A self-contained hinge mechanism is provided including a hinge movement control assembly. The hinge movement control assembly includes a number of stacked alternating friction rings and pressure disks providing a tunable pivoting resistance. As the hinge mechanism is actuated, an internal shaft and a set of friction rings rotationally-locked to the internal shaft and door moves relative to a set of pressure disks rotationally-locked to a fixed hinge mechanism housing and mount frame. A resistance to the pivoting of the hinge mechanism elements is provided by the clamping force of multiple force members moving the pressure disks along axial translation guides of the housing closer to one another and sandwiching the friction rings closer together.

A rotary shaft link device has a simplified structure occupying less room and is easy to assemble and includes a transmission unit disposed on a first shaft, a reaction unit disposed on a second shaft and a link unit disposed between the transmission unit and the reaction unit. Two ends of the link unit are formed with driving sections engaged with the transmission unit and the reaction unit. The link unit is assembled in the rail of the restriction plate. When the first shaft is rotated, the link unit responsively moves from a first position to a second position to drive the reaction unit and the second shaft to synchronously rotate. According to the specification of the product, the number of the link devices can be easily adjusted to achieve the object of modularized assembly.

The description relates to devices, such as computing devices that have hinged portions. One example can include a first portion and a second portion. This example can also include a hinge assembly and a magnetic assembly. The hinge assembly can rotatably secure the first portion to the second portion. The magnetic assembly can be positioned relative to the hinge assembly and the first and second portions that bias the first and second portions to a closed position where the first and second portions overlay one another and to an open position where the first and second portions are juxtaposed and coplanar.

A hinge is provided, which comprises: at least one hinge pin defining a hinge axis in a first dimension; a hinge leaf; a housing comprising at least one recess for receiving a portion of the hinge leaf; and at least one user adjustable fastener arranged to enable user adjustment of the positioning of the hinge leaf within the at least one recess in a second dimension, wherein the second dimension is orthogonal to the first dimension.

A threaded bolt for a hinge arrangement includes a cylindrical main body. On an outer circumferential surface thereof the cylindrical main body has a first frustoconical projection and a second frustoconical projection, which adjoins the first frustoconical projection. The diameter of a side of the first frustoconical projection that faces toward the second frustoconical projection is smaller than the diameter of a side of the second frustoconical projection that faces toward the first frustoconical projection. The first frustoconical projection comprises at least one tooth on its outer circumferential surface, which tooth protrudes radially beyond an imaginary continuation of the second frustoconical projection.

Provided is a torque hinge which can be easily assembled. A torque hinge includes a restricting member 3 having a hole 31, a shaft 4 passed through the hole 31 of the restricting member 3, a friction member 6 engaged with the shaft 4 in an interference fitting state so as to generate torque due to friction to the shaft 4 which relatively rotates and fitted in the hole 31 of the restricting member 6, and a fixing shaft 41 for unrotatably fixing the friction member 6 to the restricting member 3, the fixing shaft 41 intervening between the friction member 6 and the restricting member 3. The fixing shaft 41 presses a wedge-shaped rotation locking portion 44 of the friction member 6 onto an inner surface of the hole 31 of the restricting member 3.

A self-contained hinge mechanism is provided including a hinge movement control assembly. The hinge movement control assembly includes a number of stacked alternating friction rings and pressure disks providing a tunable pivoting resistance. As the hinge mechanism is actuated, an internal shaft and a set of friction rings rotationally-locked to the internal shaft and door moves relative to a set of pressure disks rotationally-locked to a fixed hinge mechanism housing and mount frame. A resistance to the pivoting of the hinge mechanism elements is provided by the clamping force of multiple force members moving the pressure disks along axial translation guides of the housing closer to one another and sandwiching the friction rings closer together.

A hinge for cold rooms or glass shutters, coupling a stationary support structure and a shutter movable between an open position and a shutter position, includes a hinge body having a working chamber; a pivot defining a first longitudinal axis coupled to the hinge body to rotate around the first axis between the open and the closed shutter position; a cam element integral with the pivot; a plunger element sliding in the working chamber along a second axis substantially perpendicular to the first axis, the plunger element having a slider with an operative face interacting with the cam element; and an elastic counteracting member acting upon the plunger element to move it along the second axis between a position proximal to the bottom wall of the working chamber and a position distal therefrom. The hinge body has a substantially plate shape.

The present disclosure provides a dual-shaft structure which comprises a first shaft, a second shaft being arranged beside the first shaft, and a slider. The first shaft has a protruding first stop pin. The second shaft has a protruding second stop pin. The slider includes a first spiral slot and a second spiral slot. In response to a rotation of the first shaft, the first stop pin travels along the first spiral slot to move the slider linearly along an axial direction of the first shaft. In response to the linear movement of the slider, the second shaft rotates with the first shaft through an interaction between the second spiral slot and the second stop pin.

The present invention provides a hinge and a refrigerator having the same. The hinge comprises a fixing plate, a supporting plate perpendicularly connected with the fixing plate, and a hinge shaft perpendicularly mounted on the supporting plate to cooperate with a shaft sleeve, wherein the outside of the hinge shaft is plastic-encapsulated with a plastic encapsulating case, the plastic encapsulating case is provided with a protrusion protruding horizontally outwards along the extension direction of the supporting plate, and the protrusion is integrally formed with the plastic encapsulating case.