JP2008505814A - Apparatus and method for dispensing high purity materials - Google Patents

Abstract

The present invention relates to a system or apparatus (10) and method for dispensing material (16) from a pressure vessel (12) while maintaining product integrity. The system or apparatus of the present invention comprises a pressure vessel, a syringe (42), and a removable adapter (34). The pressure vessel holds the material and has a dispensing valve (20). The distribution valve (20) is provided with a distribution pipe or stem (26) for distributing the material from the container in a timely manner. The syringe (42) is provided with an on / off locking mechanism (48) through which the material flows into the syringe through a stem or tube (50) attached to the locking mechanism (48). Alternatively, it is allowed or prohibited to flow out of the syringe. The adapter (34) connects the syringe stem to the stem of the pressure vessel dispensing valve to allow material to flow from the pressure vessel into the syringe chamber when the dispensing valve is operated.

Description

The present invention relates to a system (or apparatus) and method for dispensing high purity material from a container without compromising the purity of the material.
More particularly, the present invention relates to a system (or apparatus) and method for dispensing high purity chemicals from containers. High purity chemicals are in particular ultra dry solvents used for synthetic studies on a laboratory scale. The container is in particular a positive dispense container or can that maintains the purity of the material.

Many dispensing systems for dispensing material from pressure vessels are known. Generally, the pressure vessel that contains the material to be dispensed comprises a dispensing valve. When the valve is operated, the material is distributed from the inside of the container due to the pressure difference between the inside pressure of the container and the atmospheric pressure.
Such a simple system can be applied to many applications where the continuous purity and integrity of the material to be dispensed is most important, but in such a system the material purity and No integrity can be maintained.
One such material is an ultra-dry solvent used in laboratory scale synthesis studies. Such ultra-dry solvents degrade when contacted with moisture and oxygen.

For large-scale storage and distribution of such ultra-dry solvents, cycle-tainer containers (CYCLE-TAINER containers) for solvent distribution systems are now available. Such systems consist of closed stainless steel containers and are available in sizes 4, 8, 52, 215 and 1250 liters containing the material to be dispensed. These containers are equipped with suitable valves.
In use, the inlet valve of the vessel is connected to a source of inert gas such as pressurized argon or nitrogen. In addition, the outlet valve of the container is connected to a hose connected directly to a reactor or reaction vessel containing the material to be used.
When pressurized gas is introduced into the container, the material is dispensed. By shutting off the inert gas source and closing the valve, the dispensing of the material from the container stops and the integrity of the stored material is maintained.
However, such a system is not suitable, practical and unacceptable under conditions intended to dispense only a small amount of material from a positive pressure dispensing container. For example, for a laboratory scale synthesis study, where about 10-20 ml of ultra-dry solvent is intended to be dispensed from a pressure vessel.
Traditionally, one attempt to solve such problems is to use a syringe and a septum-sealed bottle or container. The container contains the desired material to be dispensed under the inert gas layer.
In this type of device, the user needs to pierce the septum of the bottle with a syringe needle to withdraw material from the septum container. However, piercing the needle into the diaphragm container causes contamination of the material and leads to destruction of the integrity of the material. Further, when the diaphragm is pierced, a hole remains therein, the inert gas escapes, and ambient gas (especially oxygen and moisture) enters the material contained in the diaphragm container.

  Thus, a dispensing system or apparatus that removes and dispenses material (especially a relatively small amount of material) from pressurized material, which can be dispensed while maintaining the purity and integrity of the material. There is a clear need for things.

Means for Solving the Problems and Effects of the Invention

The present invention relates to a system or apparatus and method for dispensing material from a pressure vessel while maintaining its integrity.
The system or apparatus of the present invention comprises a pressure vessel, a syringe, and a removable adapter. The pressure vessel holds the material and has a dispensing valve. The distribution valve is provided with a distribution pipe or stem for distributing material from the container in a timely manner. The syringe is provided with an on / off locking mechanism that allows or prohibits material from flowing into or out of the syringe through a stem or tube attached to the locking mechanism. The adapter connects the syringe stem to the stem of the pressure vessel dispensing valve to allow material to flow from the pressure vessel into the syringe chamber when the dispensing valve is operated.

In a preferred embodiment of the system or apparatus of the present invention, the dispensing valve includes a reciprocating valve. When the syringe stem is connected to the valve stem via an adapter and the valve stem reciprocally moves toward the inside of the pressure vessel, one or more openings in the valve stem are not covered and any contaminants Alternatively, the material is allowed to flow from the container to the syringe chamber without being exposed to the reactants. As a result, the material can be distributed while maintaining high integrity.
According to another preferred feature of the invention, the desiccant is utilized to prevent moisture from entering the pressure vessel.

In one embodiment, the device of the present invention is a device that contains a material in a pressure vessel and dispenses the material from the pressure vessel while maintaining purity or integrity.
a) Pressure vessel containing material to be dispensed, comprising a dispensing valve with a dispensing valve stem having a distal end protruding from the pressure vessel and a proximal end extending into the pressure vessel. When,
b) (1) an on / off locking member that allows or prohibits material from flowing into or out of the syringe chamber; and (2) an end extending from the syringe to receive material from the pressure vessel. A stem having a portion, and a syringe,
c) an adapter for connecting the end of the dispensing valve stem protruding from the pressure vessel to the end of the stem extending from the syringe to establish a flow path from one stem to the other. ,
The on / off lock member is operated to an on position that allows material to flow into the syringe, and when the dispensing valve is operated to dispensing mode, material flows from the pressure vessel into the syringe chamber. .

  In the device of the present invention according to another embodiment, the distribution valve includes a reciprocating valve.

In the device of the present invention according to another embodiment, the valve stem of the distribution valve is hollow, but the proximal end located in the pressure vessel is closed, and one or more covered openings are provided. Along the stem,
The valve stem can be reciprocated into the pressure vessel to expose the one or more openings.
The material is allowed to flow through the one or more openings, from the pressure vessel into the valve stem and into the syringe chamber.

  In the device of the present invention according to another embodiment, the one or more openings are arranged along the circumferential direction of the distribution valve stem so that the distribution valve stem can reciprocate into the pressure vessel. It is covered with a gasket until it moves to expose the opening.

  In the device of the present invention according to another embodiment, the gasket is a ring-shaped member that slidably surrounds the distribution valve stem.

In the apparatus of the present invention according to another embodiment, the pressure vessel containing the material to be dispensed is a positive pressure dispense vessel,
The positive pressure distribution container is composed of a pressure container having a bag for containing a material therein,
The bag is fluidly connected to the distribution valve and surrounded by pressurized gas (preferably argon, nitrogen, etc.) in the container.

In the apparatus of the present invention according to another embodiment, the pressure vessel containing the material to be dispensed is a positive pressure dispense vessel,
The positive pressure distribution container is composed of a pressure container having a bag for containing a material therein,
The bag is fluidly connected to the distribution valve and is surrounded by pressurized gas within the container.
In a more preferred embodiment, the space between the pressure vessel and the bag disposed therein and containing the material to be dispensed (ie the space in which the pressurized gas between the container wall and the bag is maintained). The desiccant is placed in This prevents moisture in the container from entering the bag containing the material to be distributed.

In the device of the present invention according to another embodiment, the bag is connected to the distribution valve via a valve connector,
The valve connector has a central opening that allows material to flow out of the bag,
The distribution valve stem is positioned in the valve connector in a state of being biased in a direction protruding from the pressure vessel, and prohibits material from flowing through the valve stem until the distribution valve is operated.

  In a device according to another embodiment of the present invention, the distribution valve stem is disposed on a biasing spring in the valve connector.

In an apparatus of the present invention according to another embodiment, the adapter has two female sockets connected by a central material passage,
One female socket is connected to the end of the dispensing valve stem and the other female socket is connected to the end of the syringe stem to allow material to flow from the dispensing valve stem to the syringe stem; This allows the material to flow from the pressure vessel to the syringe chamber without being exposed to the outside.

In an apparatus of the present invention according to another embodiment, the adapter has two female sockets connected by a material passage,
One female socket is connected to the end of the dispensing valve stem and the other female socket is connected to the end of the syringe stem to allow material to flow from the dispensing valve stem to the syringe stem; This causes material to flow from the pressure vessel to the syringe chamber.

  In the device of the present invention according to another embodiment, the on / off locking member of the syringe is a luer lock.

  In the device of the present invention according to another specific example, a reciprocable piston protruding outward from the chamber of the syringe is provided at the end of the syringe opposite to the stem.

In another embodiment, the method of the present invention is a method of containing a material in a pressure vessel and dispensing the material from the pressure vessel while maintaining purity or integrity.
a) Pressure vessel containing material to be dispensed, comprising a dispensing valve with a dispensing valve stem having a distal end protruding from the pressure vessel and a proximal end extending into the pressure vessel. A process of preparing
b) (1) an on / off locking member that allows or prohibits material from flowing into or out of the syringe chamber; and (2) an end extending from the syringe to receive material from the pressure vessel. Providing a syringe with a stem having a portion;
c) connecting the end of the dispensing valve stem protruding from the pressure vessel to the end of the stem extending from the syringe to provide an adapter for establishing a flow path from one stem to the other stem When,
d) connecting an adapter to the distal end of the dispensing valve stem protruding from the pressure vessel and the end of the stem extending from the syringe;
e) manipulating the on / off locking member to an on position that allows material to flow into the syringe;
f) operating the dispensing valve into a dispensing mode that allows material to flow from the pressure vessel to the syringe chamber;
g) manipulating the on / off locking member to the off position to shut off material in the syringe chamber.

  In the method of the present invention according to another embodiment, the syringe stem is subsequently replaced with a needle and the on / off locking member is moved to the on position, into the closed system where the material is used. Additional steps include extruding material from the syringe chamber.

  In the method of the present invention according to another embodiment, the distribution valve includes a reciprocating valve.

In the method of the present invention according to another embodiment, the valve stem of the distribution valve is hollow, but the proximal end located in the pressure vessel is closed, and one or more covered openings are provided. Along the stem,
A valve stem that can reciprocate into the pressure vessel operates the dispensing valve to expose the one or more openings,
Material flows through the one or more openings from the pressure vessel into the valve stem and into the syringe chamber.

In the method of the present invention according to another embodiment, the one or more openings are arranged along the circumferential direction of the distribution valve stem and covered with a slidable gasket.
As the dispensing valve stem moves reciprocally into the pressure vessel, the one or more openings are exposed from the gasket to allow material to flow into the openings.

In the method of the invention according to another embodiment, the pressure vessel containing the material to be dispensed is a positive pressure dispense vessel,
The positive pressure distribution container is composed of a pressure container having a bag for containing a material therein,
The bag is fluidly connected to the distribution valve and surrounded by pressurized gas in the container,
When the dispensing valve is operated, the pressurized gas moves material from the bag through the dispensing valve and into the syringe chamber.

In the method of the present invention according to another embodiment, the bag is connected to the distribution valve via a valve connector,
The valve connector has a central opening that allows material to flow out of the bag,
The distribution valve stem is positioned in the valve connector in a state of being biased in a direction protruding from the pressure vessel, and inhibits material from flowing through the valve stem until the distribution valve is operated.

In the method of the present invention according to another embodiment, the distribution valve stem is disposed on a biasing spring in the valve connector,
When the distribution valve is operated, the biasing spring contracts and the distribution valve stem further enters the pressure vessel, exposing the one or more openings located in the circumferential direction of the stem from the gasket.

In the method of the present invention according to another embodiment, the adapter has two female sockets connected by a central material passage,
The adapter is connected to the two stems by connecting one female socket to the end of the dispensing valve stem and connecting the other female socket to the end of the syringe stem.

  In the method of the invention according to another embodiment, the material to be dispensed is an ultra-dry solvent.

  In the method of the present invention according to another embodiment, the syringe stem is subsequently replaced with a needle with the on / off lock member in the off position, and the on / off lock member is brought into the on position. An additional step is to push the material out of the syringe chamber into a closed reactor or reaction vessel that is operated.

  In another embodiment of the method of the invention, the material is pushed out of the syringe chamber by a reciprocable syringe piston.

Although the preferable specific example of this invention is demonstrated below, this invention is not limited to them. As shown in FIGS. 1 and 2, the system or apparatus 10 of the present invention comprises a pressure vessel 12 containing the material to be dispensed (particularly an ultra-dry solvent). Although any suitable pressure vessel can be used in the apparatus and system of the present invention, it is preferred to use a positive pressure dispensing vessel with a bag within the vessel. The bag is pressurized with a suitable pressurized gas in the container. The gas is sealed inside the container and outside the bag.
Such positive pressure dispensing bags are disclosed, for example, in US Pat. Nos. 5,035,351, 5,040,704, 5,137,186, and 5,169,037. And these patent specifications are hereby incorporated by reference.
As shown in FIG. 1, the pressure vessel 12 has a material storage bag 14 in which a material 16 is contained. The entire exterior of the bag 14 is surrounded by pressurized gas 18 within the container 12. In a specific example, any suitable desiccant 58 is placed in the space between the wall of the pressure vessel 12 and the bag 14, i.e., the space filled with the pressurized gas 18, and the moisture remaining in the vessel Prevents it from entering the bag and contaminating the material 16. The desiccant can take any suitable form. For example, it may be in powder form or packaged.
Preferably, the desiccant is in packaged form and includes packaged silica gel or molecular sieve desiccant. For example, absorbent packets sold under the Minipax® trademark from Sigma-Aldricch, St. Louis, Missouri, and desiccants sold under the Natrasorb® trademark from Multisorb Technologies, Buffalo, NY This includes packages.
The bag 14 containing the material 16 to be dispensed is sealed with a dispense valve assembly 20 via a valve connector 22. The valve connector is appropriately sealed to the bag and includes a central opening 24 that extends vertically. A hollow valve stem 26 that can reciprocate is provided in the central opening 24 of the valve connector 22. The bottom proximal end inside the valve stem 26 is closed to prevent material from flowing directly into the valve stem 26 therethrough.
The closed end of the valve stem is located partially within the valve connector 22 and extends into the container 12 and is located on a biasing structure 28 such as a spring. The biasing structure 28 biases the distal end of the valve stem 26 toward the outside of the container 12 so as to do so in a mode that prevents dispensing of the material 16 from the bag 14. One or more openings or holes 30 are formed in the valve stem 26 along the circumferential direction of the central opening 24 of the valve connector 22 disposed in the pressure vessel 12.
When the valve stem 26 is biased outwardly as shown in FIGS. 1 and 2, the material 16 being dispensed from the container 12 through the opening or hole 30 means that the cover member covers the opening or hole. Or it is prevented by the gasket 32. The gasket material 32 can be made of any suitable material as long as it is not harmful to the material accommodated in the bag 14. An example of a suitable gasket material is described in gasket CS05-0310-51 of Buckeye Rubber & Packing, Cleveland, Ohio. It will be appreciated that the gasket material can be selected based on its suitability for the material 16 contained within the bag 14.

  The device or system 10 of the present invention further comprises an adapter 34 having a central flow path 36 therethrough, thereby forming female sockets 38, 40 at both ends of the adapter. The female sockets 38, 40 receive male members as will be described below. The adapter 34 can be of any suitable size or shape as long as it is suitable for the intended use, and can be made of any suitable material that is compatible with the material 16 to be dispensed. .

The device or system 10 of the present invention further includes a syringe 42. The syringe 42 has a central chamber 44 and includes a reciprocating piston member 46 at one end and an on / off mechanism or lock member 48 at the other end. The piston member 46 extends outward from the chamber 44 in a sealed state.
A hollow stem or tube 50 extends out of the locking member 48 to receive the material 16 from the container 12 and accommodate it in the syringe chamber 44. The material 16 is then dispensed from the syringe chamber to the reactor or reaction vessel.
The locking member 48 may be a luer type locking mechanism or other suitable on / off mechanism. The lock member 48 shown in FIGS. 1, 3, 4, and 6 includes a rotatable handle 52. The handle 52 allows or prohibits material from flowing through the stem 50 into or out of the syringe chamber 44 depending on its position.

  As shown in FIGS. 3 and 4, in using the apparatus or system of the present invention, the adapter 34 is connected to both the valve stem 26 of the container 12 and the stem 50 extending from the syringe 42. At this time, the female sockets 38 and 40 of the adapter 34 are respectively sealingly engaged with the male stem.

If it is desired to dispense material 16 from the bag 14 of the container 12, the syringe stem 50 and container stem 26 are connected by an adapter 34, and then the biasing means 28 is resisted, such as by moving the syringe 42 downward. Then, force is applied downward. Thereby, as shown in FIG. 5, the stem 26 is further pushed into the central opening 24 of the valve connector 22.
As the stem 26 moves downward to compress the biasing spring 28 in the central opening 24, the gasket 32 remains stationary against the upper end 23 of the valve connector 22. This exposes the hole or opening 30 previously covered with the gasket.
When the hole or opening 30 is exposed, the pressurized gas 18 in the container 12 causes the material 16 to flow out of the bag 14. The material 16 that has flowed out passes through the central opening 24, the hole or opening 30, the hollow stem 26, the adapter 34, and the stem 50 in sequence, so long as the handle 52 of the locking member 48 is in the on (open) position. Enter 44.
As the material 16 enters the syringe chamber 44, the handle 52 of the locking member 48 is rotated to the off (closed) position, blocking the material 16 in the chamber.

  If it is desired to dispense the material 16 that has entered the syringe chamber 44, the syringe stem 50 is removed from the female socket 38 of the adapter 34 and a syringe needle 54 is substituted for the stem 50 as shown in FIG. It is attached. The needle is then placed in a closed reactor or reaction well (not shown), the handle 52 is rotated to the on (open) position, and the syringe piston 46 is moved by an appropriate amount to release the desired amount of material 16. This dispenses material 16 from syringe chamber 44.

The present invention is applicable to devices and methods for dispensing materials containing ultra-dry solvents in which relatively small volumes of about 200 ml or less (particularly 100 ml or less, especially 10 ml to 20 ml) are dispensed. Such materials are those that need to maintain the purity and impureness of the material and need to avoid exposure to the surrounding environment or other contaminating environments.
Such solvents include acetone, acetonitrile, anhydrous alcohol, bis (2-methoxyethyl) ether, chlorobenzene, chloroform, cyclohexane, dimethylformamide, dimethyl sulfoxide, ethyl acetate, ethyl ether, hexane, methyl tert-butyl ether, methylene chloride. , Methyl ethyl ketone, tetrahydrofuran, toluene, xylene and the like, but are not limited thereto.

  Although the invention has been described with reference to specific embodiments, alterations, modifications, and variations can be made without departing from the spirit and scope of the inventive concept disclosed herein. Accordingly, all such changes, modifications, and variations are included within the spirit and scope of the appended claims.

1 is a partially broken exploded view showing an apparatus or system of the present invention. FIG. 2 is a partially enlarged view of the apparatus or system of FIG. 1. The figure which shows the apparatus or system after an assembly. The material is ready to be dispensed from the pressure vessel. FIG. 4 is a partially cutaway view of the apparatus or system of FIG. The relative positional relationship of each component is shown. The elements on larger scale of the assembly apparatus or system shown in FIG. 3 and FIG. The valve is actuated to allow the material to flow out of the pressure vessel. FIG. 3 shows how the material dispensed into the syringe chamber by the device of the present invention is dispensed from the syringe.

Claims (29)

An apparatus for storing a material in a pressure vessel and distributing the material from the pressure vessel while maintaining purity or integrity,
a) Pressure vessel containing material to be dispensed, comprising a dispensing valve with a dispensing valve stem having a distal end protruding from the pressure vessel and a proximal end extending into the pressure vessel. When,
b) (1) an on / off locking member that allows or prohibits material from flowing into or out of the syringe chamber; and (2) an end extending from the syringe to receive material from the pressure vessel. A stem having a portion, and a syringe,
c) an adapter for connecting the end of the dispensing valve stem protruding from the pressure vessel to the end of the stem extending from the syringe to establish a flow path from one stem to the other. ,
The on / off lock member is operated to an on position that allows material to flow into the syringe, and when the dispensing valve is operated to dispensing mode, material flows from the pressure vessel into the syringe chamber. ,apparatus.   The apparatus of claim 1, wherein the dispensing valve comprises a reciprocable valve. The valve stem of the distribution valve is hollow, but the proximal end located in the pressure vessel is closed and has one or more covered openings along the stem,
The valve stem can be reciprocated into the pressure vessel to expose the one or more openings.
3. The device of claim 2, wherein material is allowed to flow through the one or more openings, from the pressure vessel into the valve stem and into the syringe chamber.   The one or more openings are arranged along the circumferential direction of the distribution valve stem. Until the distribution valve stem moves reciprocally into the pressure vessel to expose the opening, a gasket is used. 4. The device of claim 3, wherein said device is covered.   The apparatus of claim 4, wherein the gasket is a ring-like member that slidably surrounds the dispensing valve stem. The pressure vessel containing the material to be dispensed is a positive pressure dispense vessel,
The positive pressure distribution container is composed of a pressure container having a bag for containing a material therein,
The apparatus of claim 1, wherein the bag is fluidly connected to the distribution valve and is surrounded by pressurized gas within the container. The pressure vessel containing the material to be dispensed is a positive pressure dispense vessel,
The positive pressure distribution container is composed of a pressure container having a bag for containing a material therein,
6. The apparatus of claim 5, wherein the bag is fluidly connected to the distribution valve and surrounded by pressurized gas within the container. The bag is connected to the distribution valve via a valve connector,
The valve connector has a central opening that allows material to flow out of the bag,
The dispensing valve stem is positioned in the valve connector in a state of being biased in a direction protruding from the pressure vessel, and prohibits material from flowing through the valve stem until the dispensing valve is operated. Item 8. The device according to Item 7.   The apparatus of claim 8, wherein the dispensing valve stem is disposed on a biasing spring in the valve connector. The adapter has two female sockets connected by a central material passage,
One female socket is connected to the end of the dispensing valve stem and the other female socket is connected to the end of the syringe stem to allow material to flow from the dispensing valve stem to the syringe stem; 2. The device of claim 1, wherein the material flows from the pressure vessel to the syringe chamber without being exposed to the outside. The adapter has two female sockets connected by a material passage,
One female socket is connected to the end of the dispensing valve stem and the other female socket is connected to the end of the syringe stem to allow material to flow from the dispensing valve stem to the syringe stem; 9. The device of claim 8, wherein the material flows from the pressure vessel to the syringe chamber.   12. The device of claim 11, wherein the on / off locking member of the syringe is a luer lock.   13. A device according to claim 12, wherein a reciprocable piston is provided at the end of the syringe opposite the stem, projecting out of the syringe chamber.   The apparatus of claim 6, wherein a desiccant is disposed in the pressurized gas surrounding the bag.   8. The apparatus of claim 7, wherein a desiccant is disposed in the pressurized gas surrounding the bag. A method of containing a material in a pressure vessel and distributing the material from the pressure vessel while maintaining purity or integrity,
a) Pressure vessel containing material to be dispensed, comprising a dispensing valve with a dispensing valve stem having a distal end protruding from the pressure vessel and a proximal end extending into the pressure vessel. A process of preparing
b) (1) an on / off locking member that allows or prohibits material from flowing into or out of the syringe chamber; and (2) an end extending from the syringe to receive material from the pressure vessel. Providing a syringe with a stem having a portion;
c) connecting the end of the dispensing valve stem protruding from the pressure vessel to the end of the stem extending from the syringe to provide an adapter for establishing a flow path from one stem to the other stem When,
d) connecting an adapter to the distal end of the dispensing valve stem protruding from the pressure vessel and the end of the stem extending from the syringe;
e) manipulating the on / off locking member to an on position that allows material to flow into the syringe;
f) operating the dispensing valve into a dispensing mode that allows material to flow from the pressure vessel to the syringe chamber;
g) manipulating the on / off locking member to an off position to shut off material in the syringe chamber.   Subsequently, the syringe stem is replaced with a needle and the on / off lock member is moved to the on position to push the material out of the syringe chamber into the closed system where the material is used. The method of claim 16 comprising.   The method of claim 17, wherein the dispensing valve comprises a reciprocable valve. The valve stem of the distribution valve is hollow, but the proximal end located in the pressure vessel is closed and has one or more covered openings along the stem,
A valve stem that can reciprocate into the pressure vessel operates the dispensing valve to expose the one or more openings,
19. The method of claim 18, wherein material flows through the one or more openings, from the pressure vessel into the valve stem and into the syringe chamber. The one or more openings are arranged along the circumferential direction of the distribution valve stem and covered with a slidable gasket,
20. The one or more openings are exposed from the gasket to allow material to flow into the openings when the dispensing valve stem is reciprocally moved into the pressure vessel. Method. The pressure vessel containing the material to be dispensed is a positive pressure dispense vessel,
The positive pressure distribution container is composed of a pressure container having a bag for containing a material therein,
The bag is fluidly connected to the distribution valve and surrounded by pressurized gas in the container,
21. The method of claim 20, wherein operating the dispensing valve causes the pressurized gas to move material from the bag through the dispensing valve and into the syringe chamber. The bag is connected to the distribution valve via a valve connector,
The valve connector has a central opening that allows material to flow out of the bag,
The distribution valve stem is positioned in the valve connector in a state of being biased in a direction protruding from the pressure vessel, and prohibits material from flowing through the valve stem until the distribution valve is operated. The method of claim 21. The distribution valve stem is disposed on the biasing spring in the valve connector,
When the distribution valve is operated, the biasing spring contracts, and the distribution valve stem further enters the pressure vessel, exposing the one or more openings disposed in the circumferential direction of the stem from the gasket. Item 23. The method according to Item 22. The adapter has two female sockets connected by a central material passage,
23. The adapter is connected to the two stems by connecting one female socket to the end of the dispensing valve stem and connecting the other female socket to the end of the syringe stem. the method of.   25. The method of claim 24, wherein the material to be dispensed is an ultra-dry solvent.   The method of claim 16, wherein the material to be dispensed is an ultra-dry solvent.   Subsequently, the syringe stem is replaced with a needle with the on / off lock member in the off position, the on / off lock member is operated to the on position, and into the closed reactor or reaction vessel, 17. The method of claim 16, further comprising extruding material from the syringe chamber.   28. The method of claim 27, wherein the material is pushed out of the syringe chamber by a reciprocable syringe piston.   The method of claim 19, wherein the desiccant is placed in a pressurized gas to absorb moisture in the container.

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