689results about "Spring motor" patented technology

A control device for blinds includes a transmission unit, a scrolling unit and a tilting unit, the transmission unit includes a case in which a coil spring and a gear unit are received. The coil spring is connected between the gear unit and the case. The scrolling unit includes two scrolling rods which are rotated with a transmission rod. Each scrolling rod has a lift cord wrapped thereon and extending through slats of the blinds. The tilting unit includes two tilt members connected to two respective end sections of the two scrolling rods. Two tilt cords have two respective positioning members which are clamped in two clamp grooves of the two tilt members and the tilt cords extend through the slats. The gears in the gear unit can be adjusted so as to cooperate with slats of different weights.

A vehicle passive entry side door latch release system engageable with a release cable connected a door latch includes a moveable linkage assembly engageable with the cable, and a motor including an output shaft engaged with a tensioning gear for driving a ratcheting gearwheel rotatably affixed to a coil spring, with the gearwheel including external teeth engageable with a rack affixed to the linkage to move the cable to unlatch the door latch. A pivotable ratcheting pawl may be engageable with the gearwheel to allow or prevent rotation of the gearwheel. Operation of the motor may drive the gear to drive the gearwheel in a rotary direction to energize the spring, and disengagement of the pawl from the gearwheel may allow stored energy in the spring to drive the gearwheel in an opposite rotary direction to thereby drive the rack to move the cable to unlatch the door latch.

Two weights and or springs mounted on two pivoted beams. A short end of each beam is interconnected with a gearbox by a crank and trace. The gearbox is interconnected with two other ends of the beams by linkages. An electric starter with battery imparts kinetic energy to lift one weight and let the other weight descend. The gearbox regulates the oscillation of two beams. The operator turns the electric starter off after the system is started. An output shaft imparts rotary motion of the gearbox to drive a vehicle, an airplane, or an AC generator.

The invention provides an operational mechanism for a movable body in which, after a movable body is in an opened state, the movable body can return to a closed position, including a movable body rotatably attached to a support and rotatable between an engaged position, a closed position, and an open position; a rotating member rotatably attached to the support, that rotates due to movement of the movable body to the engaged position; a biasing member, one end of which is attached to the movable body, and the other end of which is attached to the rotating member; and an operation member, which rotates the rotating member, changes the biasing position of the biasing member with respect to the center of rotation of the movable body, and generates in the biasing member a rotational force that moves the movable body to the closed position or the open position.

A lift assist mechanism is provided for assisting lifting of a movable component that can move between lowered and raised positions relative to a fixed structure. The lift assist mechanism includes a lift assist spring connected to a spring shaft, and an elongated track in which an end of the lift assist spring or an end of the spring shaft are movably engaged. A spring lock restrains movement of the spring shaft when a lift assist is not required, and releases the spring shaft when a lift assist is required.

A self-sustaining electrical power generating system includes a spring system that stores stored energy, the spring system having an input for recharging the stored energy and an output for releasing the stored energy, wherein the spring system generates a monitor signal based on a status parameter of the spring system and wherein the spring system releases the stored energy in accordance with an output control signal. A generator converts the stored energy of the spring system into electric power. A spring recharge module recharges the stored energy of the spring system in response to a recharge control signal. A control module generates the recharge control signal and the output control signal, based on the monitor signal.

There is provided a driving apparatus which can automatically drive a functioning unit to cause the unit to operate as intended without using an on-board battery as a power supply therefor. The driving apparatus is installed in a vehicle to drive the functioning unit on the vehicle and includes an input unit which moves in response to acceleration resulting from a running operation of the vehicle or actions inevitably taken by an occupant when the occupant uses the vehicle and a driving unit which is connected to the input unit and the functioning unit and is adapted to follow the movement of the input unit to thereby accumulate therein a driving force, so as to drive the functioning unit with the driving force so accumulated.

An electricity generation system having the ability to generate clean electrical power by mechanically capturing the power of the wind. The system utilizes one or more modular wind collecting sail assemblies that are mounted on an upright oriented pole assembly. The bottom end of the pole assembly is rigidly connected to a horizontally oriented elongated spring-motor primary winding axle who's opposite ends are journaled in a base assembly. Each end of the spring-motor primary winding axle is connected to a one way sprague coupling. That coupling is in turn connected to the spring-motor secondary winding axle having one or more spring motors mounted thereon. The inner end of each spring motor metal band is secured to the spring-motor secondary winding axle. When the wind force bends the wind collecting sail assembly from its static upright position, the spring-motor primary winding axle will be rotated causing the spring motors to be wound incrementally each time the wind blows the sail from its static upright position. The spring motor housing is releasably connected to a stationary retention member to prevent rotation of the spring motor housing until the spring motors are wound a sufficient amount. An electricity generator is mounted on the base assembly and there is rotation transmission structure connected to the power generation drive shaft of the electricity generator. When the spring motor assembly has been sufficiently wound, a timing gear assembly releases the motor spring housing assembly allowing it to rotate freely to dissipate stored energy and drive the electricity generator. This cycle is repeated throughout the day to generate electricity when the wind is blowing.