A thinned hinge includes a rotating part and a torsion supply part. The rotating part includes a base and two movable members arranged on the base, the base includes two tracks for the movable members to displace along arc-shaped trajectories to generate opening and closing actions, and ends of the two movable members where extend outward from the two tracks are provided with driving members. The torsion supply part supplies torsion required by the rotating part, the torsion supply part includes a support, two rotating shafts arranged in parallel on the support, and an idle gear arranged between the two rotating shafts, the two rotating shafts are provided with connecting pieces assembled with the driving members to enable the torsion supply part and the rotating part to simultaneously act and gears engaged with the idle gear, and the gears and the idle gear are crossed helical gear structures.

The invention relates to a hinge arrangement for a switchgear housing cabinet, having a first hinge half, which is fastened to a vertical side wall, delimiting a door opening, of a switchgear cabinet housing, and having a second hinge half, which is fastened to a door element, the hinge halves being connected to each other such that they can pivot relative to each other via a rotation axis, so that the door element closes the door opening when in a closed position and preferably completely exposes the door opening when in an open position, and the rotation axis being outside the outer periphery of both the door opening and the door element, wherein at least one of the hinge halves has a groove, via which the hinge half is fitted onto a protrusion on the outer periphery of the part of the switchgear cabinet housing and of the door element associated with the hinge half.

The invention relates to a hinge arrangement for a switchgear housing cabinet, having a first hinge half, which is fastened to a vertical side wall, delimiting a door opening, of a switchgear cabinet housing, and having a second hinge half, which is fastened to a door element, the hinge halves being connected to each other such that they can pivot relative to each other via a rotation axis, so that the door element closes the door opening when in a closed position and preferably completely exposes the door opening when in an open position, and the rotation axis being outside the outer periphery of both the door opening and the door element, wherein at least one of the hinge halves has a groove, via which the hinge half is fitted onto a protrusion on the outer periphery of the part of the switchgear cabinet housing and of the door element associated with the hinge half.

A door hinge apparatus of a vehicle may include a main bracket provided on one side of a vehicle body corresponding to an end portion of a door of the vehicle and having slide slots formed on upper and lower plates, respectively, a slide hinge bracket engaged to the slide slots to be slidable along the slide slots of the main bracket by a link mechanism, and a door hinge bracket Provided on the end portion of the door and pivotally connected to an external end portion of the slide hinge bracket through a hinge shaft.

A refrigeration device has a first door with an opening and a second door for closing the opening in the first door. A first hinge member has a first connection portion fixed on a main body of the refrigeration device and a first hinged portion connected to the first door. A second hinge member has a second connection portion fixed on the first door and a second hinged portion connected to the second door. The second hinge member includes a columnar portion that is hinged to the first hinged portion. One of the columnar portion and the first hinged portion has a first shaft hole, and the other one has a first hinge shaft that extends into the first shaft hole. The novel device prevents a door body of the refrigeration device from being damaged at a hinged position and the reliability of the refrigeration device is improved.

A refrigeration device has a first door with an opening and a second door for closing the opening in the first door. A first hinge member has a first connection portion fixed on a main body of the refrigeration device and a first hinged portion connected to the first door. A second hinge member has a second connection portion fixed on the first door and a second hinged portion connected to the second door. The second hinge member includes a columnar portion that is hinged to the first hinged portion. One of the columnar portion and the first hinged portion has a first shaft hole, and the other one has a first hinge shaft that extends into the first shaft hole. The novel device prevents a door body of the refrigeration device from being damaged at a hinged position and the reliability of the refrigeration device is improved.

Conventional laptop computers may utilize a door-hinge style or in a bezel-behind-base style hinge to connect a display with a keyboard of the laptop computer. Typically, these hinges present an undesirable discontinuous visual impression to the user. In the disclosed technology, a leading edge of a display abuts a leading edge a keyboard. The disclosed sliding double-pivot hinge places a pivot axis parallel and coincident with the abutting interface, the leading edges of the display and the keyboard remain abutting throughout a rotational range of motion of the display with reference to the keyboard. The resulting visual impression to the user is that the display is contiguous with the keyboard regardless of the display angle. Further, the disclosed sliding double-pivot hinge may be used in a kickstand to permit the kickstand to rotate up to 180 degrees to fold back on itself and lay flat against an associated computing device.

Conventional laptop computers may utilize a door-hinge style or in a bezel-behind-base style hinge to connect a display with a keyboard of the laptop computer. Typically, these hinges present an undesirable discontinuous visual impression to the user. In the disclosed technology, a leading edge of a display abuts a leading edge a keyboard. The disclosed sliding double-pivot hinge places a pivot axis parallel and coincident with the abutting interface, the leading edges of the display and the keyboard remain abutting throughout a rotational range of motion of the display with reference to the keyboard. The resulting visual impression to the user is that the display is contiguous with the keyboard regardless of the display angle. Further, the disclosed sliding double-pivot hinge may be used in a kickstand to permit the kickstand to rotate up to 180 degrees to fold back on itself and lay flat against an associated computing device.

A foldable display device includes a hinge, a support plate connected to opposite ends of the hinge and a display panel module disposed on the support plate. The hinge includes a rotation axis module having a rotation axis. A first slider is connected to the rotation axis and includes a first guide line. A second slider is connected to the support plate and includes a second guide line. A link arm includes a link arm body. The link arm body has a link arm rotation axis disposed at a first end of the link arm body and a link arm pin hole disposed at a second end of the link arm body. A link arm pin is configured to extend through the link arm pin hole, the first guide line and the second guide line.

The present disclosure provides an auxiliary device that implements both free-stop hinge and click hinge and includes a seating member forming a seating area for a mobile terminal to implement a neat appearance and a hinge module rotatably connecting the cover member to the seating member, wherein the hinge module includes a holder, a rotation member including a first rotation member fixed to the seating member to form a first rotation axis between the holder and the seating member, and a second rotation member fixed to the cover member to form a second rotation axis between the holder and the cover member, the second rotation axis being parallel with the first rotation axis, and an elastic member configured to elastically press the rotation member to prevent a rotation due to a predetermined magnitude of force or less.