A furniture hinge for pivotally connecting at least two furniture parts to one another includes at least two fastening portions pivotally connected to one another for fastening to the furniture parts, and the fastening portions can be moved relative to each other between a closed position and an open position. A spring device presses the fastening portions into the closed position and/or into the open position, and a damping device dampens a relative movement of the fastening portions. The spring device is integrated into the damping device, and the damping device and the spring device are accommodated within a first and within a second housing portion. The first and second housing portions are displaceably arranged relative to one another for performing the relative movement.

The structure comprising a supporting profile (2) and a retaining profile (3) that rotates with respect to the supporting profile (2); the supporting profile (2) has a first wing (2.1) with a first slipper (5) and at least a second wing (2.2); the retaining profile (3) has a groove (3.1) which lodges the lower part of the plate (1); a slot (3.9) of the retaining profile (3) lodges the free end of the second wing (2.2) of the supporting profile (2); the free end of a wing (3.2) of the retaining profile (3) has a thin layer area (3.4) which lodges a second slipper (10); the free end of the longitudinal axis of the second wing (2.2) of the supporting profile (2) is more external with respect to the longitudinal axis constituting the barycenter of the plate (1); the wing (3.2) of the retaining profile (3) has through threaded holes (3.6, 3.12) which accommodate threaded elements capable of deforming its thin layer area (3.4) by adjusting the interlocking between the two slippers (5, 10).

A door hinge having a damping function, comprising a housing, a first rotating shaft, a second rotating shaft, a U-shaped rotating shaft, a hinge cup, a linkage member, a torsion spring, a connector, a supporting structure, and a damping structure; one end of the linkage member is rotationally provided in the housing by means of the first rotating shaft, and the other end of the linkage member is rotationally connected to the hinge cup by means of one arm of the U-shaped rotating shaft; one end of the connector is rotationally provided in the housing by means of the second rotating shaft, and the other end of the connector is rotationally connected to the hinge cup by means of the other arm of the U-shaped rotating shaft; the torsion spring is fitted over the second rotating shaft.

A hinge includes a hinge arm, a hinge cup, at least one resilient member, and a retaining member. The hinge cup is pivotally connected with respect to the hinge arm and includes a receiving room. The resilient member is mounted in the receiving room of the hinge cup. The retaining member is mounted at the resilient member.

Disclosed is a silent, soft-close compact hinge comprising of a hinge cup pivotally connected to a hinge body via a hinge arm. A set of coil springs biases the hinge to a closed position. A damping mechanism is removably attached to the hinge cup and acted on by the hinge arm. A set of spring sleeves are fitted to the coil springs to insulate the movement of the coil springs on the hinge arm providing the closing bias. The hinge body is comprised of three separate plates adjustably connected to each other with cam screws. The position of the hinge body with respect to the hinge arm is adjustable in three directions without the need for removal or loosening of mounting hardware used to attach the hinge body to a furniture piece.

A damping device includes a housing, a cover assembly, a piston rod, a piston and an elastic member. The housing has an inner wall defining a chamber, and an opening communicated with the chamber. The chamber is filled with a damping medium. The cover assembly is arranged adjacent to the opening of the housing. The piston rod penetrates through the cover assembly. The piston is connected to the piston rod and movable relative to the housing. The piston includes an extension part and an expansion part located between the piston rod and the extension part. A width of the expansion part is greater than a width of the piston rod. The elastic member is arranged in the chamber of the housing, and configured to provide an elastic force to the piston.

The invention concerns a damper assembly for a cup hinge having a carrier part and a cylinder-piston unit which comprises a cylinder that is axially displaceable relative to the carrier part and can be reset by means of spring elements, and a piston rod guided in the cylinder and also a cup hinge with such a damper assembly. The carrier element includes an integrated, elastically deformable accommodation web to which the piston rod can be fixed. Furthermore, the carrier element has, at its side opposite the accommodation web, two elastically deformable fixing elements which are arranged spaced from each other,

With the present invention, a damper assembly is being developed which can be installed safely and exchangeably into a cup hinge with a small force application and also a cup hinge with such a damper assembly.

A shock-absorbing damper for absorbing the impact force generated during the opening/closing of a furniture door, the damper including: a load pin in a housing to move back and forth during the opening/closing of the furniture door; a main valve coupled to the load pin to form a first flow path; a check valve coupled to a guide bar of the main valve in a manner to form a second flow path; a guider coupled to the main valve to guide the fluid flow; and a pressure adjuster interposed between the main valve and the check valve to vary the first flow path. The pressure adjuster and the guider are provided in the shock-absorbing damper to vary a flow path corresponding to an opening/closing load of the furniture door, thereby opening/closing the furniture door at a set speed regardless of the size or weight.

A damper is provided for a fitting for movably supporting a pivoting element or a pull-out element relative to a stationary carrier. The damper includes a damper housing, a fluid chamber arranged in the damper housing, a damping fluid arranged in the fluid chamber, a piston displaceably supported in the fluid chamber, and a sealing element having a first section which bears against or which is configured to bear against an inner wall of the fluid chamber. The sealing element includes a second section, the second section being spaced apart from the inner wall of the fluid chamber and being configured to be moved, preferably pivoted, tilted and/or radially widened, above a predetermined threshold value of a pressure application to the piston, relative to the first section which bears against or which is configured to bear against the inner wall of the fluid chamber.

A fitting for movably mounting a pivoting element of a door or a window relative to a stationary support, includes a first substantially cuboid-shaped fitting part to be arrangeable substantially completely in a recess on an end face of a panel of the support, and a second fitting part for securing to the pivoting element, the second fitting part being pivotally connected to the first fitting part. The second fitting part can be arranged substantially completely in the pivoting element. A damping device damps a pivoting movement of the two fitting parts relative to each other. The damping device can be converted from a first damping position into a second damping position with a reduced damping performance relative to the first damping position, and the damping device is arranged in the first fitting part. A securing device is provided for holding the damping device in the second damping position.