Surgical instrument with multiple failure response modes
First Claim
Patent Images
1. A powered surgical stapling and cutting instrument, comprising:
- a staple cartridge, comprising;
a housing;
a plurality of staple cavities;
a plurality of staples deployable from said staple cavities during a firing stroke;
a firing member movable during said firing stroke to deploy said staples from said staple cavities; and
a motor operably coupled to said firing member, wherein said motor is configured to generate at least one rotational motion to motivate said firing member to cause said staples to be deployed from said staple cavities during said firing stroke; and
a failure response system, comprising;
a first circuit configured to detect a first operational error of said powered surgical stapling and cutting instrument if said movement of said firing member and said rotational motion of said motor are beyond a predetermined correlation during said firing stroke;
a second circuit configured to detect a second operational error of said powered surgical stapling and cutting instrument if a failure is detected in at least one of a beginning-of-stroke switch and an end-of-stroke switch; and
a control circuit configured to activate a first failure response mode if said first operational error is detected, wherein said control circuit is configured to activate a second failure response mode which is different than said first failure response mode if said second operational error is detected in addition to said detection of said first operational error.
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Accused Products
Abstract
A surgical instrument includes a failure response system with a first circuit configured to detect a first operational error of the powered surgical stapling and cutting instrument, and a control circuit configured to activate a first failure response mode if the first operational error is detected.
6303 Citations
23 Claims
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1. A powered surgical stapling and cutting instrument, comprising:
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a staple cartridge, comprising; a housing; a plurality of staple cavities; a plurality of staples deployable from said staple cavities during a firing stroke; a firing member movable during said firing stroke to deploy said staples from said staple cavities; and a motor operably coupled to said firing member, wherein said motor is configured to generate at least one rotational motion to motivate said firing member to cause said staples to be deployed from said staple cavities during said firing stroke; and a failure response system, comprising; a first circuit configured to detect a first operational error of said powered surgical stapling and cutting instrument if said movement of said firing member and said rotational motion of said motor are beyond a predetermined correlation during said firing stroke; a second circuit configured to detect a second operational error of said powered surgical stapling and cutting instrument if a failure is detected in at least one of a beginning-of-stroke switch and an end-of-stroke switch; and a control circuit configured to activate a first failure response mode if said first operational error is detected, wherein said control circuit is configured to activate a second failure response mode which is different than said first failure response mode if said second operational error is detected in addition to said detection of said first operational error. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A powered surgical stapling and cutting instrument, comprising:
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a staple cartridge, comprising; a housing; a plurality of staple cavities; a plurality of staples deployable from said staple cavities during a firing stroke; a firing member movable during said firing stroke to cause said staples to be deployed from said staple cavities; and a motor operably coupled to said firing member, wherein said motor is configured to generate at least one rotational motion to motivate said firing member to cause said staples to be deployed from said staple cavities during said firing stroke; and a failure response system, comprising; a first circuit configured to detect a first operational error of said powered surgical stapling and cutting instrument if said movement of said firing member and said rotational motion of said motor are beyond a predetermined correlation during said firing stroke; a second circuit configured to detect a second operational error of said powered surgical stapling and cutting instrument if a failure is detected in at least one of a beginning-of-stroke switch and an end-of-stroke switch; and a controller, comprising; a memory; a processor; and a storage medium comprising program instructions which, when executed by said processor, cause said processor to; activate a first failure response mode if said first operational error is detected; and activate a second failure response mode which is different than said first failure response mode if said second operational error is detected in addition to said detection of said first operational error. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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17. A failure response system for use with a powered surgical stapling and cutting instrument configured to deploy a plurality of staples into tissue during a firing stroke, wherein said failure response system comprises:
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a first circuit configured to detect a first operational error of said powered surgical stapling and cutting instrument during said firing stroke; a second circuit configured to detect a second operational error of said powered surgical stapling and cutting instrument during said firing stroke, wherein said second operational error is different than said first operational error; a third circuit configured to detect a third operational error of said powered surgical stapling and cutting instrument during said firing stroke, wherein said third operational error is different than said first operational error and said second operational error; and a control circuit configured to activate a first failure response mode if said first operational error is detected, wherein said control circuit is configured to activate a second failure response mode which is different than said first failure response mode if said second operational error is detected in addition to said detection of said first operational error, wherein said control circuit is configured to activate a third failure response mode which is different than said first failure response mode and said second failure response mode if said third operational error is detected in addition to said detection of said first operational error and said second operational error. - View Dependent Claims (18, 19, 20)
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21. A powered surgical instrument, comprising:
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an end effector; a firing member movable through an actuation stroke to actuate said end effector; and a motor operably coupled to said firing member, wherein said motor is configured to generate at least one rotational motion to actuate said firing member through said actuation stroke; and a failure response system, comprising; a first circuit configured to detect a first operational error of said powered surgical instrument, wherein said first operational error corresponds to said actuation of said firing member and said rotational motion of said motor exceeding a predetermined correlation during said actuation stroke; a second circuit configured to detect a second operational error of said powered surgical instrument, wherein said second operational error corresponds to a failure detected in at least one of a beginning-of-stroke switch and an end-of-stroke switch; and a control circuit configured to activate a first failure response mode in response to the detection of said first operational error, wherein said control circuit is configured to activate a second failure response mode in response to the detection of said second operational error and said first operational error, and wherein said first failure response mode is different than said second failure response mode.
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22. A powered surgical instrument, comprising:
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an end effector, comprising; an actuation member movable through a firing stroke to actuate said end effector; and a motor operably coupled to said actuation member, wherein said motor is configured to generate at least one rotational motion to move said actuation member through said firing stroke; and a failure response system, comprising; a first circuit configured to detect a first operational error of said powered surgical instrument, wherein said first operational error comprises detecting said movement of said firing member and said rotational motion of said motor exceeding a predetermined correlation during said firing stroke; a second circuit configured to detect a second operational error of said powered surgical instrument, wherein said second operational error comprises detecting failure of at least one of a beginning-of-stroke switch and an end-of-stroke switch; and a controller, comprising; a memory; a processor; and a storage medium comprising program instructions which, when executed by said processor, cause said processor to; activate a first failure response mode in response to the detection of said first operational error; activate a second failure response mode in response to the detection of the first operational error and the second operational error, wherein said first failure response mode and said second failure response mode are different.
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23. A failure response system for use with a powered surgical instrument comprising an end effector and a firing member, wherein the firing member is configured to be actuated through a firing stroke to perform an end effector function, and wherein said failure response system comprises:
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a first circuit configured to detect a first operational error of the powered surgical instrument during the firing stroke; a second circuit configured to detect a second operational error of the powered surgical instrument during the firing stroke, wherein said second operational error is different than said first operational error; a third circuit configured to detect a third operational error of the powered surgical instrument during the firing stroke, wherein said third operational error is different than said first operational error and said second operational error; and a control circuit configured to activate a first failure response mode in response to the detection of said first operational error, wherein said control circuit is configured to activate a second failure response mode in response to the detection of said second operational error and said first operational error, wherein said first failure response mode is different than said second failure response mode, wherein said control circuit is configured to activate a third failure response mode in response to the detection of said third operational error, said first operational error, and said second operational error, and wherein said third failure response mode is different than said first failure response mode and said second failure response mode.
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Specification