Surgical instrument incorporating an electrically actuated articulation locking mechanism
First Claim
1. A surgical instrument, comprising:
- an end effector;
a handle portion comprising an articulation control and a locking control circuitry operably configured to produce an unlocking signal;
an elongate shaft rotatable relative to the handle portion;
an articulation mechanism comprising;
a proximal frame portion attached to the elongate shaft,a distal frame portion attached to the end effector and rotatably coupled to the proximal frame portion to form an articulation joint, andan articulation actuator responsive to the articulation control of the handle portion and coupled between the proximal and distal frame portions and operably configured to effect articulation therebetween; and
an electrical locking mechanism positioned between the handle and the end effector and movably engageable between the proximal and distal frame portions to lock the end effector at an angle relative to the elongate shaft by locking the articulation joint, wherein the electrical locking mechanism comprises;
a locking member attached to the proximal frame portion or the distal frame portion, wherein the locking member is biased to extend toward and engage the other one of the proximal frame portion or the distal frame portion to lock the articulation joint, wherein the locking mechanism further comprises a resilient member resiliently biasing the locking member to extend toward and engage the other one of the proximal frame portion or the distal frame portion to lock the articulation joint, wherein the locking member is located at the articulation joint, andan electroactive polymer actuator coupled with the locking member, wherein the electroactive polymer actuator is operatively configured and positioned to overcome the bias on the locking member and move the locking member when activated by the unlocking signal to unlock the articulation joint.
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Accused Products
Abstract
A surgical instrument particularly suited to endoscopic use articulates an end effector by including an articulation mechanism in an elongate shaft that incorporates an electrically actuated polymer (EAP) articulation locking mechanism actuator. Thereby, additional options for articulation become feasible, especially those that are actively powered and would otherwise dissipate heat and power if required to maintain position. Alternatively, a mechanically actuated articulation mechanism may be designed with reduced strength, and thus size, since the EAP articulation lock mechanism assists in preventing back driving after articulation. Versions of a. EAP articulation locking mechanism lock a pivoting articulation joint and others lock a flexible neck articulation joint.
1361 Citations
6 Claims
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1. A surgical instrument, comprising:
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an end effector; a handle portion comprising an articulation control and a locking control circuitry operably configured to produce an unlocking signal; an elongate shaft rotatable relative to the handle portion; an articulation mechanism comprising; a proximal frame portion attached to the elongate shaft, a distal frame portion attached to the end effector and rotatably coupled to the proximal frame portion to form an articulation joint, and an articulation actuator responsive to the articulation control of the handle portion and coupled between the proximal and distal frame portions and operably configured to effect articulation therebetween; and an electrical locking mechanism positioned between the handle and the end effector and movably engageable between the proximal and distal frame portions to lock the end effector at an angle relative to the elongate shaft by locking the articulation joint, wherein the electrical locking mechanism comprises; a locking member attached to the proximal frame portion or the distal frame portion, wherein the locking member is biased to extend toward and engage the other one of the proximal frame portion or the distal frame portion to lock the articulation joint, wherein the locking mechanism further comprises a resilient member resiliently biasing the locking member to extend toward and engage the other one of the proximal frame portion or the distal frame portion to lock the articulation joint, wherein the locking member is located at the articulation joint, and an electroactive polymer actuator coupled with the locking member, wherein the electroactive polymer actuator is operatively configured and positioned to overcome the bias on the locking member and move the locking member when activated by the unlocking signal to unlock the articulation joint. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification