Components of a pocket-sprung-mattress sub-assembly having individual metal springs retained within a matrix of fabric pockets are separated. A rotatable tearing drum 405 is driven by a drive motor 406. Tearing devices 407 are arranged to pull metal springs from a pocket-sprung-mattress sub-assembly during the rotation of the tearing drum 405. A feeding assembly 408 compressors an end portion of the mattress sub-assembly and moves this end portion continually to bring an end of the mattress sub-assembly into contact with the rotating tearing devices 407.

The present disclosure describes an adaptive spring compression tool that streamlines and partially automates the joining of a vehicle suspension system with a vehicle body on an assembly line. The spring compression tool can be modified and programmed to accommodate various vehicle models, products, and design modifications without replacing the entire tooling system. Additionally, the spring compression tool of the present disclosure has a structure, a function, and an operation that facilitates the compression of a spring without exerting large forces on the vehicle body. In various embodiments, the spring compression tool comprises at least two independent drives that adjust the compression of a spring and the position of a suspension system to achieve a car line position with the vehicle body.

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 spring carrier for receiving, retaining and discharging of a coil spring in a manufacturing assembly process comprising an elongate hollow body defining an inner cavity configured to receive a coil spring and an opening at a first proximal end of the hollow body for the insertion and/or extraction of a coil spring into/from the inner cavity. The hollow body includes a second distal end opposite to the first proximal end. At least one deflectable member is located proximate to the second distal end of the hollow body and includes a retaining formation which is configured to engage a coil spring when located within the inner cavity. The deflectable member is movable between a first unbiased position, whereby the retaining formation extends into the inner cavity to engage the coil spring when located within the inner cavity, and a second biased position, whereby the retaining formation is disposed outwardly to disengage a coil spring when located within the inner cavity. An apparatus comprising such a spring carrier, and a method of manipulating a coil spring using such a spring carrier, are also disclosed.

An articulation joint manufacturing process comprises cutting an elongated tube to form a multiplicity of links wherein adjacent links are connected by a bridge. The method comprises forming a fracturable portion on each bridge and connecting a multiplicity of springs to adjacentts links to form a workpiece. The method further comprises applying a torsional force to the workpiece about its longitudinal axis to fracture each bridge to form an articulation joint comprising a series of links wherein adjacent links are connected by at least one spring. Certain steps are formed by a laser. In one method, the springs are positioned on a mandrel and the springs are welded to the workpiece. The fracturable portion on the bridges may be produced by forming an indentation which may be a score, a perforation, an elongated indentation or an oval shaped indentation.

A device for removing a set of springs from a mattress box spring including a mattress box spring support, a pushing block support frame secured to the mattress box spring support, a pushing block supported by the pushing block support frame adjacent to the mattress box spring support, a cylinder for extending the pushing block over a mattress box spring positioned on the mattress box spring support belt, wherein the cylinder is operable to extend the pushing block transversely over the mattress box spring to separate springs attached to a frame of the mattress box spring from the frame, and wherein a plurality of forks extend in front of the pushing block transversely to the mattress box spring support for helping to prevent the springs from folding underneath a bottom of the pushing block when the pushing block is extended over the mattress box spring to separate the springs from the frame.

A spring carrier for receiving, retaining, and discharging of a coil spring in a manufacturing process includes an elongate hollow body defining an inner cavity to receive the coil spring and an opening at a first proximal end of the hollow body for the insertion of the coil spring into the inner cavity and extraction of the coil spring from the inner cavity. The hollow body includes a second distal end opposite to the first proximal end. The hollow body includes a magnetic member to magnetically attract and retain the coil spring when the coil spring is located within the inner cavity.

In a worm reducer, an elastic member urges a worm shaft housed in a housing toward a worm wheel. In a method for manufacturing the worm reducer, the elastic member is arranged in a recess formed on the inner face of the housing. Then, a jig is inserted into the housing, and the elastic member is compressed by the jig. In the state in which the elastic member is compressed by the jig, the worm shaft is inserted into the housing. Then, the jig is removed from the housing.

The invention relates to a method for setting a screw, which has an external thread in a front region and a drive in a rear region for introducing a torque into the screw, in a drilled hole in a substrate of a mineral material, in which method an internal thread is produced in the drilled hole by means of a threaded drill provided with a cutting thread, and then the screw is introduced into the drilled hole and in so doing the external thread of the screw is screwed into the internal thread, produced by the threaded drill, in the drilled hole. According to the invention, there is provision that the outside diameter of the cutting thread of the threaded drill is smaller than the outside diameter of the external thread of the screw. The invention further relates to packages comprising object for carrying out such method.

A biasing member compression fixture may have a first leg and a second leg. The legs may be substantially parallel one another and separated by a gap. The fixture may also have a base member connecting the first and second legs and extending across the gap. The biasing device may be connected to the base member and a ram may be connected to the biasing device. An upper member may connect the first and second legs and extend across the gap. A recess may be located in the upper member. A biasing member detecting unit may be connected to the upper member and may be adapted to detect a biasing member in the recess.