Rotary pressure/purge valve

US 4,787,417 A
Filed: 11/24/1987
Issued: 11/29/1988
Est. Priority Date: 11/24/1987
Status: Expired due to Fees

First Claim

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1. In a rotary pressure/purge valve for supplying pulsation-free oxygen without the use of an oxygen tank, said valve comprising an air chamber section and a center section, utilized in conjunction with a source of purging air, said air chamber section having an inlet port for compressed air, said center section having a plurality of passages therein, disposed at equal intervals from each other and with respect to a centerline common to both sections, said center section and therefore said passages having first and second ends, first valve means operatively associated with said first passage ends, and serving to control the entry of charging air into two adjacent passages at the same time, and second valve means operatively associated with said second ends of said passages and serving to control the exit of purging air from said passages, said center section having a separate output port connecting to each of said passages, a shaft rotatably journaled on the centerline of said center section, with said shaft being connected to rotation producing means, said first valve means and said second valve means each having a portion that is operated by said shaft, with said first and second valve means being set out of phase such that when a first end of a given passage is closed to the entry of charging air, the other end of that passage is open to a flow of purging air, and vice versa, whereby at a given moment compressed air can flow in one direction through at least one of said first valve means and an associated passage, contemporaneously with purging air flowing in a different direction through a different one of said passages.

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Abstract

A rotary pressure/purge valve for supplying pulsation free oxygen without the use of an interim oxygen storage tank in the nature of a surge tank or accumulator. This valve is comprised of an air chamber section and a center section, with the air chamber section having an inlet port for compressed air, and the center section having a plurality of passages therein, disposed at equal intervals from each other and with respect to a centerline common to both sections. First valves are operatively associated with first passage ends, and serve to control the entry of charging air into two adjacent passages at the same time. Second valves are operatively associated with second ends of the passages and serve to control the exit of purging air from the passages. A shaft on the centerline of the center section serves to operate the first and second valves, with the valves being set out of phases such that when a first end of a given passage is closed to the entry of charging air, the other end of that passage is open to a flow of purging air, and vice versa. At a given moment compressed air can flow in one direction through at least one of the first valves and an associated passage, contemporaneously with purging air flowing in a different direction through a different one of the passages. This valve is able to deliver oxygen of a particularly high quality direct to a patient/user on demand.

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28 Claims

1. In a rotary pressure/purge valve for supplying pulsation-free oxygen without the use of an oxygen tank, said valve comprising an air chamber section and a center section, utilized in conjunction with a source of purging air, said air chamber section having an inlet port for compressed air, said center section having a plurality of passages therein, disposed at equal intervals from each other and with respect to a centerline common to both sections, said center section and therefore said passages having first and second ends, first valve means operatively associated with said first passage ends, and serving to control the entry of charging air into two adjacent passages at the same time, and second valve means operatively associated with said second ends of said passages and serving to control the exit of purging air from said passages, said center section having a separate output port connecting to each of said passages, a shaft rotatably journaled on the centerline of said center section, with said shaft being connected to rotation producing means, said first valve means and said second valve means each having a portion that is operated by said shaft, with said first and second valve means being set out of phase such that when a first end of a given passage is closed to the entry of charging air, the other end of that passage is open to a flow of purging air, and vice versa, whereby at a given moment compressed air can flow in one direction through at least one of said first valve means and an associated passage, contemporaneously with purging air flowing in a different direction through a different one of said passages.

2. In a disposable type rotary pressure/purge valve for supplying pulsation-free oxygen without the use of an oxygen tank, said valve comprising an air chamber section, a center section, and a source of purging air, said air chamber section having an inlet port for compressed air, said center section having a plurality of parallel passages therein, disposed at equal intervals from each other and with respect to a centerline common to both sections, said center section and therefore said passages having first and second ends, first valve means operatively associated with said first passage ends, and serving to control the entry of charging air into two adjacent passages at the same time, and second valve means operatively associated with said second ends of said passages and serving to control the exit of purging air from said passages, said center section having a sidewall in which output ports are disposed, with each output port connecting to a respective one of said passages, a shaft rotatably journaled on the centerline of said center section, with one end of said shaft being connected to rotation producing means, said first valve means and said second valve means each having a portion that is operated by said shaft, with said first and second valve means being set out of phase such that when a first end of a given passage is closed to the entry of charging air, the other end of that passage is open to a flow of purging air, and vice versa, whereby at a given moment compressed air can flow in one direction through at least one of said first valve means and an associated passage, contemporaneously with purging air flowing in a different direction through a different one of said passages.
- View Dependent Claims (3, 4, 5, 6)
- - 3. The disposable type pressure/purge valve as recited in claim 2 in which said first valve means and said second valve means are arranged in an opposed relationship such that when full pressure charging air is flowing through one of said passages, initial pressure air is flowing through a second passage, and purging air is flowing in an opposite direction through a third passage, each in turn and in sequence as said first and second valve means each continue to rotate through each complete 360°
    - cycle.
  - 4. The disposable type rotary pressure/purge valve as recited in claim 2 in which said first valve means is a sector member, said sector member being continuously exposed to the full pressure of the compressed air in said air receiving section, the pressure of the compressed air serving to keep said sector member in a close-fitting relationship with said first passage ends, to assure against undesirable leakage.
  - 5. The disposable type rotary pressure/purge valve as recited in claim 2 in which said first valve means is a sector member having an open portion of an angular extent greater than 120°
    - , and a closed portion of an angular extent less than 240°
      
      .
  - 6. The disposable type rotary pressure/purge valve as recited in claim 2 in which said second valve means is represented by a plurality of ball valves utilized in conjunction with a rotary cam member, with the ball of each valve being normally biased into sealing relation with its respective seat, and said cam member being disposed in operative relation with respect to said balls, such that as said cam member is caused by said shaft to rotate, each of said balls is successively moved to an open condition, after which each ball is permitted to close under the influence of its bias.

7. In a disposable type rotary pressure/purge valve for supplying pulsation free oxygen without the use of an oxygen tank, said valve comprising an air chamber section, a center section and a base section, said air chamber section having an inlet port for compressed air, said center section having a plurality of parallel passages therein, disposed at equal intervals from each other and with respect to a centerline common to all three sections, said passages having one set of ends terminating in a common plane, said base section having an exhaust port for purging air, first valve means operatively associated with said coplanar passage ends, and serving to control the entry of charging air into two adjacent passages at the same time, and second valve means associated with the other ends of said passages and serving to control the exit of purging air from said passages, said center section having a sidewall in which output ports are disposed at essentially equal intervals, with each output port connecting to a respective one of said passages, a shaft rotatably journaled on the centerline of said center section, with one end of said shaft being connected to motor means, said first valve means and said second valve means each having a portion that is operated by the rotation of said shaft, with said first and second valve means being set out of phase such that when a first end of a given passage is closed to the entry of charging air, the other end of that passage is open to the flow of purging air, and vice versa, whereby compressed air can flow in one direction through at least one of said first valve means and an associated passage at a given moment, with purging air contemporaneously flowing in a different direction through a different one of said passages.
- View Dependent Claims (8, 9, 10, 11, 12)
- - 8. The disposable type rotary pressure/purge valve as recited in claim 7 in which said first and second valve means are set in opposition in such a manner that when full pressure charging air is flowing through a first of said passages, initial pressurization air is flowing through a second passage, and purging air is flowing in an opposite direction through a third passage, each in turn and in sequence, as both of said first and second valve means continue to rotate through each 360°
    - cycle.
  - 9. The disposable type rotary pressure/purge valve as recited in claim 7 in which said first valve means is a sector member having an open portion of an angular extent greater than 120°
    - , and a closed portion of an angular extent less than 240°
      
      .
  - 10. The disposable type rotary pressure/purge valve as recited in claim 7 in which said second valve means is represented by a plurality of ball valves utilized in conjunction with a rotary cam member, with the ball of each valve being normally biased into sealing relation with its respective seat, and said cam member being disposed in operative relation with respect to said balls, such that as said cam member is caused by said shaft to rotate, each of said balls is successively moved to an open condition, after which each ball is permitted to close under the influence of its bias.
  - 11. The disposable type rotary pressure/purge valve as recited in claim 7 in which said first valve means is a sector member having an open portion of an angular extent more than 120°
    - , and a closed portion of an angular extent less than 240°
      
      , and said second valve means is represented by a plurality of ball valves utilized in conjunction with a rotary cam member, with the ball of each valve being normally biased into sealing relation with its respective seat, said rotary cam member being disposed in operative relation with respect to said balls, such that as said cam member is caused by said shaft to rotate, each of said balls is successively moved to an open condition for a predetermined length of time, said sector member and said cam member being arranged in an opposed relationship such that when full pressure charging air is flowing through one of said passages, initial pressurizing air is flowing through a second passage, and purging air is flowing in an opposite direction through a third passage, each in turn and in sequence as said sector member and said cam member each continue to rotate through each complete 360°
      
      cycle.
  - 12. The disposable type rotary pressure/purge valve as recited in claim 11 in which said sector member is continuously exposed to the full pressure of the compressed air in said air receiving section, the pressure of the compressed air serving to keep said sector member in a close-fitting relationship with said coplanar passage ends, to assure against undesirable leakage.

13. In a rotary pressure/purge valve for supplying pulsation free oxygen without the use of an oxygen tank, said valve comprising an air chamber section, a center core section and a base section, said air chamber section having an inlet port for compressed air, said center core section having a plurality of parallel passages therein, disposed at equal intervals from each other and with respect to a centerline common to all three sections, said passages having one set of ends that are coplanar, said center section also having a sidewall in which output ports are disposed at equal intervals, with each output port connecting to a respective one of said passages, said base section having an exhaust port for purging air, a shaft rotatably journaled on the centerline of said center section, motor means connected to said shaft, to selectively drive it in rotation, a ball valve being disposed at the end of each of said passages, at locations remote from said coplanar ends, with each ball normally being biased into contact with its seat so as to effect closure of that end of its passage, a rotary sector member disposed adjacent the coplanar ends of said passages that are remote from said ball valves, said sector member having an open portion and a closed portion, said sector member being connected so as to be driven in rotation by said shaft, said sector member serving a valving function with respect to said coplanar passage ends in that those passage ends are closed to the entry of compressed air when the closed portion of said sector member extends thereover, and a rotary cam member mounted to be driven in rotation by said shaft, and located immediately adjacent said ball valves, said rotary cam member being configured to successively intercept each ball as said shaft rotates, with a high point on said rotary cam member causing an intercepted ball to move off its seat for a predetermined length of time and therefore open the end of a passage remote from said sector member for the flow of purging air, said rotary cam member being in a predetermined phase with the closed portion of said sector member such that at a given moment, either one or the other end of each passage is open, but never both ends open at the same time.
- View Dependent Claims (14, 15, 16, 17, 18)
- - 14. The rotary pressure/purge valve as recited in claim 13 in which said center section contains three parallel passages, said sector member and said rotary cam member being arranged in an opposed relationship, such that when full pressure charging air is flowing through one of said passages, initial pressure air is flowing through a second passage, and purging air is flowing in an opposite direction through a third passage, each in turn and in sequence as said sector member and said cam member each continue to rotate through each complete 360°
    - cycle.
  - 15. The rotary pressure/purge valve as recited in claim 13 in which said sector member is continuously exposed to the full pressure of the compressed air in said air receiving section, the pressure of the compressed air serving to keep said sector member in a close-fitting relationship with said coplanar passage ends, to assure against undesirable leakage, said sector member and said cam member being arranged in an opposed relationship, such that when full pressure charging air is flowing through one of said passages, initial pressure air is flowing through a second passage, and purging air is flowing in an opposite direction through a third passage, each in turn and in sequence as said sector member and said cam member each continue to rotate through each complete 360°
    - cycle.
  - 16. The rotary pressure/purge valve as recited in claim 13 in which said sections are constructed of transparent plastic, with adjacent sections being secured together by the use of screw threads.
  - 17. The rotary pressure/purge valve as recited in claim 13 in which said sector member has an open portion of an angular extent greater than 120°
    - , and a closed portion of an angular extent less than 240°
      
      .
  - 18. The rotary pressure/purge valve as recited in claim 13 in which after the ball of each ball valve has been placed in an open condition by said rotary cam member, each ball is thereafter caused by its respective bias to return to its seat as said rotary cam member passes on by.

19. A rotary pressure/purge valve comprising an air receiving section, a center section and a base section, said air receiving section having an inlet port for the entry of compressed air, said center section having three parallel passages therein, disposed at equal intervals from each other and with respect to a centerline common to all three sections, one end of each of said passages being coplanar with comparable ends of the other passages, said center section also having a sidewall in which three output ports are disposed at equal intervals, with each output port connecting to a respective one of said passages, said base section having an exhaust port for purging air, a shaft rotatably journaled on the centerline of said center section, with motor means provided for driving said shaft in rotation, a ball valve being disposed at the end of each of said passages remote from said coplanar ends, with each ball normally being biased into contact with its seat so as to effect closure of that end of its passage, a sector member disposed adjacent the coplanar ends of said passages remote from said ball valves, said sector member having an open portion of greater than 120°
- , and a closed portion of less than 240°
  
  , said sector member being connected so as to be driven in rotation by said shaft, said sector member serving a valving function with respect to said coplanar passage ends in that such end of each passage is closed to the entry of compressed air from said air receiving section when the closed portion of said sector member extends thereover, and a cam member mounted to be driven in rotation by said shaft and being located immediately adjacent said ball valves, said cam member being configured to successively intercept each ball as said shaft rotates, with said cam member causing an intercepted ball to move off its seat for a limited time and therefore temporarily open the end of a passage remote from said sector member, said cam member being in a pre-established phase with the closed portion of said sector member such that at a given movement, either the one end or the other end of each passage is open, but never both ends open at the same time.
- View Dependent Claims (20, 21, 22, 23)
- - 20. The rotary pressure/purge valve as recited in claim 19 in which said sector member is continuously exposed to the full pressure of the compressed air in said air receiving section, the pressure of the compressed air serving to keep said sector member in a close-fitting relationship with said coplanar passage ends, to assure against undesirable leakage.
  - 21. The rotary pressure/purge valve as recited in claim 19 in which said sector member and said cam member are set in an opposed relationship, such that when full pressure charging air is flowing through one of said passages, initial pressurizing air is flowing through a second passage, and purging air is flowing in an opposite direction through a third passage, each in turn and in sequence as said sector member and said cam member each continue to rotate through each complete 360°
    - cycle.
  - 22. The rotary pressure/purge valve as recited in claim 19 in which said sector member is continuously exposed to the full pressure of the compressed air in said air receiving section, the pressure of the compressed air serving to keep said sector member in a close-fitting relationship with said coplanar passage ends, to assure against undesirable leakage, said sector member and said cam member being arranged in an opposed relationship, such that when full pressure charging air is flowing through one of said passages, initial pressurizing air is flowing through a second passage, and purging air is flowing in an opposite direction through a third passage, each in turn and in sequence as said sector member and said cam member each continue to rotate through each complete 360°
    - cycle.
  - 23. The rotary pressure/purge valve as recited in claim 19 in which said sections are constructed of transparent plastic, with adjacent sections being secured together by the use of screw threads.

24. An oxygen supplying unit utilizing a rotary pressure/purge valve for providing high quality, pulsation-free oxygen without the use of an oxygen tank, said valve comprising an air chamber section, a center section, and a source of purging air, said air chamber section having an inlet port for compressed air, said center section having a plurality of passages therein, disposed at equal intervals from each other and with respect to a centerline common to both sections, said center section and therefore said passages having first and second ends, first valve means operatively associated with said first passage ends, and serving to control the entry of charging air into two adjacent passages at the same time, said second valve means operatively associated with said second ends of said passages and serving to control the exit of purging air from said passages, said center section having a separate output port connecting to each of said passages, a shaft rotatably journaled on the centerline of said center section, with said shaft being connected to rotation producing means, said first valve means and said second valve means each having a portion that is operated by said shaft, with said first and second valve means being set out of phase such that when a first end of a given passage is closed to the entry of charging air, the other end of that passage is open to a flow of purging air, and vice versa, whereby at a given moment compressed air can flow in one direction through at least one of said first valve means and an associated passage, contemporaneously with purging air flowing in a different direction through a different one of said passages, said unit also having a manifold means utilizing a plurality of check valves permitting flow of oxygen-enriched air in one direction but not the other, said check valves being arranged to sustain the oxygen delivery pressure from said unit at an approximately constant, relatively high pressure.

25. An oxygen supplying unit utilizing a rotary pressure/purge valve for providing high quality, pulsation-free oxygen without the use of an oxygen tank, said valve comprising an air chamber section, a center section and a base section, said air chamber section having an inlet port for compressed air, said center section having a plurality of parallel passages therein, disposed at equal intervals from each other and with respect to a centerline common to all three sections, said passages having one set of ends terminating in a common plane, said base section having an exhaust port for purging air, first valve means operatively associated with said coplanar passage ends, and serving to control the entry of charging air into two adjacent passages at the same time, and second valve means associated with the other ends of said passages and serving to control the exit of purging air from said passages, said center section having a sidewall in which output ports are disposed at essentially equal intervals, with each output port connecting to a respective one of said passages, a shaft rotatably journaled on the centerline of said center section, with one end of said shaft being connected to motor means, said first valve means and said second valve means each having a portion that is operated by the rotation of said shaft, with said first and second valve means being set out of phase such that when a first end of a given passage is closed to the entry of charging air, the other end of that passage is open to the flow of purging air, and vice versa, whereby compressed air can flow in one direction through at least one of said first valve means and an associated passage at a given moment, with purging air contemporaneously flowing in a different direction through a different one of said passages, said unit also having a manifold means utilizing a plurality of check valves permitting flow of oxygen-enriched air in one direction but not the other, said check valves being arranged to sustain the oxygen delivery pressure from said unit at an approximately constant, relatively high pressure.
- View Dependent Claims (26, 27, 28)
- - 26. The oxygen supplying unit as recited in claim 25 in which said first and second valve means are set in opposition in such a manner that when full pressure charging air is flowing through a first of said passages, initial pressurization air is flowing through a second passage, and purging air is flowing in an opposite direction through a third passage, each in turn and in sequence, as both of said first and second valve means continue to rotate through each 360°
    - cycle.
  - 27. The oxygen supplying unit as recited in claim 25 in which said first valve means is a sector member having an open portion of an angular extent greater than 120°
    - , and a closed portion of an angular extent less than 240°
      
      .
  - 28. The oxygen supplying unit as recited in claim 25 in which said second valve means is represented by a plurality of ball valves utilized in conjunction with a rotary cam member, with the ball of each valve being normally biased into sealing relation with its respective seat, and said cam member being disposed in operative relation with respect to said balls, such that as said cam member is caused by said shaft to rotate, each of said balls is successively moved to an open condition, after which each ball is permitted to close under the influence of its bias.

Specification

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Litigation Campaign Assessment

Current Assignee
John F. Windsor Jr
Original Assignee
John F. Windsor Jr
Inventors
Windsor, John F. Jr.
Primary Examiner(s)
Michalsky, Gerald A.

Application Number

US07/124,568
Time in Patent Office

371 Days
Field of Search

55/179, 55/389, 137/624.13, 137/596.17
US Class Current

137/624.13
CPC Class Codes

B01D 2253/106   Silica or silicates

B01D 2256/10   Nitrogen

B01D 2257/104   Oxygen

B01D 2257/502   Carbon monoxide

B01D 2257/504   Carbon dioxide

B01D 2257/80   Water

B01D 2259/40005   using rotary valves

B01D 2259/403   using three beds

B01D 53/0446   Means for feeding or distri...

B01D 53/0454   Controlling adsorption cont...

B01D 53/047   Pressure swing adsorption

Y02C 20/40   of CO2

Y10T 137/86405   Repeating cycle

Y10T 137/87217   Motor

Rotary pressure/purge valve

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Rotary pressure/purge valve

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Abstract

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