Artificial ventilator
First Claim
1. An artificial ventilator comprising:
- a dome made of hard material, said dome having an opening at the apex thereof for connection to an air duct and a fitting made of elastic material at the bottom periphery thereof;
a blower adapted to be connected to said air duct for sucking and exhausting air in said dome;
an air suction duct and an air exhaustion duct adapted to connect said dome and said blower together;
a negative pressure regulator mounted on an exhaustion piping system;
a positive pressure regulator mounted on a suction piping system;
a pressure sensor for detecting a pressure within said dome;
an exhaustion valve and a suction valve for controlling air exhaustion and suction;
a release valve for releasing a negative or positive pressure into atmospheric air;
a bypass valve for bypassing air when said air exhaustion valve or said air suction valve is closed;
a valve switching device for controlling to open and close said air exhaustion valve, air suction valve, release valve and bypass valve; and
a respiration detection system comprising a respiratory sensor including a pyroelectric element mounted at a passage of respiration air or near narises of a patient for detecting a temperature change rate at said passage or near said narises, and a respiration detection circuit for comparing a temperature change rate signal obtained by said pyroelectric element with a threshold value set at a variable resistor, detecting start timings of air expiration and air inspiration in accordance with the comparison result, and outputting a timing signal, said respiration detection system thereby controlling said valve switching device.
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Accused Products
Abstract
An artificial ventilator includes a dome for covering the precordial and the sides of the thoracoabdominal of a patient, a blower to be used for applying negative and positive pressures within the dome, a regulator for adjusting a pressure, and the like. The valve switching device is controlled by a respiration detection system. In the respiration detection system, a pyrolelectric element is used as a respiratory sensor for detecting a temperature change rate caused by an inspired and expired air flow. The temperature change rate signal obtained by the sensor is compared with a threshold value set by a variable resistor, the start timings of expired air and inspired air are detected in accordance with the comparison result, and air inspiration and expiration start timing signals are outputted. Further, the artificial ventilator can be provided with various functions of forced respiration and intermittent deep breathing by means of a timer, synchronization only with air inspiration timings, reduction of frequency of respiration assistance for the intention not to use the ventilator in the near future, backup during apnea, and the like. The artificial ventilator allows a physilogical respiration assistance matching the patient'"'"'s physiological intention by synchronizing with the patient'"'"' s respiration. Thus, an effort and pain in breathing with a conventional mechanical ventilation can be avoided so that the artificial ventilator is suitable for a long term use and useful for a quick recovery of respiration function of an acute respiratory failure patient.
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Citations
10 Claims
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1. An artificial ventilator comprising:
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a dome made of hard material, said dome having an opening at the apex thereof for connection to an air duct and a fitting made of elastic material at the bottom periphery thereof; a blower adapted to be connected to said air duct for sucking and exhausting air in said dome; an air suction duct and an air exhaustion duct adapted to connect said dome and said blower together; a negative pressure regulator mounted on an exhaustion piping system; a positive pressure regulator mounted on a suction piping system; a pressure sensor for detecting a pressure within said dome; an exhaustion valve and a suction valve for controlling air exhaustion and suction; a release valve for releasing a negative or positive pressure into atmospheric air; a bypass valve for bypassing air when said air exhaustion valve or said air suction valve is closed; a valve switching device for controlling to open and close said air exhaustion valve, air suction valve, release valve and bypass valve; and a respiration detection system comprising a respiratory sensor including a pyroelectric element mounted at a passage of respiration air or near narises of a patient for detecting a temperature change rate at said passage or near said narises, and a respiration detection circuit for comparing a temperature change rate signal obtained by said pyroelectric element with a threshold value set at a variable resistor, detecting start timings of air expiration and air inspiration in accordance with the comparison result, and outputting a timing signal, said respiration detection system thereby controlling said valve switching device. - View Dependent Claims (2)
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8. An artificial ventilator comprising:
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a dome made of hard material, said dome having an opening at the apex thereof for connection to an air duct and a fitting made of elastic material at the bottom periphery thereof; a blower adapted to be connected to said air duct for sucking and exhausting air in said dome; an air suction duct and an air exhaustion duct adapted to connect said dome and said blower together; a negative pressure regulator mounted on an exhaustion piping system; a positive pressure regulator mounted on a suction piping system; a pressure sensor for detecting a pressure within said dome; an exhaustion valve and a suction valve for controlling air exhaustion and suction; a release valve for releasing a negative or positive pressure into atmospheric air; a bypass valve for bypassing air when said air exhaustion valve or said air suction valve is closed; a valve switching device for controlling to open and close said air exhaustion valve, air suction valve, release valve and bypass valve; a sensor mode system, a backup system, a respiration assistance frequency setting system, an inspiration timing tuning system and a timer dependent respiration adjusting system, said sensor mode system being adapted to control said valve switching device by a respiration detection system which comprises a respiratory sensor including a pyroelectric element mounted at a passage or respiration air or near said narises of a patient for detecting a temperature change rate at said passage or near said narises, and a respiration detection circuit for comparing a temperature change rate signal obtained by said pyroelectric element with a threshold value set at a variable resistor, detecting start timings of air expiration and air inspiration in accordance with the comparison result, and outputting a timing signal; ROM storing program for operating at least one of said sensor mode system, backup system, said inspiration assistance frequency setting system, said inspiration timing tuning system and said timer dependent respiration adjusting system; and a change-over switch for selecting at least one of said systems to be operated. - View Dependent Claims (3, 4, 5, 6, 7, 9, 10)
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Specification
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- Resources
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Current AssigneeSumitomo Bakelite Company Limited
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Original AssigneeSumitomo Bakelite Company Limited
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InventorsYagata, Kazuhiko, Noguchi, Yasuo
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Primary Examiner(s)Burr, Edgar S.
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Assistant Examiner(s)Lewis, Aaron J.
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Application NumberUS07/274,122Time in Patent Office781 DaysField of Search128/202.12, 128/205.26, 128/30, 128/30.2, 128/724, 128/204.21, 128/204.23US Class Current128/204.23CPC Class CodesA61H 2031/025 using the same pump for pre...A61M 16/00 Devices for influencing the...A61M 16/0051 with alarm devicesA61M 16/024 including calculation means...A61M 16/0677 Gas-saving devices thereforA61M 2016/0021 with a proportional output ...
