Disclosed are embodiments of a pinch valve assembly that can include a controller, an actuator assembly, the actuator assembly including a stepper motor, a leadscrew actuated by the stepper motor such that the leadscrew travels in a plurality of incremental linear steps, a piston coupled with the le
Disclosed are embodiments of a pinch valve assembly that can include a controller, an actuator assembly, the actuator assembly including a stepper motor, a leadscrew actuated by the stepper motor such that the leadscrew travels in a plurality of incremental linear steps, a piston coupled with the leadscrew such that relative movement of the leadscrew is transferred to the piston, a valve body, where the piston travels within a bore defined by the valve body, a slotted aperture formed in the valve body to retain at least a portion of tubing, and a pin where the piston and the pin are configured to pinch tubing therebetween such that flow within the tubing can be metered.
대표청구항▼
1. A pinch valve assembly comprising: a. a controller, wherein the controller is preprogrammed with a plurality of selectable modes including; i. a step and direction mode;ii. a flow monitoring mode;iii. a flow and fill mode; andiv. an unclog mode; andb. an actuator assembly, the actuator assembly i
1. A pinch valve assembly comprising: a. a controller, wherein the controller is preprogrammed with a plurality of selectable modes including; i. a step and direction mode;ii. a flow monitoring mode;iii. a flow and fill mode; andiv. an unclog mode; andb. an actuator assembly, the actuator assembly including a stepper motor, wherein the stepper motor is coupled to the controller such that the stepper motor is controlled by the controller;c. a leadscrew, the leadscrew being actuated by the stepper motor such that the leadscrew travels in a plurality of incremental linear steps in a first direction and a second direction in response to the plurality of selectable modes;d. a piston, the piston being coupled with the leadscrew such that relative movement of the leadscrew is transferred to the piston;e. a valve body, the valve body being coupled with the actuator assembly, wherein the piston travels in the first direction and the second direction within a bore defined by the valve body; andf. an aperture, the aperture being formed in the valve body, wherein the aperture is configured to retain at least a portion of tubing such that fluid or gas flow within the tubing can be metered. 2. The pinch valve assembly of claim 1, wherein the leadscrew is non-back drivable. 3. A pinch valve assembly comprising: a. a controller, wherein the controller is preprogrammed with a plurality of selectable modes including; i. a step and direction mode;ii. a flow monitoring mode;iii. a flow and fill mode; andiv. an unclog mode; andb. an actuator assembly, the actuator assembly including a stepper motor, wherein the stepper motor is coupled to the controller such that the stepper motor is controlled by the controller;c. a leadscrew, the leadscrew being actuated by the stepper motor such that the leadscrew travels in a plurality of incremental linear steps of 0.0005 inches in a first direction and a second direction;d. a piston, the piston being coupled with the leadscrew such that relative movement of the leadscrew is transferred to the piston, wherein the piston includes a projection;e. a cylindrical valve body, the cylindrical valve body being coupled with the actuator assembly, wherein the piston travels in the first direction and the second direction within a bore defined by the cylindrical valve body;f. a slotted aperture, the slotted aperture being formed in a lower portion of the cylindrical valve body and having a slotted portion and a substantially annular portion, wherein the substantially annular portion is configured to retain tubing; andg. a dowel pin, the dowel pin being inserted into the valve body, wherein the projection of the piston and the dowel pin cooperate to pinch the tubing therebetween such that flow within the tubing can be metered by the controller in accordance with the plurality of selectable modes. 4. The pinch valve assembly of claim 1, wherein the plurality of incremental linear steps are 0.0005 inches in the first direction and the second direction. 5. The pinch valve assembly of claim 1, wherein the plurality of incremental linear steps are from 0.001 inches to 0.0005 inches in the first direction and the second direction. 6. The pinch valve assembly of claim 1, wherein the plurality of incremental linear steps are from 0.002 inches to 0.004 inches in the first direction and the second direction. 7. The pinch valve assembly of claim 1, wherein the plurality of incremental linear steps are 0.0005 inches in the first direction and the second direction. 8. The pinch valve assembly of claim 1, wherein the piston is only moveable when the piston is energized. 9. The pinch valve assembly of claim 1, wherein the controller is operably configured to receive a step count and a direction of rotation in the step and direction mode. 10. The pinch valve assembly of claim 1, wherein the controller is operably configured to receive a target flow rate input and a flow monitoring frequency in the flow monitoring mode. 11. The pinch valve assembly of claim 1, wherein the controller is operably configured to receive an optimal instantaneous flow rate and a volumetric flow target in the flow and fill mode. 12. The pinch valve assembly of claim 3, wherein the plurality of incremental linear steps are 0.0005 inches to 0.002 inches in the first direction and the second direction. 13. The pinch valve assembly of claim 3, wherein the plurality of incremental linear steps are from 0.001 inches to 0.0005 inches in the first direction and the second direction. 14. The pinch valve assembly of claim 3, wherein the plurality of incremental linear steps are from 0.002 inches to 0.004 inches in the first direction and the second direction. 15. The pinch valve assembly of claim 3, wherein the piston is only moveable when the piston is energized. 16. The pinch valve assembly of claim 3, wherein the controller is operably configured to receive a step count and a direction of rotation in the step and direction mode. 17. The pinch valve assembly of claim 3, wherein the controller is operably configured to receive a target flow rate input and a flow monitoring frequency in the flow monitoring mode. 18. The pinch valve assembly of claim 3, wherein the controller is operably configured to receive an optimal instantaneous flow rate and a volumetric flow target in the flow and fill mode.
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이 특허에 인용된 특허 (13)
Anfindsen Ole A. (P.O. Box 30 N-4301 ; Sandnes NOX), Adjustable control valve for flow regulation of gas or liquid and use of such valve.
Hennessy James W. (Trumbull CT) Angel Henry R. (Fairfield CT) Carlson Richard A. (Meriden CT), Count accuracy control means for a blood analyses system.
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