This invention discloses a tablet computer protective case with multiple folding ways including a back casing and a front cover; the front cover is divided into a plurality of connecting sections; each of the sections has a connecting portion which is foldable; a limiting groove is formed at the connecting portion between two sections; a plurality of the sections are each disposed with one or more magnets therein; the back casing is provided with magnets at edges thereof for engaging with the magnets of the front cover. This invention has the following beneficial effects: It can achieve multiple application modes by means of simple geometric folding and alignment of magnets without complicated mechanical structures or components like rotating shafts, thereby significantly reducing product weight and costs.

A device incorporating both a magnet and a living hinge may be employed to construct cases to protect electronic devices and to function as a closure for cases and lidded containers. Such cases often can be bent three 360° allowing the cases to be either closed protecting devices therein are closed upon themselves allowing the case to function to secure an electronic device to a substrate such as an article of clothing. The devices of the disclosure can also be used to organize and hold loose items together.

A mobile device case apparatus and method are provided that include a frame, a stand, at least one magnet, and rubber coating over the at least one magnet. The frame and stand can be 3D-printed. The frame is configured to secure a mobile device into the frame. The frame includes at least one magnet. The bottom of the stand can have a rubber coating to prevent the case from slipping when the case adheres to a metal. The stand is configured to support the weight of the apparatus and prop the mobile device up for viewing. The stand can also be configured to be a receive a mechanical element of a vehicle such as a wheelchair.

Various implementations include a bag organizer system that includes at least one pocket disposed within a bag cavity and is coupled to a fixed surface within the bag cavity. The pocket includes at least one pocket side wall having a first edge and a second edge opposite the first edge along a longitudinal axis of the pocket. The first and second edges of the pocket side wall at least partially define an opening to a pocket cavity defined by the pocket side wall and a closed end of the pocket cavity, respectively. The pocket is expandable and collapsible, and the pocket is coupled to the fixed surface by a single seam extending substantially parallel to the longitudinal axis of the pocket, and the closed end of the pocket is not coupled to the fixed surface such that the pocket is hingedly coupled to the fixed surface via the single seam.

A lockable storage case mechanism for electronic device includes a case and a fixing mechanism connected to the case, the case includes a front cover and a rear cover, the front cover is provided with a film, a middle portion of the rear cover is provided with a placing portion for an electronic device, the front cover and the rear cover are connected by a pressing mechanism, and the fixing mechanism includes a connecting member which is configured to be a disc with a notch; when the case is rotated so that the notch corresponds to the pressing mechanism, the pressing mechanism is unlocked; when the notch leaves from the pressing mechanism, the disc is inserted into the pressing mechanism, and the pressing mechanism is locked. The present disclosure utilizes the rotating of the case to lock or unlock the pressing mechanism, and is convenient to use.

Carrying cases used to transport and elevate laptop computers are disclosed. The carrying cases include a laptop tray elevating device including a laptop tray to support the laptop computer and a laptop tray elevating member. A hook member is coupled to the laptop tray to prevent the laptop computer from sliding off the laptop tray when elevated. The laptop tray elevating member includes a plurality of folding panels, a webbing, and a webbing gripping member. The webbing is pulled to displace one or more of the folding panels against the laptop tray and to orient one or more of the folding panels vertically to elevate the laptop tray at an angle. The webbing gripping member can selectively grip and release the webbing.

Embodiments of an apparatus and system are described for a hybrid computing device. Some embodiments may comprise a computing device having an enclosure arranged to support a display on a front of the enclosure and a cover mechanically coupled to a side of the enclosure, the cover comprising a first portion having at least one integrated input device and a second portion having at least one flexible seam arranged to allow the second portion to adjustably pivot around the seam. Other embodiments are described and claimed.

A hybrid frame sleeve case for a portable electronic device is disclosed herein. The portable electronic device may be a laptop computer, a tablet, or another portable electronic device. The case may include flexible panels, such as neoprene or fabric panels, attached to an elastic polymer frame, such as ethylene vinyl acetate (EVA). The elastic polymer frame extends around a perimeter of the sleeve to provide cushioning or padding for the side edges of the sleeve. A magnetic latch or other latch may be used to secure an opening on one side of the sleeve. The case may optionally include a charging system that allows the portable electronic device to be charged while housed in the case or otherwise positioned to allow charging by the charging system.

A quick release support system for a case for a portable device is provided. In one embodiment, for example, the quick release system comprises a case and a bracket. The case comprises a ramp, a ramp engagement surface disposed at a proximal edge of the ramp, at least one tab guide displaced from the ramp engagement surface, and a latch lock port. The at least one tab guide and the latch lock port is defined by the case. The bracket comprises a ramp tab extending from the bracket in a first direction the ramp tab adapted to engage the ramp engagement surface of the case. The bracket also comprises at least one tab and a latch lock. The at least one tab extends from the bracket in the first direction, and the at least one tab is adapted to extend into the at least one tab guide. A latch lock of the bracket comprises a latch lock engagement surface and a latch surface. The latch lock engagement surface is biased in a second direction. The latch surface is adapted to overcome the bias in a direction opposite the second direction to overcome the bias force and allow insertion of the latch lock engagement surface into the latch lock port and to be released by the bias force to engage the latch lock engagement surface with the latch lock port.

One example provides a computing system comprising a case and a wearable device associated with the case, wherein the case is configured to hold the wearable device, and a sensor is located on one of the case and the wearable device. The computing system further comprises a logic subsystem and a storage subsystem. The storage subsystem comprises instructions executable by the logic subsystem to operate the sensor on the one of the case and the wearable device to read an identifier located on the other of the case and the wearable device, compare the identifier with a stored identifier, and when the identifier does not match the stored identifier, then output an alert via an output device.