A corner bumper is adapted to be mounted to a corner of a substantially hard-sided carryable case, transport container, or the like, to act as a shock absorber for protecting the case and its contents from exterior impact. The bumper comprises intersecting wall portions to substantially cover the adjacent planes of a corner. The bumper includes feet elements to act as a base upon which the case can stand and space the base a distance from the underlying support surface.

A corner bumper is adapted to be mounted to a corner of a substantially hard-sided carryable case, transport container, or the like, to act as a shock absorber for protecting the case and its contents from exterior impact. The bumper comprises intersecting wall portions to substantially cover the adjacent planes of a corner. The bumper includes feet elements to act as a base upon which the case can stand and space the base a distance from the underlying support surface.

A case with a transparent shell accommodates a sheet mounted within the shell to modify the appearance of the case. Magnetic coupling at the corner of the shells retains the sheet. Binding at the distal edge of the shell extends over the periphery of the sheet when placed within the transparent shell. The sheet may include visual information arranged to appear through the transparent shell.

A case with a transparent shell accommodates a sheet mounted within the shell to modify the appearance of the case. Magnetic coupling at the corner of the shells retains the sheet. Binding at the distal edge of the shell extends over the periphery of the sheet when placed within the transparent shell. The sheet may include visual information arranged to appear through the transparent shell.

Systems, methods, and articles for a portable power case are disclosed. The portable power case is comprised of at least one battery and at least one PCB. The portable power case has at least two access ports, at least two leads, or at least one access port and at least one lead and at least one USB port. The portable power case is operable to supply power to an amplifier, a radio, a wearable battery, a mobile phone, and a tablet. The portable power case is operable to be charged using solar panels, vehicle batteries, AC adapters, non-rechargeable batteries, and generators. The portable power case provides for modularity that allows the user to disassemble and selectively remove the batteries installed within the portable power case housing.

Systems, methods, and articles for a portable power case are disclosed. The portable power case is comprised of at least one battery and at least one PCB. The portable power case has at least two access ports, at least two leads, or at least one access port and at least one lead and at least one USB port. The portable power case is operable to supply power to an amplifier, a radio, a wearable battery, a mobile phone, and a tablet. The portable power case is operable to be charged using solar panels, vehicle batteries, AC adapters, non-rechargeable batteries, and generators. The portable power case provides for modularity that allows the user to disassemble and selectively remove the batteries installed within the portable power case housing.

A luggage case includes a case woven by thermoplastic composite material, the case includes four integrally connected lateral walls, a bottom connected to the lateral walls, and four arc-shaped corners at cross points of the lateral walls, between each of the arc-shaped corners and the bottom is defined a hole. Any two of the lateral walls which are neighboring to each other are provided with a first overlapping portion and a second overlapping portion, respectively, and the first and second overlapping portions are integrally connected to each other without a notch formed therebetween, each of the corners of the case is folded to make the first and second overlapping portions overlapped with each other, so as to form a thickened pieces on an inner surface of each of the lateral walls.

A luggage case includes a case woven by thermoplastic composite material, the case includes four integrally connected lateral walls, a bottom connected to the lateral walls, and four arc-shaped corners at cross points of the lateral walls, between each of the arc-shaped corners and the bottom is defined a hole. Any two of the lateral walls which are neighboring to each other are provided with a first overlapping portion and a second overlapping portion, respectively, and the first and second overlapping portions are integrally connected to each other without a notch formed therebetween, each of the corners of the case is folded to make the first and second overlapping portions overlapped with each other, so as to form a thickened pieces on an inner surface of each of the lateral walls.

A method for applying a thermoreactive seam tape to a seam is provided. The thermoreactive seam tape may be positioned adjacent to the seam, which may include a first fabric surface and an adjacent second fabric surface. The thermoreactive seam tape may include an interior planar surface that engages both the first fabric surface and the second fabric surface of the seam. The thermoreactive seam tape may further include an exterior surface opposite the interior surface, where the exterior surface is substantially non-planar with respect to the interior planar surface along a length of the thermoreactive seam tape. Heat and pressure may be applied to the thermoreactive seam tape, wherein the heat and the pressure facilitate adhesion of the thermoreactive seam tape to the first fabric surface and the second fabric surface of the seam.

A method for applying a thermoreactive seam tape to a seam is provided. The thermoreactive seam tape may be positioned adjacent to the seam, which may include a first fabric surface and an adjacent second fabric surface. The thermoreactive seam tape may include an interior planar surface that engages both the first fabric surface and the second fabric surface of the seam. The thermoreactive seam tape may further include an exterior surface opposite the interior surface, where the exterior surface is substantially non-planar with respect to the interior planar surface along a length of the thermoreactive seam tape. Heat and pressure may be applied to the thermoreactive seam tape, wherein the heat and the pressure facilitate adhesion of the thermoreactive seam tape to the first fabric surface and the second fabric surface of the seam.