The present invention provides a height adjustment pillow including a lifting device adjusting the height of an upper member with respect to a lower member, the lifting device comprising: a drive shaft passing through the lower member with a lower end part thereof protruding from a lower part of the lower member and having a manipulation handle provided in the lower end part; at least one or more rotation members mounted on the lower member to be rotatable relative to upward and downward directional shafts thereof; a power train transmitting a rotational force of the drive shaft to the rotation members; and lifting operation equipment converting a rotational movement of the rotation member into a rectilinear movement of the upward and downward directions so as to lift and lower the upper member.

A speed control assembly for an appliance includes a bracket. The bracket is aligned with a slot defined by an appliance body. A cam is slidably coupled with the bracket and has an engagement edge positioned at an angle relative to the bracket. A lever is operably coupled with the cam and extends through the slot. The lever is configured to move the cam along the bracket. A slider is fixedly coupled with the bracket. A magnet housing is operably coupled with the slider and is configured to house a magnet. The magnet housing defines a recess. A ball bearing is magnetically coupled with the magnet housing and is positioned within the recess. The ball bearing is configured to be selectively engaged with the engagement edge of the cam. A Hall-effect sensor configured to detect the position of the magnet.

Provided is a manipulator including: a movable part; a drive unit generating power; an elongated flexible long guide member to which the part is attached at one end thereof and the drive unit is attached at the other end thereof; an elongated tension transmission member passing through a lumen in the long guide member and transmitting the power of the drive unit to the part by means of a tension; a tension adjusting mechanism adjusting the tension of the tension transmission member; and a holding unit to which the drive unit is detachably attached. The mechanism includes: a tensioner, provided in a movable manner in a direction intersecting the longitudinal direction of the tension transmission member, that pulls the tension transmission member; and a pressing member, provided in the holding unit, that moves the tensioner in a state in which the drive unit has been attached to the holding unit.

A speed control assembly for an appliance includes a bracket. The bracket is aligned with a slot defined by an appliance body. A cam is slidably coupled with the bracket and has an engagement edge positioned at an angle relative to the bracket. A lever is operably coupled with the cam and extends through the slot. The lever is configured to move the cam along the bracket. A slider is fixedly coupled with the bracket. A magnet housing is operably coupled with the slider and is configured to house a magnet. The magnet housing defines a recess. A ball bearing is magnetically coupled with the magnet housing and is positioned within the recess. The ball bearing is configured to be selectively engaged with the engagement edge of the cam. A Hall-effect sensor configured to detect the position of the magnet.

A variable pitch device includes a body, a drive unit fixed to the body, a plurality of movable fingers disposed movably along a longitudinal direction of the body, and a driving force transmission mechanism that transmits a driving force of the drive unit to the movable fingers. The driving force transmission mechanism is formed of a connecting block connected to an end block driven in a vertical direction, a cam plate accommodated in the body and connected to the connecting block, and four finger pins inserted through first to fourth cam grooves of the cam plate. The finger pins are disposed movably in the longitudinal direction along guide holes of the body and connected to the movable fingers.

A low profile solenoid cartridge valve with replaceable spool preferably includes a valve body, a valve spool, a spool return spring, a solenoid coil, a solenoid plunger and plunger return spring. The valve body includes a spool body, a solenoid body and a threaded manifold end. A spool inner diameter is sized to receive the valve spool. The valve spool includes a chamfered neck. A plunger bore is formed through the solenoid body to receive the solenoid plunger. The solenoid coil includes a coil body and an electrical connector. A solenoid counter bore is formed in the solenoid body to receive the coil body. A chamfered slot is formed on one end of the solenoid plunger. The chamfered slot engages the chamfered neck of the valve spool and forces the valve spool upward to open a flow path in a valve manifold.

A low profile solenoid cartridge valve with replaceable spool preferably includes a valve body, a valve spool, a spool return spring, a solenoid coil, a solenoid plunger and plunger return spring. The valve body includes a spool body, a solenoid body and a threaded manifold end. A spool inner diameter is sized to receive the valve spool. The valve spool includes a chamfered neck. A plunger bore is formed through the solenoid body to receive the solenoid plunger. The solenoid coil includes a coil body and an electrical connector. A solenoid counter bore is formed in the solenoid body to receive the coil body. A chamfered slot is formed on one end of the solenoid plunger. The chamfered slot engages the chamfered neck of the valve spool and forces the valve spool upward to open a flow path in a valve manifold.

An apparatus for moving a shift rail of a transmission may include a control shaft provided to be moved in a direction perpendicular to a plurality of shift rails by an actuator, a plurality of rollers protruding from one selected among a corresponding one of the shift rails and the control shaft, the rollers being formed on one of facing sides of the shift rail and the control shaft, and a cam protruding in an S-shaped form from a remaining one selected among the corresponding shift rail and the control shaft, on which no roller is formed, the cam being provided to selectively move the shift rails in an axial direction by moving while coming into contact at opposite sides thereof with the rollers depending on a distance by which the control shaft is moved.

An actuator for transmitting an input force in a first direction from an input mechanism to a force in a second direction at an output mechanism. The actuator may be incorporated into a tensioner for tensioning a belt. The device includes a plurality of aligned spherical elements in a curved raceway. The input mechanism transmits force to a first of the series of spherical elements. The spherical elements are substantially incompressible so that the series of spherical elements transmits the force along the curved raceway from the input mechanism to the output mechanism.

A motion transmitting device comprising: a slider movable along a slider guide; and a connecting body movable along a connecting body guide, wherein the slider and the connecting body are disposed in contact with each other, each of the slider and the connecting body has a contact surface that is slidable, and the amount of displacement and/or the speed of displacement of an output end relative to an input end can be reduced or can be made equal to each other or increased through setting of the angle of a center axis line of the slider guide about a center axis line of the connecting body guide and/or the inclination angle of the contact surface.