CN112871920B - Joint assembly and soaking system - Google Patents

Joint assembly and soaking system Download PDF

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Publication number
CN112871920B
CN112871920B CN201911202385.9A CN201911202385A CN112871920B CN 112871920 B CN112871920 B CN 112871920B CN 201911202385 A CN201911202385 A CN 201911202385A CN 112871920 B CN112871920 B CN 112871920B
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Prior art keywords
container
fluid
filling
soaking
connector assembly
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CN112871920A (en
Inventor
徐宏信
邱彦岚
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Asia IC MIC Process Inc
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Asia IC MIC Process Inc
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B9/00Cleaning hollow articles by methods or apparatus specially adapted thereto 
    • B08B9/08Cleaning containers, e.g. tanks
    • B08B9/093Cleaning containers, e.g. tanks by the force of jets or sprays
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B13/00Accessories or details of general applicability for machines or apparatus for cleaning
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B9/00Cleaning hollow articles by methods or apparatus specially adapted thereto 
    • B08B9/08Cleaning containers, e.g. tanks

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Filling Or Discharging Of Gas Storage Vessels (AREA)
  • Infusion, Injection, And Reservoir Apparatuses (AREA)

Abstract

The invention provides a connector assembly and a soaking system. When the joint component is used for a container to be soaked, filling fluid can flow into the filling component positioned in the inner space of the container through the filling fluid valve component and fill the filling component into the inner space of the container, and the filling component occupies part of the inner space of the container, so that the soaking fluid filled in the container can achieve the decrement effect, wherein the soaking fluid flows into the container through the soaking fluid valve component and fills the gap between the container and the filling component.

Description

Joint assembly and soaking system
Technical Field
The present invention relates to a connector assembly and a soaking system, and more particularly, to a connector assembly and a soaking system, which fill a filling fluid into a filling member through a filling fluid valve member to occupy a portion of an inner space of a container to be soaked, thereby effectively reducing the amount of the soaking fluid.
Background
In semiconductor and electronics manufacturing processes, chemicals are often used in large quantities, wherein the chemicals are usually stored in tanks. Before the tank is filled with chemical agents, the tank needs to be pretreated by soaking with the chemical agents to remove impurities and dirt on the inner wall of the tank.
In semiconductor and electronic factories, the volume of the tank can be as high as 10-30 tons of chemicals, so that a large amount of soaking chemicals (usually the same chemicals as those to be contained) is needed for the pretreatment of soaking in the tank. However, the used soaking agent is difficult to recover and use because of impurities and dirt, and only the used soaking agent can be discarded. As the volume of the tank is larger, more soaking agent is needed, and the cost for cleaning the tank is increased.
Disclosure of Invention
The present invention is directed to solving the above-mentioned problems, and embodiments of the present invention provide a connector assembly and a soaking system. The connector assembly has a soaking fluid valve and a filling fluid valve, and when the connector assembly is arranged in the container, a soaking system can be formed, wherein the filling fluid valve provides filling fluid to flow into the filling member to occupy part of the inner space of the container, so that the filled volume in the inner space is reduced, the soaking fluid can be reduced in use when flowing into the inner space of the container through the soaking fluid valve, and the cost of the soaking fluid can be reduced.
In view of at least one of the above objects, an embodiment of the present invention provides a joint assembly for conveying an infusion fluid. The connector assembly includes a base assembly, a soak fluid valve member, and a fill fluid valve member. The base component is provided with a butting part, wherein the butting part is used for butting and fixing with the container. The soaking fluid valve is disposed through the base assembly and has a first end and at least one second end, wherein the first end is configured to receive the soaking fluid when the container is to be soaked, and the second end is configured to deliver the soaking fluid to the container. The filling fluid valve member is disposed through the base assembly and has a third end and a fourth end, wherein the third end is configured to receive the filling fluid when the container is to be soaked, and the fourth end is configured to deliver the filling fluid to a filling space in a filling member disposed in the container to expand the filling member, wherein the filling member is sleeved on the base assembly or the fourth end.
Optionally, the joint assembly further comprises a filler. The filling member has a filling space and an opening, wherein the filling member can be sleeved on the base assembly or the fourth end through the opening, so that the fourth end is exposed in the filling space, and the filling member is expanded by the filling fluid.
Optionally, the filling member is sleeved on the base member, and the joint member further includes an air inlet valve member. The gas inlet valve has a fifth end and a sixth end, the gas inlet valve is disposed through the base assembly, wherein the sixth end is exposed to the filling space, the fifth end receives gas when the container is to be soaked, and the sixth end is used for delivering the gas to the filling space. Therefore, the filling space can receive gas for filling a small part of the filling space, so that the filling member is not folded, and the situation that the filling space cannot receive filling fluid is prevented.
Optionally, the filling element is sleeved on the base element, and the connector element further comprises an air outlet valve element. The air outlet valve member has a seventh end and an eighth end, the air outlet valve member is disposed on and penetrates through the base assembly, wherein the eighth end is exposed in the filling space, when the container is to be soaked, the eighth end is used for receiving the air in the filling space, and the seventh end is used for exhausting the air in the filling space.
Optionally, the filler is a disposable or reusable pouch.
Optionally, the expanded shape of the filling member is the same as the shape of the container, or is a shape formed by a strip, a block or a plurality of strips sharing at least one channel, wherein the volume of the expanded shape of the filling member is smaller than the volume of the container.
Optionally, the at least one second end is a plurality of second ends, and the plurality of second ends are uniformly arranged and provided with a plurality of atomization or micronization devices, so that the soaking fluid is uniformly sprayed on the at least one inner wall surface of the container.
Optionally, the docking portion of the base assembly further comprises at least one flange and at least one bolt for docking and securing with the container.
In view of at least one of the above objects, an embodiment of the present invention provides a soaking system capable of saving soaking fluid, the soaking system includes any one of the above connector assemblies and a container, wherein the container has an inner space and a container opening.
Optionally, wherein after the container completes the soaking, the fill fluid in the fill space flows from the fourth end to the third end to empty the fill space of the fill fluid.
In short, the connector assembly and the soaking system provided by the embodiment of the invention can fill the filling fluid into the filling member in the container through the filling fluid valve member, so that the filling member occupies part of the inner space of the container, and the use amount of the soaking fluid is saved, so that the connector assembly and the soaking system have advantages in various markets (such as manufacturing processes of semiconductors, electronics and the like) with demands on the connector assembly and the soaking system.
Drawings
Fig. 1A is a cross-sectional view of a joint assembly according to an embodiment of the present invention.
FIG. 1B is a schematic perspective view of an infusion system in accordance with an embodiment of the present invention.
Fig. 2A is a perspective view of a connector assembly according to another embodiment of the present invention.
Fig. 2B is a schematic perspective view of another angle of a joint assembly according to another embodiment of the present invention.
Fig. 2C is a cross-sectional view of an infusion system in accordance with another embodiment of the present invention.
Fig. 2D is a schematic perspective view of an infusion system in accordance with another embodiment of the present invention.
FIG. 3 is a flow chart illustrating the steps of the connector assembly and the soaking system for soaking in accordance with still another embodiment of the present invention.
Wherein, the reference numbers:
1. 2- joint assembly 101, 201 base assembly
102. 202 dip fluid valve members 103, 203 fill fluid valve members
1031. 2031 extending the interface of the channels 104, 204
1041. 2041 Flange and bolt 110, 210 Container
111. 211 filler piece 205 inlet valve member
207 air outlet valve pieces A-E
E101, E201 first end E102, E202 second end
E103, E204 third terminal E104, E204 fourth terminal
E205 fifth terminal E206 sixth terminal
Seventh end of E207 eighth end of E208
F111 and F211 fill the gaps of the spaces G111 and G211
O111, O211 opening S1, S2 soaking system
T202 soak fluid transfer tube T203 fill fluid transfer tube
T205 extension pipe
Detailed Description
The following detailed description of the embodiments of the invention refers to the accompanying drawings.
The invention provides a connector assembly and a soaking system. The connector assembly has a base assembly, a soaking fluid valve having a first end and a second end, and a filling fluid valve having a third end and a fourth end. When the connector assembly is used in a soaking system, the soaking system further comprises a container. The connector assembly of the soaking system is fixedly butted with the opening of the container through the butting part of the base assembly, so that the soaking fluid valve member and the filling fluid valve member which penetrate through the base assembly respectively expose the first end and the third end to the outside of the soaking system, and the soaking fluid valve member and the filling fluid valve member respectively expose the second end and the fourth end to the inner space of the container, wherein the fourth end of the filling fluid valve member is exposed to the filling space of the filling member in the inner space of the container. The infusion system provides a user with the ability to fill the interior space of the container with a fill fluid, such as water, through a fill fluid valve member. The filled filling member has a volume slightly smaller than the inner space of the container and functions to occupy part of the inner space of the container, so that the amount of the soaking fluid used can be reduced when the soaking fluid flows into and fills the inner space of the container through the soaking fluid valve member, thereby achieving the effect of reducing the cost of the soaking fluid.
Referring to fig. 1A, fig. 1A is a cross-sectional view of a joint assembly according to an embodiment of the invention. As shown in fig. 1A, the connector assembly 1 includes a base assembly 101, a soak fluid valve 102, and a fill fluid valve 103. In the embodiment of the present invention, the soaking fluid valve 102 is a hollow structure and has a first end E101 and a second end E102, and the soaking fluid valve is disposed through the base assembly 101 from left to right. The fluid filling valve 103 is a hollow structure and has a third end E103 and a fourth end E104, and is disposed through the base assembly 101 from top to bottom, but the present invention is not limited by the appearance and the disposing direction of the fluid filling valve. Furthermore, the present invention is not limited to the forming manner of the joint assembly, and the joint assembly may be assembled by the base assembly, the soaking fluid valve and the filling fluid valve, or may be integrally formed.
Next, referring to fig. 1B, fig. 1B is a schematic perspective view of a soaking system according to an embodiment of the invention. As shown in fig. 1B, when the container 110 is to be soaked, the connector assembly 1 may be connected to the container 110 through the abutting portion 104 of the base assembly 101 to form a soaking system S1, wherein the abutting portion 104 may have at least one set of flanges and bolts 1041, but the invention is not limited thereto, and the abutting portion may be tightly connected to the container by means of threads or fastening. When the connector assembly 1 is assembled with the container 110, the first end E101 of the soaking fluid valve 102 and the third end E103 of the filling fluid valve 103 are exposed to the outside of the container, and the second end of the soaking fluid valve 102 and the fourth end of the filling fluid valve 103 are exposed to the inside of the container. The steeping fluid valve 102 may provide for the passage of steeping fluid in and out of the container, and the fill fluid valve 103 may provide for the passage of fill fluid in and out of the container, wherein the fill fluid may also be in communication within the extended passage 1031, as shown in fig. 1A, connected to the fill fluid valve 103. It should be noted that the extension passages 1031 are not essential to the present invention, or the extension passages 1031 may be part of the base assembly or separate conduits.
With continued reference to fig. 1B, the connector assembly 1 may further include a filling member 111, wherein the filling member 111 has a filling space F111 and an opening O111, and may be a disposable or reusable bag, but the invention is not limited thereto, and the filling member may be any shape-changeable receiving device. The material of the filling member is not limited, and it may be plastic or acid and alkali resistant material. The filling element 111 is disposed in the inner space of the container 110, and the opening allows the filling element 111 to be sleeved under the base assembly 101, or directly sleeved on the fourth end of the filling fluid valve element 103, so that the filling fluid can flow inside and outside the filling element 111.
When the container 110 is soaked, a filling fluid (such as but not limited to gas or liquid or solid mixed with liquid) is first introduced from the third end E103 of the filling fluid valve 103 and passes through the fourth end to enter the filling member 111 to expand, so as to occupy part of the inner space of the container 110, wherein the filling fluid can be selected from a low-cost fluid such as but not limited to water. Then, after the soaking fluid passes through the first end E101 of the soaking fluid valve member 102 and enters the container 110 through the second end, the soaking fluid will soak in the gap G111 between the container 110 and the filling member 111. Since the volume of the expanded filling member 111 is slightly smaller than the volume of the container 110, the amount of the infusion fluid used can be reduced. For example, in the case of the filling member 111 being a light and thin material, when the filling member 111 contains 80% of the amount of the filling fluid, the filling member can occupy about 80% of the volume of the inner space of the container, so that the amount of the soaking fluid only needs to be about 20% of the volume of the inner space of the container, i.e. 80% of the amount of the soaking fluid is saved compared to the case of lacking the filling member. In the embodiment of the present invention, the filling member 111 is a bag, and after the filling member 111 is expanded, the shape of the bag is the same as the shape of the container 110 (but slightly smaller than the container), but the present invention is not limited to the shape and the shape of the filling member, and the filling member may be a strip, a block, or a shape formed by a plurality of strips sharing at least one channel. The number of the second ends E102 of the soaking fluid valve member 102 is not limited, and the second ends E102 may be a plurality of second ends E102 formed by a plurality of openings being uniformly arranged and combined, and the second ends E102 may further be provided with a plurality of atomizing or refining devices, so that the soaking fluid can be uniformly sprayed on at least one inner wall surface of the container when the soaking fluid circulates inside and outside the container, wherein the atomized or refined soaking fluid may have a better soaking effect and a faster soaking time in some cases, especially when the inner surface of the container is uneven. The second ends E102 may also be arranged as nozzles to enhance the soaking effect by the impact of spraying, but the invention is not limited thereto. In summary, the number of the second ends E102 of the soaking fluid valve members 102 and whether or not to dispose other components are determined according to the actual application and requirements.
Next, referring to fig. 2A, fig. 2B and fig. 2C, fig. 2A is a schematic perspective view of a joint assembly according to another embodiment of the present invention, fig. 2B is a schematic perspective view of another angle of the joint assembly according to another embodiment of the present invention, and fig. 2C is a cross-sectional view of an immersion system according to another embodiment of the present invention. As shown in fig. 2A, 2B and 2C, the connector assembly 2 includes a base assembly 201, a soaking fluid valve 202, a filling fluid valve 203, an inlet valve 205 and an outlet valve 207. In the embodiment of the present invention, the soaking fluid valve 202 is a hollow structure and has a first end E201 and a second end E202, which are disposed in a manner of penetrating through the base assembly 201 from left to right. The filling fluid valve 203, the inlet valve 205 and the outlet valve 207 are hollow structures, the filling fluid valve 203 has a third end E203 and a fourth end E204, the inlet valve 205 has a fifth end E205 and a sixth end E206, and the outlet valve 207 has a seventh end E207 and an eighth end E208, wherein the three valves 203, 205 and 207 are disposed in a manner of penetrating through the base assembly 201 from top to bottom. It should be noted that the present invention is not limited by the relative positions of the appearance, installation direction and configuration of the soaking fluid valve, the filling fluid valve, the air inlet valve and the air outlet valve. Furthermore, the present invention is not limited by the forming manner of the joint assembly, and the joint assembly may be assembled by the base assembly, the soaking fluid valve, the filling fluid valve, the air inlet valve and the air outlet valve, or may be integrally formed.
Next, referring to fig. 2D, fig. 2D is a schematic perspective view of a soaking system according to another embodiment of the invention. As shown in fig. 2D, when the container 210 is to be soaked, the connector assembly 2 may be connected to the container 210 through the abutting portion 204 of the base assembly 201 to form a soaking system S2, wherein the abutting portion 204 may be at least one set of flange and bolt 2041, but the invention is not limited thereto, and the abutting portion may be tightly connected to the container by means of threads or fastening. When the connector assembly 2 is assembled with the container 210, the first end E201 of the soaking fluid valve 202, the third end E203 of the filling fluid valve 203, the fifth end E205 of the inlet valve 205, and the seventh end E207 of the outlet valve are all exposed outside the container, and the second end of the soaking fluid valve 202, the fourth end of the filling fluid valve 203, the sixth end of the inlet valve 205, and the eighth end of the outlet valve are exposed to the container. The steeping fluid valve 202 may provide for the passage of steeping fluid in and out of the container, the filling fluid valve 203 may provide for the passage of filling fluid in and out of the container, and the gas inlet valve 205 and the gas outlet valve 207 may provide for the passage of gas in and out of the container, wherein the filling fluid may also be in communication within the extended channel 2031 of fig. 2B and 2C connected to the filling fluid valve 203. It should be noted that the extension channel 2031 is not an essential component of the invention, or the extension channel 2031 may be part of the base assembly or a separate conduit.
With continued reference to fig. 2D, the connector assembly 2 may further include a filling member 211, wherein the filling member 211 has a filling space F211 and an opening O211, and may be a disposable or reusable bag, but the invention is not limited thereto, and the filling member may be any shape-changeable receiving device. The material of the filling member is not limited, and it may be plastic or acid and alkali resistant material. The filling element 211 is disposed in the inner space of the container 210, and the filling element 211 is sleeved under the base assembly 201 through the opening, or directly sleeved on the fourth end of the filling fluid valve 203, the sixth end of the inlet valve 205, and the eighth end of the outlet valve, so that the filling fluid and the gas can flow inside and outside the filling element 211. Furthermore, the air inlet valve 205 of the present invention may further include a hollow extension tube T205, one end of the extension tube T205 is connected to the eighth end of the air inlet valve 205, and the other end of the extension tube T205 extends to the bottom end of the filling member, wherein the gas can flow through the extension tube T205, but the extension tube T205 is not a necessary component of the present invention, or the present invention does not limit the volume, length and size of the extension tube T205.
When the container is soaked and the filling fluid is liquid, a gas (for example, but not limited to air) is firstly introduced into the filling member 211 through the fifth end E205 of the air inlet valve 205 and through the sixth end and the extension pipe T205, so that the filling member 211, which originally takes a curled shape, is expanded to facilitate the introduction of the filling fluid (liquid). Since the filling member is not limited to having a partition or not having a partition, the gas is introduced into the filling member 211 first, so that the situation that the filling fluid is not fully filled into the filling member due to the bending of the space if the partition is present can be avoided. Furthermore, when the filling member 211 has poor expansibility, elasticity, or/and weight resistance (i.e., the filling member 211 is easily broken when expanding), the filling member 211 may be damaged if the filling fluid is directly filled into the filling member 211 without first introducing gas into the filling member 211. Next, the filling fluid is introduced into the filling member 211 expanded by the gas from the third end E203 of the filling fluid valve member 203, so that the filling member 211 is filled with the filling fluid. When the filling fluid is gradually filled into the filling member 211, the gas originally introduced into the filling member 211 can pass through the eighth end of the gas outlet valve 207 and be exhausted through the seventh end E207, so that only the liquid filling fluid is finally retained in the filling member 211, thereby achieving the effect of pressure balance (preventing the pressure imbalance caused by the gas extrusion of the filling member 211 due to the filling fluid injection). Then, after the soaking fluid is introduced into the container 210 through the soaking fluid valve 202, the soaking fluid will soak in the gap G211 between the container 210 and the filling member 211, and the filling member 211 occupies part of the inner space of the container 210 to save the usage amount of the soaking fluid. In the embodiment of the present invention, the filling member 211 is a bag, and after the filling member 211 is expanded, the shape of the bag is the same as the shape of the container 210 (but slightly smaller than the container), but the present invention is not limited to the shape and the type of the filling member, and the filling member may be a strip, a block, or a shape formed by a plurality of strips sharing at least one channel. The number of the second ends of the soaking fluid valve 202 is not limited, and may be a plurality of second ends formed by uniformly arranging and combining a plurality of openings, and the plurality of second ends may further be provided with a plurality of atomizing or refining devices, so that the soaking fluid can be uniformly sprayed on at least one inner wall surface of the container when the soaking fluid circulates inside and outside the container, so as to improve the soaking effect by the spraying impact force, but the invention is not limited thereto.
When the container is soaked and the filling fluid is gas, the filling fluid can be introduced into the filling member 211 through the air inlet valve 205 or the filling fluid valve 203 to expand and occupy part of the inner space of the container 210, so as to save the usage amount of the soaking fluid. That is, when the fill fluid is a gas, fill fluid valve 203 may replace intake valve 205 and its function. The manner of introducing the soaking fluid is the same as that in the above embodiments, and is not described herein. The present invention does not limit the types of the soaking fluid and the filling fluid, which may be respectively liquid or gas, and the selection manner is based on the characteristics of the container 210 or the soaking fluid, but when the soaking fluid is gas, the filling fluid is preferably (but not limited to) selected as gas, so as to avoid the filling member 211 being damaged easily due to the too large distance between the pressure difference inside and outside the filling member 211. When the soaking fluid and the filling fluid are introduced into the filling member and the container, the additional paths and the power source are not limited, for example, the additional paths may be the soaking fluid delivery pipe T202 and the filling fluid delivery pipe T203, and the soaking system may be connected with a power device to assist the soaking fluid and the filling fluid to be introduced into the filling member and the container.
When the container is completely soaked (which typically takes hours or days) and after soaking, there is no restriction on the order of removal of the soaking fluid and the filling fluid, and there is no restriction on whether the container has an additional soaking fluid outlet hole, and whether the filling member has an additional filling fluid outlet hole. For example, the removal of the soak fluid and the fill fluid may be accomplished by first removing the fill fluid from the fill member through the fill fluid valve (i.e., moving the fill fluid out in a direction from the fourth end toward the third end), with the assistance of a power device. The steeping fluid may then be removed from the steeping fluid discharge port of the container or the steeping fluid may be removed from the container through a steeping fluid valve and may be assisted by a power device. Finally, after the soaking fluid and the filling fluid are completely removed, all the valves (which is not needed if the connector assembly is an integrally formed component) and the filling member can be removed, and the soaking process of the container is completed. The soaked container can be used to contain the desired solution, gas or medicament.
In addition, based on the above descriptions of the joint assembly and the soaking system, an embodiment of the present invention further provides a soaking method for saving soaking fluid, please refer to fig. 3, wherein fig. 3 is a flow chart of steps of the joint assembly and the soaking system for soaking according to another embodiment of the present invention, and the steps are substantially as follows. First, in step a, a filler is connected to the joint assembly, wherein the joint assembly may be the joint assembly of the above embodiment, and the filler may be the filler of the above embodiment. Then, in step B, the joint assembly is connected to the container to be soaked in the manner as described above, which is not repeated herein. Then, in step C, the filling fluid flows into the filling member through the joint assembly, and preferably, before the filling fluid flows into the filling member, the gas flows into the filling member through the joint assembly before the filling fluid flows into the filling member through the joint assembly. Then, in step D, the infusion fluid is flowed into the container through the connector assembly. Thereafter, in step E, the filling fluid is removed from the filling member through the joint assembly, and the soaking fluid is removed from the container, wherein the order of removing the filling fluid and the soaking fluid may be without limitation.
In view of the above, the technical effects of the connector assembly and the soaking system according to the embodiments of the present invention compared to the prior art are described as follows.
In the prior art, when a container is used for holding a medicament, gas or solution, a pretreatment is required, wherein the container is soaked for several hours or several days by using a fluid with the same volume as the container, but the soaked fluid is difficult to recycle, so the cost is difficult to reduce. In reverse view of the connector assembly and the soaking system of the present invention, the filling fluid valve can be used to send the filling fluid to the filling member to occupy part of the inner space of the container, so that the soaking fluid required for pretreatment can be used in a reduced amount, thereby achieving the effect of reducing the cost. And when the soaking fluid is dangerous (such as strong acid or strong base), the use amount is reduced, and the danger of the user during operation can also be reduced.
The above description is of the preferred embodiment of the present invention and the technical principles applied thereto, and it will be apparent to those skilled in the art that any changes and modifications based on the equivalent changes and simple substitutions of the technical solution of the present invention are within the protection scope of the present invention without departing from the spirit and scope of the present invention.

Claims (10)

1. A connector assembly for delivering infusion fluid, the connector assembly comprising:
the base component is provided with a butting part, wherein the butting part is used for butting and fixing the container;
a soaking fluid valve disposed through the base assembly and having a first end for receiving soaking fluid when the container is to be soaked and at least a second end for delivering soaking fluid to the container; and
a filling fluid valve disposed through the base assembly and having a third end for receiving a filling fluid when the container is to be soaked and a fourth end for delivering the filling fluid to a filling space in a filling member located in the container to expand the filling member, wherein the filling member is sleeved on the base assembly or the fourth end.
2. The connector assembly of claim 1, wherein the connector assembly has the plenum and an opening, wherein the filler member can be sleeved over the base assembly or the fourth end through the opening such that the fourth end is exposed to the plenum and the filler member is expanded by the fill fluid.
3. The connector assembly of claim 2, wherein the filling member is disposed over the base assembly, and the connector assembly further comprises a gas inlet valve having a fifth end and a sixth end, the gas inlet valve being disposed through the base assembly, wherein the sixth end is exposed to the filling space, the fifth end receives gas when the container is to be soaked, and the sixth end is configured to deliver the gas to the filling space.
4. The connector assembly of claim 3, wherein the filling member is disposed on the base assembly, and the connector assembly further comprises a gas outlet valve having a seventh end and an eighth end, the gas outlet valve being disposed through the base assembly, wherein the eighth end is exposed to the filling space, the eighth end is configured to receive the gas in the filling space when the container is to be soaked, and the seventh end is configured to exhaust the gas in the filling space.
5. The connector assembly of claim 1, wherein the filler is a disposable or reusable bag.
6. The connector assembly of claim 1, wherein the expanded shape of the filler member is the same as the shape of the container or is a shape formed by a strip, a block, or a plurality of strips sharing at least one channel, wherein the expanded shape of the filler member has a volume smaller than the volume of the container.
7. The connector assembly of claim 1, wherein said at least one second end is a plurality of second ends, and said plurality of second ends are uniformly disposed and have a plurality of atomizing or micronizing devices to uniformly spray said soaking fluid onto at least one inner wall surface of said container.
8. The fitting assembly of claim 1 wherein said mating portion of said base assembly further comprises at least one flange and at least one bolt for mating securement with said container.
9. An infusion system that conserves infusion fluid, the infusion system comprising:
the fitting assembly of any one of claims 1-8; and
the container has an interior space and a container opening.
10. The steeping system of claim 9 wherein the fill fluid in the fill space flows from the fourth end to the third end to empty the fill space of the fill fluid after the container is completely steeped.
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CN112871920B true CN112871920B (en) 2022-07-01

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