An assembly system that assembles insulation plates and mounting bars to a stack may include a stack transferring device that discharges a stack pressed by a stack pressing device to the outside; an insulation plate attaching device that attaches insulation plates to a first opposite side and a second opposite side of the stack that is discharged to the outside by the stack transferring device; a mounting bar attaching device that attaches mounting bars to the stack to which the insulation plates are attached; and a bolt assembling device that assembles bolts to the mounting bars that are attached to the stack.

An assembly system that assembles insulation plates and mounting bars to a stack may include a stack transferring device that discharges a stack pressed by a stack pressing device to the outside; an insulation plate attaching device that attaches insulation plates to a first opposite side and a second opposite side of the stack that is discharged to the outside by the stack transferring device; a mounting bar attaching device that attaches mounting bars to the stack to which the insulation plates are attached; and a bolt assembling device that assembles bolts to the mounting bars that are attached to the stack.

A production line including a chain conveyor for moving part transporting pallets through an electronically controlled workstation. The workstation includes an implement for use by a workstation user which is freely movable along the transport direction of the pallets within the workstation. The workstation may further include a plurality of automated drawers containing components for manual assembly operations in the workstation. The chain conveyor includes front hook and rear hook units to engage the pallet for movement along the production line. When the pallet is prevented from further movement by an obstacle, the chain rear hook moves from a pallet engaged position to a position whereby an optical beam is interrupted. On interruption of the optical beam, a command signal is generated which causes the conveyor to stop.

A method is provided for ensuring and/or checking the quality of a crimping using a crimping machine for crimping a cable with a contact sleeve and using a first optical sensor for detecting and/or recording first image data of the contact sleeve and using an evaluation electronics system. The method includes detecting the first image data of the contact sleeve by the first optical sensor; carrying out, via the evaluation electronics system, a first comparison of the first image data of the first optical sensor with first reference data of a predetermined contact sleeve; checking the first comparison for the presence of a predetermined first criterion; and, if the predetermined first criterion is satisfied, outputting a first signal. The detection of the first image data and the first comparison and the checking for the first criterion and the output of the first signal are carried out before the cable is crimped with the contact sleeve. A crimping machine suitable for carrying out the above method is also provided.

Systems and methods for automated extrusion of main elements for building construction are disclosed wherein sub-components of sub-elements are extruded by automated means, and sub-elements are assembled by automated means, and the sub-elements are incorporated into main elements by automated means.

Equipment for fitting panels for insulating covers, such as standing seam panels for insulating housing roofs, includes an upper sheet, a lower sheet and an expanded polymer intermediate layer. A working unit extends along a longitudinal axis, which corresponds to the working line of the panels. A supply unit is coupled to the working unit, by a transfer unit extending along a horizontal longitudinal axis perpendicular to the longitudinal axis of the working unit, for supplying reinforcement plates having a thrust portion and a flat portion. The working unit includes a carriage movable along the longitudinal axis. The carriage includes dies configured to cut and deform one end of the upper sheet of the panels and a thrust member for introducing reinforcement plates into a tail end of the expanded polymer intermediate layer. The thrust member is placed downstream of the dies along the working direction of the panels.

A system for manufacturing a string of pocketed coil springs comprising: a coil-forming subsystem that produces two coil springs; a spring transporter subsystem that receives the two coil springs at a first position and conveys the two coil springs to a second position; a spring compressor subsystem that compresses the two coil springs; a fabric-folding subsystem that receives a piece of fabric and folds the fabric to create an open side; a spring inserter subsystem that receives the two compressed coil springs and inserts the two compressed coil springs between top and bottom surfaces of a folded piece of fabric; two welder subsystems that form first and second welds between top and bottom surfaces of the folded piece of fabric, the first welds and the second welds forming a plurality of pockets in the fabric, each of the plurality of pockets comprising a compressed coil spring.

The present invention relates to an automatic spring fastener assembly machine, including a rack and a power control box, and the rack is provided with a circulating conveying device, and a rubber casing feeding device, a fastener feeding device and a spring loading device which are in turn arranged around the circulating conveying device. The rubber casing feeding device includes a rubber casing vibration tray disposed to the left front side of the circulating conveying device, and the rubber casing feeding vibration tray is connected with a rubber casing distributing block through the rubber casing conveying track. The upper side of the circulating conveying device is provided with a rubber casing transportation manipulator, and the right front side thereof is provided with a rubber casing clamping device located below the rubber casing transportation manipulator, and a fastener pushing in device fitting the circulating conveying device is disposed under the rubber casing clamping device. In the present invention, material feeding and conveying is done by the circulating conveying device, and fasteners are fitted into corresponding holes on the rubber casings from a higher position with the fastener pushing in device, which can be completed fast and efficiently, is easy to operate, realize quick assembly of spring fasteners and improve working efficiency.

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.

Method and device for guiding a tool (2) in a recurring application of a product (3) moved along an X-axis, wherein the tool (2) is mounted on the Z-carriage (12) of a cross guide and is moved therewith along the Z-axis standing perpendicular on the X-axis, wherein the Z-carriage (12) is mounted on the X-carriage (10) of the cross guide, the guide of which is mounted along the X-axis in a base plane (13), wherein the X-carriage (10) is driven with an X-drive, wherein the Z-carriage (12) is driven by a Z-drive, which is held stationary in the base plane (13) and has a traction means (17) driven by a first servo motor (8) provided for the drive of the Z-carriage, which is driven from the base plane (13) on the movable Z-carriage (12), wherein a movement of the Z-carriage (12) that is brought about by the movement of the X-carriage (10) and a motive force caused thereby on the traction means (17), is compensated when actuating the first servo motor (8) provided for the drive of the Z-carriage.