A portable mat which keeps itself clean teaches a combination of nine upper surface panels of hard rubber, EPDM, hard neoprene, a very durable bottom surface/substrate holding the mat panels, which may be the neoprene in unitary body embodiments or a separate material in other embodiments, a formula for placement of the panels upon the substrate, a specific folding sequence, and a tenth mud-flap outside of the regular 3×3 pattern of the other nine panels which completes the folding sequence with every bottom surface covered by another bottom surface and no top panel in contact with any bottom surface. A handhold at one corner and indicia on the top surface assist the user in properly folding, as do the formulaic gaps which allow tight proper folding and prevent improper folding.

A display device comprising a first receiving layer and a second receiving layer located onto and in direct planar contact with the first receiving layer; a first support later and a second support layer located onto and in direct planar contact with the first support layer; and a sleeve for receiving the first and second receiving layers and first and second support layers.

A protective cover for electronic devices. A device is examined and a film is prepared. The film may include multiple pieces and may have cutouts for discontinuities in the surfaces of the device or to accommodate a user interface. The corners or other portions of the films are then cut such that the films substantially cover the surface of the device without bunching or creating air pockets.

The present invention relates to a mold including a master mold having a first region master mold molding surface having a shape corresponding to a first region of a molded body, and a second region master mold molding surface having a shape corresponding to a second region of the molded body, and in which the master mold includes: an inner mold having the first region master mold molding surface; an outer mold having an accommodating concave portion capable of accommodating the inner mold therein and the second region master mold molding surface on at least a part of an outer edge of the accommodating concave portion; and a buffer material provided between the inner mold and a bottom surface of the accommodating concave portion, the buffer material being pressed and deformed with relative movement of the inner mold and the outer mold.

The invention is a trim panel having a moulded structural core. The core has two edges connected to each other along a joint, the joint is convex and radiated. The edges are connected to each other gradually, and the core has a back face and a front face. The front face is coated with a glued front coating, the coating having a peripheral edging folded against the periphery of the back face. The back face is provided, in the vicinity of the joint, with a plurality of substantially straight grooves arranged in a fan, the grooves receiving, glued therein, the folds formed in the edging in the vicinity of the joint.

A corner protector is folded from a single sheet of cardboard or similar material along a plurality of lines of weakness. The corner protector includes multiple layers of protection preventing penetration of an apex of the corner protector by a corner received therein.

The invention relates to a two-part component for a vehicle body comprising an outer sheet (1) and an inner sheet (2), wherein the outer sheet (1) is connected to the inner sheet (2) along their rims at least in one connection section (3) in such a manner that the outer sheet (1) and the inner sheet (2) run parallel to one another in a first region (4) of the outer sheet (1), wherein an adhesive material (5) is introduced in the first region (4) between the outer sheet (1) and the inner sheet (2), and wherein in a second region (6) of the outer sheet (1), the outer sheet (1) is bent against the inner side of the inner sheet (2), wherein in the second region (6) of the outer sheet (1), the outermost rim of the outer sheet (1) is welded to the inner side of the inner sheet along the connection section (3), and to a production method for same.

Disclosed is a laminated glass structure with one or more inner glass layers with at least one in tension and two outer glass layers in compression wherein one or both of the outer layers at least partially wrap around the one or more inner layers at one or more of the edges of the laminated glass structure. Also disclosed is a process for forming a laminated glass structure, comprising providing a laminated glass structure, removing at least some glass from at least one the edges of the structure to produce a concavity in at the at least one edge and applying heat to the at least one edge.

The invention is a trim panel having a moulded structural core. The core has two edges connected to each other along a joint, the joint is convex and radiated. The edges are connected to each other gradually, and the core has a back face and a front face. The front face is coated with a glued front coating, the coating having a peripheral edging folded against the periphery of the back face. The back face is provided, in the vicinity of the joint, with a plurality of substantially straight grooves arranged in a fan, the grooves receiving, glued therein, the folds formed in the edging in the vicinity of the joint.

There is provided a shaped product made of a fiber-reinforced composite material including reinforcing fibers having an average fiber length of 5 to 100 mm and a thermoplastic resin. In the shaped product, a volume fraction of reinforcing fibers is 5 to 80%, a reference plane (S) and a standing plane (B) inclined at an angle of 45 to 90 degrees with respect to the reference plane are included, a ratio of an area of the standing plane (B) to an area of the reference plane (S) is 0.5 to 100, and in the fiber-reinforced composite material constituting the shaped product, a ratio of a reinforcing fiber bundle (A) including the reinforcing fibers of a critical number of single fiber or more to the total amount of the reinforcing fibers is 20 Vol % or more and 99 Vol % or less.