Disclosed is an electronic device in which a multi joint hinge, which couples a door of the electronic device, is applied. The electronic device includes a main body having a storage space therein, a door configured to open and close the storage space, and a hinge coupled to the door and the main body in order to rotate the door with respect to the main body. The hinge includes a first bracket supported by the main body, a second bracket supported by the door, a link rotatably coupled between the first bracket and the second bracket, a resilient member provided on the link and having an elasticity; a cam provided on the second bracket and formed in a shape to contact with the resilient member, so that according to a rotation direction of the door, the elasticity of the resilient member acts as an opening force or a closing force of the door, and a cam stopper integrally formed with the second bracket to prevent the cam from being moved by the elasticity of the resilient member.

A furnishing is fitted with a rotating panel (5), in particular a transparent panel. The panel is mounted in the furnishing via at least a hinge (20), wherein the hinge comprises a first hinge part (21) for attaching close to the panel and a second hinge part (22) for attaching to the panel. A receivable member (25) extends from one of the two hinge parts (21,22) and is received in a receiving cavity (35) in another of the two hinge parts in order to connect the two hinge parts pivotally to each other. The respective other hinge part (22) comprises a holder part (30) with a holder body (33) which is accommodated while allowing freedom of movement in the receiving cavity. The holder body (33) comprises a bore in which the receiving member is received.

A hinge for a mobile terminal having an inwardly bendable flexible screen comprises: a three-member mechanism consisting of a left supporting plate, a middle supporting plate and a right supporting plate which are rotatably and sequentially connected; a left supporting frame; a right supporting frame; and a middle U-shaped outer cover. Both ends of the three-member mechanism are free ends, such that the left supporting plate, the middle supporting plate and the right supporting plate are flexible screen supporting members capable of moving up and down. After moving up, the left supporting plate, the middle supporting plate and the right supporting plate form a flexible screen supporting face, and after moving down, the components are in a bent state, thereby providing a space for bending of the flexible screen. After moving down, the middle supporting plate reaches a bottom portion of the middle U-shaped outer cover. The present invention can provide a larger space for bending of the flexible screen such that the middle mechanism of the hinge is not exposed after folded, and it can be used in mobile terminals such as mobile phones, e-books, and computers, enabling the mobile terminal to achieve large-screen display in a small volume.

A molded access door assembly for an access opening in a wall or ceiling is provided. It includes a molded frame with a frame channel forming the outside of the access door assembly. The frame channel has spaced apart exterior and interior walls joined at the top edge by a top wall and a lip extending from the bottom edge of the inner wall into the interior of the molded access door assembly to define an opening. The lip provides a stop rest for the door in the closed position so that the door is capable of being attached to the wall or ceiling. The assembly also includes a door having a top surface and a first part of a hinge assembly along one edge of the top surface which cooperates with a matching second part of the hinge assembly along one edge of the frame channel to allow the door to move between an open and a closed position.

A molded access door assembly for an access opening in a wall or ceiling is provided. It includes a molded frame with a frame channel forming the outside of the access door assembly. The frame channel has spaced apart exterior and interior walls joined at the top edge by a top wall and a lip extending from the bottom edge of the inner wall into the interior of the molded access door assembly to define an opening. The lip provides a stop rest for the door in the closed position so that the door is capable of being attached to the wall or ceiling. The assembly also includes a door having a top surface and a first part of a hinge assembly along one edge of the top surface which cooperates with a matching second part of the hinge assembly along one edge of the frame channel to allow the door to move between an open and a closed position.

In one embodiment, systems and methods include to fluid transfer hinge used to transfer fluid from one surface to another. The fluid transfer hinge comprises a first housing. The fluid transfer hinge further comprises a second housing, wherein the first housing is coupled to the second housing, wherein the first housing is rotatable about the second housing along a central axis of the fluid transfer hinge. The fluid transfer hinge further comprises a fluid inlet, wherein the fluid inlet is disposed about at least a portion of the thickness of the first housing. The fluid transfer hinge further comprises a fluid outlet, wherein the fluid outlet is disposed about at least a portion of the thickness of the second housing.

In one embodiment, systems and methods include to fluid transfer hinge used to transfer fluid from one surface to another. The fluid transfer hinge comprises a first housing. The fluid transfer hinge further comprises a second housing, wherein the first housing is coupled to the second housing, wherein the first housing is rotatable about the second housing along a central axis of the fluid transfer hinge. The fluid transfer hinge further comprises a fluid inlet, wherein the fluid inlet is disposed about at least a portion of the thickness of the first housing. The fluid transfer hinge further comprises a fluid outlet, wherein the fluid outlet is disposed about at least a portion of the thickness of the second housing.

An intelligent hinge determines motions of a swinging door. The hinge has an accelerometer secured to a leaf of the hinge. As the door swings, the leaf also rotates and the accelerometer determines an acceleration value. A velocity of the swinging door may be determined from the acceleration value. An initial, instantaneous, and final angular position of the door may also be determined from the acceleration value.

An intelligent hinge determines motions of a swinging door. The hinge has an accelerometer secured to a leaf of the hinge. As the door swings, the leaf also rotates and the accelerometer determines an acceleration value. A velocity of the swinging door may be determined from the acceleration value. An initial, instantaneous, and final angular position of the door may also be determined from the acceleration value.

A refrigerating appliance comprises a cabinet, at least one door, and at least one hinge allowing the door to rotate about an axis for opening and closing, and further comprising at least one bracket configured to support the hinge, and at least one flexible tubular element inserted on one side in the cabinet and on the other side in the door. The flexible tubular element is configured to exit through a top wall of the cabinet, and is further configured to enter a cavity of the door by passing through a slot formed in the top wall of the door. The slot partially surrounds the hinge, and the slot is partially under the bracket when the door is closed.