Source: http://www.patentgenius.com/patent/8485235.html
Timestamp: 2019-04-19 11:14:37+00:00

Document:
Other References: International Search Report corresponding to International Application No. PCT/US2009/051397 dated Sep. 15, 2009. cited by applicant.
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Examination Report TR 09/551 corresponding to Turkish Application No. 2007/03378 dated May 10, 2010. cited by applicant.
Abstract: An apparatus and system for transferring a liquid, such as an anesthetic, from the outlet port of a reservoir to a machine while effectively and conveniently minimizing the release of anesthetic. In one embodiment, the apparatus and system can include a first valve movable between a first position and a second position; a first housing surrounding the first valve; a second valve slidably connected to the first valve and movable between a third position and a fourth position; and a second housing which surrounds the second valve; wherein the apparatus defines a first opening, a second opening, and a receiver passage between the first and second openings. In another embodiment, a movable plunger can be slidably connected to the second valve.
1. An apparatus, comprising: a first valve movable along a first axis between a first position in which a first valve passage is sealed and a second position in which thefirst valve passage is open; a first housing surrounding the first valve; a second valve slidably connected to the first valve and movable along a second axis between a third position in which a second valve passage is sealed and a fourth position inwhich the second valve passage is open; a second housing which surrounds the second valve; and a cam surface defined on the first valve, wherein the cam surface interacts with the second valve when the first valve is moved from the first position tothe second position to thereby move the second valve from the third position to the fourth position; wherein the first axis is transverse to the second axis, the first valve passage and the second valve passage define a receiver passage, and whereinmovement of the first valve to the second position causes movement of the second valve to the fourth position to thereby allow fluid to flow through the receiver passage.
2. The apparatus of claim 1, further comprising: a first valve biasing member connected to the first valve; and a second valve biasing member connected to the second valve.
3. The apparatus of claim 2, wherein: the first valve biasing member is further connected to the first housing; and the second valve biasing member is further connected to the second housing.
4. The apparatus of claim 2, wherein at least one of the following is a spring: the first biasing member; and the second biasing member.
5. The apparatus of claim 2,wherein the first valve biasing member biases the first valve in a first direction, the second valve biasing member biases the second valve in a second direction, and the second direction is orthogonal to the firstdirection.
6. The apparatus of claim 1, further comprising: a first valve sealing member in contact with the first valve; and a second valve sealing member in contact with the second valve.
7. The apparatus of claim 6, wherein at least one of the following is an o-ring: the first sealing member; and the second sealing member.
8. The apparatus of claim 1, wherein the first housing is fixedly coupled to the second housing, such that the first housing and the second housing do not move relative to one another as the first valve moves between the first and secondpositions and the second valve moves between the third and fourth positions.
9. The apparatus of claim 1, wherein the apparatus is adapted to couple with a machine.
10. The apparatus of claim 9, wherein the machine is a vaporizer.
11. A system, comprising: a reservoir containing a liquid; and an apparatus connected to the reservoir, wherein the apparatus comprises: a first valve movable along a first axis between a first position in which a first valve passage is sealedand a second position in which the first valve passage is open; a first housing surrounding the first valve; a second valve slidably connected to the first valve and movable along a second axis between a third position in which a second valve passageis sealed and a fourth position in which the second valve passage is open; a second housing which surrounds the second valve; and a cam surface defined on the first valve, wherein the cam surface interacts with the second valve when the first valve ismoved from the first position to the second position to thereby move the second valve from the third position to the fourth position; wherein the first axis is transverse to the second axis, the first valve passage and the second valve passage define areceiver passage, and wherein movement of the first valve to the second position causes movement of the second valve to the fourth position to thereby allow fluid to flow through the receiver passage.
12. The system of claim 11, wherein the apparatus further comprises: a first valve biasing member connected to the first valve; and a second valve biasing member connected to the second valve.
13. The system of claim 12, wherein the first valve biasing member biases the first valve in a first direction, the second valve biasing member biases the second valve in a second direction, and the second direction is orthogonal to the firstdirection.
14. The system of claim 11, wherein the apparatus further comprises: a first valve sealing member in contact with the first valve; and a second valve sealing member in contact with the second valve.
15. The system of claim 11, wherein the first housing is fixedly coupled to the second housing, such that the first housing and the second housing do not move relative to one another as the first valve moves between the first and secondpositions and the second valve moves between the third and fourth positions.
16. The system of claim 11, further comprising a machine connected to the apparatus.
17. The system of claim 16, wherein the machine is a vaporizer.
This application discloses an invention which is related, generally and in various embodiments, to a device for supplying a liquid to a machine, such as a vaporizer.
Liquid anesthetics are often packaged in glass bottles and shipped to a location where they may be used to anesthetize a patient undergoing a medical or dental procedure. Such anesthetics may also be used to induce analgesia in a patientundergoing a medical or dental procedure. In order to administer the anesthetic, the contents of the glass bottle are placed in a vaporizer. The vaporizer can vaporize the anesthetic and provide the vaporized anesthetic in a desired amount to thepatient.
Inhalable anesthetics are typically volatile substances with relatively low boiling points and high vapor pressure. Preferably, there is little or no release of anesthetic to the atmosphere during handing. The opening of a bottle containingvaporizer can be covered by a closing mechanism having an outlet port. To transfer the liquid anesthetic to a vaporizer, however, the outlet port must be opened. Since it is unwise to expose medical personnel performing a procedure to an anesthetic,and since anesthetics are expensive, devices have been developed to minimize the release of anesthetic from a bottle to the environment surrounding a vaporizer. These devices, however, have failed to conveniently and effectively minimize the release ofanesthetic.
This application discloses an apparatus and system for transferring a liquid, such as an anesthetic, from the outlet port of a reservoir to a machine while effectively and conveniently minimizing the release of anesthetic. In one embodiment,the apparatus and system can include a first valve movable between a first position and a second position; a first housing surrounding the first valve; a second valve slidably connected to the first valve and movable between a third position and a fourthposition; and a second housing which surrounds the second valve; wherein the apparatus defines a first opening, a second opening, and a receiver passage between the first and second openings. In another embodiment, the apparatus can include a firstvalve movable between a first position and a second position; a first housing which surrounds the first valve; a plunger member surrounded by the first housing, wherein the plunger member is movable between a third position and a fourth position; asecond valve slidably connected to the plunger member, wherein the second valve is movable between a fifth position and a sixth position; and a second housing which surrounds the second valve; wherein the apparatus defines a first opening, a secondopening, and a passageway between the first and second openings.
FIG. 1 illustrates various embodiments of a system for the flow of liquid.
FIG. 2A illustrates a receiver apparatus in the closed position according to various embodiments.
FIG. 2B shows a cross section of FIG. 2A.
FIG. 3A illustrates the receiver apparatus in the open position according to various embodiments.
FIG. 3B shows a cross section of FIG. 3A.
FIG. 4A illustrates the receiver apparatus in the closed position according to other embodiments.
FIG. 4B shows a cross section of FIG. 4A.
FIG. 5A illustrates the receiver apparatus in the open position according to other embodiments.
FIG. 5B shows a cross section of FIG. 5A.
The accompanying drawings are intended to provide further understanding of the invention and are incorporated in and constitute a part of the description of the invention. The drawings illustrate various embodiments of the invention andtogether with the description illustrate principles of the invention.
The drawings should not be taken as implying any necessary limitation on the essential scope of invention. The drawings are given by way of non-limitative example to explain the nature of the invention.
For a more complete understanding of the instant invention reference is now made to the following description taken in conjunction with accompanying drawings.
The various features of novelty which characterize the invention are pointed out specifically in the claims which are a part of this description. For a better understanding of the invention, reference should be made to the drawings anddescriptive matter in which there are illustrated and described preferred embodiments of invention.
Referring now to the drawings, wherein like numerals designate identical or corresponding parts throughout the referred views, FIG. 1 shows various embodiments of a system for the flow of liquid. Specifically, FIG. 1 shows the general flow ofliquid from a reservoir 1 to the receiver apparatus 2 to a machine 3. The reservoir 1 can be a glass bottle or any other container capable of containing a liquid, such as a liquid anesthetic. At its opening, the reservoir 1 can include an outlet port 4(see FIGS. 3A and 3B) to threadedly connect to the receiver apparatus 2. As will be described below, the receiver apparatus 2 can include a valve system through which the liquid must travel to reach the machine 3. In this embodiment, the machine 3 is avaporizer that dispenses anesthetic to a person undergoing a medical procedure.
FIG. 2A shows various embodiments of a receiver apparatus 2, where the receiver apparatus 2 is in the closed position. The receiver apparatus 2 is supported by a base 5. Above a first housing 6 is a mating collar 7 for receiving a reservoiroutlet port 4. The first housing 6 and mating collar 7 surround a first valve 8, the stem 9 of which is also visible in FIG. 2A.
FIG. 2B shows a cross section of FIG. 2A at cross axis "A." The first valve 8 can be movable between a first position and a second position. A first valve biasing member 10, such as a spring, can connect to the first valve 8 and the firsthousing 6, and can bias the movement between the first and second position. The movement of the first valve 8 between the first position and the second position can be guided by a guide pin 11 connected to the first housing 6 and a guide pin bore 12 inthe first valve 8. The mating collar 7 defines a threading 13 for receiving a reservoir outlet port 4. A sealing member 14, such as an o-ring, provides a seal between the mating collar 7 and the first housing 6. A first valve sealing member 15, suchas an o-ring, can be in contact with the first valve 8 and can prevent the flow of liquid entering a first opening 16 of the receiver apparatus 2. The first valve 8 can further include a first valve cam surface 17 adjacent to a stem 18 of a second valve19.
FIG. 2B further shows a housing connector member 30 connector member that can connect the first housing 6 and a second housing 20. The housing connector member and the second housing 20 can surround the second valve 19. The second valve 19 canbe movable between a first position and a second position. A second valve biasing member 21, such as a spring, can connect to the second valve 19 and the second housing 20, and can bias the second valve's 19 movement between its first and secondpositions. As shown in FIG. 2B, the first valve biasing member 10 biases the first valve 8 in a first direction, the second valve biasing member 21 biases the second valve 19 in a second direction, and the first direction is orthogonal to the seconddirection. The movement of the second valve 19 between its first and second positions can be guided in a manner similar to the guide pin 11 and guide pin bore 12 arrangement described with regard to the first valve 8. A second valve sealing member 22,such as an o-ring, can be in contact with the second valve 19 and can prevent liquid in the receiver apparatus 2 from flowing out a second opening 23 of the receiver apparatus 2.
FIG. 3A shows various embodiments of the receiver apparatus 2, where the receiver apparatus 2 has received a reservoir outlet port 4 and is in the open position.
FIG. 3B shows a cross section of the receiver apparatus 2 of FIG. 3A at cross axis "A." The reservoir outlet port 4 has a reservoir outlet passage 24 through which liquid can flow to the receiver apparatus 2. The reservoir outlet port 4 canengage the mating collar 7 by threading 13. An outlet port sealing member 25, such as an o-ring, can provide a seal between the outlet port 4 and the receiver apparatus 2. The reservoir outlet port 4 can further include a plug member 26. When thereservoir outlet port 4 engages the mating collar 7, the plug member 26 can press the stem 9 of the first valve 8 and overcome the first valve biasing member 10, thereby moving the first valve 8 to its second position and opening a first valve passage27.
The second valve 19 can be slidably connected to the first valve 8. When the first valve 8 begins to move to the second position, the first valve cam surface 17 of the first valve 8 can push the stem 18 of the second valve 19, therebyovercoming the second valve biasing member 21, moving the second valve 19 to its second position, and opening a second valve passage 28. When opened, the first 27 and second 28 valve passages combine to create a receiver passage 29 through which liquidfrom the reservoir 1 and the first opening 16 can flow to the second opening 23 and, ultimately, to the machine 3. As shown in FIGS. 2B and 3B, the first housing 6 and the second housing 20 are coupled to each other via housing connector member 30, anddo not move relative to each other as the first valve 8 moves from the first position shown in FIG. 2B to the second position shown in FIG. 3B, and as the second valve 19 moves from the third position shown in FIG. 2B to the fourth position shown in FIG.3B.
FIG. 4A shows various alternative embodiments of the receiver apparatus 2, where the receiver apparatus 2 is in the closed position. Similar to FIG. 2A, the figure shows a mating collar 7, a first housing 6, and a base 5. But by contrast, FIG.4A also includes an activation member 31 for opening and closing the second valve 19.
FIG. 4B shows a cross section of the receiver apparatus 2 of FIG. 4A at cross axis "A." The figure is similar to FIG. 2B in several respects. Among other similarities, the receiver apparatus 2 of FIG. 4B shows a first valve 8 movable between afirst and second position and surrounded by a first housing 6, a second valve 19 movable between a first and second position and surrounded by a second housing 20 and a housing connector member 30, and first 15 and second 22 valve sealing members to helpprevent the flow of liquid when the receiver apparatus 2 is in the closed position. Also similar, the mating collar 7 is connected to the first housing 6 and defines a threading 13 for receiving a reservoir outlet port 4, and the receiver apparatus 2includes a first opening 16 and a second opening 23.
But by contrast, the receiver apparatus 2 of FIG. 4B includes the activation member 31 connected to a plunger member 32. The activation member 31 can be any device connected to or part of a plunger member 32 for opening and closing the secondvalve 19. In this figure, the activation member 31 is a cam that is positioned between the first housing 6 and the second housing 20. The activation member 31 may rotate about the housing connector member 30 and can move between a first position and asecond position. The plunger member 32 and its plunger cap 33 can also be moveable between a first and second position and can be surrounded by the first housing 6. A plunger biasing member 34, such as a spring, can connect to the plunger member 32 andthe first housing 6, and can bias the movement of the plunger member 32 between its first and second positions. The plunger member 32 can also include a plunger cam surface 35 adjacent to the stem 18 of the second valve 19.
FIG. 5A shows various alternative embodiments of the receiver apparatus 2, where the receiver apparatus 2 of FIG. 4A has received a reservoir outlet port 4 and is in the open position.
FIG. 5B shows a cross section of the receiver apparatus 2 of FIG. 5A at cross axis "A." Similar to FIG. 3B, this figure shows, among other things, the reservoir outlet port 4, the reservoir outlet passage 24, the reservoir sealing member 25, andthe threading 13 by which the reservoir outlet port 26 can engage the mating collar 7. Also similar to FIG. 3B, the reservoir outlet port 4 can include a plug member 26 such that, when the reservoir outlet port 4 engages the mating collar 7, the plugmember 26 can move the first valve 8 to its second position and thereby open the first valve passage 27.
But by contrast, the second valve 19 of FIG. 5B is slidably connected to the plunger member 32, not the first valve 8. Thus, when the reservoir outlet port 4 engages the mating collar 7, the first valve passage 27 may be open while the secondvalve passage 28 remains closed. To open the second valve passage 28, the activation member 31 can be moved in any suitable manner such that the activation member 31 pushes the plunger member 32 and overcomes the plunger biasing member 34, therebymoving the plunger member 32 to its second position. In FIG. 5B, the activation member 31 is a cam that is positioned between the first housing 6 and the second housing 20, and when the activation member 31 is rotated about the housing connector member30 from its position in FIG. 4A to its position in FIG. 5A, the housing connector member 30 pushes down the plunger cap 33 and the plunger member 32.
When the plunger member 32 begins to move to its second position, the plunger cam surface 35 of the plunger member 32 can push the stem 18 of the second valve 19 and overcome the second valve biasing member 21, thereby moving the second valve 19to its second position and opening the second valve passage 28. As in the receiver apparatus 2 of FIG. 3B, when the first 27 and second 28 valve passages are opened they combine to create a receiver passage 29 through which liquid from the reservoir 1and the first opening 16 can flow to the second opening 23 and, ultimately, to the machine 3.
The various embodiments of FIGS. 4A-5B can provide additional safety to users by opening the first 27 and second 28 valve passages in separate stages. For example, if the receiver apparatus 2 was connected to the reservoir outlet port 4 but notthe machine 3, liquid would not automatically flow through the receiver passage 29, but would require the additional movement, manual or otherwise, of the activation member.
It is to be understood that the descriptions of the present invention have been simplified to illustrate characteristics that are relevant for a clear understanding of the present invention. Those of ordinary skill in the art may recognize thatother elements or steps are desirable or required in implementing the present invention. However, because such elements or steps are well known in the art, and because they do not facilitate a better understanding of the present invention, a discussionof such elements or steps is not provided herein. The disclosure herein is directed to all such variations and modifications to such elements and methods known to those skilled in the art.
It is to be understood that the invention may assume various alternative orientations and step sequences, except where expressly specified to the contrary. It is also to be understood that the specific devices and processes illustrated in theattached drawings, and described in this specification are simply exemplary embodiments of the inventive concepts defined in the appended claims. Hence, specific dimensions and other physical characteristics relating to the embodiments disclosed hereinare not to be considered as limiting, unless the claims expressly state otherwise.
Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described, and accordingly all suitable modificationsand equivalents may be regarded as falling within the scope of the invention as defined by the claims that follow.

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