Systems and methods of co-printing a unitary hinge are provided. The unitary hinge may be co-printed using an additive manufacturing process. The unitary hinge includes a hinge pin that is substantially cylindrical in shape. The unitary hinge also includes a knuckle which surrounds a portion of the hinge pin and is configured to be manipulated about the hinge pin. The hinge pin is fabricated in situ with the knuckle such that further assembly is unnecessary. The unitary hinge may also include retention mechanism to retain the hinge within the knuckle without substantially restricting the knuckle from being rotated about the hinge pin. The unitary hinge may further be configured with a fluid port which may, for example, be used to provide a lubricant to an area between the hinge pin and the knuckle or to vacuum powder material or debris from the area.

An electrical cabinet includes a frame hinge fixed to a frame of the cabinet and a door hinge fixed to a door of the cabinet. The frame hinge forms an insertion window for receiving the door hinge. A hinge pin is inserted through aligned seats of the frame hinge. The door hinge is inserted into the insertion window around the hinge pin. A blocking screw or pin is inserted through a third seat in a direction substantially perpendicular to the hinge pin to block the hinge pin and secure the door to the frame.

The invention relates to a hinge assembly for a switch cabinet, comprising a housing-side hinge half and a door-side hinge half, which are connected to one another such that they swivel in relation to one another, wherein the housing-side hinge half has a mounting flange for securing to a vertical profile of a switch cabinet housing, as well as two hinge bolts extending in a vertical direction, arranged at a distance to one another in the vertical direction and facing one another with the free ends thereof, wherein the hinge bolts are accommodated in a respective bolt seat of the housing-side hinge half, wherein the hinge bolts are accommodated in their respective bolt seat such that they cannot move at least in the vertical direction, and in that they protrude from the respective bolt seat via their free ends, wherein the door-side hinge half has a bolt-receiving means with a vertical measurement that is less than or equal to the distance of the free ends of the hinge bolts.

A refrigerator includes a main body having a storage compartment; an inner door rotatably provided at the main body; and an outer door configured to open and close the storage compartment together with the inner door and rotatably provided at the inner door, wherein the inner door includes a connector seating portion disposed at an upper portion of the inner door and configured to connect a first electric wire extending from the main body to the inner door to a second electric wire extending from the outer door to the inner door. Connections between the electric wires are improved so as not to be influenced by the inner and outer doors such that durability of the electric wires can be improved.

A hinge includes a first hinge member including a first barrel, a second hinge member including a first end barrel opposite a second end barrel, a spring having a first axially extending end and a second axially extending end opposite the first axially extending end, a spring tensioner having a first depression for receiving the first axially extending end of the spring and a second depression for receiving a driver. A retainer is coupled to the spring tensioner and includes an opening that is penetrable by the driver when the driver is being received in the second depression. A method of adjusting the hinge includes compressing an end of the spring and twisting the same.

A pin assembly is provided with an axial centerline. This pin assembly includes an outer pin, an inner pin, a first collar and a second collar. The outer pin extends axially along the axial centerline between an outer pin first end and an outer pin second end. The inner pin extends axially along the axial centerline within a bore of the outer pin. The first collar circumscribes the outer pin. The first collar is connected to the outer pin and the inner pin at the outer pin first end. The second collar circumscribes the outer pin. The second collar is connected to the outer pin and the inner pin at the outer pin second end.

The invention relates to a hinge for a switchgear cabinet housing, comprising a first and a second hinge half, which can be connected to each other by means of a hinge pin and which can be pivoted relative to each other about a longitudinal axis of the hinge pin, the hinge pin extending only into the first or the second hinge half in a release position and extending into both the first and the second hinge halves in a locking position, wherein the hinge pin is releasably locked by means of at least one spring clip both in the release position and in the locking position. The invention further relates to a corresponding switchgear cabinet housing and to a corresponding method for mounting a door element on a switchgear cabinet body.

A hinge for a hinged opening of a vehicle includes a first hinge part and a second hinge part which are connected to one another via an axis of rotation so as to be movable relative to one another. The first hinge part has a slot and the second hinge part has a fitting hole. A screw is received through the slot of the first hinge part and fitting hole of the second hinge part. A shaped nut clamps the first hinge part and the second hinge part against the screw. The shaped nut forms a step that includes a first part received in the slot and a second part protruding from the first hinge part and resting on an edge of the slot.

A hinge bracket to couple a hinge to a lid of a laundry appliance comprising: an elongated slot receiving a connector portion of a hinge; first fastener receivers extending from the elongated slot laterally inward toward a midline of a cabinet of the laundry appliance and configured to cooperate with fastener receivers of the hinge to receive fasteners that fasten the hinge to the hinge bracket; second fastener receivers on an opposite side of the hinge bracket as the first fastener receivers and configured to cooperate with the fastener receivers through a C-shaped lip of the lid to receive fasteners fastening the lid to the hinge bracket; and an indented portion formed laterally away from the elongated slot and facing the curved portion of the hinge. The laundry appliance can further include a hinge receiver to couple the hinge to a cabinet.

The invention relates to a hinge comprising a first part (11) that can be pivoted relative to a second part (12) about a pivot axis (a), wherein the first part (11) comprises at least one bore (13) and the second part (12) at least one recess (15a, 15b), wherein, in a final assembly position, at least pin one (17a, 17b) that is coaxial to the pivot axis (a), has a first longitudinal portion in the bore (13) and with a second longitudinal portion in the recess (15a, 15b), and the pin (17a, 17b) can be moved between a pre-assembly position, in which the pin (17a, 17b) is in the bore (13) or in the recess (15a, 15b) with a larger overlap with respect to the final assembly position, and the final assembly position. The special feature is that at least one holding element (18) can extend through a passage (31) in a seat (28) in such a way that the pin (17a, 17b) can be moved by the holding element (18) from the pre-assembly position into the final assembly position and that, in the final assembly position, the holding element (18) is positioned in such a way that it prevents a return movement of the pin (17a, 17b) from the final assembly position into the pre-assembly position.