 97182423A CN 97182423 A CN97182423 A CN 97182423A CN 1106523 C CN1106523 C CN 1106523C
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CN
China
Prior art keywords
liquid
fluid
hydraulic cylinder
control valve
valve unit
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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.)
Expired - Fee Related
Application number
CN97182423A
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Chinese (zh)
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CN1275954A (en
Inventor
詹姆斯·E·克拉克二世
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C·H·&I技术公司
CH&I Technologies Inc
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CH&I Technologies Inc
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Priority to CN97182423A priority Critical patent/CN1106523C/en
Publication of CN1275954A publication Critical patent/CN1275954A/en
Application granted granted Critical
Publication of CN1106523C publication Critical patent/CN1106523C/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
  • Pressure Vessels And Lids Thereof (AREA)

Abstract

The present invention relates to an automatic refilling device (10) for a fluid container. Gas and fluid are filled into a pressure container (12). A hydraulic cylinder with an inner volume is arranged, a piston (30) with an auxiliary transmission shaft (32) is arranged in the hydraulic cylinder, and the auxiliary transmission shaft (32) extends to the outside of the hydraulic cylinder (26). Rack bars (40) are arranged on the transmission shaft (32), hydraulic pressure fluid stream inlets (28, 36) are arranged on a first end and a second end of the hydraulic cylinder (26), and fluid stream pipes (24) are connected with the pressure container (12) and a first hydraulic pressure fluid stream inlet (28). A valve (44) has a fluid inlet (46) and a fluid outlet (48), a bobbin disc (42) with tooth is arranged on the valve (44) and can control the opening and the closing of the valve (44), and the rack bars (40) on the transmission shaft (32) are engaged with the bobbin disc (42) with tooth and control the bobbin disc (42) with tooth. A fluid supply pipe (50) is connected with the fluid inlet (46) and transports fluid from a fluid source to the valve (44), a fluid stream connection device (38) is communicated with the fluid outlet of the valve (44), a second fluid stream pipe (34) is connected with the fluid stream connection device (38) and the second hydraulic pressure fluid stream inlet (36), and a fluid filling pipe (56) is connected with the fluid stream connection device (38) and a fluid container (58) to be filled with fluid.

Description

Automatic fluid container refill device
Technical field
The present invention relates to the storage and the conveying of liquid in general, relates to automatic fluid container refill device specifically.
Background technique
Be used as the container of storage and output liquid more and more at large such as the sealed pressure vessel of United States Department of Transportation (DOT) approval.Some advantage of working pressure container comprises: the pressurized container energy cracking resistance of Department of Transportation's approval is leaked thereby is much cleaner, safer; Liquid is accidental little thereby little to the influence of environment by the possibility of disengaging in pressurized container; Liquid conveying capacity between container and the liquid object (for example automobile or other machines) is more effective; Pressurized container can be reused thereby cost reduces.
Might in pressurized container, inject the gas of nitrogen for example or carbon dioxide and so on and make propulsive gas usefulness, use this propulsive gas that liquid is released without pump.The use propulsive gas is beneficial, because, be under the situation of inert gas particularly at propulsive gas, propulsive gas does not have danger on fire, and does not need pump and electronic instrument basically.
Do not allow propulsive gas overflow when under the situation of pressurized container use inertia propulsive gas, being preferably in to the container topping up.Otherwise the propulsive gas deficiency that the promotion liquid that container charges into is used needs inflation again.In this, inject liquid and don't propulsive gas is overflowed to pressurized container, may be not only time-consuming but also bothersome.In general, liquid is from the lower small container of high pressure bulk container injection pressure.This transfer of liquid typically uses that pump or other devices finish.The pump that is used for transfer liquid carries out this transfer with high-voltage pulse often.Can use various devices to guarantee that the flow of the liquid that shifts is correct and prevent that the liquid of injection pressure container is too much or not enough.For example, be under the situation of sky at the known pressure container, it is suitable using the system of the injection predetermined amount of flow liquid of viscosimeter and so on.Other system then utilizes weighing system controlling liquid valve, cuts off liquid stream when container reaches required constant weight automatically.These systems are unsatisfactory, because need expensive and sensitive measuring instrument, pump and electronic instrument, and also have reliability problems.
Summary of the invention
The purpose of this invention is to provide a kind of improved automatic fluid container refill device and can be used for controlling automatically and reliably liquid stream, so that till annotating propulsive gas in the pressurized container and reach predetermined pressure to pressurized container injection liquid with this device always from any fluid supply or even at the pressurized container that flows under the irregular high-voltage pulse pressure under the gas blanket.
For realizing purpose of the present invention, the invention provides a kind of automatic fluid container refill device, comprising: a pressurized container that is used for charged pressure gas; Oil hydraulic cylinder with internal volume, described oil hydraulic cylinder has liquid inlet at its first and second end, the internal volume of the described oil hydraulic cylinder of the big what of the internal volume of described pressurized container; The piston that can in described oil hydraulic cylinder, slide, described piston has the attached transmission shaft that stretches out outside the described oil hydraulic cylinder, and first geared assembly is arranged on the described transmission shaft; A liquid delivery tube that connects the hydraulic fluid entry port of described pressurized container and described oil hydraulic cylinder first end; Control valve unit with liquid inlet and liquid tapping hole; One is installed on the described control valve unit and can handles second geared assembly that described control valve unit is opened and closed, and first geared assembly on the described transmission shaft is used for meshing and handle second geared assembly with second geared assembly; A liquid supply tube that is connected in the entry port of described control valve unit and is used for liquid is transported to from fluid supply described control valve unit; Liquid with the liquid tapping hole UNICOM of described control valve unit flows connection set; Second liquid flow tube that connects described liquid stream connection set and described oil hydraulic cylinder second end; A topping up pipe that connects described liquid stream connection set and be used to connect liquid-container.
Device of the present invention makes the sealed pressure vessel that advances gas-bearing formation can be safely and effectively refill liquid from the high pressure liquid source of irritating into liquid tank and so on high pressure more, and cuts off liquid stream automatically when container is filled.
Description of drawings
Fig. 1 is the perspective view of the device of the present invention that is connected with the pressurized container that is used for adorning liquid.
Fig. 2 is the side view of described device, and its valve is in the enable possition.
Fig. 3 is the side view of described device, and its valve is in the closed position.
Embodiment
Device 10 of the present invention comprises a memory 12.Memory 12 comprises the sealed pressure vessel 14 that has predetermined internal volume 16 and have predetermined small amount of liquid 18 (for example oil) within it.The reason of doing like this is, liquid is compared with gas, and liquid is less from the possibility that oil hydraulic cylinder spills, and compressible possibility is much smaller under pressure, thereby also just more reliable.Memory 12 has one to allow gas to enter and make internal volume 16 and memory 12 interior liquid 18 to have the suction valve 20 of pressure.Pressure gauge 22 communicates with memory 12.Pressure gauge 22 shows the pressure of "on" and "off", will be discussed below.The thin liquid flow tube 24 on the end and oil hydraulic cylinder 26 right sides 28 of two connection memories 12 is arranged, make fluid communication between the two.Pressure gauge 22 shows that visually liquid flows into the pressure of sealed pressure vessel 58 (opening) and the liquid pressure of (passs) that stops to flow, and represents that sealed pressure vessel is full.Gas with pressure is inert gas preferably.
Oil hydraulic cylinder 26 has a piston 30 that is positioned at the sealing of its band push rod 32.The second hydraulic fluid pipe 34 is connected with oil hydraulic cylinder 26 in the left side 36 of oil hydraulic cylinder.The second hydraulic fluid pipe 34 also is connected with the liquid stream connection set (for example t-shaped connector 38 this forms) in downstream, and the fluid communication in both.Push rod 32 has first geared assembly of tooth bar 40 and so at its end.Also can use other geared assemblies instead.Tooth bar 40 is taken on sprocket 42.Sprocket 42 connects fluid valve 44 (for example ball valve) and is used for the described valve 44 of opening and closing.Tooth bar 40 and sprocket 42 also can be used the motion of known allowed piston in hydraulic cylinder 30 instead and other connection sets of control valve 44.Valve 44 has liquid or air approaching side 46 and a liquid to emit side 48.The liquid that injects sealed pressure vessel 58 is annotated the liquid or the air approaching side 46 of valve 44 by liquid supply tube 50.Liquid supply tube 50 is connected with bigger fluid supply again, for example the oil car (not shown) by the pump supply fluid.Liquid or air approaching side 46 and emit side 48 and preferably each have decompressor 52 and 54 is to reduce fluid pressure fluctuation and the injection by valve 44.Flow of liquid flows out and emits side 48 through valve 44, enters t-shaped connector 38 again.As Fig. 1 clearly illustrates, adopt liquid supply hose 56 liquid to be injected the sealed pressure vessel 58 for the treatment of fluid injection.Also a pressure valve 60 can be installed on t-shaped connector 38, with the fluid pressure in the monitoring t-shaped connector 38 (thereby also monitor in the sealed pressure vessel 58 fluid pressure).Discussed below the other safety feature.A locking framework 62 preferably can be arranged, when sealed pressure vessel 58 is filled with liquid, make valve 44 remain in closed position automatically.Shown a kind of such locking framework 62 among the figure, it comprises the rotation disposition of latch arm 64 of a band locking head 66, wherein, locking head 66 is taken slidably on tooth bar 40, arrive right positions up to tooth bar 40 and just mesh, make sprocket 42 clockwise directions rotations (thereby cut-off valve 44) with this with it.As clearly illustrating among Fig. 3, on this position, locking head 64 can stay in after the tooth bar 40 and (perhaps on the locking point of tooth bar 40, show), thereby prevents that tooth bar 40 from rotating sprocket 42 again, thereby fluid valve 44 can not opened unintentionally.
The following describes device 10 operating situations.When liquid enters system from liquid or air approaching side 46, the valve 44 of flowing through, when entering liquid again and emitting side 48, pressure descends because internal diameter of the pipeline reduces that internal diameter with valve 44 reduces.
Referring to Fig. 1, liquid supply hose 56 is connected in sealed pressure vessel 58 by flexible pipe 68.For convenience's sake, liquid supply hose 56 can a liquid joint 70 that have for connection flexible pipe 68.Liquid joint 70 is preferably installed a device that prevents the liquid in the sealed pressure vessel 58 and advance the gas effusion of gas-bearing formation.Sealed pressure vessel 58 is used to deposit the preferably pressurized propulsive gas of the inert gas of nitrogen and so on of the liquid of hydraulic oil or motor-oil and so on and one deck.Along with flow of liquid enters sealed pressure vessel 58 through valve 44, t-shaped connector 38 and flexible pipe 56, the pressure of propulsive gas can strengthen owing to can hold the volume reducing of gas in the sealed pressure vessel 58.For example, sealed pressure vessel charges into the nitrogen of 20 pounds of pressure approximately per square inch in empty.When sealed pressure vessel about 80 to 90 percent was expired, perhaps the pressure of nitrogen can rise to 80 to 100 pounds approximately per square inch.This makes, and the liquid in the flexible pipe 56 has pressure in the injection process.T-shaped connector also is subjected to this pressure with the second hydraulic fluid pipe, the 34 interior liquid that are connected in oil hydraulic cylinder 26 left sides 36.As previously mentioned, the liquid of the predetermined pressure of being subjected to is arranged in memory 12, the liquid on the right side 28 of this liquid and oil hydraulic cylinder 26 links.When surpassing from memory 12 through managing 24 when entering the pressure of pressure fluid on oil hydraulic cylinder 26 right sides 28 with the suffered pressure in oil hydraulic cylinder 26 left sides of liquid in the second hydraulic fluid pipe 34, the piston 30 of sealing just moves.This moves tooth bar 40 is moved, and described tooth bar is taken on the sprocket 42 that is connected valve 44.At suitable pressures, valve 44 leaves and closes, and a kind of automatic cutting off table structure is provided, and controlling liquid flows into sealed pressure vessel 58.
In fact, the internal volume that provides for memory 12 is approximately 100 times of oil hydraulic cylinder 26 volumes, and device 10 work are just very accurate and provide cut-off valve 44 required enough moment.Device 10 at work, liquid are under the predetermined pressure situation in the sealed pressure vessel 58, piston 30 can promote steadily and promptly sliding closing valve 44 of tooth bars 40, and locking framework can prevent that valve 44 from being opened again, unless the user has a mind to make it restore.
This new invention is showed an important improvement to this specialty, because it makes the sealed pressure vessel that advances gas-bearing formation can be safely and effectively refill liquid from the high pressure liquid source of irritating into liquid tank and so on high pressure more, and cuts off liquid stream automatically when container is filled.
With regard to concrete making method and working method, be not intended to scheme with above stated specification as unique form of the present invention.In fact, for those skilled in the art, do not depart from the scope of the present invention and spirit can be made various modifications and modification is clearly.Though used specific word to be intended to general remark, meaning without limits.

Claims (7)

1 one kinds of automatic fluid container refill devices comprise:
A pressurized container that is used for charged pressure gas;
Oil hydraulic cylinder with internal volume, described oil hydraulic cylinder has liquid inlet at its first and second end, the internal volume of the described oil hydraulic cylinder of the big what of the internal volume of described pressurized container;
The piston that can in described oil hydraulic cylinder, slide, described piston has the attached transmission shaft that stretches out outside the described oil hydraulic cylinder, and first geared assembly is arranged on the described transmission shaft;
A liquid delivery tube that connects the hydraulic fluid entry port of described pressurized container and described oil hydraulic cylinder first end;
Control valve unit with liquid inlet and liquid tapping hole;
One is installed on the described control valve unit and can handles second geared assembly that described control valve unit is opened and closed, and first geared assembly on the described transmission shaft is used for meshing and handle second geared assembly with second geared assembly;
A liquid supply tube that is connected in the entry port of described control valve unit and is used for liquid is transported to from fluid supply described control valve unit;
Liquid with the liquid tapping hole UNICOM of described control valve unit flows connection set;
Second liquid flow tube that connects described liquid stream connection set and described oil hydraulic cylinder second end;
A topping up pipe that connects described liquid stream connection set and be used to connect liquid-container.
The automatic fluid container refill device of 2 claims 1 is characterized in that in the described pressurized container liquid being housed.
The automatic fluid container refill device of 3 claims 1, the internal volume of the described oil hydraulic cylinder of interior volume specific ratio that it is characterized in that described pressurized container is larger about 100 times.
The automatic fluid container refill device of 4 claims 1, first geared assembly that it is characterized in that being positioned on the described transmission shaft comprises tooth bar, and second geared assembly on the described control valve unit comprises sprocket.
The automatic fluid container refill device of 5 claims 1 is characterized in that described control valve unit comprises ball valve.
The automatic fluid container refill device of 6 claims 1 is characterized in that it also comprises the safety lock device that prevents that described control valve unit is unlocked.
The automatic fluid container refill device of 7 claims 1 is characterized in that it also comprises the decompressor that is positioned at described control valve unit liquid inlet and liquid tapping hole.
CN97182423A 1997-10-27 1997-10-27 Automatic fluid container refill device Expired - Fee Related CN1106523C (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN97182423A CN1106523C (en) 1997-10-27 1997-10-27 Automatic fluid container refill device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN97182423A CN1106523C (en) 1997-10-27 1997-10-27 Automatic fluid container refill device

Publications (2)

Publication Number Publication Date
CN1275954A CN1275954A (en) 2000-12-06
CN1106523C true CN1106523C (en) 2003-04-23

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CN97182423A Expired - Fee Related CN1106523C (en) 1997-10-27 1997-10-27 Automatic fluid container refill device

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Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
BRPI1002740B1 (en) * 2010-08-20 2020-12-29 Flávio Camilotti compact gas filling system
CN110067939B (en) * 2019-03-26 2020-10-16 付学才 Alcohol injection device
CN116624764B (en) * 2023-05-24 2023-11-28 上海汉兴化工科技有限公司 High-purity hydrogen filling device for fuel cell and preparation system

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3282305A (en) * 1964-02-20 1966-11-01 Gen Dynamics Corp Cylinder filling apparatus
US5454407A (en) * 1992-09-24 1995-10-03 Diba Industries Inc. Pneumatic wand apparatus and method

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3282305A (en) * 1964-02-20 1966-11-01 Gen Dynamics Corp Cylinder filling apparatus
US5454407A (en) * 1992-09-24 1995-10-03 Diba Industries Inc. Pneumatic wand apparatus and method

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