A flow cassette has a housing with an inlet and an outlet and a passage therebetween. The flow cassette also has a temperature sensor disposed within the passage and configured to measure the temperature of a fluid flowing through the passage, a flow rate sensor disposed within the passage and confi
A flow cassette has a housing with an inlet and an outlet and a passage therebetween. The flow cassette also has a temperature sensor disposed within the passage and configured to measure the temperature of a fluid flowing through the passage, a flow rate sensor disposed within the passage and configured to measure a flow rate of the fluid flowing through the passage, and a processor coupled to the temperature sensor and flow rate sensor. The processor is configured to accept measurements of temperature and flow rate from the temperature sensor and flow rate sensor, respectively, and provide a compensated flow rate.
대표청구항▼
1. A flow cassette comprising: a housing having an inlet and an outlet with a passage therebetween;a cap configured to hold a filter within the passage via at least one leg, the filter concentrically located within the passage;a temperature sensor disposed within the passage and configured to measur
1. A flow cassette comprising: a housing having an inlet and an outlet with a passage therebetween;a cap configured to hold a filter within the passage via at least one leg, the filter concentrically located within the passage;a temperature sensor disposed within the passage and configured to measure a temperature of a fluid flowing through the passage;a flow rate sensor disposed within the passage and configured to measure a flow rate of the fluid flowing through the passage, the flow rate sensor including a flow restriction disposed within the passage; anda processor coupled to the temperature sensor and flow rate sensor, the processor configured to accept measurements of the temperature and the flow rate from the temperature sensor and flow rate sensor, respectively, and provide a compensated flow rate. 2. The flow cassette of claim 1, wherein: the inlet and the outlet are each configured to mate with one of a bore or a post so as to sealingly connect the passage between an input flow channel and an output flow channel of a ventilator; andthe flow cassette further comprises an interface module that is coupled to the processor and configured to mate with an interface connector of the ventilator so as to communicatively couple the processor of the flow cassette to an external device. 3. The flow cassette of claim 1, further comprising a valve disposed within the passage and configured to provide a selectable flow restriction so as to maintain one of a determined flow rate and a determined pressure at the outlet. 4. The flow cassette of claim 3, wherein: the flow rate sensor comprises a first pressure sensor that is coupled to the processor and to the passage and configured to provide a measurement of a first pressure within the passage; andthe processor is operatively coupled to the valve and configured to receive the measurement of the first pressure from the first pressure sensor and selectably actuate the valve so as to maintain the determined pressure at the outlet. 5. The flow cassette of claim 1, wherein the flow rate sensor comprises: a first pressure sensor that is coupled to the processor and configured to provide a measurement of a first pressure within the passage on a first side of the flow restriction;a second pressure sensor that is coupled to the processor and configured to provide a measurement of a second pressure within the passage on a second side of the flow restriction; andan electronics module configured to accept the measurements of the first and second pressures from the first and second pressure sensors, respectively, calculate a pressure drop across the flow restriction, determine the measurement of the flow rate based on the calculated pressure drop, and provide the measurement of the flow rate to the processor. 6. The flow cassette of claim 5, wherein: the processor comprises a memory configured to store information related to calculation of the compensated flow rate and executable instructions that configure the processor to combine the accepted measurements of temperature and flow rate with the stored information so as to calculate the compensated flow rate; andthe processor is configured to retrieve the executable instructions and the information from the memory and calculate the compensated flow rate. 7. The flow cassette of claim 1, further comprising a check valve disposed within the passage and configured to resist flow of the fluid toward the inlet. 8. The flow cassette of claim 7, wherein the check valve comprises a rigid structure, and the at least one leg contacts the rigid structure. 9. A method of configuring a ventilator for a patient, the method comprising: removing a cassette from the ventilator; andinstalling a flow cassette into the ventilator, the flow cassette comprising a housing having an inlet and an outlet with a passage therebetween, a cap configured to hold a filter within the passage via at least one leg, the filter concentrically located within the passage, a temperature sensor disposed within the passage and configured to measure a temperature of a fluid flowing through the passage, a flow rate sensor disposed within the passage and configured to measure a flow rate of the fluid flowing through the passage, a flow restriction disposed within the passage, and a processor coupled to the temperature sensor and flow rate sensor and configured to accept measurements of the temperature and the flow rate from the temperature sensor and flow rate sensor, respectively, and provide a compensated flow rate. 10. The method claim 9, further comprising the steps of: determining what gas is to be provided to the patient;selecting a gas inlet adapter having an inlet connector that can accept the determined gas;installing the selected gas inlet adapter in the ventilator such that the inlet connector for the determined gas is fluidly coupled to the flow cassette;sensing with a sensor the installed gas inlet adapter and determining with the processor what gas will be provided through the installed gas inlet adapter; andretrieving from a memory information related to calculation of the compensated flow rate from measurements of a pressure drop across a flow restriction and a temperature of the determined gas. 11. The method claim 10, further comprising the steps of: providing the determined gas through the passage;measuring, with the flow rate sensor comprising first and second pressures on respective upstream and downstream sides of the flow restriction through which the determined gas is passing;measuring, with the temperature sensor, a temperature of the determined gas that is passing through the flow restriction; andcalculating, with the processor, the compensated flow rate of the determined gas using the measured first and second pressures and the measured temperature as well as the retrieved information. 12. The method claim 10, further comprising the step of: providing the compensated flow rate of the determined gas to a central processor of the ventilator. 13. The method claim 10, wherein the step of sensing the installed gas inlet adapter comprises sensing with a Hall Effect sensor a number and placement of one or more magnets in the installed gas inlet adapter. 14. A ventilator comprising: an output flow channel configured to mate with a supply limb;an input flow channel configured to accept a gas from a source; anda flow cassette comprising: a housing having an inlet coupled to the input flow channel, an outlet coupled to the output flow channel, and a passage between the inlet and the outlet;a cap configured to hold a filter within the passage via at least one leg, the filter concentrically located within the passage;a temperature sensor disposed within the passage and configured to measure a temperature of a fluid flowing through the passage;a flow rate sensor disposed within the passage and configured to measure a flow rate of the fluid flowing through the passage, the flow rate sensor including a flow restriction disposed within the passage; anda flow cassette processor coupled to the temperature sensor and flow rate sensor, the processor configured to accept measurements of temperature and flow rate from the temperature sensor and flow rate sensor, respectively, and provide a compensated flow rate. 15. The ventilator of claim 14, further comprising a central processor that is coupled to the flow cassette processor and configured to accept the compensated flow rate. 16. The ventilator of claim 14, wherein the flow cassette further comprises a valve disposed within the passage and configured to provide a selectable flow restriction so as to maintain one of a determined flow rate and a determined pressure at the outlet. 17. The ventilator of claim 16, wherein: the flow rate sensor comprises a first pressure sensor that is coupled to the flow cassette processor and to the passage and configured to provide a measurement of a first pressure within the passage; andthe flow cassette processor is operatively coupled to the valve and configured to receive the measurement of the first pressure from the first pressure sensor and selectably actuate the valve so as to maintain the determined pressure at the outlet. 18. The ventilator of claim 14, wherein the flow rate sensor comprises: a first pressure sensor that is coupled to the flow cassette processor and configured to provide a measurement of a first pressure within the passage on a first side of the flow restriction;a second pressure sensor that is coupled to the flow cassette processor and configured to provide a measurement of a second pressure within the passage on a second side of the flow restriction; andan electronics module configured to accept the measurements of the first and second pressures from the first and second pressure sensors, respectively, calculate a pressure drop across the flow restriction, and provide the measurement of the flow rate to the flow cassette processor. 19. The ventilator of claim 18, wherein: the flow cassette comprises a memory coupled to the flow cassette processor configured to store information related to calculation of the compensated flow rate and executable instructions that configure the flow cassette processor to combine the accepted measurements of temperature and flow rate with the stored information so as to calculate the compensated flow rate; andthe flow cassette processor is further configured to retrieve the executable instructions and the information from the memory and calculate the compensated flow rate. 20. The ventilator of claim 14, wherein the flow cassette further comprises a check valve disposed within the passage and configured to resist flow of the fluid toward the inlet. 21. The ventilator of claim 14, wherein the flow cassette further comprises the filter disposed within the passage and configured such that all fluid flowing through the passage passes through the filter.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (49)
Bjoernstijerna Magnus (Stockholm SEX) Emtell Paer (Bromma SEX) Psaros Georgios (Tullinge SEX), Anesthetic system having electronic safety interlock system.
Westfall Thomas P. (Riverside CA) Ruiz-Vela Alberto (Alta Loma CA) Caterina Anthony J. (Riverside CA) Visser Clyde R. (Upland CA), Flow control system for medical ventilator.
Brower ; Jr. William B. (47 Second St. Troy NY 12180), Improved method for determining flow rates in venturis, orifices and flow nozzles involving total pressure and static pr.
Yarnall Stephen T. ; Winter David P. ; Van Wagner Bruce, Magnetic exhalation valve with compensation for temperature and patient airway pressure induced changes to the magnetic.
Kankkunen Jukka (Helsinki FIX) Puukangas Pertti (Espoo FIX), Method and apparatus for identifying an anesthetic fluid container and/or for detecting a connection between the contain.
Hall Kenneth R. (College Station TX) Morrison Gerald L. (College Station TX) Holste James C. (Bryan TX) ..AP: Texas A & M University System (College Station TX 02), Slotted orifice flowmeter.
Mendelson, Jay; Dille, Joseph C.; Kehoe, Anthony B.; Whiteley, Jeffrey L.; Berger, Todd; Robertson, III, Walter Dennis, System, method and computer program for determining fluid flow rate using a pressure sensor and a thermal mass flow sensor.
Grau Richard (Kalamazoo MI) Vanderlaan Robert D. (Kalamazoo MI) Newell Guy S. (Schoolcraft MI), Two position flow control valve assembly with position sensing.
Tennies Charles J. (Waukesha WI) King Todd L. (Cedarburg WI), Two wire position sense and control of modulating gas valve or other electromechanical actuators.
DeVries Douglas F. (Redlands CA) Williams Malcolm R. (San Clemente CA) Dack J. Kelly (Riverside CA) Hagen Randy P. (Corona CA) Guillaume Darrell W. (Corona CA), Ventilator exhalation valve.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.