Device for supplying breathing gas into a closed ventilating circuit of a medical respirator
First Claim
1. A device for supplying gas for breathing to a closed ventilating circuit having a volume driver for circulating gas in the closed circuit, comprising:
- a metering unit controllable to supply a gas for breathing to the closed circuit;
a controller connected to said metering unit for applying a supply amount signal to said metering unit to control the supply of gas to the closed circuit;
a pressure sensor adapted for connection to the closed circuit for generating an actual pressure signal corresponding to an actual pressure in the closed circuit;
pressure switch means switchable to supply at least two different present pressure values for gas in the closed circuit;
a differential amplifier having a first input connected to said pressure sensor for receiving the actual pressure signal and a second input connected to said pressure switch means for receiving one of said different preset pressure values, said difference amplifier having an output connected to said controller for applying an error signal value to said controller corresponding to a difference between said actual pressure value and said one of said preset pressure values; and
a computer connected to said controller for receiving said supply amount signal, to said differential amplifier output for receiving said error signal value and to said pressure sensor for receiving said actual pressure signal, said computer connected to said pressure switch means for switching between said at least two different preset pressure values and adapted for connection to the volume driver for stopping and starting operation of the volume driver, said computer including means for calculating gas consumption for a patient connected to the closed circuit and for calculating a leakage value representing leakage from the closed circuit as a function of said error signal value and said supply amount signal wherein said computer is programmed to execute the equations
space="preserve" listing-type="equation">E.sub.1 =V L(P.sub.1 -P)
space="preserve" listing-type="equation">E.sub.2 =V L(P.sub.2 -P) wherein, P1 and P2 are the at least two different present pressure valves, P is the valve of the actual pressure signal, E1 and E2 are valves of supply amount signals for the at least two preset pressure valves, V is the consumption amount and L is the leakage amount.
1 Assignment
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Accused Products
Abstract
With closed respiratory systems, the patient'"'"'s respiratory tract is tightly connected to a closed volume to which breathing gas is supplied only in the amount taken in by the patient. To this end, the breathing gas supply must be controlled. The controlled variable is either the pressure in the ventilating circuit, or the concentration of oxygen or the anesthetic gas in the breathing gas. A dropping pressure indicates either an increased consumption or a leak. To avoid insufficient or excessive loading of the patient, it is very important to be able to distinguish consumption from a leak. The inventive device makes this distinction possible. The breathing gas amounts are adjusted in the ventilating circuit at preset different pressures and are compared with each other, and the leak portion is computed therefrom.
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Citations
6 Claims
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1. A device for supplying gas for breathing to a closed ventilating circuit having a volume driver for circulating gas in the closed circuit, comprising:
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a metering unit controllable to supply a gas for breathing to the closed circuit; a controller connected to said metering unit for applying a supply amount signal to said metering unit to control the supply of gas to the closed circuit; a pressure sensor adapted for connection to the closed circuit for generating an actual pressure signal corresponding to an actual pressure in the closed circuit; pressure switch means switchable to supply at least two different present pressure values for gas in the closed circuit; a differential amplifier having a first input connected to said pressure sensor for receiving the actual pressure signal and a second input connected to said pressure switch means for receiving one of said different preset pressure values, said difference amplifier having an output connected to said controller for applying an error signal value to said controller corresponding to a difference between said actual pressure value and said one of said preset pressure values; and a computer connected to said controller for receiving said supply amount signal, to said differential amplifier output for receiving said error signal value and to said pressure sensor for receiving said actual pressure signal, said computer connected to said pressure switch means for switching between said at least two different preset pressure values and adapted for connection to the volume driver for stopping and starting operation of the volume driver, said computer including means for calculating gas consumption for a patient connected to the closed circuit and for calculating a leakage value representing leakage from the closed circuit as a function of said error signal value and said supply amount signal wherein said computer is programmed to execute the equations
space="preserve" listing-type="equation">E.sub.1 =V L(P.sub.1 -P)
space="preserve" listing-type="equation">E.sub.2 =V L(P.sub.2 -P)wherein, P1 and P2 are the at least two different present pressure valves, P is the valve of the actual pressure signal, E1 and E2 are valves of supply amount signals for the at least two preset pressure valves, V is the consumption amount and L is the leakage amount. - View Dependent Claims (2, 3, 4, 5)
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6. A method of operating a closed ventilating circuit having a volume driver for circulating gas in the closed circuit, comprising:
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measuring the actual pressure of gas in the closed circuit to form an actual pressure signal; obtaining a first error signal which is equal to a difference between the actual pressure signal and a first preset pressure signal; obtaining a second pressure signal corresponding to the difference between the actual pressure signal and a second preset pressure signal; using each of the first and second error signals to generate a first and second supply amount signal respectively for controlling an amount of gas for breathing to be supplied to the closed circuit; using the error signals and control signals in two equations for calculating values for actual consumption of gas from the closed circuit and a leakage amount of gas from the closed circuit, the equations being
space="preserve" listing-type="equation">E.sub.1 =V L(P.sub.1 -P)
space="preserve" listing-type="equation">E.sub.2 =V L(P.sub.2 -P)wherein, P1 and P2 are the at least two different preset pressure values, P is the value of the actual pressure signal, E1 and E2 are values of supply amount signals for the at least two preset pressure values, V is the consumption amount and L is the leakage amount; and displaying the consumption and leakage amounts.
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Specification