Active counterforce handle for use in bidirectional deflectable tip instruments
First Claim
1. A handle assembly for use in an instrument having bidirectional steering and a deflectable shaft, wherein upon being deflected in a first direction, the shaft generates a return force in an opposite second direction, and the shaft whereupon being deflected in the second direction generates a return force in the opposite first direction, the assembly comprising:
- a manually positionable control mechanism coupled to the shaft to selectively deflect the shaft in the first and second directions; and
a counterforce mechanism operably coupled to the control mechanism and arranged to actively reduce a deflection force needed to continue to deflect the shaft in one of the first and second directions, the counterforce mechanism applying a biasing force to the control mechanism in a direction opposite to the return force once the control mechanism is moved from a neutral position in which the shaft is in a straightened position, the biasing force being about equal to the return force so that the forces effectively offset one another and permit a user to more easily and progressively deflect the shaft.
2 Assignments
0 Petitions
Accused Products
Abstract
The present invention is directed to an active handle assembly for use in a bidirectional steerable surgical instrument having a deflectable distal end. Typically, the surgical instrument includes a handle component which the user manipulates to cause a distal end of the instrument to deflect. The distal end comprises an end tip portion of a shaft which extends outwardly from the handle. A control mechanism is disposed within the handle and extends through the shaft for selectively controlling the direction and degree of deflection at the distal end. For example, one exemplary control mechanism uses control or steering wires to deflect the distal end. The active counterforce mechanism according to the present invention is designed to be used in combination with the control mechanism and provides a force which counters the return to center force generated by the deflection of the shaft at the distal end thereof. Optimally, the active counterforce mechanism balances the return to center force across the instrument'"'"'s deflection range in distal and proximal directions. This results in the user experiencing minimal, if any, resistance during the manual manipulation of the control mechanism.
236 Citations
7 Claims
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1. A handle assembly for use in an instrument having bidirectional steering and a deflectable shaft, wherein upon being deflected in a first direction, the shaft generates a return force in an opposite second direction, and the shaft whereupon being deflected in the second direction generates a return force in the opposite first direction, the assembly comprising:
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a manually positionable control mechanism coupled to the shaft to selectively deflect the shaft in the first and second directions; and
a counterforce mechanism operably coupled to the control mechanism and arranged to actively reduce a deflection force needed to continue to deflect the shaft in one of the first and second directions, the counterforce mechanism applying a biasing force to the control mechanism in a direction opposite to the return force once the control mechanism is moved from a neutral position in which the shaft is in a straightened position, the biasing force being about equal to the return force so that the forces effectively offset one another and permit a user to more easily and progressively deflect the shaft.
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2. A handle assembly for use in an instrument having bidirectional steering an a deflectable shaft, wherein upon being deflected in a first direction, the shaft generates a return force in an opposite second direction, and the shaft whereupon being deflected in the second direction generates a return force in the opposite first direction, the assembly comprising:
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a manually positionable control mechanism coupled to the shaft to selectively deflect the shaft in the first and second directions, the control mechanism including a slider displaceable long a linear path for causing the deflection of the shaft in the first and second directions; and
a counterforce mechanism operably coupled to the slider, the counterforce mechanism including a biasing element to bias the slider in a direction opposite to the return force once the slider is moved from a neutral position in which the shaft is in a straightened position, the biasing element providing a variable biasing force to the slider to counter the variable return force generated as the shaft deflects due to movement of the slider from the neutral position to one of the first and second directions, wherein the biasing force is about equal to he return force so that the forces effectively offset one another and permit a user to more easily and progressively deflect the distal end.
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3. A handle assembly for use in an instrument having bidirectional steering and a deflectable shaft, wherein upon being deflected in a first direction, the shaft generates a return force in an opposite second direction, and the shaft whereupon being deflected in the second direction generates a return force in the opposite first direction, the assembly comprising:
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a manually positionable control mechanism operably connected to the shaft to selectively deflect the shaft in the first and second directions, the control mechanism including a slider displaceable along a linear path for causing the deflection of the shaft in the first and second directions; and
a counterforce mechanism operably coupled to the slider, the counterforce mechanism including a biasing element to bias the slider in a direction opposite to the return force once the slider is moved from a neutral position in which the shaft is in a straightened position, the counterforce mechanism including first and second roller members operably connected to the biasing element which is itself operably connected to the slider, the first roller member being disposed on a surface of a first track member and the second roller member being disposed on a surface of a second track member spaced apart from the first track member, the biasing element acting to bias apart the first and second rollers from one another as the rollers travel along the surfaces of the first and second track members resulting in the slider being biased in a direction opposite to the return force. - View Dependent Claims (4, 5, 6, 7)
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Specification