A sound damping door system having a door frame, a compression seal, a door slab, a bottom seal, and a concealed hinge assembly. The door frame includes male and female components adapted to engage each other in a rough door opening between first and second wall faces; and at least one isolation gasket adapted to be disposed between the male and female components. The compression seal is mounted to the door frame. The door slab includes an outer skin; an arched constrainment sheet inside the outer skin; a damping fill material inside the outer skin; and an acoustic insert inside the outer skin. The bottom seal is mounted to a bottom surface of the door slab such that the bottom seal is permitted to move relative to the door slab.

In one example, a friction hinge includes a link connected to a slide slot of a first base with a movable shaft and connected to a base friction mechanism of a second base with a link friction mechanism, where the link includes a joint positioned between the movable shaft and the link friction mechanism. In another example, a friction hinge system includes a first link connected to a first slide slot of a first base with a first movable shaft and connected to a first base friction mechanism of a second base with a first link friction mechanism, a second link connected to a second slide slot of the second base with a second movable shaft and connected to a second base friction mechanism of the first base with a second link friction mechanism, and a joint shaft to connect the first link to the second link at a joint.

In a invisible hidden door hinge (1), a first connecting body (2a) and a second connecting body (2b) are connected together by an articulation device (3) which allows the relative movement between a condition of opening and a closed condition in which the first (2a) and the second (2b) connecting body define a seat in which the articulation device (3) is enclosed. At least one of the connection bodies (2a, 2b) comprises a support structure (4a, 4b) in which, for a position adjustment, at least one movable body (5a, 5b) is housed which is shaped from a respective single metal sheet in a single concave piece having concavity defined by a bottom (52a, 52b) and by side walls (53a, 53b) that realize a continuous peripheral edge of the bottom (52a, 52b), joined to the bottom (52a, 52b) without interruption of the material of which said respective single metal sheet consists of and surrounding the bottom (52a, 52b) on at least three consecutive sides.

Provided are a hinge capable of attaching a door side member having a recessed portion to receive an articulation joint in an end surface of a thin door such as a glass door and a hinge bracket. The hinge of the present invention includes a main body side member to be attached to a main body; and a door side member to be attached to a door, rotatably connected to the main body side member via an articulation joint and having a recessed portion to receive at least a part of the articulation joint. The door side member includes an outer shell portion, a first holding piece projecting from the outer shell portion, and a second holding piece for sandwiching the door with the first holding piece in a thickness direction of the door within a range of the outer shell portion in the thickness direction of the door.

A hinge module includes a first bracket, a second bracket, a pivot assembly, a pressing component and an adjusting structure. The first bracket has at least one first sliding slot. The first bracket and the second bracket are pivoted to each other by the pivot assembly, wherein the pivot assembly has a first sliding portion that is slidably disposed in the first sliding slot. The pressing component is connected to the first bracket and the first sliding portion. The adjusting structure is connected to the pressing component that presses the first sliding portion by the adjusting structure. When the first bracket and the second bracket rotate relative to each other, the first sliding portion slides along the first sliding slot, and the hinge module generates a torsional force by continuously pressing the first sliding portion by the pressing component. In addition, an electronic device including the hinge module is provided.

A dampened hinge construction for braking pivoting movement of one structure relative to another. The dampened hinge construction can be utilized in a folding table assembly in an aircraft passenger suite including a base panel and at least one folding panel pivotally attached to the base panel by multiple dampened hinges. Each dampened hinge includes a first assembly attachable to a first structure and a second assembly attachable to a second structure such that the first structure is pivotable relative to the second structure between a first condition and a second condition, such as a folded condition and a planar condition, and at least one damper that brakes pivoting movement of the first structure relative to the second structure as the first condition or second condition is approached.

A hinge module includes a first bracket, a second bracket, a pivot assembly, a pressing component and an adjusting structure. The first bracket has at least one first sliding slot. The first bracket and the second bracket are pivoted to each other by the pivot assembly, wherein the pivot assembly has a first sliding portion that is slidably disposed in the first sliding slot. The pressing component is connected to the first bracket and the first sliding portion. The adjusting structure is connected to the pressing component that presses the first sliding portion by the adjusting structure. When the first bracket and the second bracket rotate relative to each other, the first sliding portion slides along the first sliding slot, and the hinge module generates a torsional force by continuously pressing the first sliding portion by the pressing component. In addition, an electronic device including the hinge module is provided.

Manipulator (16) for controlling a locking function and a manoeuvring function of an access member (14) rotatably coupled to a frame (12), the manipulator (16) comprising an actuator (26) configured to provide a substantially linear first actuating movement in a first direction (48) and a substantially linear second actuating movement in a second direction (50), opposite to the first direction (48); a latch bolt (24) functionally coupled to the actuator (26), the latch bolt (24) arranged to move to an unlocking position in response to movement of the actuator (26) in the first direction (48) and arranged to move to a locking position in response to movement of the actuator (26) in the second direction (50); and a transmission mechanism (28) functionally coupled to the actuator (26), the transmission mechanism (28) configured to transmit the first actuating movement in the first direction (48) provided by the actuator (26) to an opening movement of the access member (14). An access member (14), a system (10) and a method are also provided.

The present invention provides a hinge structure, which comprises a first pivoting assembly, a second pivoting assembly and a first bracket. The first pivoting assembly comprises multiple first piston components, multiple first pivoting arms and a first sliding shaft. Each of the first pivoting arms has a first elastic slot. A diameter of the first sliding shaft is greater than an aperture of the first elastic slot so as to generate a first torque. The first bracket has multiple first grooves separated from each other, and the first piston components are respectively disposed in the first grooves. When the first pivoting assembly pivots relative to the second pivoting assembly to an angle, the first grooves respectively press the first piston components so as to generate a second torque.

A concealed hinge for the rotatable movement of a door fixed to a door frame. The hinge includes: a fixed hinge body anchorable to the frame; a movable hinge body anchorable to the door; a connecting assembly for mutual connection of the fixed hinge body and movable hinge body so that the latter rotates with respect to the former about a first longitudinal axis between an open position and closed position. The fixed (or movable) hinge body includes a first (or second) box-shaped element concealedly insertable within the door (or frame). The first (or second) box-shaped element defines a second axis parallel to the first axis. The connecting assembly protrudes from the first box-shaped element in the open position of the movable element, the first box-shaped element being susceptible to internally contain the connecting assembly in the closed position of the movable element.