A system and method for forming a foundation truss for a box spring or mattress foundation frame includes a first truss rail assembly station having a series of block feeders, a top rail hopper and a filler strip hopper that received stacks of truss components such as blocks, top rails and filler strips and feed such truss components into stacked registration. The stacked truss components are moved into engagement with a series of staplers that secure the filler strips, top rails and blocks together to form first truss rail portions, which are then fed to a second truss rail assembly station where a bottom rail is automatically applied thereto.

A threaded insulating glass unit plug for sealing an aperture in a spacer frame of an insulating glass unit, method of assembly and installation is provided. The threaded insulating glass unit plug includes a head integrally formed with threaded body. The head has a recess formed for engaging a tool for installation during use. The body includes a cylindrical portion and a conical portion, the cylindrical portion spacing the conical portion from the head. A plurality of threads extend along the entire length of cylindrical portion.

An automated screw driving machine may include a hopper adapted to hold associated fasteners, a chuck assembly adapted to hold an individual fastener in position with respect to an associated component part, a feeder assembly adapted to convey the fasteners from the hopper to the chuck assembly; and, a driver assembly that takes fasteners from the chuck assembly and attaches them to the associated component part.

An insertion station of a component (2), for example a clevis, in a component seat (12) formed in an assembly (3) to be assembled, for example a hinge assembly for doors, includes a component ordering device (14) to order the loose components coming from a component feed hopper. A component support seat (16) receives the component and is configured in such a way as to guide the component in the horizontal insertion direction. A manipulator (20) picks a component (2) from the component ordering device (14) and deposit the component in the component support seat (16). An insertion actuator (30) has a pusher member (32) operable to push the component (2) in the component seat (12), and a positioning unit (40), including an abutment (42) operable to block the assembly (3) in a component insertion position.

A device for separating and aligning pin-shaped piece goods exhibiting a head and a shank includes a funnel-shaped receptacle for receiving the piece goods. The receptacle has two wall sections which delimit the receptacle in a front area, and a rear wall, which are arranged in sections opposite one another and in each case inclined outwards at an angle to the central transversal plane of the receptacle. An endlessly circulating conveying means is arranged underneath a recess which spaces apart the two wall sections and which is arranged at a same angle () as the wall sections inclined relative to the central transversal plane and conveys the piece goods from a receiving plane to a higher discharge plane. The conveying means has a conveying plane provided with drivers. The recess is delimited by parallel front edges of the wall sections which are arranged in a V-shape tapering towards the conveying means and terminate above the conveying means or in a plane with the conveying means. The drivers are in the form of cylindrical pins which are arranged at a distance from one another in the direction of circulation of the conveying means and extend essentially perpendicular to the conveying plane of the conveying means.

A system for controlled distribution of components, the system including a vibrating bowl provided with an enclosure having a wall extending right around an axis of revolution of the bowl and in which the components are placed in bulk, and an articulated gripping arm provided to distribute the components to the automatic assembly installation, the vibrating bowl including an ascending helical ramp extending along an internal face of the wall between a base and an upper edge of the vibrating bowl constituting an exit of the ramp, the components being able to travel along this ramp towards a supply platform, particularly a slide, on which at least one component is arranged in advance of its seizure by the articulated gripping arm, the supply platform being connected to the exit and extending above or in the enclosure of the vibrating bowl.

A device for separating and aligning pin-shaped piece goods exhibiting a head and a shank includes a funnel-shaped receptacle for receiving the piece goods. The receptacle has two wall sections which delimit the receptacle in a front area, and a rear wall, which are arranged in sections opposite one another and in each case inclined outwards at an angle to the central transversal plane of the receptacle. An endlessly circulating conveying means is arranged underneath a recess which spaces apart the two wall sections and which is arranged at a same angle () as the wall sections inclined relative to the central transversal plane and conveys the piece goods from a receiving plane to a higher discharge plane. The conveying means has a conveying plane provided with drivers. The recess is delimited by parallel front edges of the wall sections which are arranged in a V-shape tapering towards the conveying means and terminate above the conveying means or in a plane with the conveying means. The drivers are in the form of cylindrical pins which are arranged at a distance from one another in the direction of circulation of the conveying means and extend essentially perpendicular to the conveying plane of the conveying means.

A fastener feed head includes a chute having a feed passage along a feed axis to support and guide fasteners from a chute inlet to a chute outlet connected to a fastener installation head. A carriage is movably attached to the chute along a feed axis. Opposed pawls are pivotably attached to the carriage. The carriage reciprocates along the feed axis between a retracted position and a feed position. The carriage cyclically advances a predetermined number of fasteners from a queue of fasteners in an upstream zone into a queue of fasteners in a downstream zone by: retracting to the retracted position from the feed position; abutting the lead fastener in the upstream queue with the pawls; and, driving the lead fastener with the pawls until the carriage reaches the feed position.

An apparatus for supplying a fastener for joining two different types of panels includes: a first bowl which accommodates fasteners of at least three specifications, aligns first fasteners of a first specification by a first guider, sequentially supplies the first fasteners to a supply unit through a first rail, and drops downward fasteners other than the first fasteners by a first dropping unit of the first guider; and a second bowl which is disposed at a lower side of the first bowl, accommodates the first fasteners dropped from the first bowl, aligns second fasteners of a second specification by a second guider, sequentially supplies the second fasteners to the supply unit through a second rail, and drops downward fasteners other than the second fasteners.

An orientation device for objects (O) provided with a stem (S) and with a head (H) that has a minimum width (R), characterised in that it comprises: a slot (3) which has two edges separated by a predetermined distance (D), less than the minimum width (R) and greater than the maximum width of the stem (G); an uncoupling device (4), movable between an active configuration, in which it is able to retain an object (O) with respect to lifting, and an inactive configuration, in which it is not able to interact with an object (O); a magnetic gripping element (2), movable along at least a vertical direction between an upper position and a lower position, in which an object (O) associated with the gripping element (2) is in a position such as to be retained by the uncoupling device (4) so as to be detached from the gripping element (2).