A jaw pivoting about an axis for clamping the shell, a lower end of the jaw receives the shell to allow closure. The notch intended to interfere with a catch of a cam to retain the jaw in the closed position. The cam is rigidly connected to a pivoting lever which allows the catch to be moved from the path of the notch to allow the jaw to open. The lever is to be pivotally activated through the force of an external component. The device includes a first and second spring each acting on the lever in an opposing manner, the second spring being stiffer than the first spring. The effect of the first spring is to lift the lever. The second spring counters the action of the first spring in order to delay the lifting of the lever and the catch when removing the component.

An operating device for placing or retrieving bottle-like piece goods onto or from storage places of a picking device is provided. The operating device includes a gripping jaw assembly having two profile-rod shaped gripping jaws with opposite lying inner surfaces extending in a first horizontal direction corresponding to a direction for placing and retrieving piece goods. The gripping jaws are configured so that the distance of the inner surfaces from each other tapers in the downward direction at least in sections and the bottle-like piece goods can be lifted from below. The operating device also includes an actuation unit coupled to the gripping jaw assembly for moving the gripping jaw assembly in the first horizontal direction.

A manipulator apparatus for manipulating an article is disclosed. The apparatus includes an arm including a connecting end and a working end, an arm actuator coupled with the connecting end by an arm linkage, a lift actuator coupled with the connecting end, an end effector coupled with the working end by a rotatable connection, the end effector having an engagement orientation relative to the working end, and at least one cable coupled between the connecting end of the arm and the rotatable connection. The arm actuator is operable to cause the arm linkage to move the working end until the end effector engages an article in the engagement orientation; the lift actuator is operable to cause the connecting end to lift the working end, the end effector, and the article; and the cable is coupled to transmit movement of the connecting end to the rotatable connection to maintain the engagement orientation of the end effector.

An end effector comprising: a driving roller and presser rollers configured to hold a threaded member; a motor; a linear guide and an air cylinder including a rod configured to move the threaded member linearly along the axis of the threaded member; a detector; a robot arm; and a controller configured to: provide the threaded member near a position coaxially facing a threaded hole member by controlling the robot arm based on the position and the direction of the threaded hole member detected by the detector; and insert and screw the threaded member into the threaded hole member by controlling: the air cylinder including the rod to advance the threaded member toward the threaded hole member and insert a tip of the threaded member into the threaded hole member; and the motor to rotate the threaded member about the axis of the threaded member.

An arrow retrieval system for retrieving arrows from hard-to-reach locations such as when submerged in water. The arrow retrieval system generally includes a handle adapted to be grasped by an operator. A clamp may be connected to the handle, with the clamp being adapted to selectively and releasably clamp an arrow within the clamp. The clamp may be adjustable between a closed position and an engaged position. A bias member may be connected to the clamp such that the clamp is biased toward the closed position; with the clamp being adapted to adjust into the engaged position when an arrow is inserted into the clamp. In the engaged position the clamp engages with and secures the arrow within the clamp. With the arrow secured within the clamp, the handle may be pulled outwardly to dislodge and retrieve the arrow from any location in which it is stuck.

A robot is a robot configured to convey an elongated object, and includes a first holding part and a second holding part configured to hold the elongated object extending in an up-and-down direction, at least one arm configured to move the first holding part and the second holding part, and a control device. The control device operates the arm so that the first holding part holds the elongated object at a position above a center-of-gravity position of the elongated object, the second holding part holds the elongated object at position below the center-of-gravity position, and the first holding part and the second holding part move while maintaining a state where the first holding part and the second holding part hold the elongated object.

Systems and methods for clearing a top drive from an operational area of the mast such that operations may be performed along the rail without interference from the top drive. Systems and methods of the present disclosure provide for arranging the top drive in a parked configuration outside of, or generally behind, the mast. A guide rail may be arranged within an operational area of a mast and may have a pair of interchangeable rail sections, each of which may be configured for arrangement in either an operating configuration, where the rail section may be positioned within the operational area of the mast to form part of the rail, or a parked configuration, where the rail section may be positioned outside of the operational area. Each interchangeable rail section may be pivotable about an axis and may be arranged on a pivotable gate of the mast.

The present disclosure relates to systems and methods for automated drill pipe handling operations, such as trip in, trip out, and stand building operations. A pipe handling system of the present disclosure may include a lifting system for handling a load of a pipe stand, a pipe handling robot configured for engaging with the pipe stand and manipulating a position of the pipe stand, and a feedback device configured to provide information about a condition of the pipe stand, the lifting system, or the pipe handling robot. In some embodiments, the pipe handling robot may be a first robot configured for engaging with and manipulating a first end of the pipe stand, and the system may include a second pipe handling robot configured for engaging with and manipulating a second end of the pipe stand.

A grip apparatus is provided. The grip apparatus includes: a housing formed therein with an accommodation space opened downward to accommodate an object; an elastic membrane provided in the accommodation space and surrounding the object; a fastening member at least partially positioned between an inner periphery of the housing and the elastic membrane to fasten the elastic membrane; and a winder configured to pull the fastening member by winding the fastening member.

A collar fastening system that includes a collar fastening tool, and a collar loading assembly coupled to the collar fastening tool. The collar loading assembly includes a loading arm that rotates into multiple positions and a holding member coupled to the loading arm. The loading arm positions the holding member between a loading position and an unloading position. The holding member includes an arcuate side wall and a vacuum opening defined in the arcuate side wall. The holding member receives a collar when at the loading position, and selectively holds the collar against the arcuate side wall with a retaining force provided by a vacuum applied via the vacuum opening. The loading arm provides the collar to the collar fastening tool when at the unloading position.