IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0341449
(2003-01-13)
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발명자
/ 주소 |
- Fowler, Reginald H.
- Barker, Garrett L.
- French, C. Kenneth
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
7 인용 특허 :
24 |
초록
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The automatically controlled pump supplies pressurized irrigation fluid to a surgical site. The pump system includes a motor in a housing and a pump in a housing defining input and output ports. The pump has a rotatable impeller. The motor is powered by batteries. The system operates in conjunction
The automatically controlled pump supplies pressurized irrigation fluid to a surgical site. The pump system includes a motor in a housing and a pump in a housing defining input and output ports. The pump has a rotatable impeller. The motor is powered by batteries. The system operates in conjunction with a downstream manual suction/irrigation control valve. In one system, an ON/OFF motor switch is controlled by fluid flow above a nominal flow by a sensor typically mounted downstream of the pump. In another, flow is detected by a negative buoyancy poppet having a “leaky” valve seat. When the poppet moves, its position is sensed and the switched motor is ON. In a remote control system, the motor is remotely controlled by a switch integrated into the manual control valve. One method automatically controls a pump by monitoring fluid flow above a system minimal flow and turning ON/OFF the motor based upon flow above the minimum.
대표청구항
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1. A method of automatically controlling a pump and supplying pressurized fluid via an output line to a fluid control valving system and to a surgical site, said pump adapted to be coupled to a fluid source and adapted to be disposed at an elevated position with respect to said fluid control valving
1. A method of automatically controlling a pump and supplying pressurized fluid via an output line to a fluid control valving system and to a surgical site, said pump adapted to be coupled to a fluid source and adapted to be disposed at an elevated position with respect to said fluid control valving system, the method comprising the steps of:providing a battery powered motor mechanically coupled to said pump; monitoring fluid flow at or near the pump's output and turning ON said motor and pumping fluid based upon fluid flow above a predetermined amount in said output line coupled thereto, said predetermined amount being greater than a system minimal flow; and, permitting fluid flow at or below said system minimal flow without turning ON said motor and pump. 2. A method of controlling a pump as claimed in claim 1 including the step of turning OFF said motor and pump based upon fluid flow below said system minimal flow.3. A method as claimed in claim 1 wherein said step of monitoring and turning ON and OFF occurs without operator intervention.4. A method of controlling a pump as claimed in claim 2 wherein the step of monitoring occurs downstream of said pump.5. A method of automatically controlling a pump and supplying pressurized fluid via an output line to a surgical site, said pump adapted to be coupled to a fluid source, the method comprising the steps of:providing a battery powered motor mechanically coupled to said pump; turning ON and OFF said motor based upon control signals from a remotely disposed switch in said output line; and supplying fluid from said fluid source beneath said pump's output and pumping fluid into said output line above said pump's output. 6. A method of controlling a pump as claimed in claim 5 including the step of supplying battery power to said motor above said pump's output.7. A method of controlling a pump as claimed in claim 5 wherein said step of turning ON and OFF occurs remotely with respect to said pump.8. A method of controlling a pump as claimed in claim 5 including the step of manually removing battery power from said motor with operator intervention.9. A method of controlling a pump as claimed in claim 5 wherein fluid flow is established vertically by said pump.10. A method of automatically controlling a pump and supplying pressurized fluid via an output line and a valve control unit to a surgical site, said pump adapted to be coupled to a fluid source, the method comprising the steps of:providing a battery powered motor mechanically coupled to said pump; turning ON and OFF said motor based upon control signals from a remotely disposed switch in said valve control; and supplying fluid from said fluid source beneath said pump's output. 11. A method of automatically controlling a pump as claimed in claim 10 including pumping said fluid vertically with said pump.12. A method of controlling a pump as claimed in claim 10 conveying said control signals in an electrical connector adjacent or integral with said output line.13. A method of controlling a pump as claimed in claim 10 wherein said control valve includes two depressible valve actuators, the method including detecting a depressed condition of one of said depressible valve actuators and generating said control signal.14. A method of controlling a pump as claimed in claim 13 wherein the step of detecting occurs inside of said control valve.15. An automatic pump system for irrigating a surgical site, said pump system adapted to be coupled to a source of surgical fluid via an input line and adapted to deliver a pressurized supply of surgical fluid to a fluid control valving system via an output line, said pump system comprising:a laterally disposed housing encompassing a motor and a pump unit; said pump unit having a pump housing, an impeller mechanically coupled to said motor and rotatably disposed within said pump housing, said pump housing defining a first and a second fluid port respectively adapted to be coupled to said input and output line; an electrical system with at least one battery supplying electrical power to said motor; said first fluid port disposed below said second fluid port such that said fluid is forced vertically upward in said pump housing; and a switch, integrated within said fluid control valving system remote from said motor, for turning ON and OFF said motor and pump. 16. An automatic pump system as claimed in claim 15 wherein said motor and pump are mounted laterally with respect to each other and said battery housing is disposed above said motor and pump.17. An automatic pump system as claimed in claim 15 wherein said switch generates a control signal to turn ON and OFF said motor, the system including a control line to carry said control signal.18. An automatic pump system as claimed in claim 15 wherein said at least one battery is a plurality of batteries which are mounted in a battery sub-housing unit, said battery sub-housing unit mounted above said motor such that said housing encompassing said motor and pump unit is vertically disposed beneath both said battery sub-housing.19. An automatic pump system as claimed in claim 18 wherein said battery sub-housing unit has a distal end remote from the motor and pump housing, said distal end defining a hanger for said automatic pump system.20. An automatic pump system as claimed in claim 17 wherein said first port is disposed laterally with respect to said housing encompassing said motor and pump unit.21. An automatic pump system as claimed in claim 20 wherein said second port is disposed above said housing encompassing said motor and pump unit.22. An automatic pump system as claimed in claim 15 wherein said pump is a centrifugal pump.23. An automatic pump system as claimed in claim 22 wherein said pump housing is vertically disposed.24. An automatic pump system as claimed in claim 15 wherein said electrical system includes a manual ON-OFF switch.25. An automatic pump system as claimed in claim 19 wherein said battery sub-housing unit is elongated and vertically positioned.26. An automatic pump system as claimed in claim 16 wherein said pump housing is attached beneath said housing encompassing said motor; said first port is disposed beneath said pump housing; and said second port is disposed substantially laterally with respect to said pump housing.27. An automatic pump system as claimed in claim 26 wherein said at least one battery is a plurality of batteries which are mounted in a battery sub-housing unit, said battery sub-housing unit mounted above said motor, and said battery sub-housing unit has a distal end, remote from said pump housing, defining a hanger for said automatic pump system.28. An automatic pump system as claimed in claim 15 wherein said first and second ports define respective hose couplers for said input and output lines.29. An automatic pump system as claimed in claim 27 wherein the motor housing and said pump housing are structurally integrated together.30. An automatic pump system as claimed in claim 16 including a check valve mounted at a fluidic position downstream of said pump unit.31. An automatic pump system as claimed in claim 27 including a check valve mounted at a fluidic position downstream of said pump unit.32. A pump as claimed in claim 15 wherein said input port has an inboard end which is disposed inboard of said impeller.33. A pump as claimed in claim 27 wherein said input port has an inboard end which is disposed inboard of said impeller.34. An automatically controlled pump for supplying pressurized fluid via an output line to a surgical site, said pump adapted to be coupled to a fluid source via an input line, said pump comprising:a motor and a motor housing; a pump disposed within a pump housing, said pump having a rotatably disposed impeller coupled to said motor, said pump housing defining a fluid input and a fluid output port respectively adapted to be coupled to said input and said output line; said motor powered by at least one battery; a switch, turning ON and OFF said motor, integrated within said fluid control valving system remote from said motor. 35. A pump as claimed in claim 34 wherein said pump housing is attached laterally with respect to said motor housing and said motor is powered by a plurality of batteries which are mounted in a battery housing above said motor housing.36. A pump as claimed in claim 35 wherein said battery housing forms a hanger on a terminal end remote from said pump housing.37. A pump as claimed in claim 35 wherein said input port is disposed laterally beside said pump housing.38. A pump as claimed in claim 37 wherein said output port is disposed vertically above said pump housing.39. A pump as claimed in claim 38 including a manual ON and OFF switch for said motor.40. A pump as claimed in claim 39 including a check valve mounted in said pump housing downstream of said pump housing.41. A pump as claimed in claim 34 wherein said input port has an inboard end which is disposed inboard of said impeller.42. A pump as claimed in claim 40 wherein said input port has an inboard end which is disposed inboard of said impeller.43. An irrigation surgical kit, adapted to be coupled to a fluid source bag, for supplying pressurized fluid to a surgical site comprising:a spike adapted to be forcibly inserted into said fluid source bag; a first line fluidly coupled to said spike and said fluid source bag; an automatically controlled pump having: a motor and a motor housing; a laterally disposed pump disposed within a pump housing, said pump having a rotatably disposed impeller coupled to said motor, said pump housing defining a fluid input and a fluid output port respectively coupled to said first line and a second line, said pump pumping fluid vertically upward toward said fluid output port; said motor powered by at least one battery; an operator controlled valve adapted to be disposed near said surgical site; a switch integrated within said operator controlled valve, turning ON and OFF said motor; said second line being an elongated, flexible tube fluidly coupling said output port of said pump with said operator controlled valve thereby enabling the delivery of pressurized fluid to said site. 44. A kit as claimed in claim 43 wherein said pump housing is attached laterally beside said motor housing and said motor is powered by a plurality of batteries which are mounted in a battery housing above said motor housing.45. A kit as claimed in claim 44 wherein said battery housing forms a hanger on a terminal end remote from said pump housing.46. A kit as claimed in claim 44 wherein said input port is laterally disposed with respect to said pump housing.47. A kit as claimed in claim 46 wherein said output port is disposed vertically above said pump housing.48. A kit as claimed in claim 47 including a manual ON and OFF switch for said motor at said motor housing.49. A kit as claimed in claim 44 including a third line adapted for use as a suction line and a two control valve coupled to said second line adapted to deliver pressurized fluid to said site and said third line adapted to provide suction from said site, said two control valve controlling pressurized fluid flow and suction to and from said site.50. A kit as claimed in claim 48 wherein said pump includes a check valve mounted downstream of said pump housing.
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