The invention relates to a hinge (10) for closing panels of the access opening of refrigerated cabinets, where said hinge (10) comprises: —a casing that can be fixed to a fixed frame of the access opening, where said casing contains a mechanism configured to allow tire rotation of said panel about an axis (X) between a closed position and an open position of the access opening of the refrigerated cabinet, —an elastic return means (53) to allow the return from the open position to the closed position of the panel: characterised in that said hinge (10) comprises a braking element (100) configured to interact with the aforesaid mechanism to brake the closing movement of the panel generated by said elastic return means (53).

A hinge for doors of domestic appliances, comprising a first element and a second element pivoted to each other and movable relative to each other in tilting fashion, the first and second elements being fixable one to a frame and the other to a door of an electrical household appliance, for making the door movable with respect to the frame between a dosed position and an open position, a lever for connection between the first and the second closing elements, an elastic element connected to the lever and designed to generate with its own deformation a force of elastic adjustment designed to compensate at least partially the weight force of the door during the opening or closing of the door, means for adjusting the intensity of the elastic reaction force.

A hinge assembly with reinforced abutment surfaces via the use of multiple strike plates. The strike plates are made from stronger and more robust materials than the underlying hinge, such that the strike plates bear the loads (vs. the underlying hinge material) to prevent deformation of the hinge components during use over time.

Provided is a damping hinge for controlled closing of a door or gate. The damping hinge includes a first clamp plate configured to be mounted to a fixed supporting panel; a second clamp plate configured to be mounted to a panel of the door or gate, wherein the second clamp plate is connected with the first clamp plate for relative rotation about a hinge axis; and a damping mechanism arranged on at least one of the first clamp plate and the second clamp plate including a damper arranged substantially parallel to the hinge axis and configured to impact relative rotation of the second clamp plate towards the first clamp plate during closing of the hinge. The damping mechanism may be arranged such that the damping mechanism may be located outside of a plane of the respective panel and adjacent or next to an outer or facing surface of that panel.

The present disclosure relates to a pulley device, a sliding door, and a sliding window. The pulley device includes: a pulley component including a pulley; a connecting component including a rocker, one end of the rocker being rotatably connected to the pulley component; and a housing including a bottom plate and two side plates. The two side plates are fixed to two opposed sides of the bottom plate, respectively, so that the bottom plate and the side plates jointly define a receiving cavity configured to receive the pulley component and the connecting component. A surface of the side plate facing the receiving cavity defines a receiving groove along a length direction of the side plate, and the other end of the rocker is received in the receiving groove and is capable of sliding along the receiving groove.

A hydraulically damped actuator closes a hinged closure system. The actuator includes an energy storing mechanism that stores energy when the closure system is being opened and restores the energy to effect closure of the closure system. A hydraulic damping mechanism damps the closing movement of the closure system. The actuator further includes a tubular cylinder barrel with first and a second ends and a rotatable shaft with first and a second extremities. The shaft extends through the tubular cylinder barrel. Both extremities of the shaft are available to be connected with a mechanical connector that transfers rotation of the closure system to the shaft, which allows the actuator to be mounted in two opposing orientations depending on the handedness of the closure system.

A stay includes a first arm rotatably connected to any one of a body or a door openable to the body; a second arm, one end of the second arm being rotatably connected to the first arm and the other end being connected to any one of the body or the door. The first arm includes a resilient body, a slider urged by the resilient body to the second arm. A case slidably supports the slider toward the second arm, and a pressing part is abutted and pressured onto a cam face disposed to the second arm by the slider. An adjustment mechanism changes a pressing position between the cam face and the pressing part to a crossing direction with respect to a sliding direction of the slider and a rotation shaft axis direction of the second arm.

A carrier module including a pair of carrier members operably coupled to one another via at least one cable is provided. The carrier members are configured for substantially free movement relative to one another to facilitate installation of the carrier members into an internal door cavity through an opening formed in the inner panel, wherein at least one of the carrier members is adjustable along at least one of cross-vehicle, aft/forward, and up/down directions.

A hinge assembly with reinforced abutment surfaces via the use of multiple strike plates. The strike plates are made from stronger and more robust materials than the underlying hinge, such that the strike plates bear the loads (vs. the underlying hinge material) to prevent deformation of the hinge components during use over time.

A door opening system and method include a mounting base, an engagement protuberance extending from the mounting base, a first securing assembly having a first suction cup coupled to the mounting base, and a second securing assembly having a second suction cup coupled to the mounting base. The first suction cup and the second suction cup are configured to secure the door opening system to a door of a structure. The engagement protuberance is configured to be engaged in a hands-free manner to open the door.