Pulmonary ventilator controller
First Claim
1. A pulmonary-bellows-ventilator system for controlling the breathing of an anesthetized and paralyzed patient undergoing surgery, comprising a pulmonary-bellows assembly having a housing, a bellows mounted within said housing forming a chamber therebetween, an inlet on said housing fluidically communicating with said chamber and an outlet means on said housing fluidically communicating with the interior of said bellows and for delivering gas to a patient said bellows having a maximum tidal volume, TVmax, a constant-pressure driving-gas source;
- a switchable valve and an electrically controllable variable throttling valve, said valves connected in series from the output of said source to the input of said bellows assembly, said source and said throttling valve establishing together a maximum flow rate, Fmax, of said driving gas through said throttling valve;
instruction input means for providing target values of the minute volume, MV, of driving gas delivered each minute from said source to said bellows assembly, the frequency, R, at which said switchable valve is opened and closed, the flow rate, F, of driving gas through said throttling valve during periods when said switchable valve is open, and the quantities Fmax and TVmax, microprocessor means having inputs connected to said instruction input means for accepting and storing said target values, said microprocessor means having outputs connected to said switchable valve and said throttling valve, for establishing the actual frequency R, flow rate F and inspiration time I that corresponds to the time period during which said switchable valve is open, for determining the actual tidal volume TV and the ratio E/I of switchable-valve closed-time to open-time according to the relationships;
##EQU8## and when said target value MVT is larger than that MV value which corresponds to the combination of said target value for R and said maximum bellows tidal volume TVmax, for changing said actual frequency R away from said target value R to a frequency RA corresponding to the combination of said TVmax, and said MV target value, so that said target MV value is still actually realized according to ##EQU9##
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Accused Products
Abstract
A pulmonary ventilator system has a bellows assembly and a source of driving gas connected by a series branch including an electrically-controlled switching valve and a motor-controlled flow-rate-controlling valve. A controller including a microprocessor senses the position of the flow-rate-controlling valve via a mechanical to electrical transducer and has outputs connected to and controlling the switching valve and the motor. It has programmed in its memory the maximum flow rate capacity of the flow-rate-controlling valve and the maximum capacity of the bellows. The microprocessor is capable of receiving from an operator his target values for minute volume, breathing rate and expiration time to inspiration time ratio. When the combination of these target values predict a flow rate or a tidal volume greater than the capacity of the flow-controlling valve and or greater than the bellows can handle, it reinstructs the ventilator system to employ a new and realizable value of breathing rate and/or expiration time to inspiration time ratio. The actual operating parameters realized by the controller are displayed.
103 Citations
4 Claims
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1. A pulmonary-bellows-ventilator system for controlling the breathing of an anesthetized and paralyzed patient undergoing surgery, comprising a pulmonary-bellows assembly having a housing, a bellows mounted within said housing forming a chamber therebetween, an inlet on said housing fluidically communicating with said chamber and an outlet means on said housing fluidically communicating with the interior of said bellows and for delivering gas to a patient said bellows having a maximum tidal volume, TVmax, a constant-pressure driving-gas source;
- a switchable valve and an electrically controllable variable throttling valve, said valves connected in series from the output of said source to the input of said bellows assembly, said source and said throttling valve establishing together a maximum flow rate, Fmax, of said driving gas through said throttling valve;
instruction input means for providing target values of the minute volume, MV, of driving gas delivered each minute from said source to said bellows assembly, the frequency, R, at which said switchable valve is opened and closed, the flow rate, F, of driving gas through said throttling valve during periods when said switchable valve is open, and the quantities Fmax and TVmax, microprocessor means having inputs connected to said instruction input means for accepting and storing said target values, said microprocessor means having outputs connected to said switchable valve and said throttling valve, for establishing the actual frequency R, flow rate F and inspiration time I that corresponds to the time period during which said switchable valve is open, for determining the actual tidal volume TV and the ratio E/I of switchable-valve closed-time to open-time according to the relationships;
##EQU8## and when said target value MVT is larger than that MV value which corresponds to the combination of said target value for R and said maximum bellows tidal volume TVmax, for changing said actual frequency R away from said target value R to a frequency RA corresponding to the combination of said TVmax, and said MV target value, so that said target MV value is still actually realized according to ##EQU9## - View Dependent Claims (2, 3, 4)
- a switchable valve and an electrically controllable variable throttling valve, said valves connected in series from the output of said source to the input of said bellows assembly, said source and said throttling valve establishing together a maximum flow rate, Fmax, of said driving gas through said throttling valve;
Specification