Respiration system for an anesthesia apparatus
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61M-016/01
A61M-016/20
A61M-016/22
A61M-016/00
A61M-016/10
출원번호
US-0495409
(2012-06-13)
등록번호
US-9399104
(2016-07-26)
우선권정보
DE-20 2011 102 764 U (2011-07-02)
발명자
/ 주소
Heesch, Ralf
출원인 / 주소
Drägerwerk AG & Co. KGaA
대리인 / 주소
McGlew and Tuttle, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
14
초록▼
A respiration system includes a patient connection (1), an inspiratory branch (3), an expiratory branch (13), a rebreathing line (99), a reservoir (25), a CO2 absorber (29), a radial compressor respiration drive (33), a fresh gas supply unit (51), an oxygen flushing device (55), connected to the reb
A respiration system includes a patient connection (1), an inspiratory branch (3), an expiratory branch (13), a rebreathing line (99), a reservoir (25), a CO2 absorber (29), a radial compressor respiration drive (33), a fresh gas supply unit (51), an oxygen flushing device (55), connected to the rebreathing line, a pressure sensor (31) and an actuatable control valve (21), arranged in the rebreathing line between a second end (17) of the expiratory branch and the CO2 absorber. The compressor, oxygen flushing device and fresh gas supply unit are arranged in the rebreathing line between the CO2 absorber and a second end (7) of the inspiration branch. The compressor inlet points towards the CO2 absorber and the outlet points towards the second end of the inspiratory branch. The pressure sensor is arranged in the rebreathing line between the compressor and the second end of the inspiratory branch.
대표청구항▼
1. A respiration system for an anesthesia apparatus, the respiration system comprising: a patient connection;an inspiratory branch, which has an inspiratory branch first end and an inspiratory branch second end as well as an inspiratory branch nonreturn valve which opens when pressure on a side of t
1. A respiration system for an anesthesia apparatus, the respiration system comprising: a patient connection;an inspiratory branch, which has an inspiratory branch first end and an inspiratory branch second end as well as an inspiratory branch nonreturn valve which opens when pressure on a side of the inspiratory branch nonreturn valve pointing towards said inspiratory branch second end is above pressure on a side of said inspiratory branch nonreturn valve pointing towards said inspiratory branch first end, wherein said inspiratory branch first end is connected to said patient connection;an expiratory branch, which has an expiratory branch first end and an expiratory branch second end as well as an expiratory branch nonreturn valve which opens when pressure on a side of said expiratory branch nonreturn valve pointing towards said expiratory branch first end is above pressure on a side of said expiratory branch nonreturn valve pointing towards said expiratory branch second end, wherein said expiratory branch first end is connected to said patient connection;a rebreathing line, which connects said inspiratory branch second end to said expiratory branch second end;a reservoir connected to said rebreathing line;a CO2 absorber arranged in said rebreathing line for absorbing CO2 contained in the breathing gas;a radial compressor arranged in said rebreathing line between said CO2 absorber and said inspiratory branch second end as a respiration drive, said radial compressor comprising a fan wheel mounted in a housing and rotatingly driven in a direction of rotation about an axis of rotation, wherein said fan wheel has blades extending in a direction of the axis of rotation and extending outwardly away from said axis of rotation and wherein said housing has an inlet pointing away from said fan wheel in an area of said axis of rotation in a direction of said axis of rotation and an outlet arranged in a plane of said fan wheel in an area of a circumference of said fan wheel;a fresh gas supply unit connected to said rebreathing line;an oxygen flushing means, connected to said rebreathing line, for introducing oxygen into said rebreathing line;a pressure sensor arranged between said CO2 absorber and said inspiratory branch second end; andan actuatable control valve arranged in said rebreathing line between said expiratory branch second end and said CO2 absorber, wherein: said radial compressor, said oxygen flushing means and said fresh gas supply unit have an operative connection in said rebreathing line between said CO2 absorber and said inspiratory branch second end;said inlet points towards said CO2 absorber;said outlet points towards said inspiratory branch second end; andsaid pressure sensor is arranged in said rebreathing line between said radial compressor and said inspiratory branch second end. 2. A respiration system in accordance with claim 1, wherein said radial compressor is arranged in said rebreathing line between said CO2 absorber on one side of said radial compressor and said fresh gas supply unit and said oxygen flushing means on another side of said radial compressor. 3. A respiration system in accordance with claim 1, wherein said radial compressor is arranged in said rebreathing line between said CO2 absorber and said oxygen flushing means on one side of said radial compressor and said fresh gas supply unit on another side of said radial compressor. 4. A respiration system in accordance with claim 1, wherein said fresh gas supply unit has an anesthetic evaporation means, through which fresh gas flows. 5. A respiration system in accordance with claim 1, wherein fresh gas is delivered to said rebreathing line at a fresh gas delivery position via said fresh gas supply unit and the oxygen is delivered to said rebreathing line at an oxygen delivery position via said oxygen flushing means, said fresh gas delivery position and said oxygen delivery position being located downstream of said carbon dioxide absorber and upstream of said inspiratory branch nonreturn valve with respect to a flow of fluid in said rebreathing line. 6. A respiration system for an anesthesia apparatus, the respiration system comprising: a patient connection;an inspiratory branch with an inspiratory branch first end and an inspiratory branch second end, said inspiratory branch first end being connected to said patient connection;an inspiratory branch nonreturn valve between said inspiratory branch first end and said inspiratory branch second end for opening when pressure on an inspiratory branch second end side of said inspiratory branch nonreturn valve is above pressure on an inspiratory branch first end side of said inspiratory branch nonreturn valve;an expiratory branch with an expiratory branch first end and an expiratory branch second end, said expiratory branch first end being connected to said patient connection;an expiratory branch nonreturn valve between said expiratory branch first end and said expiratory branch second end for opening when pressure on an expiratory branch first end side of said expiratory branch nonreturn valve is above pressure on an expiratory branch second end side of said expiratory branch nonreturn valve;a rebreathing line connected to said inspiratory branch second end and to said expiratory branch second end;a reservoir connected to said rebreathing line;a CO2 absorber arranged in said rebreathing line for absorbing CO2 contained in the breathing gas;a radial compressor arranged in said rebreathing line between said CO2 absorber and said inspiratory branch second end as a respiration drive, said radial compressor comprising a fan wheel mounted in a housing and rotatingly driven in a direction of rotation about an axis of rotation, wherein said fan wheel has blades extending in a direction of the axis of rotation and extending outwardly away from said axis of rotation and wherein said housing has an inlet pointing away from said fan wheel in an area of said axis of rotation in a direction of said axis of rotation and an outlet arranged in a plane of said fan wheel in an area of a circumference of said fan wheel;a fresh gas supply unit connected to said rebreathing line;an oxygen flushing means, connected to said rebreathing line, for introducing oxygen into said rebreathing line;a pressure sensor arranged between said CO2 absorber and said inspiratory branch second end; andan actuatable control valve arranged in said rebreathing line between said expiratory branch second end and said CO2 absorber, wherein: said radial compressor, said oxygen flushing means and said fresh gas supply unit are connected to said rebreathing line between said CO2 absorber and said inspiratory branch second end;said inlet is on a CO2 absorber side of said radial compressor;said outlet is on an inspiratory branch second end side of said radial compressor; andsaid pressure sensor is arranged in said rebreathing line between said radial compressor and said inspiratory branch second end. 7. A respiration system in accordance with claim 6, wherein said radial compressor is connected to said rebreathing line with said CO2 absorber and said fresh gas supply unit on one side and said oxygen flushing means on another side of said radial compressor. 8. A respiration system in accordance with claim 7, wherein said fresh gas supply unit has an anesthetic evaporation means, through which fresh gas flows. 9. A respiration system in accordance with claim 6, wherein said radial compressor is arranged in said rebreathing line with said CO2 absorber and said oxygen flushing means on one side of said radial compressor and said fresh gas supply unit on another side of said radial compressor. 10. A respiration system in accordance with claim 7, wherein said fresh gas supply unit has an anesthetic evaporation means, through which fresh gas flows. 11. A respiration system in accordance with claim 6, wherein said fresh gas supply unit has an anesthetic evaporation means, through which fresh gas flows. 12. A respiration system in accordance with claim 6, wherein fresh gas is delivered to said rebreathing line at a fresh gas delivery position via said fresh gas supply unit and the oxygen is delivered to said rebreathing line at an oxygen delivery position via said oxygen flushing means, said fresh gas delivery position and said oxygen delivery position being located downstream of said carbon dioxide absorber and upstream of said inspiratory branch nonreturn valve with respect to a flow of fluid in said rebreathing line. 13. A respiration system for an anesthesia apparatus, the respiration system comprising: a breathing circuit comprising an inspiratory branch, an expiratory branch and a rebreathing line connected to said inspiratory branch and connected to said expiratory branch;a patient connection comprising a Y connection to said inspiratory branch and to said expiratory branch;an inspiratory branch nonreturn valve operatively connected to said inspiratory branch adjacent to said rebreathing line for opening when pressure in said inspiratory branch is higher on a rebreathing line side of said inspiratory branch nonreturn valve than on a patient connection side of said inspiratory branch nonreturn valve;an expiratory branch nonreturn valve operatively connected to said expiratory branch adjacent to said rebreathing line for opening when pressure in said expiratory branch is higher on a patient connection side of said inspiratory branch nonreturn valve than on a rebreathing line side of said inspiratory branch nonreturn valve;a reservoir connected to said rebreathing line;a CO2 absorber operatively connected to said rebreathing line for absorbing CO2 contained in breathing gas flowing through said rebreathing line;a radial compressor operatively connected to said rebreathing line between said CO2 absorber and said inspiratory branch nonreturn valve, said radial compressor comprising a fan wheel mounted in a housing and rotatingly driven in a direction of rotation about an axis of rotation, wherein said fan wheel has blades extending in a direction of the axis of rotation and extending outwardly away from said axis of rotation and wherein said housing has an inlet pointing away from said fan wheel in an area of said axis of rotation in a direction of said axis of rotation and an outlet arranged in a plane of said fan wheel in an area of a circumference of said fan wheel;a fresh gas supply unit connected to said rebreathing line;an oxygen flushing source connected to said rebreathing line for introducing oxygen into said rebreathing line;a pressure sensor operatively connected to said rebreathing line between said CO2 absorber and said inspiratory branch nonreturn valve; andan actuatable control valve operatively connected to said rebreathing line between said expiratory branch nonreturn valve and said CO2 absorber, wherein: said radial compressor, said oxygen flushing source and said fresh gas supply unit are operatively connected to said rebreathing line between said CO2 absorber and said inspiratory branch nonreturn valve;said inlet of said radial compressor is on a CO2 absorber side of said radial compressor;said outlet of said radial compressor is on an inspiratory branch nonreturn valve side of said radial compressor; andsaid pressure sensor is operatively connected to said rebreathing line between said radial compressor and said inspiratory branch nonreturn valve. 14. A respiration system in accordance with claim 13, wherein said radial compressor is connected to said rebreathing line with said CO2 absorber and said fresh gas supply unit connected to said rebreathing line on one side of said radial compressor and said oxygen flushing source connected to said rebreathing line on another side of said radial compressor. 15. A respiration system in accordance with claim 14, wherein said fresh gas supply unit comprises an anesthetic evaporator through which fresh gas flows. 16. A respiration system in accordance with claim 13, wherein said radial compressor is arranged in said rebreathing line with said CO2 absorber and said oxygen flushing source connected to said rebreathing line on one side of said radial compressor and said fresh gas supply unit connected to said rebreathing line on another side of said radial compressor. 17. A respiration system in accordance with claim 16, wherein said fresh gas supply unit comprises an anesthetic evaporator through which fresh gas flows. 18. A respiration system in accordance with claim 13, wherein said fresh gas supply unit comprises an anesthetic evaporator through which fresh gas flows. 19. A respiration system in accordance with claim 13, wherein fresh gas is supplied to said rebreathing line downstream of said radial compressor and upstream of said inspiratory branch nonreturn valve with respect to a flow of fluid in said rebreathing line via said fresh gas supply unit, wherein oxygen is supplied to said rebreathing line downstream of said radial compressor and upstream of said inspiratory branch nonreturn valve with respect to said flow of fluid in said rebreathing line via said oxygen flushing source. 20. A respiration system in accordance with claim 13, wherein fresh gas is delivered to said rebreathing line at a fresh gas delivery position via said fresh gas supply unit and the oxygen is delivered to said rebreathing line at an oxygen delivery position via said oxygen flushing source, said fresh gas delivery position and said oxygen delivery position being located downstream of said carbon dioxide absorber and upstream of said inspiratory branch nonreturn valve with respect to a flow of fluid in said rebreathing line.
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이 특허에 인용된 특허 (14)
Koehler Raymond (Whitehouse Station NJ) Donaldson James E. (Neptune NJ), Anesthesia machine.
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