Abstract:
Furniture hinge with alternative damping and/or braking device with respect to those existing and able to guarantee a better functional efficiency during closing and opening operation of the doors, or other parts of furniture, even after long periods of inactivity of the same device. The better efficiency of such hinge is also obtained by increasing the friction surfaces with a viscous means present in suitable areas of the hinge and by allowing the regulation of the angular velocity trend of a circular shaped element, for example a disk, that acts as a braking element in contact with the viscous means.
Abstract:
The invention relates to door closers, particularly a door closer control device that regulates the flow of a pressure medium controlling the function of a door closer. A control device according to the invention includes a support part with a collar that serves as a second support for the control device on the door closer body in addition to the support in the guiding part. This second support holds the control device in place within the pressure medium flow without any rocking or swaying movement, which would hamper the door closing speed.
Abstract:
A hinge for connection of two furniture parts comprises a bowl-shaped element designed to be fastened to a first furniture part and a wing rotatably in engagement with said bowl-shaped element, the wing being adapted to be fastened to an intermediate element that, in turn, is fastened to a hinge base designed to be secured to a second furniture part, a shock absorber being present which comprises a body designed to be rigidly connected to said second furniture part and a shock absorbing member movably mounted on said body to restrain the closing movement of the hinge. The shock absorber body is mounted on the intermediate element of the hinge.
Abstract:
A device (15) for slowing the movement of a drawer (2) urged by unidirectional thrust means (4), including a casing (17) fixable to a structure (S) and defining a chamber (18) filled with a viscous fluid, and a rotor (31). The rotor (31) includes a disc portion (32) and a shaft portion (33) protruding through the lid (21) of the casing (17) in such a way as it can be associated with the door (2). The base surface (23a) of the chamber (18) has a recess (51) operable to house a pivotable arm (52). The arm (52) has a pin portion (54) protruding into the chamber (18). The lower surface (62) of the disc portion (32) of the rotor (31) has a groove (70) for engaging the pin portion (54) of the arm (52). At one end (73), the groove (70) has a cam (76) dividing it into a return path (75) and a forward path (74) for the pin portion (54) so as to define a locking position for the rotor (31) in cooperation with the thrust means (4).
Abstract:
A door damper. The door damper includes a rotational shaft rotatably coupled to a door, a rotating resistance unit to generate rotating resistance to the rotational shaft, and a latching device latched to the rotational shaft and the door so as to allow the door and the rotational shaft to rotate together in a predetermined region. The latching device includes a free rotating section enabling free rotation of the door at an initial stage of opening the door, and a latching section enabling the latching device to be latched to the rotational shaft and the door at a final stage of opening the door so as to allow the door and the rotational shaft to rotate together. With the door damper, the door of electronic appliances can be smoothly opened without impact, and can be easily closed.
Abstract:
A rotary damper includes: a damper body mounted on a rotary shaft; a cam mechanism provided in the damper body to set a rotation pattern of the rotary shaft; a restoring force-accumulating member that accumulates a restoring force in accordance with rotation of the rotary shaft; and a rotation control member for controlling the rotation of the rotary shaft. The damper body is formed by setting a bottomed, cylindrical outer case having an opening at one end thereof and a bottomed, cylindrical inner case having an opening at one end thereof, face-to-face with each other and fitting the two with each other rotatably. The rotation control member is interposed between an inner periphery surface of the outer case and an outer periphery surface of the inner case on an outer periphery side of the damper body.
Abstract:
A damping mechanism for an opening and closing member that opens and closes an opening while changing a center of rotation has an arm with damped rotational speed to support a shaft part of the opening and closing member. A position of the shaft part with respect to the arm is changed along with the opening and closing operation of the opening and closing member by a guide member. The arm is urged toward an opening direction of the opening and closing member by a forcing member, and the opening and closing member is maintained in a closed state against the force of the forcing member by a locking member.
Abstract:
The invention relates to an actuating mechanism for a swivel-mounted actuating arm, especially for driving a lid of an item of furniture. Said mechanism comprises a spring device including a biased actuating element and a translatory mechanism which translates the movement of the actuating element into a swiveling movement of the actuating arm. Said translatory mechanism comprises at least one adjusting device for varying the translation ratio between the movement of the actuating element and the swiveling movement of the actuating arm.
Abstract:
The invention relates to a damping device for parts of furniture which are joined together by means of hinges and which can be pivoted in relation to each other. The housing contains a damping fluid in the cavity thereof and a resistance element which can be displaced relative to the damping fluid and connected to an actuating element protruding from the housing. During at least one part of the pivoting movement of both pieces of furniture, said actuating element is drivingly connected to the second piece of furniture and transfers the movement distributed to the second piece of furniture to the resistance element. The damping device is arranged in the region of at least one of the hinges which pivotally couples both pieces of furniture, and whereby either the damping housing and/or the actuating element engages with one of the mounting element of the corresponding hinges, at least during the damping process.
Abstract:
A damper device applies damping force to a movable body assembled on a fixed body. The damper device includes a damping part, a clutch case attached to one of the fixed body and the movable body in a state having received the damping part, and a rack part moving or relatively moving accompanying movement of the movable body. The damper device effectively operate the movable body.