A case for an electronic device includes a protective cover having a side wall wherein the side wall significantly covers a side portion of the electronic device and the side wall includes an inner surface and an outer surface wherein the inner surface faces the electronic device and a longitudinal recess is formed on the inner surface; and a longitudinal insert member removably received in the longitudinal recess. The longitudinal insert member includes an inner wall and an outer wall and the inner wall faces the electronic device. The longitudinal insert member further includes a top wall and a bottom wall so that the insert member forms a tube formed by the inner and outer walls and the top and bottom walls. The structure is effective in protecting the electronic device from impact or shock.

Tool storage devices. A tool storage device may include a handle assembly including a support arm connected between a body and a handle portion and having a substantially rectangular cross section oriented with first walls extending transverse to the axis having a greater width than second walls extending parallel to the axis. A width of the handle portion may be at least about 50% of a width of the body. The body may include a frame assembly formed of a rigid material, a wall formed of a flexible material and at least partially defining the storage compartment with an open top, and a cover formed of a rigid material connected to the frame assembly to selectively close the open top. A wheel well portion receives each wheel and may cover the width of the wheel and a portion of the circumference of the wheel. A radial clearance between the wheel and a lower end of the wheel well may be no more than about 0.5 inches.

Tool storage devices. A tool storage device may include a handle assembly including a support arm connected between a body and a handle portion and having a substantially rectangular cross section oriented with first walls extending transverse to the axis having a greater width than second walls extending parallel to the axis. A width of the handle portion may be at least about 50% of a width of the body. The body may include a frame assembly formed of a rigid material, a wall formed of a flexible material and at least partially defining the storage compartment with an open top, and a cover formed of a rigid material connected to the frame assembly to selectively close the open top. A wheel well portion receives each wheel and may cover the width of the wheel and a portion of the circumference of the wheel. A radial clearance between the wheel and a lower end of the wheel well may be no more than about 0.5 inches.

A crash-ready, portable, item compartmentalization device may include a shell which includes a first half shell and a second half shell. The first half shell and the second half shell may have substantially similar dimensions and define an interior space and an exterior space. One or more pouches may be removably coupled to the shell in the interior space. The crash-ready, portable, item compartmentalization device may be relocated throughout the interior of an emergency vehicle when used with an equipment mounting system or taken to the field for use away from the emergency vehicle. The individual pouches may also be removed and replaced with stocked pouches to replenish the crash-ready, portable, item compartmentalization device.

A crash-ready, portable, item compartmentalization device may include a shell which includes a first half shell and a second half shell. The first half shell and the second half shell may have substantially similar dimensions and define an interior space and an exterior space. One or more pouches may be removably coupled to the shell in the interior space. The crash-ready, portable, item compartmentalization device may be relocated throughout the interior of an emergency vehicle when used with an equipment mounting system or taken to the field for use away from the emergency vehicle. The individual pouches may also be removed and replaced with stocked pouches to replenish the crash-ready, portable, item compartmentalization device.

In various embodiments, a carrying bag includes a carrying bag body formed by a security panel assembly comprising a cut-resistant fabric or mesh, with a strap channel having at least two spaced-apart reinforced channel openings; and a carrying strap comprising: first and second wire cables; a first flexible material having a first lateral region folded around the first wire cable to enclose the first wire cable and a second lateral region folded around the second wire cable to enclose the second wire cable; and a second flexible material arranged on or over a central region of the first flexible material. Representative embodiments may include a water-resistant pocket coupled to a protected seam and extending to an exterior of the carrying bag body; and a fastener to close the water-resistant pocket external to the carrying bag body.

A suitcase and a manufacturing method thereof are disclosed. An upper case shell and a lower case shell are obtained, and a flexible material is fixedly connected to the upper case shell and the lower case shell. When the suitcase is assembled, elastic parts are compressed to install two ends of rods on installation parts of the upper case shell and the lower case shell, and a resilience force from the elastic parts is applied to the rods to drive the upper case shell and the lower case shell to be away from each other, and the flexible material connected to the upper case shell and the lower case shell is driven by the upper case shell and the lower case shell to be tensioned.

A suitcase and a manufacturing method thereof are disclosed. An upper case shell and a lower case shell are obtained, and a flexible material is fixedly connected to the upper case shell and the lower case shell. When the suitcase is assembled, elastic parts are compressed to install two ends of rods on installation parts of the upper case shell and the lower case shell, and a resilience force from the elastic parts is applied to the rods to drive the upper case shell and the lower case shell to be away from each other, and the flexible material connected to the upper case shell and the lower case shell is driven by the upper case shell and the lower case shell to be tensioned.

A composite case for a computing device including a first portion to protect and detachably connect to a display portion. The first portion may have perimetral fasteners disposed on its edges. A second portion is for protecting and detachably connecting to an input device portion of the computing device. The second portion may have perimetral fasteners disposed on its edges. The display and input device portions can be detachably connected to each other through a multi-pivot hinge unit operable to rotate about one or more computing device axes defined between the display and input device portions to move the computing device between open and closed states. A hinge cover portion can be connected to the first portion operable to detachably receive and surround the multi-pivot hinge of the computing device. A protective shell can be formed between first and second portions.

A composite case for a computing device including a first portion to protect and detachably connect to a display portion. The first portion may have perimetral fasteners disposed on its edges. A second portion is for protecting and detachably connecting to an input device portion of the computing device. The second portion may have perimetral fasteners disposed on its edges. The display and input device portions can be detachably connected to each other through a multi-pivot hinge unit operable to rotate about one or more computing device axes defined between the display and input device portions to move the computing device between open and closed states. A hinge cover portion can be connected to the first portion operable to detachably receive and surround the multi-pivot hinge of the computing device. A protective shell can be formed between first and second portions.