Abstract: A surgical stapling device includes a tool assembly having an anvil, a cartridge assembly movable in relation to the anvil between open and clamped positions, a drive member, and a biasing mechanism or member. The biasing mechanism or member is configured to urge the cartridge assembly in relation to the anvil assembly to its fully open position to provide access to tissue during a surgical procedure.
Abstract: A reload assembly includes a shell housing, a knife carrier, a lockout component, and a hook component. The lockout component is supported on an inner wall of the knife carrier and has a body formed of a resilient material that defines a window. The hook component is supported on the inner housing portion of the shell housing and includes a body having a hook that is received within the window of the lockout component when the knife carrier is in its retracted position after the reload assembly has been fired to obstruct readvancement of the knife carrier.
Abstract: The present invention relates to an automatic package device, which may include a rack and a power control box provided on the rack. The cutter blade transportation device is provided on the rack along the X axis direction. Below the cutter blade transportation device and inside the rack, lower film feeding device is provided. At the rear side of the rack, the upper film feeding device is provided. At the front end of the cutter blade transportation device and on the rack are provided a blade feeding rail and cutter blade carrying device cooperating with each other. At the rear end of the cutter blade transportation device is provided a film sealing device which cooperates with the upper film feeding device and lower film feeding device. At the rear end of the film sealing device and on the rack is provided a dragging device fitting the blade strip. At the back side of the dragging device is provided a transverse cutting device fitting the blade strip.
Type:
Grant
Filed:
May 18, 2019
Date of Patent:
December 7, 2021
Assignee:
DONGGUAN UNIVERSITY OF TECHNOLOGY
Inventors:
Jun Deng, Jianyu Long, Yun Bai, Bo Zeng
Abstract: A method for packaging one or more tobacco-filled boxes (13) in a plastic bag (21) comprises the following steps of—placing the box in a vacuum chamber (3, 5) through an input (7),—closing the vacuum chamber, then evacuating the vacuum chamber and thereafter creating an over-pressure nitrogen atmosphere in the vacuum chamber—putting a bag open at one end around a rectangular guide profile (19) open at both ends, where the other, closed, end of the bag shuts off one of the ends of the rectangular guide profile,—positioning the rectangular guide profile with the end not shut off by the bag in front of a shut off output (9) of the vacuum chamber and coupling the rectangular guide profile in a gas-tight manner to the output of the vacuum chamber,—opening the output of the vacuum chamber and guiding the box into the bag via the rectangular guide profile, and—folding the open end of the bag immediately followed by the sealing of the bag.
Type:
Grant
Filed:
May 11, 2016
Date of Patent:
November 30, 2021
Inventors:
Frederik Bergwerff, Louis Jean Van Rennes, Robert George McCarthy
Abstract: In a hand-held power tool that includes a mechanical striking mechanism, including a drive shaft for rotatably driving a impactor associated with the mechanical striking mechanism, at least one V-shaped guide groove, whose base lines that converge into a connecting section have a concave-polygonal design, at least in sections, is provided on an outer circumference of the drive shaft.
Abstract: A device is for sterilization by electron beam irradiation of flexible bags, in particular flexible bags of the type that can contain solutions of human plasma proteins for therapeutic use. A sterilization method includes irradiating flexible bags by electron beam irradiation. An in-line method for filling flexible can use the sterilization device and method.
Type:
Grant
Filed:
May 31, 2017
Date of Patent:
November 23, 2021
Assignee:
GRIFOLS ENGINEERING, S.A.
Inventors:
Jordi Boira Bonhora, Daniel Fleta Coit, Carlos Roura Salietti
Abstract: An anvil for a surgical stapler. In at least one form, the anvil includes an elongate anvil body portion that has an upper portion and a staple forming undersurface. An anvil mounting portion is adjacent to the elongate anvil body and is configured to movably support the anvil on a portion of the surgical stapler. An anvil cap is configured to be mechanically interlocked to the upper portion of the elongate anvil body. At least one weld is provided between the anvil cap and the upper portion of the elongate anvil body portion.
Type:
Grant
Filed:
December 21, 2016
Date of Patent:
November 23, 2021
Assignee:
Cilag GmbH International
Inventors:
Frederick E. Shelton, IV, Jerome R. Morgan, Jason L. Harris
Abstract: A vaping liquid dispensing and vending apparatus comprises filling module(s), user container holder(s), positioning mechanism(s) and controller module(s). The filling module(s) comprise: machine container(s) configured to hold vaping liquid(s), nozzle(s) configured to dispense vaping liquid(s) to user container(s), and measuring pump module(s) configured to pump a measured amount of vaping liquid(s) from machine container(s) to nozzle(s). The user container holder(s) are configured to hold user container(s). Positioning mechanism(s) align user container holder(s) with filing module(s). Controller module(s) execute production instructions causing vaping liquid formulations to be dispensed into user container(s).
Type:
Grant
Filed:
May 23, 2015
Date of Patent:
November 23, 2021
Assignee:
Revolutionary Electronic Design, LLC
Inventors:
Joshua Thomas Brown, Thomas Robert Young, II, Robert Czarnek
Abstract: A surgical instrument for use with a robotic system that has a control unit and a shaft portion that includes an electrically conductive elongated member that is attached to a portion of the robotic system. The elongated member is configured to transmit control motions from the robotic system to an end effector.
Type:
Grant
Filed:
July 18, 2017
Date of Patent:
November 9, 2021
Assignee:
Cilag GmbH International
Inventors:
James R. Giordano, Jeffrey S. Swayze, Frederick E. Shelton, IV
Abstract: The present invention provides an electric working machine in which a control board can be disposed without limitations based on a length of a brushless motor in a direction along an axial line. The electric working machine comprises: a brushless motor provided with a rotor and a stator; a motor case and a motor housing in which the brushless motor is stored; a control board which is provided outside of the motor housing in a radial direction of an axial line defined at the center of the rotor, and supports the switching elements; a connection board which is provided in the motor case, and supports the sensors; a through hole provided on the motor case; a through hole provided on the motor housing; and leads and signal lines extending from inside of the motor housing to the outside of the motor housing through the holes.
Abstract: A system is disclosed. The system can comprise an end effector configured to receive a compatible replaceable staple cartridge, wherein the end effector comprises a first outer surface, and wherein a classifying identification of the end effector is inscribed on the first outer surface. The system can also comprise the compatible replaceable staple cartridge comprising a second outer surface, wherein a classifying identification of the compatible replaceable staple cartridge is inscribed on the second outer surface. The classifying identification of the compatible replaceable staple cartridge can correspond to the classifying identification of the end effector.
Type:
Grant
Filed:
February 27, 2019
Date of Patent:
November 2, 2021
Assignee:
Cilag GmbH International
Inventors:
Robert J. Simms, Jason L. Harris, Frederick E. Shelton, IV, Tony C. Siebel
Abstract: A main die-cut element is divided along a predefined division line to obtain a first die-cut element and a distinct second die-cut element. Glue is deposited on a first portion of one from between the first die-cut element and a secondary die-cut element and on a second portion of one from between the second die-cut element and the secondary die-cut element. The method includes forming an opened die-cut element of the tray plus lid type given by the combination of the first die-cut element and the second die-cut element, wherein these two elements are coupled to the secondary die-cut element, with the first die-cut element and the secondary die-cut element partly superposed and pressed to one another at the first portion and the second die-cut element and the secondary die-cut element being partly superposed and pressed together at the second portion.
Abstract: A switch device for a nail gun includes a body having a main chamber and a cylinder is received in the main chamber. A main path communicates with the cylinder. A recess is formed in the body and a valve is received in the recess. An end member is connected to the rear end of the body. An air way communicates between the recess and the end member. A first release path communicates the recess and outside of the body. A communication path communicates between the main chamber and the recess. A switch member is located at the communication path. By operating the switch member, the features of single mode and automatic mode of the nail gun is controlled.
Abstract: A compressed netting sleeve for in situ formation of a compost filter sock comprises a sleeve of netting material having a pair of opposed open ends, wherein the sleeve of netting material is bunched primarily along a longitudinal axis, whereby each of the open ends of the netting material remains accessible to form a compression bundle netting material; and a protective sleeve extending through the open ends of the sleeve of netting material to extend through the interior of the sleeve of netting material and around the exterior of the sleeve of netting material thereby surrounding the compression bundle netting material with the protective sleeve.
Type:
Grant
Filed:
June 23, 2017
Date of Patent:
October 26, 2021
Assignee:
MKB COMPANY, LLC
Inventors:
Jeffrey Karl Szebalskie, Sr., Michael Zock
Abstract: A fastening system that comprises a fastener and a single tool that provides both snugging torque and final tensioning to the fastener assembly, from a single side, with a single operator, with no torque feedback. The fastener comprises a nut and a bolt with a head and a shank extending axially from the head. The shank has at least one threaded portion and at least one splined portion, the splined portion defining the end of the bolt. The splined portion remains connected to the threaded portion after final tensioning. The tool comprises a first socket and a second socket, wherein the first socket is engaged with an outer surface of the nut and the second socket is engaged with the splined portion on the fastener. Snugging torque and final tension are both controlled by the tool.
Abstract: An automated case erector for erecting a one-piece insulating container and a method of automated case erecting are provided. The automated erector includes a case blank feeder for sequentially feeding a series of flat case blanks onto a conveyor, an insulation securing station for securing insulating members to the case blank, and a case erecting assembly for forming the combination of case blanks and insulating members secured thereto into a fully erected, three-dimensional container by simultaneously folding the combination of case blanks and insulating members.
Abstract: In a device for machine-making a dunnage product from a single- or multi-ply continuous paper web comprising a delivery conveyor for drawing in a paper web into the device whereby a conveying direction is defined and a cutter for separating the dunnage product from a three-dimensional strand of dunnage material formed from the paper web within the device, it is provided that a removal conveyor succeeds in the conveying direction to the cutter, the removal conveyor transporting the separated dunnage product away from the cutter.
Type:
Grant
Filed:
November 4, 2015
Date of Patent:
October 5, 2021
Assignee:
Sprick GmbH Bielefelder Papier- und Wellpappenwerke & Co.
Abstract: In an electric driver configured such that a driver bit is coupled to a drive output shaft of an electric motor via a clutch mechanism to perform screw tightening operations, an automatic screw tightening control method and a device are provided such that an appropriate screw tightened state in a screw tightening operation can be confirmed and determined, simply and reliably. In a screw tightening operation by an electric driver, at start of a predetermined screw tightening operation, a rotation amount of an electric motor at a clutch operation time by a clutch mechanism is detected, this rotation amount is set to be a target rotation amount and in the subsequent screw tightening operations, a rotation amount of the electric motor at the clutch operation time is detected and compared with the target rotation amount, respectively, so that acceptability of the respective screw tightened states is determined.
Abstract: A fastener driver includes a housing, a cylinder disposed within the housing, and a piston positioned and moveable within the cylinder. The fastener driver additionally includes a nosepiece at least partially defining a fastener driving track through which fasteners are driven, and a driver blade attached to the piston and moveable with the piston to drive the fasteners through the fastener driving track. The driver blade includes an axial guiding projection for guiding the driver blade within the nosepiece, and wherein the projection terminates before a distal end of the driver blade.
Abstract: A spare staple storage device including a housing, a retaining mechanism, an end cap, a first magnet, and a second magnet. The housing having a first end, an opposing second end, and being adapted to secure to a stapler. The retaining mechanism carried by the housing and having a first end, adapted to selectively occlude a first opening at the first end of the housing, and an opposing second end. The end cap secured to the second end of the housing. The first magnet secured to the retaining mechanism at the second end of the retaining mechanism. The second magnet carried by the end cap and positioned to attract the first magnet and retain the retaining mechanism is in a closed configuration.