Impeller and a pressure support system and method using such a method
First Claim
Patent Images
1. A pressure support system, comprising:
- a source of gas;
a patient circuit; and
a pressure generator coupled to the source of gas and the patient circuit, the pressure generator including;
(a) a housing having a gas inlet and a gas outlet;
(b) a motor;
(c) a rotatable drive shaft driven by the motor; and
(d) an impeller mounted on the drive shaft and disposed within the housing, the impeller comprising;
(1) a hub attached to the drive shaft,(2) an impeller body attached to the hub extending radially from the hub to a perimeter of the impeller,(3) a plurality of impeller blades disposed on one face of the impeller body, each impeller blade extending from a leading end of the blade generally adjacent the hub toward a trailing end of the blade generally at the perimeter of the impeller, wherein the plurality of impeller blades decrease in height from the leading end to the trailing end, wherein an inlet area is defined between each pair of adjacent blades generally adjacent the hub, with each inlet area being defined as the area at the radius of the leading end of the adjacent blades bounded by a height of the leading end of the adjacent blades and the one face of the impeller body, and wherein an outlet area is defined between each pair of adjacent blades generally adjacent the perimeter of the impeller, with each outlet area being defined as the area at the radius of the trailing end of the adjacent blades bounded by the height of the trailing end of the adjacent blades and the one face of the impeller body, wherein each inlet area is substantially equal to each corresponding outlet area for each pair of adjacent blades;
wherein the pressure generator receives gas from the source of gas and, based on a preselected pressure of between 10-65 cmH2O and -responsive to and despite fluctuations in a rate of flow of gas in the patient circuit over a range of 10-150 l/min, outputs a flow of breathing gas having a pressure within a standard deviation of no more than 1.5 cmH2O of the preselected pressure using a constant, selected operating speed of the motor selected based on the preselected pressure and without feedback control based on either or both of a pressure in the patient circuit or a flow rate in the patient circuit.
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Abstract
An impeller, a pressure generator using such an impeller, and a pressure support system and method using such a pressure generator to deliver a flow of breathing gas to a patient is disclosed. The impeller enables a pressure of a flow of breathing gas delivered by a pressure support system to a patient to remain substantially constant despite variations of the output flow rate. The impeller includes a plurality of impeller blades disposed on a face of the impeller body with an inlet area between each pair of adjacent blades being substantially equal a corresponding outlet area for each pair of adjacent blades.
41 Citations
12 Claims
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1. A pressure support system, comprising:
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a source of gas; a patient circuit; and a pressure generator coupled to the source of gas and the patient circuit, the pressure generator including; (a) a housing having a gas inlet and a gas outlet; (b) a motor; (c) a rotatable drive shaft driven by the motor; and (d) an impeller mounted on the drive shaft and disposed within the housing, the impeller comprising; (1) a hub attached to the drive shaft, (2) an impeller body attached to the hub extending radially from the hub to a perimeter of the impeller, (3) a plurality of impeller blades disposed on one face of the impeller body, each impeller blade extending from a leading end of the blade generally adjacent the hub toward a trailing end of the blade generally at the perimeter of the impeller, wherein the plurality of impeller blades decrease in height from the leading end to the trailing end, wherein an inlet area is defined between each pair of adjacent blades generally adjacent the hub, with each inlet area being defined as the area at the radius of the leading end of the adjacent blades bounded by a height of the leading end of the adjacent blades and the one face of the impeller body, and wherein an outlet area is defined between each pair of adjacent blades generally adjacent the perimeter of the impeller, with each outlet area being defined as the area at the radius of the trailing end of the adjacent blades bounded by the height of the trailing end of the adjacent blades and the one face of the impeller body, wherein each inlet area is substantially equal to each corresponding outlet area for each pair of adjacent blades; wherein the pressure generator receives gas from the source of gas and, based on a preselected pressure of between 10-65 cmH2O and -responsive to and despite fluctuations in a rate of flow of gas in the patient circuit over a range of 10-150 l/min, outputs a flow of breathing gas having a pressure within a standard deviation of no more than 1.5 cmH2O of the preselected pressure using a constant, selected operating speed of the motor selected based on the preselected pressure and without feedback control based on either or both of a pressure in the patient circuit or a flow rate in the patient circuit. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of supplying a flow of gas to a patient circuit, comprising:
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(a) providing a source of gas; (b) providing a pressure generating system comprising; (1) a housing having a gas inlet and a gas outlet, (2) a motor, (3) a rotatable drive shaft driven by the motor, and (4) an impeller mounted on the drive shaft and disposed within the housing, the impeller comprising; (i) a hub attached to the drive shaft, (i) an impeller body attached to the hub extending radially from the hub to a perimeter of the impeller, (iii) a plurality of impeller blades disposed on one face of the impeller body, each impeller blade extending from a leading end of the blade generally adjacent the hub toward a trailing end of the blade generally at the perimeter of the impeller, wherein the plurality of impeller blades decrease in height from the leading end to the trailing end, wherein an inlet area is defined between each pair of adjacent blades generally adjacent the hub, with each inlet area being defined as the area at the radius of the leading end of the adjacent blades bounded by a height of the leading end of the adjacent blades and the one face of the impeller body, and wherein an outlet area is defined between each pair of adjacent blades generally adjacent the perimeter of the impeller, with each outlet area being defined as the area at the radius of the trailing end of the adjacent blades bounded by the height of the trailing end of the adjacent blades and the one face of the impeller body, wherein each inlet area is substantially equal to each corresponding outlet area for each pair of adjacent blades; (c) receiving gas from the source of gas in the pressure generating system and, based on a preselected pressure of between 10-65 cmH2O and -responsive to and despite fluctuations in a rate of flow of gas in the patient circuit over a range of 10-150 l/min, outputting from the pressure generating system a flow of breathing gas having a pressure within a standard deviation of no more than 1.5 cmH2O of the preselected pressure using a constant, selected operating speed of the motor selected based on the preselected pressure and without feedback control based on either or both of a pressure in the patient circuit or a flow rate in the patient circuit; and (d) delivering the pressurized gas to the patient circuit, the patient circuit being coupled to the gas outlet of the housing. - View Dependent Claims (9, 10)
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11. A method of supplying gas comprising:
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(a) providing a source of breathing gas; (b) providing a pressure generator comprising; (1) a motor, (2) a rotatable drive shaft driven by the motor, and (3) an impeller mounted on the drive shaft; (c) providing a patient circuit; (d) receiving gas from the source of breathing gas in the pressure generator and , based on a preselected pressure of between 10-65 cmH2O and -responsive to and despite fluctuations in a rate of flow of gas in the patient circuit over a range of 10-150 l/min, outputting from the pressure generator a flow of breathing gas having a pressure within a standard deviation of no more than 1.5 cmH2O of the preselected pressure using a constant, selected operating speed of the motor selected based on the preselected pressure and without feedback control based on either or both of a pressure in the patient circuit or a flow rate in the patient circuit; and (d) supplying the pressurized gas from the pressure generator to the patient through the patient circuit. - View Dependent Claims (12)
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Specification