A hinge mechanism includes a base, a resilient mechanism, a rotating shaft, a first cam member and a second cam member. The resilient mechanism is movably disposed on the base. The rotating shaft is rotably disposed through the base. The first cam member abuts against the resilient mechanism and is able to slide along the rotating shaft. The first cam member is able to move with the rotating shaft. The second cam member is mounted on the base and engages with the first cam member. The first cam cooperates with the second cam member during rotation with the rotating shaft, resulting in displacement between the first cam member and the second cam member for forcing the resilient mechanism to deform and generates a resilient recovery force. The resilient recovery force recovers the first cam member and the second cam member.

A gate comprises a spring-loaded hinge arrangement defining a rotational axis. A gate structure having a first support arm connected to a first end of the hinge arrangement is also provided. The gate structure is rotatable about the rotational axis. A spring-loaded hinge arrangement includes an outer hinge tube fixedly connectable to an adjacent structure and an inner hinge tube received in the outer hinge tube. The inner hinge tube has a first portion and a second portion movable with respect to each other, the second portion of the inner hinge tube being fixed with respect to the outer hinge tube and the first portion of the inner hinge tube being fixed with respect to the support arm.

A drive arrangement for adjusting a flap, in particular a tailgate, of a motor vehicle, which in the mounted state is mounted on a body of the motor vehicle so as to be pivotable about a flap pivot axis and which can be adjusted between an open position and a closed position over a pivot angle. It is proposed that the drive arrangement comprises a torsion spring arrangement having a torsion spring, the torsion spring being adapted to generate a torsional torque about a torsion axis, that the torsion axis is arranged with an offset to the flap pivot axis, and that the drive arrangement comprises a first gear unit which converts the torsional torque into a supporting force or torque acting on the flap in the direction of the closed position or in the direction of the open position thereof.

A door system including a primary door molding attachable to a primary door frame, the primary door molding including a first vertical member and a first hinge member extending from the first vertical member. One of a horizontal member from which the first vertical member downwardly extends and the first vertical member includes a first rotatably engageable element, and the first hinge member includes a second rotatably engageable element vertically spaced from the first rotatably engageable element.

An active hinge including a body bracket for attachment to a vehicle body. A hood bracket is provided for rotational attachment to a vehicle hood. An actuator is provided for selectively transitioning the active hood hinge from a normal mode where the rotation of the hood bracket is restricted, to an active pedestrian mode where the rotation of the hood bracket is unrestricted.

An accessory positioning system for a cable manager includes a spine member, a first lateral member, an accessory rod, and a first cable management accessory. The spine member has an extruded construction and defines an x-axis of a three-dimensional cable management space. The first lateral member has an extruded construction and defines a y-axis of the three-dimensional cable management space. The spine member is slidably paired with the first lateral member to facilitate infinite adjustability of a location of the spine member along the x-axis of the three-dimensional cable management space within a range defined by a length of the first lateral member. The accessory rod has an extruded construction and define a z-axis of the three-dimensional cable management space. The accessory rod protrudes from the spine member and is slidably paired therewith to facilitate infinite adjustability of a location of the accessory rod along the y-axis of the three-dimensional cable management space within a range defined by a length of the spine member. The first cable management accessory is slidably paired with the accessory rod to facilitate infinite adjustability of a location of the first cable management accessory along the z-axis of the three-dimensional cable management space within a range defined by a length of the accessory rod.

A refrigerator includes: a cabinet having a storage space; a hinge bracket coupled to the cabinet; a door which is rotatably coupled to a shaft provided at the hinge bracket, and which open/close the storage space; and an automatic closing device which is provided at the door at a position spaced from the rotational center line of the door, and which operates together with the hinge bracket during closing of the door, so that the door automatically closes, where the automatic closing device includes: a lever that rotates around a rotational center line spaced from the rotational center line of the door; an elastic member connected to the lever; and a body which is provided at the door and which rotatably supports the lever.

A cable manager includes a backbone assembly and at least one side wall extending from the backbone assembly. The at least one side wall optionally includes one or more cable finger units. The backbone assembly includes a spine member having an extruded construction. The spine member includes one or more channels extending substantially an entire length thereof to facilitate easy attachment, removal and/or repositioning of a structure relative to the spine member. The cable manager optionally includes an accessory rod, a half-spool assembly, a cable finger accessory, a strap/buckle accessory, and/or a door assembly having an interference-free hinge set.

An apparatus includes a connector cover and a lever arm coupled to the connector cover, the lever arm being shaped to accommodate a portion of an activating pin, wherein contact of the activating pin with the lever arm causes a movement of the connector cover from a first position to a second position. The apparatus includes a latch assembly comprising a clamp, the clamp in a clamped position preventing the connector cover from moving from the first position to a second position. The apparatus includes a first bracket with a first indentation, the first indentation being sized to accommodate a portion of a first locating pin, wherein an insertion of the first locating pin into the first indentation moves the clamp from the clamped position to an unclamped position, the unclamped position permitting the connector cover to move when activated by the insertion of the activating pin.

A refrigerator comprises: a cabinet including a storage space; a hinge bracket coupled to the cabinet; a door which is rotatably coupled to a shaft included in the hinge bracket and opens/closes the storage space; and an auto-closing device installed at the door in a position spaced apart from the center line of rotation of the door, the auto-closing device operating such that same acts with the hinge bracket while the door is being closed, thereby causing the door to automatically be closed. The auto-closing device may include a lever and an elastic member for elastically supporting the lever. The hinge bracket may include a contact surface which is brought into contact with the lever while the door is being closed. The contact surface may be formed such that, with reference to the front surface of the cabinet, while a contact part of the lever moves along one portion of the contact surface, the contact part approaches the front surface of the cabinet, and, while the contact part moves along another portion of the contact surface, the contact part becomes more distant from the front surface of the cabinet.