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.

A portable information handling system rotationally couples housing portions with a variable torque hinge having a first axle that rotates with a first housing portion, a second axle that rotates with a second housing portion and a synchronizing gear assembly that translates rotation between the first and second axles. Variable torque is applied by selectively engaging and disengaging a coupler gear with the synchronizing gear assembly to apply and remove an increased torque that resists housing rotation. In one embodiment, the coupler gear is an idler gear of the synchronizing gear mechanism that selectively applies and removes an increase torque of the second axle to the first axle. The coupler gear slides in response to an actuator, such as an electro-permanent magnet acting on a ferromagnetic material with high and low magnetic attraction states.

The present invention provides a refrigerator, comprising a refrigerator body and a door body. A hinge body is disposed on the refrigerator body. A first hinge shaft and a second hinge shaft are disposed on the hinge body. A first guide groove and a second guide groove are formed in the door body. The first hinge shaft is located in the first guide groove and the second hinge shaft is located in the second guide groove. During opening of the door body, the first guide groove moves relative to the first hinge shaft and the second guide groove moves relative to the second hinge shaft, the first hinge shaft applies an acting force to the first guide groove to drive the end, away from the first guide groove, of the second guide groove to approach the second hinge shaft, so that the door body is displaced in a horizontal direction.

A multi-link door hinge is proposed. The multi-link door hinge includes: a main body frame provided in a main body of an apparatus having a door; a door frame provided on the door; a body frame rotatably connected to one side portion of the main body frame; an inner link and an outer link rotatably connecting the door frame to the body frame; a leaf spring link rotatably connecting the main body frame to the outer link; an upper cam coupled to a portion connecting the body frame to the inner link in a co-rotatable manner, provided between first and second side portions of a sidewall of the inner link, and securely coupled to the body frame; an upper elastic member having a first side portion provided inside the inner link and a second side portion rollably coupled to the upper cam and elastically supporting the door frame.

A multi-link hinge is proposed. The multi-link hinge is configured to facilitate closing and opening of a door, is capable of sufficiently securing a maximum opening angle of the door while decreasing a gap between the door and a main body, and is also capable of providing convenience to a user when the user opens and closes the door.

A multi-body device includes a first machine body, a second machine body, a rotating member, a first magnetic member, a second magnetic member, and a stopper. The second machine body is pivoted to a pivot side of the first machine body. The rotating member is pivoted to the pivot side of the first machine body and located beside the second machine body. The first magnetic member is disposed at the second machine body. The second magnetic member is disposed at a portion of the rotating member corresponding to the first magnetic member. Two corresponding ends of the first magnetic member and the second magnetic member are magnetically repulsive to each other. The stopper is driven by the second machine body and disposed at the pivot side of the first machine body, so as to stretch into or retreat from a rotation path of the rotating member.

An appliance includes a door with a plurality of panels spaced apart by a vertical support. A lower hinge mount is coupled with an appliance body. A first pivot member is coupled with the lower hinge mount and includes a first protrusion. A lower hinge support is fixedly coupled with the vertical support and includes an elongate coupling plate and a hinge arm that extends orthogonal relative to a longitudinal extent of the elongate coupling plate. A stop extends from the hinge arm. A second pivot member has a receiving space that receives the stop. The second pivot member includes a second protrusion that is in abutting contact with the first protrusion. A lower hinge pin extends through the lower hinge support and the second pivot member. The lower hinge pin is vertically translated when the second pivot member moves from a first position to a second position.

Aspects of the present invention relate to hinge apparatus (3-n) for supporting an aperture closure member (4). The hinge apparatus (3-1, 3-2) (3-n) is configurable in at least first and second configurations. The hinge apparatus (3-1, 3-2) (3-n) includes a first hinge bracket (10) (10) and a second hinge bracket (11) (11). A first hinge linkage member (15) is pivotally mounted to each of the first and second hinge brackets (10, 11) (10, 11). A second hinge linkage member (16) (16) is pivotally mounted to each of the first and second hinge brackets (10, 11) (10, 11). A latching mechanism (25) (25) is provided for selectively latching the hinge apparatus (3-1, 3-2) (3-n). The latching mechanism (25) (25) is operable to inhibit movement of the first and second hinge linkage members (15, 16) (15, 16) relative to each other to latch the hinge apparatus (3-1, 3-2) (3-n). The present invention also relates to a carrier assembly for carrying an aperture closure member (4); and a vehicle (1) having a carrier assembly.

The present subject matter relates to hinge connectors with rotation control units. In an example, a hinge connector may couple a base unit with a cover unit of a device. The hinge connector includes hinge shaft. The rotation control unit is to control the rotation of the hinge shaft and stop a free-rotation of the hinge shaft at a predefined angle with respect to the base unit.

Cable assemblies for providing electrical communication between hinged sections of an electronic device are described. The cable assemblies can include a cover that covers one or more cables that run through a hinge region of the electronic device. The cable and cover can be drawn over a mandrel of the hinge region. The cover and the portions of the mandrel can be visible to a user at the hinge region of the electronic device. The cover can be sufficiently rigid to guide a path of the cable and protect the cable from bending beyond a prescribed angle during rotation of the electronic device at the hinge region. The cover can also be sufficiently rigid to prevent ceasing or folding of the cover and the cable during rotation of the electronic device at the hinge region.