Ventilator and method

US 4,060,078 A
Filed: 08/18/1975
Issued: 11/29/1977
Est. Priority Date: 08/18/1975
Status: Expired due to Term

First Claim

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1. In a ventilator having an inhalation phase and an exhalation phase in its operative cycle for use with a source of gas under pressure, an inlet adapted to be connected to the source of gas under pressure, master control valve means having an inlet and an outlet and a valve member movable between open and closed positions for controlling the flow of gas from the inlet to the outlet, means connecting the inlet of the control valve means to the inlet of the ventilator, said valve member being in an open position during the inspiratory phase and in a closed position during the expiratory phase of the ventilator, said master control valve means including a diaphragm which upon movement causes movement of the valve member, said control valve means having a chamber formed on one side of the diaphragm, a breathing head assembly, said breathing head assembly including an exhalation valve assembly, means for supplying gas from the outlet of the control valve means to the breathing head assembly, timing means connected between the outlet of the control valve means and said chamber for timing the introduction of gases into said chamber during the inspiratory phase and the bleeding of gases from said chamber during the expiratory phase to thereby control the movement of the valve member to initiate the inspiratory and expiratory phases of the ventilator, means for sensing the pressure of the gases in the breathing head assembly and baseline compensation means connected to the inlet of the ventilator and responsive to the sensed pressure in the breathing head assembly for supplying gas to the exhalation valve assembly so that the patient must exhale against a substantially constant positive pressure, said baseline compensation means including an inlet and an outlet with the inlet being connected to the inlet of the ventilator and the outlet being connected to the exhalation valve assembly, a valve member movable between open and closed positions for controlling the flow of gas from the inlet to the outlet of the baseline compensation means, said baseline compensation means including a diaphragm and means forming a chamber on one side of the diaphragm whereby upon movement of the diaphragm the valve member is moved between said open and closed positions, means connecting the chamber of the baseline compensation means to means for sensing the pressure of the gases in the breathing circuit, yieldable spring means for yieldably urging the diaphragm of the baseline compensation means in a direction to cause movement of said valve member and means for causing adjustment of said spring means.

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Abstract

Ventilator having an inhalation phase and an exhalation phase in its operative cycle for use with a source of gas under pressure. A demand flow accelerator is responsive to the pressure of the gases in a breathing head assembly and provides additional gases to the breathing head assembly when the pressure of the gases in the breathing head assembly falls below a predetermined pressure. A sensor is also provided responsive to the pressure of the gases in the breathing head assembly for supplying gases to the breathing head assembly when the pressure of the gases in the breathing head assembly falls below a predetermined value to cause the patient to exhale against a substantially constant positive airway pressure. An additional sensor is also provided which is sensitive to the airway pressure being sensed for bleeding gases from the breathing circuit when pressure greater than a predetermined pressure are reached. Lock-out means is provided for locking out an inspiratory phase which exceeds a predetermined time. Starting means is provided for ensuring that the ventilator will be switched to an expiratory phase before an inspiratory phase is initiated.

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33 Claims

1. In a ventilator having an inhalation phase and an exhalation phase in its operative cycle for use with a source of gas under pressure, an inlet adapted to be connected to the source of gas under pressure, master control valve means having an inlet and an outlet and a valve member movable between open and closed positions for controlling the flow of gas from the inlet to the outlet, means connecting the inlet of the control valve means to the inlet of the ventilator, said valve member being in an open position during the inspiratory phase and in a closed position during the expiratory phase of the ventilator, said master control valve means including a diaphragm which upon movement causes movement of the valve member, said control valve means having a chamber formed on one side of the diaphragm, a breathing head assembly, said breathing head assembly including an exhalation valve assembly, means for supplying gas from the outlet of the control valve means to the breathing head assembly, timing means connected between the outlet of the control valve means and said chamber for timing the introduction of gases into said chamber during the inspiratory phase and the bleeding of gases from said chamber during the expiratory phase to thereby control the movement of the valve member to initiate the inspiratory and expiratory phases of the ventilator, means for sensing the pressure of the gases in the breathing head assembly and baseline compensation means connected to the inlet of the ventilator and responsive to the sensed pressure in the breathing head assembly for supplying gas to the exhalation valve assembly so that the patient must exhale against a substantially constant positive pressure, said baseline compensation means including an inlet and an outlet with the inlet being connected to the inlet of the ventilator and the outlet being connected to the exhalation valve assembly, a valve member movable between open and closed positions for controlling the flow of gas from the inlet to the outlet of the baseline compensation means, said baseline compensation means including a diaphragm and means forming a chamber on one side of the diaphragm whereby upon movement of the diaphragm the valve member is moved between said open and closed positions, means connecting the chamber of the baseline compensation means to means for sensing the pressure of the gases in the breathing circuit, yieldable spring means for yieldably urging the diaphragm of the baseline compensation means in a direction to cause movement of said valve member and means for causing adjustment of said spring means.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. A ventilator as in claim 1 together with demand flow accelerator means connected to the inlet and means connected to the means for sensing the pressure of the gases in the breathing head assembly for supplying gases to the breathing head assembly when the pressure in the breathing head assembly is below a predetermined pressure.
  - 3. A ventilator as in claim 2 wherein said demand flow accelerator means includes an inlet coupled to the inlet of the ventilator, and an outlet coupled to the breathing head assembly and a valve member movable between open and closed positions for controlling the flow of gas between the inlet and the outlet of the demand flow accelerator means, said demand flow accelerator means including a diaphragm and means forming a chamber on one side of the diaphragm whereby when gas is supplied to the chamber, the diaphragm is moved to cause movement of the valve member, said demand flow accelerator means including spring means for applying yieldable pressure to the diaphragm of the demand flow accelerator means and means for adjusting the force supplied by the spring means to the diaphragm of the demand flow accelerator means and means for connecting the chamber of the demand flow accelerator means to the means for sensing the pressure in the breathing head assembly.
  - 4. A ventilator as in claim 1 together with inspiratory compliance compensating means having an inlet connected to the breathing head assembly, and an outlet open to the atmosphere and a valve member movable between open and closed positions for controlling the flow of gas between the inlet and the outlet, said inspiratory compliance compensation means including means responsive to the means for sensing pressure of the gases in the breathing head assembly for controlling the movement of the valve member to permit some of the gases being supplied to the breathing head assembly to be bled out to the atmosphere when the pressure in the breathing head assembly exceeds a predetermined pressure.
  - 5. A ventilator as in claim 4 wherein said inspiratory compliance compensation means includes a diaphragm and means forming a chamber on one side of the diaphragm whereby upon changes in pressure in the chamber, forces are applied to the diaphragm to cause the diaphragm to cause movement of the valve member of the inspiratory compliance compensation means whereby as the pressure being sensed increases beyond a predetermined pressure, gases to be bled from the gases being supplied to the breathing head assembly and vented to the atmosphere.
  - 6. A ventilator as in claim 5 wherein said inspiratory compliance compensation means includes means forming a chamber on the opposite side of the diaphragm and wherein said means forming an outlet for the gases from the inspiratory compliance compensating means includes a venturi for creating a negative pressure and means for supplying the negative pressure to the chamber on the other side of the diaphragm.
  - 7. A ventilator as in claim 6 together with spring means for yieldably applying a force to the diaphragm of the inspiratory compliance compensation means and means for adjusting the force applied by the spring means.
  - 8. A ventilator as in claim 1 together with means connected to the timing means for causing lock-out of an inspiratory phase in the event the inspiratory phase exceeds a predetermined time.
  - 9. A ventilator as in claim 8 together with means for supplying gas from outlet of the master control valve means to the exhalation valve assembly to maintain the exhalation valve assembly in a closed position during the exhalation phase and wherein said lock-out means includes means for interrupting the flow of gases to said exhalation valve means so that said exhalation valve means can move to an open position after expiration of said predetermined period of time.
  - 10. A ventilator as in claim 9 wherein said lock-out means includes an inlet for receiving gas from the master control valve means, an outlet connected to the exhalation valve means and a valve member movable between open and closed positions for controlling the flow of gases from the inlet to the outlet of the lock-out means, said lock-out means including a diaphragm, means forming a chamber on one side of the diaphragm and timing means connected between the outlet of the control valve means and the chamber for supplying gases to the chamber of the lock-out means at a controlled rate so that the valve member of the lock-out means will be moved to a closed position within a predetermined time during which the expiratory phase should have commenced.
  - 11. A ventilator as in claim 10 together with means for dumping the chamber in the lock-out means during the expiratory phase of the ventilator.
  - 12. A ventilator as in claim 1 wherein said timing means includes inspiratory time control valve means and expiratory time control valve means for establishing a ratio between inspiratory timme and the expiratory time.
  - 13. A ventilator as in claim 12 wherein said inspiratory and expiratory time control valve means have outlets together with check valve means at the outlets of said inspiratory and expiratory control valve means for ensuring that the inspiratory time and expiratory time are completely independent of each other.
  - 14. A ventilator as in claim 13 together with balance reservoir means connected into the timing circuit to reduce the criticality of the inspiratory time control valve means and the expiratory time control valve means.

15. In a ventilator having an inhalation phase and an exhalation phase in its operative cycle for use with a source of gas under pressure, an inlet adapted to be connected to the source of gas under pressure, master control valve means having an inlet and an outlet and a valve member movable between open and closed positions for controlling the flow of gas from the inlet to the outlet of the master control a valve means, means connecting the inlet of the control valve means to the inlet of the ventilator, said valve member being in an open position during the inspiratory phase and in a closed position during the expiratory phase of the ventilator, said master control valve means including a diaphragm and means forming a chamber on one side of the diaphragm whereby when gases are supplied to the chamber, the diaphragm can be moved to cause movement of the valve member, a breathing head assembly, said breathing head assembly including an exhalation valve assembly, means for supplying gases from the outlet of the control valve mean to the breathing head assembly, pneumatic timing circuit means connected between the outlet of the control valve means and said chamber for timing the introduction of gases into the chamber and bleeding of gases from the chamber to thereby control movement of the valve member to initiate the inspiratory and expiratory phases of the ventilator, said pneumatic timing means including an inspiratory time control valve assembly and an expiratory time control valve assembly, each having an inlet and an outlet, means including a one-way inspiratory bypass check valve means interconnecting the inlet and outlet of the expiratory time control valve assembly, said expiratory time control valve assembly and an expiratory time accumulator coupling the outlet of the master control valve means to the inlet of the inspiratory time control valve assembly for bypassing the expiratory time control valve assembly, means including a one-way expiratory bypass check valve means interconnecting the inlet and outlet of the inspiratory time control valve assembly, said inspiratory time control valve assembly and said expiratory time accumulator coupling the chamber of the master control valve means to the inlet of the expiratory time control valve assembly for bypassing the inspiratory time control valve assembly, means including one-way isolation check valve means and a balance reservoir coupling the outlet of the inspiratory time control valve assembly to said chamber of said master control valve means and disposed within the interconnection of said one-way expiratory bypass check valve means and said inspiratory time control valve assembly and means including one-way isolation check valve means coupling the outlet of expiratory time control valve assembly to the outlet of said master control valve means and disposed within the interconnection of said one-way inspiratory bypass check valve means and said inlet and outlet of said expiratory time control valve assembly.
- View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23)
- - 16. A ventilator as in claim 15 together with reservoir means connected into the timing circuits to reduce the criticality of control by the inspiratory time control valve means and the expiratory time control valve means.
  - 17. A ventilator as in claim 16 together with lock-out means for locking out the inspiratory phase after a predetermined period of time.
  - 18. A ventilator as in claim 15 together with inspiratory flow rate means for controlling the rate of flow of gases to the breathing circuit.
  - 19. A ventilator as in claim 15 together with demand flow accelerator means connected to the inlet means for sensing the pressure in the breathing head assembly for controlling the operation of the demand flow accelerator whereby when the pressure in the breathing head assembly drops below a predetermined value, gases are supplied to the breathing head assembly by the demand flow accelerator means.
  - 20. A ventilator as in claim 15 together with means for providing baseline compensation means connected to the inlet and having means connected to the means for sensing the pressure in the breathing circuit for causing gas under pressure to be supplied to the breathing head assembly so that the patient must exhale against a constant positive airway pressure.
  - 21. A ventilator as in claim 15 together with means connected to the breathing head assembly and having an outlet and means connected to the means for sensing the pressure in the breathing head for causing gas to be bled from the gas being supplied to the breathing head and to vent them to the atmosphere.
  - 22. A ventilator as in claim 15 together with means connected to the inlet of the ventilation for causing the initiation of an expiratory phase prior to the initiation of an inspiratory phase.
  - 23. A ventilator as in claim 22 wherein said means for causing initiation of the expiratory phase prior to the initiation of the inspiratory phase includes starting means having an inlet connected to the inlet of the ventilator and an outlet connected to the timing circuit and normally open valve means movable between open and closed positions for controlling the flow of gas from the inlet to the outlet of the starting means, said starting means including a diaphragm and means forming a chamber on one side of the diaphragm whereby when gas is supplied to the chamber, the valve member is caused to move to the closed position and means for supplying gas from the inlet of the ventilator to the chamber of the starting means to cause movement of the valve member to prevent further flow of gases from the inlet to the outlet of the starting means when a predetermined pressure is reached in the chamber.

24. In a ventilator having an inhalation phase and an exhalation phase in its operative cycle for use with a source of gas under pressure, an inlet adapted to be connected to the source of gas under pressure, master control valve means having an inlet and an outlet and a valve member movable between open and closed positions for controlling the flow of gas from the inlet to the outlet, means connecting the inlet of the control valve means to the inlet of the ventilator, said valve member being in an open position during the inspiratory phase and in a closed position during the expiratory phase of the ventilator, said master control means including a diaphragm which upon movement causes movement of the valve member, said control valve means having a chamber formed on one side of the diaphragm, a breathing head assembly, said breathing head assembly including an exhalation valve assembly, means including a master venturi assembly for supplying gas from the outlet of the control valve means to the breathing head assembly, timing means connected between the outlet of the control valve means and said chamber for timing the introduction of gases into and the bleeding of gases from said chamber to thereby control the movement of the valve member to initiate the inspiratory and expiratory phases of the ventilator and inspiratory compliance compensating means for controlling of the flow of gases to the master venturi assembly during the inspiratory phase, said inspiratory compliance compensating means including an inlet and an outlet, a valve member movable between open and closed positions for interrupting the flow of gases from the inlet to the outlet, a diaphragm connected to the valve member and adjustable spring means applying force to the diaphragm to yieldably retain the valve member in a closed position, said inlet of the inspiratory compliance compensating means being coupled to the master venturi assembly and the outlet being open to the atmosphere and means coupling the inspiratory compliance compensating means to the breathing head assembly whereby when a predetermined pressure is reached, the valve member is moved to an open position to permit gases to be bled from the master venturi assembly to the atmosphere.

25. In a ventilator having an inhalation phase and an exhalation phase in its operative cycle for use with a source of gas under pressure, an inlet adapted to be connected to the source of gas under pressure, control valve means movable between open and closed position for controlling the flow of gas from the inlet to the outlet, a breathing head assembly, said breathing head assembly including a member having a venturi-like passageway therein, a patient adapter in communication with said venturi-like passageway in said member, a sensing port mounted in said member in the vicinity of said venturi-like passageway, nozzle means carried by said member for introducing a jet of gases into said venturi-like passageway, an exhalation valve assembly in communication with said member, means for supplying gas from the outlet of the control valve means to said member whereby the same can be delivered to the patient adapter, demand flow accelerator means having an inlet connected to the inlet of the ventilator and having an outlet in communication with said member, baseline compensation means having an inlet connected to the inlet of the ventilator and having an outlet coupled to the nozzle for delivering a jet of gases to the venturi-like passageway of the member and means coupled to the sensing port for delivering pressure information to the demand flow accelerator means whereby when the patient takes a breath, the reduction in pressure will be sensed by the demand flow acceleration means and by the baseline compensation means to cause continued augmentation of the flow through the demand flow accelerator means and the automatic baseline compensation means.

26. In a ventilator having an inhalation phase and an exhalation phase in its operative cycle for use with a source of gas under pressure, an inlet adapted to be connected to a source of gas under pressure, master control valve means having an inlet and an outlet and a valve member movable between open and closed positions for controlling the flow of gas from the inlet to the outlet, means connecting the inlet of the control valve means to the inlet of the ventilator, said valve member being in an open position during the inspiratory phase and in a closed position during the expiratory phase of the ventilator, said master control means including a diaphragm which upon movement causes movement of the valve member, said control valve means having a chamber formed on one side of the diaphragm, a breathing head assembly, said breathing head assembly including an exhalation valve assembly, means including a master venturi assembly for supplying gas from the outlet of the control valve means to the breathing head assembly, timing means connected between the outlet of the control valve means and said chamber for timing the introduction of gases into and the bleeding of gases from said chamber to thereby control the movement of the valve member to initiate the inspiratory and expiratory phases of the ventilator and inspiratory compliance compensating means for controlling the flow of gases to the master venturi assembly during the inspiratory phase, said inspiratory compliance compensating means including an inlet and an outlet and valve means movable between open and closed positions for controlling the flow of gases between the inlet and the outlet, a diaphragm which upon movement causes movement of the valve member, adjustable spring means for yieldably applying a force to the diaphragm to maintain the valve member in a normally closed position, means coupling the inlet of the inspiratory compliance compensating means to the source of gas under of gas under pressure, means coupling the outlet to the master venturi assembly and means coupling the diaphragm to the breathing assembly whereby when a predetermined pressure is reached in the breathing head assembly, the diaphragm will be moved against the force of the spring means to move the valve member to an open position to permit source gas to flow from the inlet to the outlet and into the master venturi assembly to augment the flow of gases through the master venturi assembly during the inspiratory phase.

27. In a ventilator having an inhalation phase and an exhalation phase in its operative cycle for use with a source of gas under pressure, an inlet adapted to be connected to the source of gas under pressure, master control valve means having an inlet and an outlet and a valve member movable between open and closed positions for controlling the flow of gas from the inlet to the outlet, means connecting the inlet of the control valve means to the inlet of the ventilator, said valve member being in an open position during the inspiratory phase and in a closed position during the expiratory phase of the ventilator, said master control valve means including a diaphragm which upon movement causes movement of the valve member, said control valve means having a chamber formed on one side of the diaphragm, a breathing head assembly, said breathing head assembly including an exhalation valve assembly, means for supplying gas from the outlet of the control valve means to the breathing head assembly, timing means connected between the outlet of the control valve means and said chamber for timing the introduction of gases into and the bleeding of gases from said chamber to thereby control the movement of the valve member to initiate the inspiratory and expiratory phases of the ventilator and inspiratory compliance compensating means having an inlet connected to the breathing head assembly and an outlet open to the atmosphere, said inspiratory compliance compensating means including a valve member movable between open and closed positions for controlling the flow of gas between the inlet and the outlet of the inspiratory compliance compensating means, a diaphragm coupled to the valve member, means forming a chamber on one side of the diaphragm, means coupling the chamber of the inspiratory compliance compensation means to the breathing head assembly whereby when the pressure being sensed in the breathing head assembly increases beyond a predetermined pressure, the pressure in the chamber of the inspiratory compliance compensation means will move the diaphragm to cause the valve member to move towards an open position whereby gases will be bled from the breathing head assembly and vented to the atmosphere, means forming a chamber on the opposite side of the diaphragm on the inspiratory compliance compensation means and venturi means coupled to the output of the inspiratory compliance compensation means to create a negative pressure for supplying the negative pressure to the chamber on the opposite side of the diaphragm.
- View Dependent Claims (28)
- - 28. A ventilator as in claim 27 together with spring means for yieldably applying a force to the diaphragm of the inspiratory compliance compensation means to bias the valve member towards a normally closed position and means for adjusting the force applied by the spring means of the inspiratory compliance compensation means.

29. In a ventilator having an inhalation phase and an exhalation phase in its operative cycle for use with a source of gas under pressure, an inlet adapted to be connected to the source of gas under pressure, master control valve means having an inlet and an outlet and a valve member movable between open and closed positions for controlling the flow of gas from the inlet to the outlet, means connecting the inlet of the control valve means to the inlet of the ventilator, said valve member being in an open position during the inspiratory phase and in a closed position during the expiratory phase of the ventilator, said master control valve means including a diaphragm which upon movement causes movement of the valve member, said control valve means having a chamber formed on one side of the diaphragm, a breathing head assembly, said breathing head assembly including an exhalation valve assembly, means for supplying gas from the outlet of the control valve means to the breathing head assembly, timing means connected between the outlet of the control valve means and said chamber for timing the introduction of gases into and bleeding of gases from said chamber to thereby control the movement of the valve member to initiate the inspiratory and expiratory phases of the ventilator, means for supplying gas from the outlet of the master control valve means to the exhalation valve assembly to maintain an exhalation valve assembly in a closed position during the exhalation phase and lockout means connected to the timing means for causing lockout of the inspiratory phase in the event the inspiratory phase exceeds a predetermined time, said lockout means including an inlet for receiving gas from the master control valve means, an outlet connected to the exhalation valve means and a valve member movable between open and closed positions for controlling the flow of gases from the inlet to the outlet of the lockout means, a diaphragm, means forming a chamber on one side of the diaphragm and means for supplying gas to the chamber of the lockout means at a controlled rate so that the valve member of the lockout means will be moved to a closed position within a predetermined time to interrupt flow of gases to the exhalation valve means so that the exhalation valve means can move to an open position within a predetermined time during which the inspiratory phase should have terminated and the expiratory phase should have commenced.
- View Dependent Claims (30, 31, 32)
- - 30. A ventilator as in claim 29 together with means for dumping the chamber in the lockout means during the expiratory phase of the ventilator.
  - 31. A ventilator as in claim 29 together with check valve means at the outlet of said inspiratory and expiratory control valve means for insuring that the inspiratory time and the expiratory time are completely independent of each other.
  - 32. A ventilator as in claim 31 together with balance reservoir means connected into the timing circuit to reduce criticality of the inspiratory time control valve means and the expiratory time control valve means.

33. In a ventilator having an inhalation phase and an exhalation phase in its operative cycle for use with a source of gas under pressure, an inlet adapted to be connected to the source of gas under pressure, master control valve means having an inlet and an outlet and a valve member movable between open and closed positions for controlling the flow of gas from the inlet to the outlet of the master control valve means, means connecting the inlet of the control valve means to the inlet of the ventilator, said valve member being in an open position during the inspiratory phase and in a closed position during the expiratory phase of the ventilator, said master control valve means including a diaphragm and means forming a chamber on one side of the diaphragm whereby when gases are supplied to the chamber, the diaphragm can be moved to cause movement of the valve member, a breathing head assembly, said breathing head assembly including an exhalation valve assembly, means for supplying gas from the outlet of the control valve means to the breathing head assembly, pneumatic timing means having an inlet connected to the outlet of the control valve means and having an outlet connected to said chamber for timing the introduction of gases into the chamber and bleeding of gases from the chamber to thereby control the movement of the valve member to initiate the inspiratory and expiratory phases of the ventilator and means connected to the inlet of the ventilator for causing initiation of the inspiratory phase prior to the initiation of the expiratory phase, said means for causing initiation of the expiratory phase prior to the initiation of the inspiratory phase including starting means having an inlet connected to the inlet of the ventilator and having an outlet connected to the inlet of the timing means, normally open valve means movable between open and closed positions for controlling the flow of gas from the inlet to the outlet of the starting means, a diaphragm, means forming a chamber on the one side of the diaphragm, means for supplying gas from the inlet to the ventilator to the chamber of the starting means to cause movement of the valve member to the closed position to prevent further flow of gases from the inlet to the outlet of the starting means when a predetermined pressure is reached in the chamber.

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Current Assignee
Forrest M. Bird
Original Assignee
Forrest M. Bird
Inventors
Bird, Forrest M.
Primary Examiner(s)
Truluck, Dalton L.
Assistant Examiner(s)
Recla, Henry J.

Application Number

US05/605,529
Time in Patent Office

834 Days
Field of Search

128/145.8, 128/145.6, 128/145.5, 128/142.2, 128/142.3, 128/146.5, 128/188, 128/DIG. 17, 137/624.13, 137/624.14
US Class Current

128/204.25
CPC Class Codes

A61M 16/00   Devices for influencing the...

A61M 16/0858   Pressure sampling ports

A61M 16/107   in the inspiratory path

A61M 2016/0027   pressure meter

Y10T 137/86413   Self-cycling

Ventilator and method

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33 Claims

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Ventilator and method

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Abstract

51 Citations

33 Claims

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