IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0173612
(2008-07-15)
|
등록번호 |
US-8119065
(2012-02-21)
|
발명자
/ 주소 |
- Bowers, William D.
- Quinn, Gregory F.
|
출원인 / 주소 |
|
대리인 / 주소 |
Knobbe Martens Olson & Bear, LLP
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
11 |
초록
▼
An active sampler for detecting contaminants in liquids comprises an inlet, an outlet and a sampling unit positioned such that the liquid flows along a path from the inlet, through the sampling unit, to the outlet. The sampling unit has a plurality of sampling chambers that are substantially fluidly
An active sampler for detecting contaminants in liquids comprises an inlet, an outlet and a sampling unit positioned such that the liquid flows along a path from the inlet, through the sampling unit, to the outlet. The sampling unit has a plurality of sampling chambers that are substantially fluidly sealed relative to one another, wherein one of the sampling chambers is selectively positioned in the flow path. The active sampler also comprises an actuator, which relatively moves the sampling unit and the inlet and outlet such that one sampling chamber is positioned out of the flow path while another of the sampling chambers is positioned in the flow path.
대표청구항
▼
1. An active sampler for liquids, comprising: an inlet;an outlet;a sampling unit positioned between said inlet and outlet, said sampling unit comprising a plurality of sampling chambers housing a sampling media therein, each sampling chamber being selectively alignable with a flow path that extends
1. An active sampler for liquids, comprising: an inlet;an outlet;a sampling unit positioned between said inlet and outlet, said sampling unit comprising a plurality of sampling chambers housing a sampling media therein, each sampling chamber being selectively alignable with a flow path that extends from the inlet, through the sampling unit, to the outlet, the sampling chambers substantially fluidly sealed relative to one another, the flow path including a first flow path section and a second flow path section, the first flow path section extending between the inlet and one end of the aligned sampling chamber, the second flow path section extending between the outlet and another end of the aligned sampling chamber, the sampling chamber interfacing with the first and second flow path sections via resilient sealing members so as to substantially seal the aligned sampling chamber in the flow path from the other sampling chambers;a pump configured to pump liquid selectively through said flow path and the aligned sampling chamber; andan actuator configured to selectively align the flow path and one of the sampling chambers with each other and take the flow path and another of the sampling chambers out of alignment with each other,wherein each of the first and second flow path sections is configured to have minimal flow restrictions such that the pump can produce a flow rate of at least about 10 ml/min through the aligned sampling chamber while drawing generally on the order of about 250 mW of power, thereby increasing the operating time of the sampling unit for a given battery charge. 2. The active sampler of claim 1, wherein the inlet comprises a manifold having multiple inlet ports. 3. The active sampler of claim 1, wherein the sampling unit is a cartridge detachable from the active sampler. 4. The active sampler of claim 3, wherein the cartridge is a revolving carousel configured to move relative to the inlet and outlet to align the flow path with one of the sampling chambers, while taking another sampling chamber out of alignment with the flow path. 5. The active sampler of claim 1, wherein the plurality of sampling chambers are substantially fluidly sealed relative to one another by O-rings disposed at the ends of each chamber. 6. The active sampler of claim 1, wherein the sampling media is a sorbent material. 7. The active sampler of claim 5, wherein the sorbent material is an adsorbent material. 8. The active sampler of claim 1, wherein the actuator relatively moves said sampling unit and said path using a Geneva mechanism. 9. The active sampler of claim 1, wherein the pump comprises a pair of rotatable members that pump said liquid flow by rotating at different rates in the same direction. 10. An active sampler for liquids, comprising: an inlet;an outlet;a sampling unit positioned between said inlet and outlet, said sampling unit comprising a plurality of sampling chambers housing a sampling media therein, each sampling chamber being selectively alignable with a flow path that extends from the inlet, through the sampling unit, to the outlet, the sampling chambers substantially fluidly sealed relative to one another, the flow path including a first flow path section and a second flow path section, the first flow path section extending between the inlet and one end of the aligned sampling chamber, the second flow path section extending between the outlet and another end of the aligned sampling chamber, the sampling chamber interfacing with the first and second flow path sections via resilient sealing members so as to substantially seal the aligned sampling chamber in the flow path from the other sampling chambers;a pump configured to pump liquid selectively through said flow path and the aligned sampling chamber; andan actuator configured to rotate the sampling unit to move one of the sampling chambers into alignment with the flow path and to move another of the sampling chambers out of alignment with the flow path. 11. The system of claim 10, wherein the pump can produce a flow rate of at least about 10 ml/min through the aligned sampling chamber while drawing generally on the order of about 250 mW of power, thereby increasing the operating time of the sampling unit for a given battery charge. 12. The active sampler of claim 10, wherein the inlet comprises a manifold having multiple inlet ports. 13. The active sampler of claim 10, wherein the sampling unit is a cartridge detachable from the active sampler. 14. The active sampler of claim 10, wherein the sampling media is a sorbent material. 15. The active sampler of claim 14, wherein the sorbent material is an adsorbent material. 16. The active sampler of claim 10, wherein the actuator relatively moves said sampling unit and said path using a Geneva mechanism. 17. The active sampler of claim 10, wherein the pump comprises a pair of rotatable members that pump said liquid flow by rotating at different rates in the same direction. 18. An active sampler for liquids, comprising: an inlet;an outlet;a rotatable sampling unit positioned between said inlet and outlet and removably attached to a housing of the active sampler, said sampling unit comprising a plurality of sampling chambers housing a sampling media therein, each sampling chamber being selectively alignable with a flow path that extends from the inlet, through the sampling unit, to the outlet, the sampling chambers substantially fluidly sealed relative to one another, the flow path including a first flow path section and a second flow path section, the first flow path section extending between the inlet and one end of the aligned sampling chamber, the second flow path section extending between the outlet and another end of the aligned sampling chamber, the sampling chamber interfacing with the first and second flow path sections via resilient sealing members so as to substantially seal the aligned sampling chamber in the flow path from the other sampling chambers;a pump configured to pump liquid selectively through said flow path and the aligned sampling chamber; andan actuator configured to rotate the sampling unit to move one of the sampling chambers into alignment with the flow path and to move another of the sampling chambers out of alignment with the flow path. 19. The system of claim 18, wherein the pump can produce a flow rate of at least about 10 ml/min through the aligned sampling chamber while drawing generally on the order of about 250 mW of power, thereby increasing the operating time of the sampling unit for a given battery charge. 20. The active sampler of claim 18, wherein the pump comprises a pair of rotatable members that pump said liquid flow by rotating at different rates in the same direction. 21. The active sampler of claim 10, wherein each of the first and second flow path sections have no valves disposed between the inlet and one end of the sampling unit and no valves disposed between another end of the sampling unit and the outlet. 22. The active sampler of claim 18, wherein each of the first and second flow path sections have no valves disposed between the inlet and one end of the sampling unit and no valves disposed between another end of the sampling unit and the outlet.
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