A storage apparatus includes a pully system, a moveable platform, X-bars, a lowering and lifting means and attachment elements. The platform includes at least one support tray and side and end platform supports. The pully system includes at least one pully, a lowering and raising mechanism and at least one rope or cable, where the rope or cable is attached to at least one pully support. The lowering and lifting means turns the lowering and raising mechanism such that the rope or cable moves over pullies in the pully system to raise and lower the platform of the storage apparatus.

In one variation, a pulley arrangement includes a base pulley portion rotatable within a driving plane, an adjustable pulley portion coupled to the base pulley portion wherein the adjustable pulley portion is rotatable relative to the base pulley portion within the driving plane, and a driving member including an end coupled to the adjustable pulley portion wherein at least a portion of the driving member is wrapped at least partially around the adjustable pulley portion. In another variation, a pulley arrangement includes a base pulley portion rotatable around an axis, an adjustable pulley portion coupled to the base pulley portion and movable in a first direction parallel to the axis, and a sliding block engaged with the adjustable pulley portion, wherein the sliding block moves in a second direction different from the first direction, in response to compression of the adjustable pulley portion against the base pulley portion.

In one variation, a pulley arrangement includes a base pulley portion rotatable within a driving plane, an adjustable pulley portion coupled to the base pulley portion wherein the adjustable pulley portion is rotatable relative to the base pulley portion within the driving plane, and a driving member including an end coupled to the adjustable pulley portion wherein at least a portion of the driving member is wrapped at least partially around the adjustable pulley portion. In another variation, a pulley arrangement includes a base pulley portion rotatable around an axis, an adjustable pulley portion coupled to the base pulley portion and movable in a first direction parallel to the axis, and a sliding block engaged with the adjustable pulley portion, wherein the sliding block moves in a second direction different from the first direction, in response to compression of the adjustable pulley portion against the base pulley portion.

In one variation, a pulley arrangement includes a base pulley portion rotatable within a driving plane, an adjustable pulley portion coupled to the base pulley portion wherein the adjustable pulley portion is rotatable relative to the base pulley portion within the driving plane, and a driving member including an end coupled to the adjustable pulley portion wherein at least a portion of the driving member is wrapped at least partially around the adjustable pulley portion. In another variation, a pulley arrangement includes a base pulley portion rotatable around an axis, an adjustable pulley portion coupled to the base pulley portion and movable in a first direction parallel to the axis, and a sliding block engaged with the adjustable pulley portion, wherein the sliding block moves in a second direction different from the first direction, in response to compression of the adjustable pulley portion against the base pulley portion.

In one variation, a pulley arrangement includes a base pulley portion rotatable within a driving plane, an adjustable pulley portion coupled to the base pulley portion wherein the adjustable pulley portion is rotatable relative to the base pulley portion within the driving plane, and a driving member including an end coupled to the adjustable pulley portion wherein at least a portion of the driving member is wrapped at least partially around the adjustable pulley portion. In another variation, a pulley arrangement includes a base pulley portion rotatable around an axis, an adjustable pulley portion coupled to the base pulley portion and movable in a first direction parallel to the axis, and a sliding block engaged with the adjustable pulley portion, wherein the sliding block moves in a second direction different from the first direction, in response to compression of the adjustable pulley portion against the base pulley portion.

A storage apparatus includes a pully system, a moveable platform, X-bars, a lowering and lifting means and attachment elements. The platform includes at least one support tray and side and end platform supports. The pully system includes at least one pully, a lowering and raising mechanism and at least one rope or cable, where the rope or cable is attached to at least one pully support. The lowering and lifting means turns the lowering and raising mechanism such that the rope or cable moves over pullies in the pully system to raise and lower the platform of the storage apparatus.

The present disclosure relates to a motor, in particular a compact, lightweight and high torque motor. The rotor comprises a Halbach array magnet structure in which the projected magnetic field is directed toward the rotation axis of the motor and the stator comprises a plurality of poles within the Halbach array. The individual magnets making up the Halbach array have a thickness in the radial direction, with respect to the rotation axis, which is determined to be the minimum thickness required to stop demagnetisation of the magnets when the maximum current to generate peak torque output of the motor is driven through the stator at the maximum expected temperature at which the motor will be used.

Gear arrangement (14, 14a) with the following features: a drive body (16, 16a) with at least one drive-side drum (20, 22) arranged rotatably about a drive axis (18, 18a), a drive output body (24, 24a) with at least one output-side drum (28, 30) arranged rotatably about a drive output axis (26, 26a), at least one cable (32, 38), which can be wound on the at least one drive-side drum (20, 22) as well as on the at least one output-side drum (28, 30), and has a drive-side cable end (34, 40) as well as an output-side cable end (36, 42),
wherein the drive-side cable end (34, 40) is arranged on the at least one drive-side drum (20, 22) and the output-side cable end (36, 42) is arranged on the at least one output-side drum (28, 30), as well as robot (12) with a gear arrangement (14, 14a).

In one variation, a pulley arrangement includes a base pulley portion rotatable within a driving plane, an adjustable pulley portion coupled to the base pulley portion wherein the adjustable pulley portion is rotatable relative to the base pulley portion within the driving plane, and a driving member including an end coupled to the adjustable pulley portion wherein at least a portion of the driving member is wrapped at least partially around the adjustable pulley portion. In another variation, a pulley arrangement includes a base pulley portion rotatable around an axis, an adjustable pulley portion coupled to the base pulley portion and movable in a first direction parallel to the axis, and a sliding block engaged with the adjustable pulley portion, wherein the sliding block moves in a second direction different from the first direction, in response to compression of the adjustable pulley portion against the base pulley portion.

A driving module and a motion assistance apparatus including the same may be provided. For example, the driving module including a driving source provided on one side of a user and configured to transmit power, a power transmitting rotary body configured to rotate by the power transmitted from the driving source, and a first decelerator configured to transmit power between the driving source and the power transmitting rotary body, the first decelerator having an input side rotary body configured to receive power from the driving source, and an output side rotary body configured to transmit power to the power transmitting rotary body may be provided.