Piston-based ventilator design and operation
First Claim
1. A method of operating a ventilator delivering gas to a patient airway and comprising a force generating mechanism which comprises a chamber, a piston reciprocally movable in said chamber to generate air pressure therein and an electric motor operably connected to said piston to apply a motive force thereto in proportion to the magnitude of an electrical control signal applied to said electric motor means and tubing for connecting said force generating mechanism and the patient airway, which method comprises:
- generating a first electrical signal comprising;
a signal of constant predetermined valuea signal corresponding to the velocity of said piston, anda signal corresponding to the acceleration of said piston,generating a second electrical signal corresponding to the pressure gradient between said chamber and the patient airway, andgenerating said electrical control signal comprising the sum of said first and second electrical signals,whereby compensation is effected for force dissipating steps within said force generating mechanism and within said tubing between the force generating mechanism and patient airway, so as to provide a desired gas pressure at the patient airway.
1 Assignment
0 Petitions
Accused Products
Abstract
Improvements in piston-based ventilator design and operation are described. In one aspect, individual compensation of force dissipation within the gas delivery system is effected, so that the desired gas pressure is delivered to the patient airway without the necessity for monitoring the actual pressure and using it as feedback. In another aspect, a piston is dimensioned slightly less than the chamber wall of the pump to define a gap through which an acceptable amount of gas may leak but which eliminates the need for a physical seal, thereby minimizing the frictional resistance within the pump.
46 Citations
14 Claims
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1. A method of operating a ventilator delivering gas to a patient airway and comprising a force generating mechanism which comprises a chamber, a piston reciprocally movable in said chamber to generate air pressure therein and an electric motor operably connected to said piston to apply a motive force thereto in proportion to the magnitude of an electrical control signal applied to said electric motor means and tubing for connecting said force generating mechanism and the patient airway, which method comprises:
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generating a first electrical signal comprising; a signal of constant predetermined value a signal corresponding to the velocity of said piston, and a signal corresponding to the acceleration of said piston, generating a second electrical signal corresponding to the pressure gradient between said chamber and the patient airway, and generating said electrical control signal comprising the sum of said first and second electrical signals, whereby compensation is effected for force dissipating steps within said force generating mechanism and within said tubing between the force generating mechanism and patient airway, so as to provide a desired gas pressure at the patient airway. - View Dependent Claims (2, 3, 4)
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5. A ventilator apparatus for delivering gas by tubing to a patient airway, which comprises:
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chamber means operably connected to said tubing and having movable wall means for compressing and decompressing gas therein, electrical motor means operatively connected to said movable wall means to apply a motive force to said movable wall means in proportion to the magnitude of an electrical command signal applied to said electric motor means, and electrical circuit means operably connected to said electrical motor means for applying said electrical command signal to said electrical motor means, said electrical circuit means comprising; electrical circuit means for generating a first electrical signal comprising a signal of constant predetermined value, a signal corresponding to the velocity of said moveable wall means and a signal corresponding to the acceleration of said moveable wall means, electrical circuit means for generating a second electrical signal corresponding to the pressure gradient between said chamber means and the patient airway, and electrical circuit means for summing said first and second electrical signals to provide said electrical command signal. - View Dependent Claims (6, 7)
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8. A ventilator apparatus for delivering gas by tubing to a patient airway which comprises:
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chamber means operatively connected to said tubing and having a smooth and uniform inner surface, and piston means mounted for reciprocal movement within the chamber means and having a smooth outer wall having a uniform outer dimension slightly less than the inner dimension of said chamber means to define a small unobstructed gap of uniform width between the outer wall of the piston means and the inner surface of the chamber means throughout the range of reciprocal movement of said piston means. - View Dependent Claims (9, 10)
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11. A ventilator apparatus for delivering gas to a patient airway, which comprises:
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chamber means of elongate cylindrical shape and having a smooth and uniform inner surface, and piston means mounted for reciprocal movement within the chamber means and comprising a cylindrical head having an outer dimension slightly less than the inner dimension of said chamber means to define a small unobstructed gap therebetween throughout the range of reciprocal movement of said piston means, said piston means comprising stationary shaft means axially mounted in said chamber means and said cylindrical head being mounted on said stationary shaft means for smooth gliding movement along said shaft. - View Dependent Claims (12, 13)
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14. A ventilator apparatus for delivering gas to a patient airway, which comprises:
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chamber means having an elongate cylindrical shape and a smooth and uniform inner surface, piston means mounted for reciprocal movement within the chamber means and comprising a cylindrical head having an outer dimension slightly less than the inner dimension of said chamber means to define a small gap therebetween throughout the range of reciprocal movement of said piston means, a gas inlet opening and an outlet opening in an end closure of said chamber means opposite said piston means, said inlet opening and outlet opening having unidirectional flow valves operably arranged in connection therewith to permit gas to enter said chamber means through said inlet opening only during reciprocal movement of said piston means away from said end closure and to permit gas to exit said chamber means through said outlet opening and pass to a patient only during reciprocal movement of said piston means toward said one end closure, and an additional inlet opening is provided in said one end closure for injection of oxygen into said chamber means.
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Specification