IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0244003
(2002-09-16)
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발명자
/ 주소 |
- Wartman, Richard
- Stiney, Michael
- Bower, Eric
- Gardetto, Paul
- Vacchiano, Charles
- Sausen, Kenneth
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출원인 / 주소 |
- The United States of America as represented by the Secretary of the Navy
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인용정보 |
피인용 횟수 :
15 인용 특허 :
11 |
초록
▼
The present invention includes a non-rebreathing circuit coupled with computer-controlled gas adjustments. Ambient air is diluted with nitrogen on a breath-by-breath basis to provide precise control over the inspired concentration of oxygen/nitrogen mixture, thereby simulating selected altitudes on
The present invention includes a non-rebreathing circuit coupled with computer-controlled gas adjustments. Ambient air is diluted with nitrogen on a breath-by-breath basis to provide precise control over the inspired concentration of oxygen/nitrogen mixture, thereby simulating selected altitudes on an almost instantaneous basis. Carbon dioxide and water vapor exhaled by the subject are released into the environment and absorption is not necessary. In addition, the mixed gas can be administered through a standard aviator's oxygen mask, increasing the realism of the simulation and removing obvious external cues on the nature of the experiment. Maintenance on the mixing loop is low when compared to re-breathing units, since no consumable items are necessary to absorb water vapor or carbon dioxide. A mixing device provides a homogenized mixture of nitrogen/oxygen fluid to the subject.
대표청구항
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1. A reduced-oxygen breathing apparatus comprising:(h) a vessel for gas mixing, wherein said gas mixing vessel is a hollow loop; (i) an ambient air inlet, said inlet being in fluid communication with said gas mixing vessel; (j) an outlet, said outlet being in fluid communication with said gas mixing
1. A reduced-oxygen breathing apparatus comprising:(h) a vessel for gas mixing, wherein said gas mixing vessel is a hollow loop; (i) an ambient air inlet, said inlet being in fluid communication with said gas mixing vessel; (j) an outlet, said outlet being in fluid communication with said gas mixing vessel on one end and providing a controlled gas mixture to a subject at the opposite end; (k) an oxygen concentration sensor, said sensor being in fluid communication with the gas mixing vessel; (l) a nitrogen gas supply, said nitrogen gas supply being in fluid communication with said gas mixing vessel; (m) a nitrogen valve in fluid communication with said gas mixing vessel and said nitrogen gas supply, wherein said nitrogen valve controls flow of said nitrogen gas supply to said gas mixing vessel; and (n) a controller for said gas mixing, wherein: said oxygen concentration sensor sends a signal to said controller; said controller manipulates said signal; said controller provides an output signal to said nitrogen valve that adjusts said nitrogen gas supply to said gas mixing vessel in accordance with parameters set by an operator; and further comprising a nitrogen concentration sensor in fluid communication with said loop.2. The reduced-oxygen breathing device of claim 1, wherein said ambient air inlet has a one-way valve in fluid communication with said inlet, said valve providing introduction of ambient air into said loop.3. The reduced-oxygen breathing device of claim 2, wherein said outlet is in fluid communication with said loop and is operatively connected to a delivery unit providing said controlled gas mixture to said subject.4. The reduced oxygen breathing device of claim 3, wherein said delivery unit is a face-mask having:a one-way valve in fluid communication with said loop and opening towards said subject, and a one way valve opening to the ambient environment for exhalation of said controlled gas mixture by said subject. 5. The reduced oxygen breathing device of claim 4, wherein said face-mask is a standard aviator's oxygen mask.6. The reduced-oxygen breathing device of claim 1, further comprising an oxygen gas supply, said oxygen gas supply being in fluid communication with said loop.7. The reduced-oxygen breathing device of claim 6, further comprising an oxygen valve in fluid communication with said gas mixing vessel and said oxygen gas supply, wherein said oxygen valve controls flow of said oxygen gas supply to said gas mixing vessel.8. The reduced-oxygen breathing device of claim 1, further comprising a mixing fan in fluid communication with said loop and is connected to a power source.9. The reduced-oxygen breathing device of claim 8, wherein said mixing fan supplies a flow rate of between 10 and 100 cubic feet per minute.10. The reduced-oxygen breathing device of claim 8, wherein said mixing fan supplies a flow rate of between 20 and 45 cubic feet per minute.11. The reduced-oxygen breathing device of claim 1, wherein said loop is composed of 3″ PVC tubing and has a minimum volume of about 500 cubic inches.12. The reduced-oxygen breathing device of claim 1, wherein said loop is composed of 1½″ PVC tubing and has a volume of about 150 cubic inches.13. The reduced-oxygen breathing device of claim 1, further comprising an electrical power source connected to said sensor, controller, and said valve, and wherein said controller is electrically connected with said oxygen concentration sensor and said solenoid.14. The reduced-oxygen breathing device of claim 13, wherein said controller comprises a data acquisition card connected to a laptop computer.15. The reduced-oxygen breathing device of claim 14, wherein said oxygen concentration sensor provides a voltage input to said data acquisition card, said voltage is converted to a digital signal by said data acquisition card, said digital signal is compared to the desired level of oxygen by said laptop computer and an electronic comparator, and said controller sends said output signal to said nitrogen valve based on the result of said comparison.16. The reduced-oxygen breathing device of claim 14, wherein said oxygen concentration sensor provides a voltage input to said data acquisition card, said voltage is converted to a digital signal by said data acquisition card, said digital signal is compared to the desired level of oxygen by said laptop computer and an algorithm, and said controller sends said output signal to said nitrogen valve based on the result of said comparison.17. The reduced-oxygen breathing device of claim 1, further comprising an inflatable bladder in fluid communication with said loop.18. The reduced-oxygen breathing device of claim 1, wherein said controller is programmed to present variable concentrations of oxygen as a function of time.19. The reduced-oxygen breathing device of claim 1, wherein said nitrogen valve is a nitrogen solenoid.20. The reduced-oxygen breathing device of claim 1, wherein said signal is an electrical signal.
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