A luggage system having a removable decorative storage crown for receiving and temporarily storing clothing items, such as suit jackets, uniforms, costumes, or other items using the same device that is used as a pull-handle. A stand element can be unfolded from the base of the luggage to act as a support, preventing the device from tipping when in a clothing rack orientation, but which can simply fold away when the luggage is being transported. A telescoping rod terminating in a cap may extend from the decorative storage crown for hanging hangers from the rod.

Containers with one or more tray retention portions and a support stand are described. For example, a container can include: a substantially hollow body including a plurality of body walls extending vertically from a bottom portion; an extension portion rotatably coupled to an outward-facing surface of a body wall among the plurality of body walls, the extension portion configured to rotate to an active position in which the extension portion extends outwardly from the body wall; and a support stand having a proximal end coupled to the outward-facing surface of the body wall and a distal end, the support stand configured to move between at least a stowed position in which the support stand is positioned against or proximate to the outward-facing surface of the body wall and a support position in which the support stand extends outwardly from the body wall.

Aspects of the present disclosure relate to self-driving luggage systems, devices, and components thereof, having multiple following modes. In one implementation, a self-driving system includes a piece of luggage. The piece of luggage includes one or more motorized wheels and an onboard ultra-wideband device. The onboard ultra-wideband device includes a control unit and one or more transceivers. The piece of luggage also includes one or more laser emitters configured to shoot light towards a target. The piece of luggage also includes one or more proximity cameras configured to take one or more images of the target, and the one or more images include light reflected off of the target. Each of the one or more proximity cameras includes an optical filter. The self-driving system also includes a central processing unit. The central processing unit is configured to switch between a vision following mode and a radio following mode.

Aspects of the present disclosure relate to self-driving luggage systems, devices, and components thereof, having multiple following modes. In one implementation, a self-driving system includes a piece of luggage. The piece of luggage includes one or more motorized wheels and an onboard ultra-wideband device. The onboard ultra-wideband device includes a control unit and one or more transceivers. The piece of luggage also includes one or more laser emitters configured to shoot light towards a target. The piece of luggage also includes one or more proximity cameras configured to take one or more images of the target, and the one or more images include light reflected off of the target. Each of the one or more proximity cameras includes an optical filter. The self-driving system also includes a central processing unit. The central processing unit is configured to switch between a vision following mode and a radio following mode.

A suitcase tray assembly includes a suitcase has a pair of tracks each is integrated into an outer wall of the suitcase. A tray is slidably integrated into the tracks and the tray is positionable in a stored position having the tray resting against the outer wall of the suitcase. The tray is positionable in a deployed position having the tray resting on the suitcase to support food items or a laptop computer. A cup holder is integrated into the outer wall of the suitcase and the cup holder is positionable in a stored position having the cup holder resting against the outer wall of the suitcase. The cup holder is positionable in a deployed position having the cup holder extending laterally away from the suitcase to support a beverage container.

A case holder with weighing sensor that weighs accurately, has a fixing base of a weighing sensor built in the holder, and ensures the fixed end and the loading end of the weighing sensor meet weighing principle. It includes a grip and a lifting arrangement arranged at two ends of the lower surface of the grip and allowed to pass through a case surface to be fixedly connected with a stressed plate below the case surface. A neutral zone of the grip provides a fixing base for arranging a weighing sensor. A fixed end of the weighing sensor is fixedly connected on the fixing base with screw. A loading end of the weighing sensor includes a rigid and structurally closed lifting bushing fixedly connected thereon. The lifting bushing is arranged around the grip, the fixing base, and the weighing sensor and has two ends separately arranged to the corresponding lifting arrangement. The inner wall of the lifting bushing and the grip have a gap therebetween. Contrasting to the prior art, the present invention allows the relationship of the loading end and the fixed end of the weighing sensor to stick to the weighing principle. Therefore, cases that use the holder of the present invention can weight very accurately.

A case holder with weighing sensor that weighs accurately, has a fixing base of a weighing sensor built in the holder, and ensures the fixed end and the loading end of the weighing sensor meet weighing principle. It includes a grip and a lifting arrangement arranged at two ends of the lower surface of the grip and allowed to pass through a case surface to be fixedly connected with a stressed plate below the case surface. A neutral zone of the grip provides a fixing base for arranging a weighing sensor. A fixed end of the weighing sensor is fixedly connected on the fixing base with screw. A loading end of the weighing sensor includes a rigid and structurally closed lifting bushing fixedly connected thereon. The lifting bushing is arranged around the grip, the fixing base, and the weighing sensor and has two ends separately arranged to the corresponding lifting arrangement. The inner wall of the lifting bushing and the grip have a gap therebetween. Contrasting to the prior art, the present invention allows the relationship of the loading end and the fixed end of the weighing sensor to stick to the weighing principle. Therefore, cases that use the holder of the present invention can weight very accurately.

An electronic device case is provided. The electronic device case may be adapted to secure electronic devices in a compartment space defined by a plurality of walls. A wall of the plurality of walls may be made from PVC matte or transparent material so that the electronic devices are visible while within the compartment space. The electronic device case may provide a plurality of grommets so that cables connected to the electronic devices may egress through the grommets so as to be utilized outside the compartment space, while the electronic devices are secured therein.

An electronic device case is provided. The electronic device case may be adapted to secure electronic devices in a compartment space defined by a plurality of walls. A wall of the plurality of walls may be made from PVC matte or transparent material so that the electronic devices are visible while within the compartment space. The electronic device case may provide a plurality of grommets so that cables connected to the electronic devices may egress through the grommets so as to be utilized outside the compartment space, while the electronic devices are secured therein.

The present invention proposes an electric luggage, comprising: a luggage body, an electric chassis, a sensor and a controller. The luggage body is installed on the electric chassis; the front end of the electric chassis is provided with a steerable front handle; the bottom of the front handle is provided with a front wheel; the bottom of the rear end of the electric chassis or the luggage body is provided with a rear wheel; and the speed regulation and braking of the front wheel and/or the rear wheel are controlled through the sensor, the controller, and a battery pack electrically connected with the controller. The luggage body can be combined with the electric chassis to serve as a riding tool. Children can ride the luggage during a journey, which can make parents more relaxed.