초록 ▼

A piston-type drive mechanism in combination with a positive pressure reservoir for delivery of infusion medium. A coil capable of being electrically activated to provide an electromagnetic field. The coil surrounds a piston channel extending in an axial direction. The piston channel provides a pass

A piston-type drive mechanism in combination with a positive pressure reservoir for delivery of infusion medium. A coil capable of being electrically activated to provide an electromagnetic field. The coil surrounds a piston channel extending in an axial direction. The piston channel provides a passage for communication of infusion medium from the positive pressure reservoir to an outlet chamber. A piston is located within the piston channel and is moveable axially within the channel to a forward position. The piston is moved toward a retracted position, when the coil is not energized. As the piston is moved to its forward position, pressure moves a valve member into an open position. When the valve member is in the open position, medium from the piston chamber is discharged into the outlet chamber. An outlet is provided in flow communication with the outlet chamber, for discharging infusion medium from the outlet chamber.

대표청구항 ▼

What is claimed is: 1. An infusion medium delivery device comprising: a reservoir for containing infusion medium under positive pressure; a drive device having: an inlet for receiving infusion medium under positive pressure; a piston channel for communication of infusion medium received by the inle

What is claimed is: 1. An infusion medium delivery device comprising: a reservoir for containing infusion medium under positive pressure; a drive device having: an inlet for receiving infusion medium under positive pressure; a piston channel for communication of infusion medium received by the inlet; a coil surrounding the piston channel; an armature disposed adjacent the coil, on one side of the piston channel; an outlet chamber disposed adjacent the coil, on the opposite side of the piston channel relative to the armature for receiving infusion medium from the channel; a piston located within the piston channel and moveable axially within the piston channel for allowing infusion medium to enter the outlet chamber under positive pressure; and an outlet in flow communication with the outlet chamber, for discharging a metered amount of infusion medium from the outlet chamber; a first valve member positioned downstream of the piston channel in a flow path of infusion medium, said first valve member moveable between opened and closed positions to selectively open and close one end of the piston channel to the outlet chamber, said one end of the piston channel closed to the outlet chamber when the first valve member is in the closed position; and a second valve member in fluid communication with the first valve member and positioned downstream of the first valve member in the flow path of infusion medium, the second valve member being moveable between opened and closed positions; wherein the first valve member is configured such that the first valve member is in the opened position at least when the metered amount of infusion medium beams to be discharged from the outlet chamber. 2. The device as recited in claim 1, wherein the second valve member comprises a pressure regulating valve in fluid communication with the first valve member and positioned downstream of the first valve member in a flow path of the infusion medium for regulating flow of the infusion medium. 3. The device as recited in claim 2, wherein the pressure regulating valve has a low pressure cut-off point approximately equal to the positive pressure exerted by the positive pressure reservoir on the infusion medium. 4. The device as recited in claim 1, wherein the first valve member is moveable between the opened and closed positions to selectively allow and inhibit fluid flow between the inlet and the outlet. 5. The device as recited in claim 1, wherein the first valve member is moveable in response to axial movement of the piston within the piston channel. 6. The device as recited in claim 1, further including a housing containing the coil and the outlet chamber, the housing having at least one fluid flow damping means or accumulator disposed in a flow path between the outlet chamber and the outlet, for reducing flow pressure variations. 7. The device as recited in claim 1, wherein the second valve member is in the outlet chamber. 8. The device as recited in claim 1, wherein the second valve member is external to the outlet chamber. 9. The device as recited in claim 1, wherein the second valve member operates with a valve seat against which the second valve member is elastically compressed. 10. The device as recited in claim 1, wherein the second valve member comprises a ball valve structure. 11. The device as recited in claim 1, wherein the second valve member includes: a valve seat; a spring; and a ball elastically pressed against the valve seat by the spring and moveable away from the valve seat by a predetermined pressure. 12. The device as recited in claim 1, further including a bacterial particulate filter for filtering particulate matter from the infusion medium. 13. The device as recited in claim 1, wherein the piston is moveable in the axial direction of the channel between a retracted position and a forward position, wherein the first valve member is located in the closed position when the piston is in the retracted position and wherein the first valve member is moved to the opened position when the piston is moved to the forward position. 14. The device as recited in claim 1, wherein the piston is moveable in the axial direction of the piston channel between a retracted position and a forward position such that, upon the piston being in the retracted position, a volume is defined between the piston and the first valve member for receiving infusion medium through the piston channel under positive pressure and, upon the piston thereafter being moved toward the forward position, the volume between the piston and the first valve member decreases to increase infusion medium pressure within the volume, force the first valve member to the opened position and discharge infusion medium into the outlet chamber. 15. The device as recited in claim 1, further including: a valve spring for urging the first valve member in the closed position; wherein the first valve member and valve spring are located within the outlet chamber. 16. The device as recited in claim 1, wherein the second valve member comprises a valve member that is in a closed position to inhibit fluid flow when pressure within the outlet chamber exceeds a predefined level. 17. The device as recited in claim 1, wherein the reservoir provides a first positive fluid pressure to fluid in the outlet chamber upon the reservoir containing infusion medium under positive pressure and wherein the second valve member comprises a valve member that is in a closed position to inhibit fluid flow when pressure within the outlet chamber is at or below the first positive fluid pressure. 18. The device as recited in claim 1, wherein the reservoir provides a first positive fluid pressure to fluid in the outlet chamber upon the reservoir containing infusion medium under positive pressure and wherein the second valve member comprises a valve member that is in a closed position to inhibit fluid flow when pressure within the outlet chamber is at or below the first positive fluid pressure and is in an open position to allow fluid flow when pressure within the outlet chamber is greater than the first positive fluid pressure. 19. An infusion device for delivery of infusion medium comprising: a reservoir for containing infusion medium under positive pressure; a drive device having: an inlet for receiving infusion medium under positive pressure; at least one coil capable of being electrically activated to provide an electromagnetic field, the at least one coil surrounding an axial piston channel that provides a passage for communication of infusion medium received by the inlet; an armature disposed adjacent the coil, on one side of the axial piston channel and moveable in a first direction relative to the coil, in response to the electromagnetic field produced by an activation of the coil; a piston located within the piston channel and moveable axially within the channel in the first direction, in response to movement of the armature; an outlet chamber disposed adjacent the coil, on the opposite side of the piston channel relative to the armature for receiving infusion medium from the piston channel under positive pressure, upon movement of the piston in the first direction; an outlet in flow communication with the outlet chamber, for discharging infusion medium from the outlet chamber; a first valve member positioned downstream of the piston channel in a flow path of infusion medium, said first valve member moveable between opened and closed positions to selectively open and close one end of the piston channel to the outlet chamber, said one end of the piston channel closed to the outlet chamber when the first valve member is in the closed position; and a second valve member in fluid communication with the first valve member and positioned downstream of the first valve member in the flow path of infusion medium, the second valve member being moveable between opened and closed positions; wherein the first valve member is configured such that the first valve member is in the opened position at least when infusion medium begins to be discharged from the outlet chamber. 20. The device as recited in claim 19, wherein the second valve member comprises a valve member that is in a closed position to inhibit fluid flow when pressure within the outlet chamber exceeds a predefined level. 21. The device as recited in claim 19, wherein the reservoir provides a first positive fluid pressure to fluid in the outlet chamber upon the reservoir containing infusion medium under positive pressure and wherein the second valve member comprises a valve member that is in a closed position to inhibit fluid flow when pressure within the outlet chamber is at or below the first positive fluid pressure. 22. The device as recited in claim 19, wherein the reservoir provides a first positive fluid pressure to fluid in the outlet chamber upon the reservoir containing infusion medium under positive pressure and wherein the second valve member comprises a valve member that is in a closed position to inhibit fluid flow when pressure within the outlet chamber is at or below the first positive fluid pressure and is in an open position to allow fluid flow when pressure within the outlet chamber is greater than the first positive fluid pressure. 23. An infusion device for delivering infusion medium, the device comprising: a housing having an outlet through which infusion medium may be discharged; a positive pressure reservoir disposed within the housing, for containing a volume of infusion medium under positive pressure; a control circuit for providing drive control signals; a drive mechanism disposed within the housing, for metering infusion medium out the outlet, in response to drive control signals from the control circuit; and a power source disposed within the housing, for providing power to the control circuit and drive mechanism; wherein the drive mechanism comprises: an inlet for receiving infusion medium from the reservoir under positive pressure; at least one coil capable of being electrically activated to provide an electromagnetic field in response to a signal from the control circuit, the at least one coil surrounding an axial piston channel that provides a passage for communication of infusion medium received by the inlet; an armature disposed adjacent the coil, on one side of the axial channel and moveable in a first direction relative to the coil, in response to the electromagnetic field produced by an activation of the coil; a piston located within the piston channel of the coil and moveable axially within the channel in the first direction, in response to movement of the armature; an outlet chamber disposed adjacent the coil, on the opposite side of the piston channel relative to the armature for receiving infusion medium from the piston channel, upon movement of the piston in the first direction; an outlet port in flow communication with the outlet chamber and the housing outlet, for discharging infusion medium from the outlet chamber, through the housing outlet; a first valve member positioned downstream of the piston channel in a flow path of infusion medium, said first valve member moveable between opened and closed positions to selectively open and close one end of the piston channel to the outlet chamber, said one end of the piston channel closed to the outlet chamber when the first valve member is in the closed position; and a second valve member in fluid communication with the first valve member and positioned downstream of the first valve member in the flow path of infusion medium, the second valve member being moveable between opened and closed positions; and wherein the first valve member is configured such that the first valve member is in the opened position at least when infusion medium begins to be discharged from the outlet chamber. 24. The device as recited in claim 23, wherein the second valve member comprises a valve member that is in a closed position to inhibit fluid flow when pressure within the outlet chamber exceeds a predefined level. 25. The device as recited in claim 23, wherein the reservoir provides a first positive fluid pressure to fluid in the outlet chamber upon the reservoir containing infusion medium under positive pressure and wherein the second valve member comprises a valve member that is in a closed position to inhibit fluid flow when pressure within the outlet chamber is at or below the first positive fluid pressure. 26. The device as recited in claim 23, wherein the reservoir provides a first positive fluid pressure to fluid in the outlet chamber upon the reservoir containing infusion medium under positive pressure and wherein the second valve member comprises a valve member that is in a closed position to inhibit fluid flow when pressure within the outlet chamber is at or below the first positive fluid pressure and is in an open position to allow fluid flow when pressure within the outlet chamber is greater than the first positive fluid pressure.