Abstract: An example temperature sensing device includes an air distribution inlet through which primary air is blown into via an environmental control system, a cabin air inlet through which secondary air enters from a passenger area of a fuselage and the cabin air inlet is coupled to the air distribution inlet through a duct and the secondary air is passively drawn into the cabin air inlet and to the duct due to a pressure difference present in the duct, and a temperature sensor coupled to the duct and positioned downstream of the cabin air inlet along an airflow path of the secondary air so as to be exposed to the secondary air drawn in through the cabin air inlet and flowing through the duct.

Abstract: A modular shaft assembly is disclosed. The modular shaft assembly includes one or more inputs configured to receive input motions from a surgical instrument system, such as a handle, for example. The shaft assembly further includes one or more on-board inputs configured to generate input motions. The input motions received and generated by the shaft assembly are transferrable to an end effector of the shaft assembly to perform various functions at the end effector. The end effector can include a staple cartridge and a firing member which is movable between a proximal position and a distal position to eject staples from the staple cartridge. The end effector can include a plurality of jaw members and the firing member can comprise camming members which are configured to position the jaw members relative to one another.

Abstract: A surgical access device includes a cannula assembly and an obturator. The obturator is configured to removable couple with the cannula assembly along a central axis of the cannula assembly to facility inversion of the surgical access device through a body wall of the patient. The obturator includes an elongated shaft extending along a longitudinal axis, a tapered distal tip located at a distal portion of the elongated shaft, and an obturator head located at a proximal portion of the elongated shaft. The obturator head includes an interference fit feature capable of inhibiting proximal movement between the obturator and the cannula assembly via a frictional force against a surface of the cannula assembly.

Abstract: A surgical access device assembly. The assembly includes a cannula having a working channel and a helical tissue engagement feature disposed along an outer surface of the cannula and configured to stabilize the cannula relative to a body cavity wall of a patient. The assembly also includes a depth limiter movably coupled with the cannula. The depth limiter includes a body portion extending about a central axis of the depth limiter and including a protrusion extending radially inwardly relative to the central axis. The body portion is movable angularly relative to the cannula between a fine adjustment configuration and a coarse adjustment configuration. In the fine adjustment configuration the protrusion is configured to selectively threadably engage the helical tissue engagement feature. In the coarse adjustment configuration the protrusion is configured to selectively threadably disengage the helical tissue engagement feature such that the depth limiter is translatable axially along the cannula.

Abstract: A surgical access device includes a proximal end portion configured to support a seal assembly having an insufflation port. The device includes a cannula tube extending distally from the proximal end portion and having an inner surface that defines a lumen extending longitudinally through the cannula tube. The cannula tube is configured to be inserted distally through a body cavity wall of a patient, and the lumen is configured to guide a surgical instrument shaft distally through the cannula tube for accessing a body cavity of the patient. The device includes a channel formed in the inner surface of the cannula tube. The channel extends longitudinally between a proximal end of the lumen and a distal end of the lumen, and the channel is configured to direct a gas therethrough to or from the insufflation port of the seal assembly while a surgical instrument shaft is disposed within the lumen.

Abstract: A modular shaft assembly is disclosed. The modular shaft assembly includes one or more inputs configured to receive input motions from a surgical instrument system, such as a handle, for example. The shaft assembly further includes one or more on-board inputs configured to generate input motions. The input motions received and generated by the shaft assembly are transferrable to an end effector of the shaft assembly to perform various functions at the end effector. The end effector can include a staple cartridge and a firing member which is movable between a proximal position and a distal position to eject staples from the staple cartridge. The end effector can include a plurality of jaw members and the firing member can comprise camming members which are configured to position the jaw members relative to one another.

Abstract: A modular shaft assembly is disclosed. The modular shaft assembly includes one or more inputs configured to receive input motions from a surgical instrument system, such as a handle, for example. The shaft assembly further includes one or more on-board inputs configured to generate input motions. The input motions received and generated by the shaft assembly are transferrable to an end effector of the shaft assembly to perform various functions at the end effector. The end effector can include a staple cartridge and a firing member which is movable between a proximal position and a distal position to eject staples from the staple cartridge. The end effector can include a plurality of jaw members and the firing member can comprise camming members which are configured to position the jaw members relative to one another.

Abstract: Devices and methods for delivering end effectors through surgical trocars are described herein. In one embodiment, a surgical end effector loading device is provided that includes a housing having a distal-facing first portion configured to couple with a proximal end of a surgical trocar, and an elongate second portion protruding distally from the first portion. The second portion can include a lumen formed therein and can be configured to extend into a working channel of the surgical trocar when the housing is coupled thereto. The device can also include at least one mating element coupled to the housing and configured to interface with a complementary mating element of the surgical trocar to restrict movement of the housing relative to the trocar, as well as an end effector retainer coupled to the housing and configured to selectively couple a surgical end effector to the housing.

Abstract: Devices and methods for positioning a surgical instrument are described herein. In one embodiment, a positioning device can include a base that can be placed against tissue and a shuttle including a lumen that can receive a surgical instrument. The lumen can be translated in at least two directions relative to the base and an orientation of the lumen relative to the base can be polyaxially adjusted. Further, the device can include a locking mechanism that, upon actuation, prevents both translational movement and polyaxial movement of the lumen relative to the base.

Abstract: Devices and methods for organizing a plurality of end effectors and selectively delivering them through surgical trocars are described herein. In one embodiment, a surgical end effector loading device is provided that includes at least one mating element to interface with a surgical trocar, a deployment lumen positioned to align with a working channel of a surgical trocar, an end effector repository having a plurality of end effector lumens formed therein to receive end effectors, the repository being configured to selectively align any of the plurality of end effector lumens with the deployment lumen, and an advancer coupled to the repository and configured to advance an end effector from the repository through the deployment lumen.

Abstract: A modular shaft assembly is disclosed. The modular shaft assembly includes one or more inputs configured to receive input motions from a surgical instrument system, such as a handle, for example. The shaft assembly further includes one or more on-board inputs configured to generate input motions. The input motions received and generated by the shaft assembly are transferable to an end effector of the shaft assembly to perform various functions at the end effector. The end effector can include a staple cartridge and a firing member which is movable between a proximal position and a distal position to eject staples from the staple cartridge. The end effector can include a plurality of jaw members and the firing member can comprise camming members which are configured to position the jaw members relative to one another.

Abstract: A modular shaft assembly is disclosed. The modular shaft assembly includes one or more inputs configured to receive input motions from a surgical instrument system, such as a handle, for example. The shaft assembly further includes one or more on-board inputs configured to generate input motions. The input motions received and generated by the shaft assembly are transferrable to an end effector of the shaft assembly to perform various functions at the end effector. The end effector can include a staple cartridge and a firing member which is movable between a proximal position and a distal position to eject staples from the staple cartridge. The end effector can include a plurality of jaw members and the firing member can comprise camming members which are configured to position the jaw members relative to one another.

Abstract: Surgical devices and methods are described. The loading devices can include an elongate shaft extending distally from a housing and a hinge can be disposed between the elongate shaft and an articulating distal portion. The articulating distal portion can hold an end effector to be loaded onto a surgical device. The loading device can have features for stabilizing and holding the distal portion at a particular angular position relative to the elongate shaft, such as washers having protrusions that seat in corresponding recesses formed in the hinge. During articulation of the distal portion, an articulation rack can be advanced which can deform the protrusions on the washers. The washers can rotate and seat in the recesses at the next angular position and change the degree of articulation. The deformable washer and corresponding recesses can apply a biasing force that holds the articulating distal portion in a desired angled position.

Abstract: Surgical instruments and methods including a stop guard are described herein. An exemplary instrument can include an inner shaft disposed within an outer shaft, the inner shaft including a tissue-piercing tip and being effective to secure an end effector to the device. A stop guard can be coupled to the inner shaft and extend through outer shaft sidewall openings when the tip is advanced distally or retract into the outer shaft when the tip is retracted proximally. In a percutaneous procedure, external force applied to the stop guard by the tissue can retract the tip to prevent damage to surrounding tissue as the instrument is advanced distally. Moreover, once passed through pierced tissue, the stop guard can be redeployed when the inner shaft is advanced distally to secure an end effector to the instrument and can prevent inadvertent withdrawal of the instrument.

Abstract: Surgical devices and methods are described. The surgical devices can generally include a housing having one or more actuators such as a closure actuator. An elongate shaft can extend distally from the housing and an end effector can be selectively coupled to a distal end of the shaft. The surgical device can include various features that prevent a user from actuating the device when the end effector is not properly coupled to the shaft. More specifically, the housing can include a locking member that can be pivoted or otherwise move relative the housing to cause various internal features of the housing to move to a ready-to-load position. With the locking member and actuator so positioned, an end effector can be loaded onto the shaft and the locking member can be moved from the ready-to-load position to the ready-to-actuate position, thus allowing the closure actuator to be in a ready-to-actuate position.

Abstract: Systems, devices, and methods designed to make it easier to couple end effectors to surgical instruments are provided. A variety of features are disclosed, which can be used independently or in conjunction with each other. The resulting benefits include enhanced visualization, more secure coupling, easier communication that coupling has occurred, self-clocking components with respect to each other, and more component modularity. In one exemplary embodiment, an end effector assembly having an end effector and an attachment arm includes a terminal end surface of the attachment arm having a three-dimensional configuration such that a portion of the end surface extends further away from a set location than another portion of the end surface extends from the location. In another exemplary embodiment, end effector assemblies include chambers having curved configurations that assist in self-clocking the assemblies with respect to surgical devices. Other features, devices, systems, and methods are also provided.

Abstract: A modular shaft assembly is disclosed. The modular shaft assembly includes one or more inputs configured to receive input motions from a surgical instrument system, such as a handle, for example. The shaft assembly further includes one or more on-board inputs configured to generate input motions. The input motions received and generated by the shaft assembly are transferrable to an end effector of the shaft assembly to perform various functions at the end effector. The end effector can include a staple cartridge and a firing member which is movable between a proximal position and a distal position to eject staples from the staple cartridge. The end effector can include a plurality of jaw members and the firing member can comprise camming members which are configured to position the jaw members relative to one another.

Abstract: An apparatus is disclosed which comprises, one, a handle module that is attachable to a detachable shaft module for collectively performing a surgical procedure and, two, an inspection station for connection to the handle module when the handle module is not being used in a surgical procedure. The handle module comprises a rotary drive system for driving the detachable shaft module, an electric motor coupled to the rotary drive system for powering the rotary drive system, and a handle module processor circuit in communication with the motor. The inspection station comprises an inspection station processor circuit that communicates with the handle module processor circuit via a data connection when the handle module is connected to the inspection station. The inspection station further comprises a display in communication with the inspection station processor circuit for displaying information about handle module.

Abstract: An adaptor apparatus comprises a seal assembly housing, a channel, and tapered surfaces. The adaptor apparatus is configured to connect a trocar seal assembly with a robotic trocar cannula and maintain pneumostasis in an insufflated body cavity of a patient. The seal assembly housing comprises an open area sufficient to receive, support, and fix the trocar seal assembly within the adaptor apparatus. The channel provides a pathway for inserting instruments from the trocar seal assembly and into the cannula. The robotic trocar cannula includes an annular flange and a tapered proximal opening. The tapered surfaces of the adaptor apparatus are configured to engage the annular flange and the tapered proximal opening of the cannula. The tapered surfaces of the adaptor apparatus are configured to complement the exterior of the annular flange and the angled opening of the cannula.

Abstract: Systems, devices, and methods designed to make it easier to couple end effectors to surgical instruments are provided. A variety of features are disclosed, which can be used independently or in conjunction with each other. The resulting benefits include enhanced visualization, more secure coupling, easier communication that coupling has occurred, self-clocking components with respect to each other, and more component modularity. In one exemplary embodiment, an end effector assembly having an end effector and an attachment arm includes a terminal end surface of the attachment arm having a three-dimensional configuration such that a portion of the end surface extends further away from a set location than another portion of the end surface extends from the location. In another exemplary embodiment, end effector assemblies include chambers having curved configurations that assist in self-clocking the assemblies with respect to surgical devices. Other features, devices, systems, and methods are also provided.