Occlusion detector for rotary peristaltic pump
First Claim
1. Detector for detecting malfunction in a peristaltic pump wherein a flexible tubing (44) containing a fluid is locally compressed against a support part (52) by means of rollers (32) mounted on a rotor (28) driven by a motor, characterized in that it includes:
- a ring (68) mounted so as to slide on the tubing between two extreme positions, drive means (64, 80, 84), activated by the rotor, for subjecting said ring to a specific reciprocating motion between said positions, and detection means (86, 88) reacting to an abnormal reciprocating motion of the ring by producing an alarm signal.
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Accused Products
Abstract
The invention concerns a detector for detecting malfunction in a peristaltic pump wherein a flexible tubing (44) containing a fluid is locally compressed against a support part by rollers (32) mounted on a rotor (28) driven by a motor. Said detector is characterized in that it comprises: a ring (68) mounted sliding on the tubing between two extreme positions; driving means (64, 80, 84), actuated by the rotor, for subjecting said ring to a specific reciprocating motion between said positions; and detection means (74a, 74b, 84) reacting to an abnormal reciprocal motion by producing a warning signal.
49 Citations
15 Claims
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1. Detector for detecting malfunction in a peristaltic pump wherein a flexible tubing (44) containing a fluid is locally compressed against a support part (52) by means of rollers (32) mounted on a rotor (28) driven by a motor, characterized in that it includes:
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a ring (68) mounted so as to slide on the tubing between two extreme positions, drive means (64, 80, 84), activated by the rotor, for subjecting said ring to a specific reciprocating motion between said positions, and detection means (86, 88) reacting to an abnormal reciprocating motion of the ring by producing an alarm signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
at least one stud (64) attached to the rotor (28);
a drive member (80) activated by said stud on a part of its travel and acting in turn on the ring to move it, in one direction, from its first to its second extreme position, and a spring (84) acting on the ring to move it, in the opposite direction, as soon as it is no longer subjected to the action of the drive member, from its second to its first extreme position.
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5. Detector according to claim 4, characterized in that said drive member (80) is a V-shaped spring, whose tip is fixed, and one of whose branches (80a) is activated by said stud (64) and the other branch (80b) acts on the ring (68).
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6. Detector according to claim 4, characterized in that the drive means include three studs (64) arranged at 120°
- from each other on the rotor.
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7. Detector according to claim 1, characterized in that said detection means include:
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a first switch (86) closed by the ring (68) when the latter is in its first position and open as soon as it is no longer in that position, a second switch (88) closed by the ring (68) when the latter is in its second position and open as soon as it is no longer in that position, and a circuit that has, in its memory, data representative of the moments at which said switches have to close and open when the reciprocating motion of the ring occurs according to a determined rhythm corresponding to proper operation of the pump, and whose function is to;
produce data representative of the moments at which closing and opening of the switches occurs, compare the data contained in the memory with the data from the switches, and produce said alarm signal when the difference between the actual switch opening and closing moments and the opening and closing moments contained in the memory exceed a determined value corresponding to abnormal operation of the pump.
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8. Detector according to claim 7, characterized in that said moments are those at which the ring successively:
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leaves its first position, reaches its second position, leaves this second position, and returns to the first position.
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9. Detector according to claim 7, characterized in that said motor is a stepping motor controlled by drive pulses and said data is the number of drive pulses provided to the motor, from the moment when the ring leaves its first position, so that the latter reaches its second position, leaves that position, then returns to the first position.
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10. Detector according to claim 7, characterized in that the ring (68) is made of metal and in that said switches (86, 88) include two fixed terminals (74A, 74B) against which the ring is applied when it occupies respectively its two extreme positions, and a mobile terminal (84) attached to the ring.
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11. Detector according to claim 5, characterized in that the drive means include three studs (64) arranged at 120°
- from each other on the rotor.
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12. Detector according to claim 8, characterized in that said motor is a stepping motor controlled by drive pulses and said data is the number of drive pulses provided to the motor, from the moment when the ring leaves its first position, so that the latter reaches its second position, leaves that position, then returns to the first position.
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13. Detector according to claim 8, characterized in that the ring (68) is made of metal and in that said switches (86, 88) include two fixed terminals (74A, 74B) against which the ring is applied when it occupies respectively its two extreme positions, and a mobile terminal (84) attached to the ring.
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14. Detector according to claim 9, characterized in that the ring (68) is made of metal and in that said switches (86, 88) include two fixed terminals (74A, 74B) against which the ring is applied when it occupies respectively its two extreme positions, and a mobile terminal (84) attached to the ring.
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15. Detector according to claim 12, characterized in that the ring (68) is made of metal and in that said switches (86, 88) include two fixed terminals (74A, 74B) against which the ring is applied when it occupies respectively its two extreme positions, and a mobile terminal (84) attached to the ring.
Specification