IPC분류정보
국가/구분 |
United States(US) Patent
공개
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0775229
(2001-02-01)
|
공개번호 |
US-0014477
(2001-08-16)
|
발명자
/ 주소 |
- Pelc, Richard E.
- Chibucos, Nicholas S.
- Papen, Roeland F.
- Meyer, Wilhelm F.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
0 |
초록
▼
A microvolume liquid handling system includes a microdispenser employing a piezoelectric transducer attached to a glass capillary, a positive displacement pump for priming and aspirating transfer liquid into the microdispenser, controlling the pressure of the liquid system, and washing the microdisp
A microvolume liquid handling system includes a microdispenser employing a piezoelectric transducer attached to a glass capillary, a positive displacement pump for priming and aspirating transfer liquid into the microdispenser, controlling the pressure of the liquid system, and washing the microdispenser between liquid transfers, and a pressure sensor to measure the liquid system pressure and produce a corresponding electrical signal. The pressure signal is used to verify and quantify the microvolume of transfer liquid dispensed and is used to perform automated calibration and diagnostics on the microdispenser. In another embodiment of the microvolume liquid handling system, a system reservoir is connected with tubing to a pressure control system for controlling the liquid system pressure in the system reservoir. The system reservoir is coupled to one or more microdispensers through a distribution tube having a branched section for each microdispenser. In this embodiment, each microdispenser is coupled to its own flow sensor and to enable a system controller to respectively measure and control the flow of liquid in the each microdispenser. Dispensing of a single sub-nanoliter drop can be detected in real time. As the result of dispensing the liquid in sub-nanoliter droplets, the dispensed volume can be precisely controlled. The dispenser automatically detects the liquid surface of the transfer liquid, automatically aspirate, analyze desired volume of the transfer liquid, dispense the transfer liquid without contacting the destination vessel or its contents, and automatically wash off the transfer liquid from dispensing system after each transfer. This system is capable of automatically sensing liquid surfaces, aspirating liquid to be transferred, and then dispensing small quantities of liquid with high accuracy, speed and precision. The system is pulsated at high frequency to prevent or eliminate clogging. Immiscible liquid between the transfer liquid and the system liquid reduces the required amount of transfer liquid needed for dispensing.
대표청구항
▼
1. A system for dispensing precise quantities of a transfer liquid, said system comprising:an enclosed space for holding fluids including said transfer liquid, a system liquid and a compressible fluid, said compressible fluid separating said transfer liquid from said system liquid said enclosed spac
1. A system for dispensing precise quantities of a transfer liquid, said system comprising:an enclosed space for holding fluids including said transfer liquid, a system liquid and a compressible fluid, said compressible fluid separating said transfer liquid from said system liquid said enclosed space having an outlet; means for supplying said system liquid into said enclosed space; means for introducing said compressible fluid into said enclosed space adjacent to said system liquid; means for providing said transfer liquid into said enclosed space adjacent to said compressible fluid and on the other side of the said compressible fluid from said system liquid, such that said compressible fluid separates said system liquid from said transfer liquid; and said transfer liquid is between said outlet and said compressible fluid; means for dispensing a quantity of said transfer liquid out of said outlet without introducing any fluid into said enclosed space during dispensing; means for sensing pressure change in said enclosed space resulting from the volume of the transfer liquid being dispensed; means for converting said pressure change to the volume of the transfer liquid dispensed by said dispensing means. 2. A method for dispensing from an enclosed space having a dispensing port, precise quantities of a transfer liquid and determining the precise volume of the transfer liquid,(a) transferring into the enclosed space a system liquid; (b) supplying into the enclosed space a compressible fluid adjacent to said system liquid; (c) transferring into the enclosed space a transfer liquid on the other side from said system liquid such that the compressible fluid, separates said transfer liquid from said system liquid adjacent to said compressible fluid, said transfer liquid being adjacent to the dispensing port; (d) dispensing droplets of the transfer liquid through said dispensing port; (e) sensing pressure change in the enclosed space resulting from the droplets being dispensed; (f) converting the pressure change sensed in step (e) into volume of liquid dispensed. 3. A method for dispensing from an enclosed space having a dispensing port precise quantities of a transfer liquid, said method comprising the following steps:(a) introducing into the enclosed space a system liquid; (b) introducing into the enclosed space a compressible fluid; (c) introducing into the enclosed space a transfer liquid such that said compressible fluid separates said system liquid from said transfer liquid, said dispensing liquid being adjacent to said dispensing port; (d) dispensing a predetermined number of droplets of the transfer liquid through the dispensing port; (e) sensing the pressure change in the enclosed space resulting from dispensing of the drops in step (d); (f) converting the pressure change into the volume of the transfer liquid; (g) comparing the volume of the liquid dispensed in step (d) with the predetermined volume. 4. A microvolume liquid handling system for dispensing small quantities of liquids, comprising:pumping means for controlling the pressure and flow of a first liquid; microdispenser means for dispensing microvolumes of a second liquid, said first liquid and said second liquid separated by a compressible fluid; a sensor for converting pressure changes in at least one of said first liquid and said second liquid into a signal; tubing means for connecting said pumping means to said sensor and said sensor to said microdispenser means; and means for converting the signal into an indication of fluid volume dispensed; vibrating means for vibrating said microdispenser means at a frequency sufficiently high to dislodge foreign material adhering to said microdispenser. 5. The microvolume liquid handling system of claim 4 wherein said vibrating means further comprises a piezoelectric transducer. 6. The microvolume liquid handling system of claim 4 wherein said frequency is a high frequency. 7. The microvolume liquid handling system of claim 6 wherein said frequency is approximately a resonant ultrasonic frequency of said microdispenser means. 8. The microvolume liquid handling system of claim 7 wherein said resonant frequency is approximately 12 kHz. 9. A process for cleaning a microvolume liquid handling system, said microvolume liquid handling system including a microdispenser having a capillary portion for dispensing droplets and a constricting portion for constricting said capillary portion, comprising the steps of:pulsing said constricting portion at a frequency sufficient to dislodge foreign material adhering to interior surfaces of said capillary portion, said foreign material being dislodged into a liquid in said capillary portion; and applying positive pressure to said liquid in said capillary portion to flush said dislodged foreign material in said liquid out of said capillary portion of said microdispenser. 10. The process for cleaning a microvolume liquid handling system of claim 9 , wherein said frequency is approximately a resonant frequency of said microdispenser. 11. A process for preventing clogging of a microvolume liquid handling system, said microvolume liquid handling system including a microdispenser having a capillary portion for dispensing droplets through a nozzle and a constricting portion for constricting said capillary portion, comprising the steps of:b ringing said nozzle and a source of transfer liquid containing foreign matter into operational contact; aspirating said transfer liquid through said nozzle into said capillary portion of said microdispenser; and pulsing constricting portion at a frequency sufficient to dislodge said foreign material adhering to said nozzle of said capillary portion. 12. The process for preventing clogging of a microvolume liquid handling system of claim 11 , wherein said frequency is approximately a resonant frequency of said microdispenser. 13. A process for unclogging of a microvolume liquid handling system, said microvolume liquid handling system including a microdispenser having a capillary portion for dispensing droplets through a nozzle and a constricting portion for constricting said capillary portion, comprising the steps of:pulsing said constricting portion at a frequency sufficient to dislodge foreign material adhering to said nozzle of said capillary portion. 14. The process for preventing clogging of a microvolume liquid handling system of claim 13 , wherein said frequency is approximately a resonant frequency of said microdispenser. 15. A microvolume liquid handling system for dispensing small quantities of liquids, comprising:a system liquid reservoir containing a system liquid; a pressure control system having a pump capable of increasing or decreasing pressure of said system liquid in said system liquid reservoir; a hollow tube connecting said pressure control system to said system liquid reservoir; a distribution tube having at least one section; a microdispenser having a capillary portion for dispensing droplets of a transfer liquid through a nozzle and a constricting portion for constricting said capillary portion; a valve coupled at a first end to said system liquid reservoir through one section of said a distribution tube, said valve coupled at a second end to said microdispenser; a sensor coupled to said section of said distribution tube, said sensor capable of detecting at least one of either pressure or flow of system liquid in said distribution tube and generating a corresponding signal; and a system controller coupled to said valve to control said valve, said system controller coupled to said sensor to receive said signal, said system controller coupled to said pressure control system to direct said pressure control system to increase or decrease pressure in said system liquid, and said system controller being coupled to said constricting portion to activate said constricting portion. 16. The microvolume liquid handling system for dispensing small quantities of liquids of claim 15 , wherein said constricting portion is constric ted at a frequency sufficiently high to dislodge foreign material adhering to said microdispenser. 17. A microvolume liquid handling system for dispensing small quantities of liquids, comprising:a microtitre plate having an array of wells disposed therein, said wells have a bottom portion transparent to light, said bottom portion forming bottom walls of said wells, and a top portion opaque to light, said top portion having gaps that form side walls of the wells; a light source for emitting light adjacent to said bottom portion of said microtitre plate such that said light is transmitted through said transparent bottom portion and through said gaps in said top portion of said microtitre plate; a microdispenser having a capillary portion for dispensing droplets of a transfer liquid through a nozzle and a constricting portion for constricting said capillary portion; a robot connected to said microdispenser, said robot capable of moving said microdispenser adjacent to said top portion of said microtitre plate; and a light sensor for sensing said light passing though said wells of said microtitre plate and producing a corresponding light signal when said light is sensed; and a system controller, said system controller being electrically coupled to said light sensor for receiving said light signal, said system controller being electrically coupled to said robot, and said system controller directing said robot to position said microdispenser at a desired position above said top portion of said microtitre plate in response to said light signal to dispense one or more droplets from said nozzle of said microdispenser into one of said wells. 18. The microvolume liquid handling system of claim 4 wherein said pressure sensor contains a piezoresistive element capable of converting pressure into an electrical signal. 19. The microvolume liquid handling system of claim 4 wherein said tubing means further comprises teflon. 20. The microvolume liquid handling system of claim 4 wherein said means for dispensing further comprise a capillary and a piezoelectric transducer in substantially radial contact with a portion of said capillary. 21. The microvolume liquid handling system of claim 4 wherein said microdispenser is mounted on a robotic system capable of moving said microdispenser. 22. The microvolume liquid handling system of claim 4 wherein said robotic system is a three-axis system. 23. The microvolume liquid handling system of claim 15 wherein said constricting portion of said microdispenser is capable of vibrating said microdispenser at a frequency sufficiently high to dislodge foreign material adhering to interior surfaces of said microdispenser.
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