Disposable pumping system and coupler
First Claim
Patent Images
1. A coupling system for receiving a push rod, the coupling system comprising:
- a housing defining an internal channel having a sloped wall; and
a piston received within the internal channel, the piston including at least one flexible member arranged within the channel to be acted upon by the sloped wall to engage the push rod;
wherein the internal channel includes a region within which the piston is configured to reciprocate while the flexible member is engaged with the push rod.
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Abstract
A coupling system for receiving a push rod includes a housing defining an internal channel having a sloped wall, and a piston received within the internal channel. The piston includes at least one flexible member arranged within the channel to be acted upon by the sloped wall to engage the push rod. The only external force required to couple the push rod is an axial force on the piston in a direction. The only external force required to de-couple the push rod is an axial force on the piston in an opposite direction.
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Citations
18 Claims
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1. A coupling system for receiving a push rod, the coupling system comprising:
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a housing defining an internal channel having a sloped wall; and a piston received within the internal channel, the piston including at least one flexible member arranged within the channel to be acted upon by the sloped wall to engage the push rod; wherein the internal channel includes a region within which the piston is configured to reciprocate while the flexible member is engaged with the push rod. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A coupling system for receiving a push rod, the coupling system comprising:
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a housing defining an internal channel; and a piston received within the internal channel, the piston including at least one flexible member configured to couple and de-couple the push rod, wherein the only external force required to couple the push rod is an axial force on the piston in a first direction, and the only external force required to de-couple the push rod is an axial force on the piston in a second direction opposite the first direction; and wherein the piston is configured to reciprocate within a region of the internal channel while the flexible member is engaged with the push rod.
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9. A method comprising:
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axially advancing a coupling system such that a piston of the coupling system contacts a push rod, the piston being received within a channel of the coupling system, the channel having a sloped wall; further axially advancing the coupling system such that the sloped wall acts on at least one flexible member of the piston to deflect the at least one flexible member into engagement with the push rod; and driving the push rod in a reciprocal manner.
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10. A method comprising:
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applying an external force to couple a piston and a push rod, wherein the only external force required for the coupling is an axial force applied to the piston by the push rod such that the piston moves into engagement with the push rod; driving the push rod in a reciprocal manner; and applying an external force to decouple the piston and the push rod, wherein the only external force required for the de-coupling is an axial force applied to the piston by the push rod such that the piston disengages the push rod.
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11. A fluid pump comprising:
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a housing having an inflow section defining an inflow chamber, and an outflow section defining an outflow chamber; an inflow ball valve including a ball located in the inflow chamber; an outflow ball valve including a ball located in the outflow chamber; the housing defining an internal channel in fluid communication with the inflow section and the outflow section; and a piston including a flexible member, the piston located within the internal channel and configured to pump fluid from the inflow section into the channel and from the channel into the outflow section, wherein a ratio of a diameter of the ball included in the inflow ball valve to a diameter of the inflow chamber is 1;
1.088, a ratio of the diameter of the ball included in the inflow ball valve to a piston stroke is 1;
2.160, wherein a ratio of a diameter of the internal channel to the ball included in the inflow ball valve is 1;
1.1786, and a ratio of the diameter of the inflow chamber to a diameter of the housing defining the internal channel is 1;
3.857. - View Dependent Claims (12)
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13. A fluid pump comprising:
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a housing defining an internal channel having a sloped wall, first and second fluid flow chambers in the housing in fluid communication with the internal channel; a first ball valve including a ball located in the first fluid chamber; a second ball valve including a ball located in the second fluid chamber; and a piston including a flexible member, the piston received in the housing and the flexible member configured to be acted upon by the sloped wall to couple to a push rod for movement therewith, wherein reciprocal movement of the piston causes fluid inflow through the first fluid chamber and fluid outflow through the second fluid chamber. - View Dependent Claims (14, 15, 17, 18)
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16. A pumping system, comprising:
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a console including an interface for receiving a fluid pump, the console including a reciprocally driven push rod, the interface including a rotatable sleeve; and the fluid pump, said fluid pump having a piston configured to be driven by the push rod, the fluid pump including a mating feature configured to rotate the rotatable sleeve upon the application of a rotary force to the mating feature to lock and unlock the fluid pump to and from the console, the console including a magnet for holding the rotatable sleeve in the locked position.
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Specification