Anesthetic vaporizer and temperature compensation unit
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F23D-011/00
A61M-016/18
출원번호
US-0687632
(2010-01-14)
등록번호
US-8813744
(2014-08-26)
우선권정보
CN-2009 1 0105094 (2009-01-16)
발명자
/ 주소
Chen, Donghua
Gong, Daoming
Qiao, Zhiwei
출원인 / 주소
Shenzhen Mindray Bio-Medical Electronics Co., Ltd
대리인 / 주소
Christensen, Kory D.
인용정보
피인용 횟수 :
1인용 특허 :
7
초록▼
An anesthetic vaporizer and a temperature compensation unit are disclosed. The temperature compensation unit, which cooperates with a vaporizing chamber having a bottom wall, includes a first device connected to the bottom wall of the vaporizing chamber for contacting with liquid anesthetic agent in
An anesthetic vaporizer and a temperature compensation unit are disclosed. The temperature compensation unit, which cooperates with a vaporizing chamber having a bottom wall, includes a first device connected to the bottom wall of the vaporizing chamber for contacting with liquid anesthetic agent in the vaporizing chamber and changing in length according to temperature change of the liquid anesthetic agent, and a second device connected to the vaporizing chamber. A gas flow gap through which a gas flow passes is formed between the first and second devices. The gas flow gap becomes larger as temperature of the liquid anesthetic agent rises and smaller as the temperature of the liquid anesthetic agent drops. Since the first device is connected with the bottom wall of the vaporizing chamber, the first device will directly contact with the liquid anesthetic agent regardless of the liquid level of the anesthetic agent, as long as there is liquid agent in the vaporizing chamber; therefore the efficiency of heat exchange is high and the effect of temperature compensation is good.
대표청구항▼
1. A temperature compensation unit for an anesthetic vaporizer, which cooperates with a vaporizing chamber having a bottom wall, comprising: a first device comprising a first valve seat that has a bottom portion, which is hermetically connected to the bottom wall of the vaporizing chamber, such that
1. A temperature compensation unit for an anesthetic vaporizer, which cooperates with a vaporizing chamber having a bottom wall, comprising: a first device comprising a first valve seat that has a bottom portion, which is hermetically connected to the bottom wall of the vaporizing chamber, such that at least a part of the bottom portion of the first valve seat contacts a liquid anesthetic agent in the vaporizing chamber, wherein at least the bottom portion of the first valve seat changes in length according to temperature changes in the liquid anesthetic agent that is in direct contact with at least the part of the bottom portion of the first valve seat to change a flow rate by moving at least the first valve seat to compensate for the temperature changes in the liquid anesthetic agent;a second device connected to the vaporizing chamber; anda gas flow gap through which a gas flow passes, wherein the gas flow gap is formed between the first device and the second device, andthe gas flow gap becomes larger as temperature of the liquid anesthetic agent rises and smaller as the temperature of the liquid anesthetic agent drops. 2. The temperature compensation unit for an anesthetic vaporizer according to claim 1, in which the first device comprises: a lower valve plate connected to the first valve seat, the first valve seat being situated within the vaporizing chamber, the second device comprises an upper valve plate, the lower valve plate being positioned below the upper valve plate, the gas flow gap being formed between the upper valve plate and the lower valve plate,when the temperature of the liquid anesthetic agent rises, the first valve seat is lengthened with the lower valve plate moving downwards relative to the upper valve plate, andwhen the temperature of the liquid anesthetic agent drops, the first valve seat is shortened with the lower valve plate moving upwards relative to the upper valve plate. 3. The temperature compensation unit for the anesthetic vaporizer according to claim 2, in which the temperature compensation unit further comprises a valve rod, the lower valve plate being fixed on a top of the valve rod, a bottom of the valve rod being connected to the bottom portion of the first valve seat, wherein the thermal expansion coefficient of the first valve seat is greater than that of the valve rod. 4. The temperature compensation unit for the anesthetic vaporizer according to claim 3, in which the temperature compensation unit further comprises a screw adjuster, the bottom of the valve rod passing downwards through the bottom portion of the first valve seat and being attached to the screw adjuster. 5. The temperature compensation unit for anesthetic vaporizer according to claim 4, in which a diameter of the lower valve plate is greater than that of the valve rod, the first valve seat comprising an installation groove extending from a top portion thereof to the bottom portion thereof, wherein the installation groove comprises a first installation groove of a larger inner diameter and a second installation groove of a smaller inner diameter, the lower valve plate being situated in the first installation groove and sealed with respect to the first valve seat with a first sealing member, and the valve rod extending into the second installation groove. 6. The temperature compensation unit for anesthetic vaporizer according to claim 4, in which the upper valve plate is fixedly attached to a main gas path block. 7. The temperature compensation unit for anesthetic vaporizer according to claim 6, in which the upper valve plate has a through hole, wherein the gas flow gap, the through hole, and a gas flow passage are communicated with one another. 8. The temperature compensation unit for the anesthetic vaporizer according to claim 7, in which the upper valve plate is sealed with respect to a main gas path block by a second sealing member. 9. The temperature compensation unit for the anesthetic vaporizer according to claim 4, in which top portion of the first valve seat is fixed. 10. An anesthetic vaporizer, comprising: an fresh gas inlet and a main gas path block having a gas flow passage, the fresh gas inlet communicating with the gas flow passage via a first gas branch circuit and a second gas branch circuit, the gas flow passage communicating with a mixed gas outlet, the first gas branch circuit comprising:a bypass circuit and a temperature compensation unit arranged in sequence; andthe second gas branch circuit comprising a wick unit which is provided within a vaporizing chamber, in which the temperature compensation unit comprises: a first device comprising a first valve seat that has a bottom portion, which is hermetically connected to a bottom wall of the vaporizing chamber, such that at least a part of the bottom portion of the first valve seat directly contacts a liquid anesthetic agent in the vaporizing chamber, wherein at least the bottom portion of the first valve seat changes in length according to temperature changes in the liquid anesthetic agent that is in direct contact with at least the part of the bottom portion of the first valve seat to change a flow rate by moving at least the first valve seat compensate for the temperature changes in the anesthetic agent;a second device connected with the vaporizing chamber via the main gas path block; anda gas flow gap with which the gas flow passage is communicated, wherein the gas flow gap is formed between the first device and the second device, andthe gas flow gap becomes larger as temperature of the liquid anesthetic agent rises and smaller as the temperature of the liquid anesthetic agent drops. 11. The anesthetic vaporizer according to claim 10, in which the first device comprises: a lower valve plate connected with the first valve seat, wherein the first valve seat is situated within the vaporizing chamber, in whichthe second device comprises an upper valve plate, the lower valve plate being positioned below the upper valve plate, the gas flow gap being formed between the upper valve plate and the lower valve plate,when temperature of the liquid anesthetic agent rises, the first valve seat is lengthened with the lower valve plate moving downwards relative to the upper valve plate; andwhen the temperature of the liquid anesthetic agent drops, the first valve seat is shortened with the lower valve plate moving upwards relative to the upper valve plate. 12. The anesthetic vaporizer according to claim 11, in which the temperature compensation unit further comprises a valve rod and a screw adjuster, the lower valve plate being fixedly attached to a top of the valve rod, a bottom of the valve rod passing downwards through the bottom portion of the first valve seat and being attached to the screw adjuster, wherein a thermal expansion coefficient of the first valve seat is greater than that of the valve rod. 13. The anesthetic vaporizer according to claim 12, in which the upper valve plate is fixed with respect to the main gas path block and has a through hole, wherein the bypass circuit, the gas flow gap, the through hole, and the gas flow passage are communicated with one another. 14. The anesthetic vaporizer according to claim 13, in which a top portion of the first valve seat is fixed. 15. The anesthetic vaporizer according to claim 12, in which the gas flow passage is provided with a concentration control unit, wherein the first gas branch circuit and the second gas branch circuit are communicatively coupled to the concentration control unit, and the concentration control unit is communicated with a mixed gas outlet. 16. The anesthetic vaporizer according to claim 15, in which the second gas branch circuit further comprises a pressure compensation unit and a fresh gas cut-off valve, wherein the pressure compensation unit, the fresh gas cut-off valve, and a wick unit are communicatively coupled. 17. A temperature compensation unit for an anesthetic vaporizer, comprising: a lower valve assembly comprising a lower valve seat that extends to a bottom wall of a vaporizing chamber and has a bottom portion that changes in length according to temperature changes in a liquid anesthetic agent in a vaporizing chamber to compensate for the temperature changes and is attached to the bottom wall of the vaporizing chamber; andan upper valve assembly which is to cooperate with the lower valve assembly to adjust a concentration of a mixed anesthetic flow based at least in part upon the temperature changes, wherein a gas flow gap is formed by the upper valve assembly and the lower valve assembly, anda change in the length of the lower valve assembly causes a corresponding change in a dimension of the gas flow gap. 18. The temperature compensation unit of claim 17, further comprising an adjuster to adjust or calibrate a first size of the gas flow gap. 19. The temperature compensation unit of claim 17, wherein the lower valve seat is fixed on a top portion of the lower valve seat so the top portion remains stationary in presence of the temperature changes in the liquid anesthetic agent, and the lower valve seat that is attached to the bottom wall of the vaporizing chamber has at least one degree of freedom near the bottom wall of the vaporizing chamber to accommodate the temperature changes. 20. The temperature compensation unit of claim 17, wherein the lower valve seat is fixed on a middle portion of the lower valve seat so the middle portion remains stationary in presence of the temperature changes in the liquid anesthetic agent, and the lower valve seat that is attached to the bottom wall of the vaporizing chamber has at least one degree of freedom near the bottom wall of the vaporizing chamber to accommodate the temperature changes.
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이 특허에 인용된 특허 (7)
Heaton Robert A. (Skipton GB2) Leach Stuart C. (Ilkley GB2) Hancock Joseph (Bagslate GB2) Sandy Neil A. (Silsden GB2), Anaesthetic vaporisers.
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