A device is provided for the automated production of screw connections, and includes an articulated robot with an output element and an end link. The output element is arranged on the end link so as to be rotatable around an effector axis (wE). A screwdriver tool is provided, and can be rotated around the effector axis (wE) by the output element. At least one gear may also be provided, where the gear has a direct operative connection to the output element and the screwdriver tool and is set up for transmission of a rotary speed between the output element and the screwdriver tool.

A vacuum suction nozzle is provided, including a first housing, a second housing, an accommodating space, a gap, and a clamping assembly. The first housing includes a first lateral wall, a first lower surface, a channel, and a through hole. The through hole is formed on the first lateral wall. The second housing is fixedly connected to the first housing, and includes a second lateral wall and a second lower surface. The accommodating space is formed between the first lateral wall and the second lateral wall, and the through hole is opened onto the channel and the accommodating space. The gap is formed between the first lower surface and the second lower surface, and is opened onto the accommodating space. The clamping assembly is disposed in the accommodating space.

A device for automatically producing screw connections, having an articulated arm robot and a screwing unit which can be rotated about an effector axis by an output element of an end element of the articulated arm robot. The screwing unit has a housing, wherein a screwing tool is movably received in the housing along the effector axis between a feed position and at least one screwing position, and wherein a mouthpiece for providing a screw is arranged on the housing.

A device for automatically producing screw connections, having an articulated arm robot and a screwing unit which can be rotated about an effector axis by an output element of an end element of the articulated arm robot. The screwing unit has a housing, wherein a screwing tool is movably received in the housing along the effector axis between a feed position and at least one screwing position, and wherein a mouthpiece for providing a screw is arranged on the housing.

Screw-in aid for screwing a long screw in a defined screw-in angle in an underground, with at least one underground portion for placing at the underground and at least one screw placing portion for placing the screw on it, wherein the screw-in angle is formed between them, characterized in that at the screw placing portion, a screw holder is, in particular detachably, arranged, which forms a, in particular circumferentially closed, screwing channel for the screw between them, to guide the screw when screwing into the underground.

Screw-in aid for screwing a long screw in a defined screw-in angle in an underground, with at least one underground portion for placing at the underground and at least one screw placing portion for placing the screw on it, wherein the screw-in angle is formed between them, characterized in that at the screw placing portion, a screw holder is, in particular detachably, arranged, which forms a, in particular circumferentially closed, screwing channel for the screw between them, to guide the screw when screwing into the underground.

A dual positionable adaptor for a fastener driver assembly employs a tandem guide assembly mounted to a guide head which has an entry reference surface defining an opening for a fastener to provide a proper location and entry angle for the fastener. A pair of wings each defines a pair of reference engagement edges which engage either an upper horizontal member or a lower horizontal member. The wings, together with the entry reference surface, define a proper entry location and angle for connecting a vertical stud to either an upper plate or a lower plate. The selected adaptor position is achieved by securing the adaptor in one of two angular positions relative to the tube axis of the fastener driver assembly. The wings are also affixed with squirrel claws to lock the adaptor in place for installing the fastener. The adaptor also includes flush indicators to indicate that the proper flush position of the reference surface against the vertical member is achieved. The wings are independently pivotal to accommodate situations wherein the tandem wing configuration cannot be employed. The fastener is retained within the adaptor fastener channel via a magnet assembly.

Position indicator tools systems and methods for use with an elongated adapter are disclosed. Tools are configurable to engage the distal end of the elongated adapter include a first member wherein the first member has a distal end and two projection elements positioned in a plane and a channel between the projection elements further wherein at least one of the first members has a notch at a distal end on a channel-facing side, a positioning member formed integrally with the first member wherein the positioning member has a linear marker on a first side, an angled marker on a second side, and a rocker positioned between the angled marker and the channel.

Position indicator tools systems and methods for use with an elongated adapter are disclosed. Tools are configurable to engage the distal end of the elongated adapter include a first member wherein the first member has a distal end and two projection elements positioned in a plane and a channel between the projection elements further wherein at least one of the first members has a notch at a distal end on a channel-facing side, a positioning member formed integrally with the first member wherein the positioning member has a linear marker on a first side, an angled marker on a second side, and a rocker positioned between the angled marker and the channel.

A method for installing a screw in at least one through-orifice of a box-type structure, including inserting a body of a first tool into the through-orifice from an external region of the box-type structure, moving the body in an internal region of the box-type structure, towards an end of the box-type structure, securing the screw to the body, the first tool comprising a link connected to the body which remains accessible from the external region during the inserting, moving and securing steps, pulling on the link from the external region until the shank of the screw is positioned in the through-orifice, and separating the body from the screw.