Articulation state detection mechanisms
First Claim
1. A shaft assembly for use with a surgical instrument, the shaft assembly defining a longitudinal axis extending longitudinally through the shaft assembly, wherein the shaft assembly comprises:
- a proximal shaft portion, comprising;
a first sensor; and
a second sensor;
a distal shaft portion rotatable about the longitudinal axis and relative to the proximal shaft portion, wherein the distal shaft portion comprises;
a housing;
a first magnet rotatable with the housing;
a clutch assembly rotatable relative to the housing to transition the shaft assembly between an articulation engaged state and an articulation disengaged state; and
a second magnet rotatable with the clutch assembly; and
a control circuit configured to detect a transition from the articulation engaged state to the articulation disengaged state based on output signals from the first sensor and the second sensor.
2 Assignments
0 Petitions
Accused Products
Abstract
A surgical shaft assembly includes a proximal shaft portion, a distal shaft portion, and a control circuit. The proximal shaft portion includes a first sensor generating a first signal and a second sensor generating a second signal. The distal shaft portion includes a clutch assembly rotatable with the distal shaft portion about a longitudinal axis and relative to the proximal shaft portion. The clutch assembly is further rotatable relative to the distal shaft portion to transition the shaft assembly between two articulation states. The rotation of clutch assembly with the distal shaft portion changes the first signal, and the rotation of the clutch assembly relative to the distal shaft portion changes the second signal. The control circuit is configured to detect a change in the second signal occurring without a corresponding change in the first signal. The detected change indicates a transition between the two articulation states.
2018 Citations
24 Claims
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1. A shaft assembly for use with a surgical instrument, the shaft assembly defining a longitudinal axis extending longitudinally through the shaft assembly, wherein the shaft assembly comprises:
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a proximal shaft portion, comprising; a first sensor; and a second sensor; a distal shaft portion rotatable about the longitudinal axis and relative to the proximal shaft portion, wherein the distal shaft portion comprises; a housing; a first magnet rotatable with the housing; a clutch assembly rotatable relative to the housing to transition the shaft assembly between an articulation engaged state and an articulation disengaged state; and a second magnet rotatable with the clutch assembly; and a control circuit configured to detect a transition from the articulation engaged state to the articulation disengaged state based on output signals from the first sensor and the second sensor. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A shaft assembly for use with a surgical instrument, the shaft assembly defining a longitudinal axis extending longitudinally through the shaft assembly, wherein the shaft assembly comprises:
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a proximal shaft portion, comprising; a first sensor; and a second sensor; a distal shaft portion rotatable about the longitudinal axis and relative to the proximal shaft portion, wherein the distal shaft portion comprises; a housing; a first magnet rotatable with the housing; a clutch assembly rotatable relative to the housing to transition the shaft assembly between an articulation engaged state and an articulation disengaged state; and a second magnet rotatable with the clutch assembly; and a control circuit configured to detect a transition from the articulation engaged state to the articulation disengaged state based on relative rotational positions of the distal shaft portion of the shaft assembly and the clutch assembly. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A shaft assembly for use with a surgical instrument, the shaft assembly defining a longitudinal axis extending longitudinally through the shaft assembly, wherein the shaft assembly comprises:
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a proximal shaft portion, comprising; a first sensor configured to generate a first output signal; and a second sensor configured to generate a second output signal; a distal shaft portion comprising a clutch assembly rotatable with the distal shaft portion about the longitudinal axis and relative to the proximal shaft portion, wherein the clutch assembly is further rotatable relative to the distal shaft portion to transition the shaft assembly between an articulation engaged state and an articulation disengaged state, wherein the rotation of clutch assembly with the distal shaft portion changes the first output signal, and wherein the rotation of the clutch assembly relative to the distal shaft portion changes the second output signal; and a control circuit in electrical communication with the first sensor and the second sensor, wherein the control circuit is configured to detect a change in the second output signal occurring without a corresponding change in the first output signal, and wherein the detected change indicates a transition between the articulation engaged state and the articulation disengaged state. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
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21. A shaft assembly for use with a surgical instrument, the shaft assembly defining a longitudinal axis extending longitudinally through the shaft assembly, wherein the shaft assembly comprises:
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a proximal shaft portion, comprising; a first sensor configured to generate a first output signal; and a second sensor configured to generate a second output signal; and a distal shaft portion comprising a switching component rotatable with the distal shaft portion about the longitudinal axis and relative to the proximal shaft portion, wherein the switching component is further rotatable relative to the distal shaft portion to transition the shaft assembly between an articulation engaged state and an articulation disengaged state; wherein rotation of the distal shaft portion relative to the proximal shaft portion is determined based on the first output signal, and wherein rotation of the switching component relative to the distal shaft portion is determined based on a combination of the first output signal and the second output signal.
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22. A shaft assembly for use with a surgical instrument, the shaft assembly defining a longitudinal axis extending longitudinally through the shaft assembly, wherein the shaft assembly comprises:
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a proximal shaft portion, comprising; a first sensor; and a second sensor; a distal shaft portion rotatable about the longitudinal axis and relative to the proximal shaft portion, wherein the distal shaft portion comprises; a housing; a first magnet rotatable with the housing; a clutch assembly rotatable relative to the housing to transition the shaft assembly between an articulation engaged state and an articulation disengaged state; and a second magnet rotatable with the clutch assembly; and a control circuit configured to detect a transition from the articulation engaged state to the articulation disengaged state based on sensor readings of the first sensor and the second sensor.
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23. A shaft assembly for use with a surgical instrument, the shaft assembly defining a longitudinal axis extending longitudinally through the shaft assembly, wherein the shaft assembly comprises:
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a proximal shaft portion, comprising; a first sensor; and a second sensor; a distal shaft portion comprising a clutch assembly rotatable with the distal shaft portion about the longitudinal axis and relative to the proximal shaft portion, wherein the clutch assembly is further rotatable relative to the distal shaft portion to transition the shaft assembly between an articulation engaged state and an articulation disengaged state; and a control circuit in electrical communication with the first sensor and the second sensor, wherein the control circuit is configured receive a first input signal from the first sensor and a second input signal from the second sensor, wherein the rotation of clutch assembly with the distal shaft portion changes the first input signal, wherein the rotation of the clutch assembly relative to the distal shaft portion changes the second input signal, wherein the control circuit is configured to detect a change in the second input signal occurring without a corresponding change in the first input signal, and wherein the detected change indicates a transition between the articulation engaged state and the articulation disengaged state.
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24. A shaft assembly for use with a surgical instrument, the shaft assembly defining a longitudinal axis extending longitudinally through the shaft assembly, wherein the shaft assembly comprises:
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a proximal shaft portion, comprising; a first sensor; and a second sensor; and a distal shaft portion comprising a switching component rotatable with the distal shaft portion about the longitudinal axis and relative to the proximal shaft portion, wherein the switching component is further rotatable relative to the distal shaft portion to transition the shaft assembly between an articulation engaged state and an articulation disengaged state; wherein rotation of the distal shaft portion relative to the proximal shaft portion is determined based on a first signal interpreted from the first sensor, and wherein rotation of the switching component relative to the distal shaft portion is determined based on a combination of the first signal interpreted from the first sensor and a second signal interpreted from the second sensor.
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Specification