The present document describes a vehicle for transporting an individual in a pedestrian environment, the vehicle comprising: a main frame comprising a rear end and a front end, the main frame defining a longitudinal axis corresponding to a direction of straight forward movement of the vehicle; a motor mounted on the main frame and a drive unit operatively connected to the motor for propelling the main frame; a seat assembly mounted on the main frame, the seat assembly comprising at least two seats having an alignment direction corresponding to a direction the individual faces when seated in one of the at least two seats, the alignment direction making an angle between 45 degrees and 90 degrees relative to the longitudinal axis defined by the main frame; and a driving area at a rear end of the main frame for driving and operating the main frame.

The present document describes a vehicle for transporting an individual in a pedestrian environment, the vehicle comprising: a main frame comprising a rear end and a front end, the main frame defining a longitudinal axis corresponding to a direction of straight forward movement of the vehicle; a motor mounted on the main frame and a drive unit operatively connected to the motor for propelling the main frame; a seat assembly mounted on the main frame, the seat assembly comprising at least two seats having an alignment direction corresponding to a direction the individual faces when seated in one of the at least two seats, the alignment direction making an angle between 45 degrees and 90 degrees relative to the longitudinal axis defined by the main frame; and a driving area at a rear end of the main frame for driving and operating the main frame.

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.

An inverted vehicle and control method thereof are provided. The inverted vehicle may include a main body having two wheels rotatably supported by the main body and driven by a driver. A load distribution detector may detect a distribution of load received by the main body due to the rider's weight. A computer may compute a center position of the load's distribution. The inverted vehicle may also include an operating bar supported by the main body and operated so as to be inclined by the rider. A posture detector may be used to detect a posture of the operating bar. The inverted vehicle may further include a central processing unit that sets a target travel velocity on the basis of the center position and the posture of the operating bar. Furthermore, a drive controller may control the driver on the basis of the target travel velocity.

An inverted vehicle and control method thereof are provided. The inverted vehicle may include a main body having two wheels rotatably supported by the main body and driven by a driver. A load distribution detector may detect a distribution of load received by the main body due to the rider's weight. A computer may compute a center position of the load's distribution. The inverted vehicle may also include an operating bar supported by the main body and operated so as to be inclined by the rider. A posture detector may be used to detect a posture of the operating bar. The inverted vehicle may further include a central processing unit that sets a target travel velocity on the basis of the center position and the posture of the operating bar. Furthermore, a drive controller may control the driver on the basis of the target travel velocity.

An improved walker has a detachable propulsion unit, which is attached to the walker by a platform member which extends forwardly from the propulsion unit, with an upwardly extending walker structure partially attached to the platform member. The user steps onto the propulsion unit while support on either side by the handles of the walker. The platform member is so attached to the propulsion unit as to allow a left section and a right section of the propulsion unit to be independently movable with respect to one another, thereby allowing operation of the propulsion unit. The propulsion unit may be a hover board or power board.

A deceased animal moving device lifts and transports a deceased animal. The device includes a base configured for being moved on a surface. A mast is coupled to and extends upwardly from the base. A winch is coupled to a top of the mast providing a spool and a line selectively extendable from and retractable onto the spool. A shield coupled to the base has a lower edge positioned at a front of the base proximate a bottom of the base. The line is directed from the spool towards the shield for lifting a deceased animal attached to the line upwardly against the shield when the line is retracted.

A vehicle comprising a framework in form of beam, wheel, drive and braking system, while the vehicle is partially loaded with the weigh of user and the user stands on roller skates and holds the vehicle on the beam so that the wheel is behind the user and contacts with its tire the road surface; and when the user activates the drive, the wheel starts rotating and, as a result of friction between the wheel's tire and the road surface, there arises a force making the vehicle with user move. Additionally, another technique for operation of the same vehicle is being offered, at which the vehicle on the move is positioned in the front of user.

A vehicle comprising a framework in form of beam, wheel, drive and braking system, while the vehicle is partially loaded with the weigh of user and the user stands on roller skates and holds the vehicle on the beam so that the wheel is behind the user and contacts with its tire the road surface; and when the user activates the drive, the wheel starts rotating and, as a result of friction between the wheel's tire and the road surface, there arises a force making the vehicle with user move. Additionally, another technique for operation of the same vehicle is being offered, at which the vehicle on the move is positioned in the front of user.

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).