Motorized luggage includes a frame enclosed in part by an outer shell, the frame defining an internal storage compartment that is accessible through the outer shell, wherein the frame includes: a front surface including by a first front frame support and a second front frame support; a top surface including first top beam and a second top beam; a front edge joint connecting the first and second front frame supports to the first and second top beams; and a rear surface opposite of the front surface. The luggage also includes at least one front wheel adjacent to the front surface of the frame, at least one rear wheel adjacent to the rear surface of the frame, a retractable handlebar received by a steering shaft, an electric motor mounted on the frame, and a retractable pull handle.

A luggage case for children includes a case body and a case lid portion installed on the case body, wherein the case body is provided with a first and second case board, a fixing member, a support column, a magnetic buckle, a drawstring set, a wire rope, a rivet and a metal ring fixedly connected to the wire rope, the first and second case board fixedly connected to the fixing member through the rivet, the rivet fixedly connecting the support column to the first and second case board, the magnetic buckle provided with a base fixedly installed on the first case board and a drawstring buckle, the second box board provided with a clamping slot, and the drawstring set fixedly installed in the clamping slot, wherein when the metal ring is engaged with the drawstring buckle, the luggage case is capable of being towed or shoulder-carried by the wire cord.

A luggage scooter has a middle frame, a front wheel section, a seat section, and a rear wheel section. The front wheel section has a front wheel frame pivotally connected to the middle frame at a front wheel frame joint. The front wheel frame is mounted to a steering joint. The steering joint is mounted on the middle frame. The steering joint provides steering in both a left and right direction. The front wheel frame joint provides the front wheel frame with configurable position between a stowed position and a deployed position. A front wheel is mounted to the front wheel frame at a front wheel support. A rear wheel section has a rear wheel frame pivotally connected to the middle frame at a rear wheel frame joint.

The present disclosure relates to a telescopic rod, a steering device and an electric luggage box. The telescopic rod comprises a hollow first tube, a second tube sleeved outside the first tube and being slidable relatively to the first tube, a positioning mechanism configured to lock and unlock the first tube in position relative to the second tube, and a control member configured to control the positioning mechanism to lock and unlock in position, wherein the positioning mechanism comprises a pushrod connected to the control member and movable in the first rube, an abutment unit provided at a bottom end of the pushrod, and a positioning unit adapted for being abutted by the abutment unit for locking and unlocking in position; the first tube has a limiting structure provided therein, for limiting a space for movement of the abutment unit. The steering device comprises a handle and the afore-mentioned telescopic rod connected to the handle. The electric luggage box comprises a ridable box body, a front wheel and a rear wheel mounted on the box body, and the afore-mentioned steering device for steering the front wheel.

A suitcase includes a kit to convert the suitcase to a luggage cart. A typical rolling suitcase additionally includes at least three sockets provided in spaced relation in the major bottom wall of the suitcase base and open to an outside of the suitcase, and at least three stem casters, each stem caster having a wheel rotatable in a housing and a stem attached to the housing, the stem being configured to be removably secured in one of the at least three sockets. When the at least three stem casters are secured in the at least three sockets and the bottom wall of the suitcase base is arranged facing the ground with the wheels of the at least three stem casters touching the ground, the suitcase is useable as a luggage cart by piling at least one further suitcase over the suitcase lid.

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.

An intelligent schoolbag, comprising a schoolbag body, wherein storage spaces are formed in the schoolbag body, and book selection means are arranged in the storage spaces; wheels and a driving device for driving the wheels to walk are arranged on the schoolbag body, the driving device is connected with pedals for the user to tread on, and the driving device is an electric monowheel of which the walking speed is controlled by an gravity sensing gyroscope. The intelligent schoolbag of the invention can keep books therein in order despite of bumping, thus articles in the schoolbag are neat. The schoolbag realizes easy access to books and can really reduce the burden to carry the schoolbag on the way to schools, and can better meet the needs of students.

Smart luggage systems are disclosed. A smart luggage system includes a luggage bag including one or more wheels, one or more processors, one or more memory modules, one or more wheel actuators, one or more GPS units, and machine readable instructions stored in the one or more memory modules. When executed by the one or more processors, the machine readable instructions cause the smart luggage system to determine a location of a user, determine a location of the luggage bag based on an output signal from the one or more GPS units, and actuate the one or more wheel actuators to move the luggage bag based on the location of the user and the location of the luggage bag.

Portable motor-driven transportation means consists essentially of a personal portable motor-driven transportation means (PMT), with a telescopic handle on the upper part (2), a hand grip (25), where stowage is preferably done with a backpack (1), which offers protection and which is easily carried or slung over one's back, in a simple, practical and fast manner when arriving at one's destination or when it can no longer be used. The board is retractable and/or foldable (8), offering an additional extension (8′), proving to be extremely practical in its use. This additional space (8′) can receive any object, adding a seat, or even another person. In the personal portable motor-driven transportation means (PMT), the driver and rolling wheel assemblies, such as the drive shaft (12) with a free wheel (13) and a pulled wheel (14); with a free axle (3) with free wheels (4); simple axle (3′) with free wheel (4), considering several traction combinations, with simultaneous or partial operation, varying between 4×4, 4×2, 2×1, front or rear, with the aid of an electric motor activation system (15) in the traction, guaranteeing a multifunctional and ecologically correct personal portable motor-driven transportation means (PMT).

A folding wheelchair comprising a luggage compartment, a collapsible frame and wheels, the wheels being mounted to a chassis of the collapsible frame for supporting the folding wheelchair in use, the collapsible frame having a first support pivotally mounted to the chassis at a first end of the first support, the first support and chassis being configured to rotate relative to one another between a stowed position, in which the chassis and the first support are adjacent, and an erect position in which the first support extends away from the chassis to support a seat and handles for pushing the folding wheelchair.