A process and apparatus for manufacturing a mattress generally includes an automated foam layer placement apparatus for accurately securing one or more foam layers onto an innercore unit and bucket assembly.

A retention clip according to this disclosure includes a base with a plurality of instrument engagement elements at a top of the base. A bottom of the base is configured to be secured to another object. The retention clip may have a size that enables it to be secured to and that enables it to secure other instruments to a portable object. As an example, the retention clip may be configured to secure a plurality of writing instruments to a hard hat, a tool box, a measuring tape or the like. Methods for retaining one or more instruments are also disclosed.

The invention relates to a fastening element for fastening a component on a carrier component, in particular a carrier component of an automobile, wherein the fastening element comprises a glue surface with which the fastening element can be glued onto the earner component with a glue applicable to the glue surface, and wherein the fastening element comprises fastening means for fastening the component or a further fastening element, wherein a plurality of anchoring ribs are provided on the glue surface, which extend in a radial direction with regard to an imaginary circle around the center of the glue surface.

The present invention is directed to synthetic attachment discs made from adhesive nanofibers and/or microfibers that are capable of attaching long fibers to a wide variety of surfaces, and related methods for forming and using them. The synthetic attachment discs of the present invention use very little material relative to prior art systems, while producing a very strong attachment force. Experimental and theoretical evidence are provided to confirm the advantages of thousands of micron-size ‘staple-pins’ and their low peeling angles to enhance the adhesive forces required to peel the synthetic attachment discs. The present invention provides a unique strategy for designing new adhesives that use very little material for various biomedical and material science applications.

The self fixturing heater includes an outer casing having a central channel therein for selectively receiving and retaining in friction-fit relation an elastomeric fixture from a nutplate fastener assembly that axially aligns the self fixturing heater with a nutplate fastener assembly. The outer casing encloses a heater element generally disposed circumferentially around the central channel and includes a thermal insulated cover to direct heat energy toward a heat transfer surface that includes a thermally conductive pressure pad in engagement with a substrate underneath a baseplate of a nutplate having an adhesive bonding agent thereon, the heat transfer surface imparting heat energy to the adhesive bonding agent thereby curing the adhesive in four hours or less.

Methods and systems are provided for assembly of coin components. Two or more coin components are received in an assembly station having at least two assembling members. The assembling members may be configured to form a chamber comprising the cavities and at least one assembling member may be movable over an assembling path. A merging force may be applied for assembling the coin components together to allow continuous production of joined coin components such that when the movable assembling member travels along the assembling path, one coin component locates within the other, thereby forming a coin assembly over a non-zero distance.

A portable detachable counter extension system uniquely mounts on top of an already existing surface including but not limited to a counter, bookshelf, radiator cover, bathroom vanity or any other suitable existing suitable surface.

There is described a method of mounting inserts, comprising the following steps: (i) Application of an adhesive film on one of the faces of an inserts tray (223) covering a plurality of through-holes (241) and respective depressions (242); (ii) Insertion of an insert (230) in each through-hole (241) of the tray (223) from a face of the inserts tray (223) opposite that of the adhesive film, securing one surface of the insert (23) onto this adhesive film; (iii) Cutout of the adhesive film forming a plurality of single films (245) associated with the inserts (230). There is further described an insert mounting device (300), comprising a holding table (314) held by a supporting base (311), the insert mounting device (300) further comprising a rotating tray holder (312), cooperating with a cutting system (313).

A connector system for mechanically connecting two structural elements to each other, consisting of a connector element and mating grooves in each structural element. The connector element is comprised of a base plate having a split-tongue element at each side or end of said base plate. Each joined element has a mating groove formed into its connector-receiving surface. The mating groove is designed to allow fabrication via four sequential circular saw cuts, without loss of saleable decorative surface, and at a rate consistent with economical commercial production of vinyl, laminate, or hardwood flooring. The connector element is readily extruded in a variety of polymers, including PVC. The connector and mating grooves interact so as to generate a force component acting to forcibly draw the connector into the mating grooves. The connector system operation is relatively insensitive to geometric deviations associated with normal manufacturing methods.

A magnetic mobile device mount is an apparatus that attaches a mobile device onto a surface. More specifically, the apparatus facilitates the mounting and dismounting of the mobile device by utilizing magnetic force. The apparatus includes a casing, at least one magnet, a magnet-holding fixture, a first adhesive layer, and a ferric plate. The casing is a platform for the mobile device. The casing includes a base and a cover. The base and the cover detachably attach to each other so that the at least one magnet within the casing is accessible. The magnet-holding fixture positions the at least one magnet within the casing. The first adhesive layer attaches the casing onto the desired surface. The ferric plate attaches the mobile device to the casing as the ferric plate is fixed on the mobile device and the at least one magnet magnetically couples to the ferric plate.