Monitor for automatic resuscitator with primary and secondary gas flow control
First Claim
1. A device for controlling gas flow to an automatic resuscitator for a respiratory patient, comprisinga. An automatic resuscitator device which creates a low pressure signal upon cycling of the automatic resuscitator from an inhalation mode to an exhalation mode;
- b. A pressure sensor;
c. A processor unit coupled to said pressure sensor;
d. A primary gas control valve connected to said automatic resuscitator;
e. A secondary gas control valve;
f. A gas supply source connected to said primary gas control valve;
wherein said pressure sensor is in communication with the automatic resuscitator and is configured to detect a low pressure signal generated by the automatic resuscitator;
wherein said processor unit detects a low pressure signal through said pressure sensor and sends a control signal to the primary gas control valve whereby the primary gas control valve stops flow of gas from the gas supply source to the automatic resuscitator;
wherein the stop of gas flow by the primary gas control valve causes said secondary gas control valve to open and allow supplied gas to escape to a defined pressure level whereupon the secondary gas control valve closes; and
whereupon expiration of the predetermined length of time, the primary gas control valve then opens, returning flow of gas to the automatic resuscitator and the process is allowed to repeat.
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Accused Products
Abstract
The present invention pertains generally to a monitoring system for a resuscitator which detects operation of the resuscitator and a controller unit for a supply of therapeutic gas to a resuscitator, and more specifically, a flow controller for a supply a therapeutic gas to an automatic resuscitator which is triggered by a single point pressure signal provided by the cycling of the automatic resuscitator from a controlled inhalation phase to a controlled exhalation phase. The monitoring aspect of the system detects single point low pressure signals which are sequentially compared against a time clock. Failure of the resuscitator system itself to generate a low pressure signal against the integrated time clock causes an alarm condition. Further, gas management is effected by a flow controller integrated into the monitor, a gas management system which responds to the single point low pressure signal and operate a primary gas control valve attached between a gas supply and an automatic resuscitator such that gas is allowed to flow to the resuscitator when the resuscitator is in an inhalation mode and gas flow is interrupted when the resuscitator is in an exhalation mode. A secondary gas control valve is integrated into the gas management system in parallel to the primary gas control valve. The flow controller includes a low threshold pressure sensor which is actuated by means of a recurrent low pressure pulse generated by the automatic resuscitator itself through the cycling of the resuscitator and remains essentially unaffected by the respiratory cycling of the patient, thus preventing false triggers and greatly simplifying the flow controller operation and format. The low threshold pressure sensor is coupled to a processor wherein the processor reads the occurrence of a pressure event at the pressure sensor and which then closes the primary gas control valve and starts a clock. As the pressure is decreased in the gas management system resulting from the primary gas control being moved to a closed position, the secondary gas control valve moves to open state, thus allowing the gas management system to vent to atmosphere during exhalation, reducing the pressure of the system to an operator defined positive level. Once the clock reaches a pre-defined duration, the primary gas control valve is reopened, the pressure in the gas management system increases thus closing the secondary gas control valve, the automatic resuscitator continues into an inhalation mode, and the process repeats.
35 Citations
33 Claims
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1. A device for controlling gas flow to an automatic resuscitator for a respiratory patient, comprising
a. An automatic resuscitator device which creates a low pressure signal upon cycling of the automatic resuscitator from an inhalation mode to an exhalation mode; -
b. A pressure sensor; c. A processor unit coupled to said pressure sensor; d. A primary gas control valve connected to said automatic resuscitator; e. A secondary gas control valve; f. A gas supply source connected to said primary gas control valve; wherein said pressure sensor is in communication with the automatic resuscitator and is configured to detect a low pressure signal generated by the automatic resuscitator; wherein said processor unit detects a low pressure signal through said pressure sensor and sends a control signal to the primary gas control valve whereby the primary gas control valve stops flow of gas from the gas supply source to the automatic resuscitator; wherein the stop of gas flow by the primary gas control valve causes said secondary gas control valve to open and allow supplied gas to escape to a defined pressure level whereupon the secondary gas control valve closes; and whereupon expiration of the predetermined length of time, the primary gas control valve then opens, returning flow of gas to the automatic resuscitator and the process is allowed to repeat. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. An automatic resuscitator, comprising
a. A modulator which creates a low pressure signal upon cycling from an inhalation mode to an exhalation mode in respiratory support of a patient; -
b. A pressure sensor; c. A processor unit coupled to said pressure sensor; d. A primary gas control valve connected to said automatic resuscitator and said processor unit; e. A secondary gas control valve; f. A gas supply source connected to said primary gas control valve; wherein said pressure sensor is in communication with the modulator and is configured to detect a low pressure signal generated by the modulator; wherein said processor unit detects a low pressure signal through said pressure sensor and sends a control signal to the primary gas control valve whereby the primary gas control valve stops flow of gas from the gas supply to the modulator for a predetermined length of time; wherein the stop of gas flow by the primary gas control valve causes said secondary gas control valve to open and allow supplied gas to escape to a defined pressure level whereupon the secondary gas control valve closes; wherein upon expiration of the predetermined length of time, the gas flow controller then continues supply of gas to the modulator and the process is allowed to repeat. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
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25. A method for controlling gas flow to an automatic resuscitator, comprising;
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a. sensing a low pressure event inside an exhalation chamber of an automatic resuscitator; b. generating a control signal based on the low pressure event inside said exhalation chamber; c. stopping flow of gas to said automatic resuscitator as a function of the control signal; d. venting residual gas pressure in said automatic resuscitator to a defined level; and e. returning the flow of gas to said automatic resuscitator after expiration of a finite period of time. - View Dependent Claims (26, 27, 28, 29, 30, 31, 32, 33)
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Specification