A device for lubricating a hinge includes a housing, a first elongated opening, a lubrication opening, a lubrication collection chamber, and an absorption element. The first elongated opening allows the housing to be placed over a portion of a hinge. The lubrication opening is for receiving a lubrication straw. The lubrication collection chamber is located at a bottom of the housing, and the absorption element is located within the lubrication collection chamber.

An automobile hinge includes a first hinge half attachable to one of a door and a door pillar, with a first hinge bore, a second hinge half attachable to the other of the door and the door pillar, with a second hinge bore, and a hinge pin having an axis of rotation. The hinge pin comprises a first pin portion which can be fixed in a rotationally fixed manner in the first hinge bore of the first hinge half. The hinge pin comprises a second pin portion which is pivotally received in the second hinge bore of the second hinge half. The second pin portion comprises an external thread at least in sections. The second hinge bore of the second hinge half comprises an internal thread at least in sections. The second pin portion can be screwed into the second hinge bore of the second hinge half. An automobile hinge in which the pivotable connection of hinge pin and hinge half is possible without a bearing bush is realized in that the internal thread and the external thread form a direct pivotal connection of the hinge pin and the second hinge half.

An automobile hinge includes a first hinge half attachable to one of a door and a door pillar, with a first hinge bore, a second hinge half attachable to the other of the door and the door pillar, with a second hinge bore, and a hinge pin having an axis of rotation. The hinge pin comprises a first pin portion which can be fixed in a rotationally fixed manner in the first hinge bore of the first hinge half. The hinge pin comprises a second pin portion which is pivotally received in the second hinge bore of the second hinge half. The second pin portion comprises an external thread at least in sections. The second hinge bore of the second hinge half comprises an internal thread at least in sections. The second pin portion can be screwed into the second hinge bore of the second hinge half. An automobile hinge in which the pivotable connection of hinge pin and hinge half is possible without a bearing bush is realized in that the internal thread and the external thread form a direct pivotal connection of the hinge pin and the second hinge half.

A hinge assembly includes a first hinge member having an arcuate guide slot extending around a first opening and an overall thickness equal to or greater than a radial width of the arcuate guide slot, and a second hinge member having first and second clevis portions with a second opening formed through each of the clevis portions. Fastening member holes are defined in one or both clevis portions and arrayed in a first arcuate array around one or both of the second openings with a radius corresponding to the arcuate guide slot radius. The first hinge member is inserted between the clevis portions with the first and second openings aligned with each other. Fastening members extend into or through the fastening member holes and are slidably received in the arcuate guide slot so as to enable relative rotation between the hinge members about an axis passing through the first and second openings.

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.

A hinge pin that allows for clean and convenient internal lubrication of associated door hinge assemblies, including: a head, a body, and a tip; wherein the head includes a fluid reservoir, and a fluid input aperture; wherein the body includes a first end, a second end, wherein the first end and the second end define a length therebetween, at least one fluid output aperture, a primary bore, and a secondary bore; and wherein the primary and secondary bores are positioned between the fluid input aperture and the at least one fluid output aperture, and define a pathway for fluid flow therebetween.

A hinge pin that allows for clean and convenient internal lubrication of associated door hinge assemblies, including: a head, a body, and a tip; wherein the head includes a fluid reservoir, and a fluid input aperture; wherein the body includes a first end, a second end, wherein the first end and the second end define a length therebetween, at least one fluid output aperture, a primary bore, and a secondary bore; and wherein the primary and secondary bores are positioned between the fluid input aperture and the at least one fluid output aperture, and define a pathway for fluid flow therebetween.

A hinge pin that allows for clean and convenient internal lubrication of associated door hinge assemblies, including: a head, a body, and a tip; wherein the head includes a fluid reservoir, and a fluid input aperture; wherein the body includes a first end, a second end, wherein the first end and the second end define a length therebetween, at least one fluid output aperture, a primary bore, and a secondary bore; and wherein the primary and secondary bores are positioned between the fluid input aperture and the at least one fluid output aperture, and define a pathway for fluid flow therebetween.

A hinge pin that allows for clean and convenient internal lubrication of associated door hinge assemblies, including: a head, a body, and a tip; wherein the head includes a fluid reservoir, and a fluid input aperture; wherein the body includes a first end, a second end, wherein the first end and the second end define a length therebetween, at least one fluid output aperture, a primary bore, and a secondary bore; and wherein the primary and secondary bores are positioned between the fluid input aperture and the at least one fluid output aperture, and define a pathway for fluid flow therebetween.

A hinged system includes a preassembled hinge module for pivotally coupling a first component to a second component. The preassembled hinge module includes a shaft, a torque element frictionally engaging the shaft, and a housing. The housing includes a cover, a side wall, and a rear wall that define an interior space enclosed within the housing. The interior space receives the torque element inside the housing. The cover defines a first aperture, and the rear wall defines a second aperture, the first aperture and the second aperture aligned with a pivot axis of the shaft. The shaft extends through at least the first aperture, the interior space, and the second aperture. The shaft is separate from, and configured to be mounted to, the first component. The housing is separate from, and configured to be mounted to, the second component.