Abstract:
A latching rack damper assembly configured to dampen movement between two structures includes a rack and a damper housing. The rack includes a toothed track and an integrally formed first latching member. The damper housing is movably secured to the rack and includes a second latching member configured to securely latch to the first latching member.
Abstract:
An end-stop damper including a damper body in the form of a cylinder, wherein a piston is guided so that it is displaceable in the cylinder receiving chamber. An air pressure is formed in the receiving chamber produces a braking force acting on the piston during its displacement. The receiving chamber includes at least one pressure reducing opening and the piston includes a bellows section which is actively connected to the cylinder according to pressure conditions in the receiving chamber. This invention substantially simplifies the structural design of the end-stop damper because the piston and the bellows section are connected to each other so that they are formed in one piece.
Abstract:
A magnetorheological clutch comprises a stationary part, a rotating primary part with primary laminated strips and a secondary part with secondary laminated strips, whereby a controllable magnetic field acts upon the magnetorheological fluid. The aim of the invention is to allow transmission of a highest possible torque in a smallest possible space and with minimal power consumption. Said aim is achieved, whereby a number of solenoid coils, each having a first yoke with a substantially radial winding axis, are alternately oppositely polarized; the first yokes have cylindrical front faces, whereby the magnetic field lines radially enter and exit said yokes, the primary laminated strips and secondary laminated strips form closed cylindrical envelopes and second outer and inner yokes are provided radially outside of and radially inside the first yokes, whereby the magnetic field lines radially enter the second yokes and radially exit said yokes in the opposite direction.
Abstract:
The invention relates to an actuating device for moving a flap of a piece of furniture, comprising, at least one actuating arm for moving said flap, a base member on which said actuating arm is pivotally arranged, a spring device being able to act upon said actuating arm, wherein an assembly securing device for the vacant actuating arm, which has not yet been fitted with a flap is provided, and said assembly securing device comprises a braking device which limits the opening speed of said vacant actuating arm.
Abstract:
A hinge for furniture comprises a first part to be fastened to a first furniture element and a second part to be fastened to a second furniture element, said first and second hinge parts being rotatably in engagement with each other, a shock absorber being present which comprises a body fastened to the first hinge part and a shock absorbing member movably mounted on said body, the shock absorbing member being adapted to restrain movement of the second hinge part in a closing step of the hinge. Said shock absorbing member and second hinge part having portions magnetically attracting each other to carry out dragging along of the shock absorbing member relative to the body during a reopening step of the hinge, bringing said member back to position for subsequent cushioning of the closing movement of the hinge.
Abstract:
A floating damper assembly operates between first and second associated components. A damper is adjustably mounted in the first component and includes a damper gear engaged with a gear on the second component. The second component defines a guide surface and the damper has a bearing surface engaging the guide surface.
Abstract:
The invention relates to an adaptor for a braking deceleration device for doors or movable furniture parts, which essentially comprises a plunger which can be pushed into a housing against a braking force, with an adaptor body. According to the invention, the adaptor body comprises at least one accommodation recess for accommodating the housing of the braking deceleration device, and the adaptor body comprises suitable means by way of which it can be fixed to an attachment plate and via it to the frame or furniture carcass.
Abstract:
A support device for supporting an upper body of an electronic apparatus is disclosed. The electronic apparatus further comprises a lower body, and the upper body pivotally rotates relative to the lower body. The support device comprises a rotating element disposed on the lower body and having a thread surface, a first gear disposed on the upper body, a second gear meshing with the first gear at one side and meshing with the thread surface of the rotating element at another side, a first resistant torque providing element disposed under the rotating element, and a second resistant torque providing element disposed under the first resistant torque providing element. The first resistant torque providing element and the second resistant torque providing element provide resistant torques in counter directions to gradually dissolve the weight load of the upper body during the opening or closing processes, so as to stably support the upper body of the electronic apparatus.
Abstract:
The invention relates to a hinge comprising a moveable hinge section and a hinge section consisting of a fixed stop section, which are interconnected by at least one joint axis, and comprising a damping device mounted on one of the hinge sections whose translationally or rotatably moveable damping member is acted upon at least in the closure region of the hinge via gear means from the other hinge section. According to the invention for adjustment of the moveable damping member depending on the tilt of the moveable hinge section relative to the at least one joint axis, there is provided at least three moveable gear members are provided, of which one is the damping member itself.
Abstract:
A spindle drive for a movable component includes a threaded spindle which is rotatable about a spindle axis; a spindle nut which engages the threaded spindle; and a transmission element which can be connected to the movable component, the transmission element being fixed against rotation about the spindle axis and being axially drivable by rotation of the spindle nut. An intermediate element, which is fixed against rotation relative to the spindle nut, extends axially with respect to the threaded spindle and is rotatable relative to the threaded spindle. A drive is connected to rotate one of the intermediate element and the threaded spindle; and the other of the intermediate element and the threaded spindle can be fixed against rotation.