Advancement mechanism for cartridge-based devices
First Claim
1. A medical device for using or dispensing medical items in a rotary cartridge, the rotary cartridge defining a cartridge gear, the medical device comprising:
- a housing;
an operating handle movable between first and second positions and including a grip and a gear, wherein the operating handle is movable along a translational actuation motion between the first and second positions, the first handle position being a retracted position with the grip translated in and generally adjacent the housing, and the second handle position being an extended position with the grip translated away from the housing; and
an advancement mechanism operable to sequentially advance the medical items for use or dispensing, the advancement mechanism including a rotary drive gear assembly, an inter-gear unidirectional rotary drive assembly, and a pinion output gear, wherein the rotary drive gear assembly includes a first rotary gear and a second rotary gear that rotate about a common axis, the first gear is rotationally driven by the operating handle gear in a first angular direction and an opposite second angular direction when the operating handle is moved between the first and second positions, the second gear directly or indirectly rotationally drives the pinion output gear, and the pinion output gear rotationally drives the cartridge gear, wherein the inter-gear unidirectional rotary drive assembly operably interconnects the first and second drive gears so that the second gear is driven by and rotates with the first gear in the first direction but is not driven in co-rotation by the first gear in the opposite second direction, wherein the inter-gear unidirectional rotary drive assembly includes a first catch surface defined by a first catch element, a second catch surface defined by a second catch element, and a disengagement surface included on one of the first and second catch elements, wherein the catch surfaces are engaged to maintain the first and second gears in co-rotation in the first angular direction, at least one of the catch surfaces moves out of engagement when the first gear rotates in the opposite second direction, and the catch surface disengagement is caused by the disengagement surface moving a movable one of the catch elements.
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Accused Products
Abstract
An advancement mechanism of a lancing device operates to sequentially advance lancets in a cartridge. The advancement mechanism includes a rotary drive gear assembly with a first gear and a second gear that co-rotate in a first angular direction by operation of an inter-gear unidirectional drive mechanism such as a ratcheting mechanism. A second-gear unidirectional lock mechanism, such as a ratcheting mechanism, locks the second drive gear from co-rotating with the first drive gear in a second opposite angular direction without impeding rotation in the first direction. The second gear directly or indirectly rotationally drives a pinion gear, which rotationally drives a cartridge gear to advance the lancets in indexed increments for use. The first drive gear is rotated in the first and second directions by a rack gear of a translating operating handle. In addition, a rotary-gear cap-displacement mechanism and a rotary-gear charging/actuation mechanism are provided in other embodiments.
79 Citations
18 Claims
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1. A medical device for using or dispensing medical items in a rotary cartridge, the rotary cartridge defining a cartridge gear, the medical device comprising:
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a housing; an operating handle movable between first and second positions and including a grip and a gear, wherein the operating handle is movable along a translational actuation motion between the first and second positions, the first handle position being a retracted position with the grip translated in and generally adjacent the housing, and the second handle position being an extended position with the grip translated away from the housing; and an advancement mechanism operable to sequentially advance the medical items for use or dispensing, the advancement mechanism including a rotary drive gear assembly, an inter-gear unidirectional rotary drive assembly, and a pinion output gear, wherein the rotary drive gear assembly includes a first rotary gear and a second rotary gear that rotate about a common axis, the first gear is rotationally driven by the operating handle gear in a first angular direction and an opposite second angular direction when the operating handle is moved between the first and second positions, the second gear directly or indirectly rotationally drives the pinion output gear, and the pinion output gear rotationally drives the cartridge gear, wherein the inter-gear unidirectional rotary drive assembly operably interconnects the first and second drive gears so that the second gear is driven by and rotates with the first gear in the first direction but is not driven in co-rotation by the first gear in the opposite second direction, wherein the inter-gear unidirectional rotary drive assembly includes a first catch surface defined by a first catch element, a second catch surface defined by a second catch element, and a disengagement surface included on one of the first and second catch elements, wherein the catch surfaces are engaged to maintain the first and second gears in co-rotation in the first angular direction, at least one of the catch surfaces moves out of engagement when the first gear rotates in the opposite second direction, and the catch surface disengagement is caused by the disengagement surface moving a movable one of the catch elements. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A lancing device for using lancets in a rotary cartridge, the rotary cartridge defining a cartridge gear, the lancing device comprising:
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a housing; an operating handle that translates between retracted and extended positions and includes a grip, an elongate member extending from the grip and into the housing, and a rack gear defined by the elongate member, wherein the operating handle translates along a linear path between the first and second positions such that the first handle position is in a retracted position with the grip translated in and generally adjacent the housing, and wherein the second handle position is in an extended position with the grip translated away from the housing; and an advancement mechanism operable to sequentially advance the lancets for use, the advancement mechanism including a rotary drive gear assembly, an inter-gear unidirectional rotary ratcheting drive assembly, a second-gear unidirectional rotary ratcheting lock assembly, and a pinion output gear, wherein the rotary drive gear assembly includes a first rotary gear and a second rotary gear that rotate about a common axis, the first gear is rotationally driven by the operating handle rack gear in a first angular direction and an opposite second angular direction when the operating handle is translated between the retracted and extended positions, the second gear directly or indirectly rotationally drives the pinion output gear, and the pinion output gear rotationally drives the cartridge gear, wherein the inter-gear unidirectional rotary ratcheting drive assembly operably interconnects the first and second drive gears so that the second gear is driven by and rotates with the first gear in the first direction but is not driven in co-rotation by the first gear in the opposite second direction, wherein the inter-gear unidirectional rotary ratcheting drive assembly includes at least one inter-gear pawl that extends from the second drive gears and that defines a catch surface, and at least one inter-gear tooth that extends from the first drive gears and that defines a catch surface, and at least one inter-gear ramped surface defined by the inter-gear tooth and positioned adjacent the respective catch surface, wherein the catch surfaces engage each other to maintain the first and second drive gears in co-rotation in the first angular direction, the inter-gear pawl catch surface is moved out of engagement with the inter-gear tooth catch surface when the first gear rotates in the opposite second direction, and the catch surface disengagement is caused by the inter-gear ramped surface moving the inter-gear pawl, and wherein the second-gear unidirectional rotary lock assembly operably interconnects the first and second drive gears so that the second gear is free to be driven by and co-rotate with the first gear in the first direction but is locked from co-rotation in the opposite second direction, wherein the second-gear unidirectional rotary ratcheting drive assembly includes at least one second-gear tooth that extends from the second drive gear and that defines a lock surface, at least one second-gear pawl that extends from the housing and that defines a lock surface, and at least one second-gear ramped surface defined by the second-gear pawl and positioned adjacent the respective lock surface, wherein the lock surfaces engage each other to lock the second gear from rotation in the second direction, the second-gear pawl lock surface moves out of engagement with the second-gear tooth lock surface when the second gear rotates in the first direction, and the lock surface disengagement is caused by the second-gear ramped surface moving the second-gear pawl. - View Dependent Claims (13, 14, 15, 16, 17, 18)
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Specification