A movable wall system includes a plurality of movable wall panels including a first movable wall panel and a second moveable wall panel rotatably coupled together through at least one hinge. The movable wall system further includes a biasing system which biases the first movable wall panel and the second movable wall panel into an arrangement wherein a panel face of the first movable wall panel and a panel face of the second moveable wall panel are generally parallel.

A resin back door for a vehicle includes a resin inner panel, a resin lower outer panel, a metal left reinforcing member, and a damper stay bracket. The metal left reinforcing member is disposed in a hollow space defined by the inner panel and the lower outer panel, and is fixed to the inner panel with an adhesive leaving a gap. The damper stay bracket is attached on an outer side of the inner panel in a vehicle width direction. In the resin back door for a vehicle, the damper stay bracket is fastened to the left reinforcing member across a collar having one end inserted into a hole provided in the inner panel.

A friction based counterbalance mechanism for coupling with a closure panel of a vehicle, the counterbalance mechanism including: a housing having a first pivot mount for connecting to one of a body of the vehicle and the closure panel; an extension member coupled to the housing and being extendable and retractable with respect to the housing, the extension member for connecting by a second pivot mount to the other of the body and the closure panel; a variable friction mechanism mounted in the housing having: a shaft having an axis; a washer positioned on the axis; a pinion with a friction body positioned on the shaft and adjacent to the washer, the pinion rotatable about the axis relative to the washer during rotation of the shaft to generate friction between the washer and the friction body; and a slider body positioned on the axis.

A lid stay formed from a housing slidably coupled to a base. The housing has a coupler section for securing said housing to a fixed object, and a connector section for securing the housing to the base. The base is formed from a cylindrical shaped tube defining an interior chamber, having an insertion section constructed and arranged to slidably receive said housing, but prevent the connector section of the housing from passing therethrough. An expanded coil spring is positioned within the interior chamber to maintain the housing and base in an expanded position. The lid stay is for use with a storage container base having a lid pivotally attached thereto. The lid stay biases the lid in an open position and provides resistance when closing the lid.

Object release enclosures are disclosed. Methods of making and using object release enclosures are also disclosed.

An actuator includes a piston assembly movably disposed within an assembly housing having a fixedly supported end and an opposing end that receives a movable piston assembly. The piston assembly includes a piston rod and an attached piston head having a fixed orifice as well as an orifice with a check valve to create rate control of the assembly. Hydraulic fluid is caused to move through the axially movable piston head based on compressive and tensile loads imparted to the assembly. A plurality of pre-loaded springs are configured to selectively provide pressure relief in the event the orifices of the piston become clogged, wherein the plurality of pre-loaded springs, such as disc springs, further provide an energy absorbing function of the assembly based on loading conditions.

A lid stay formed from a housing slidably coupled to a base. The housing has a coupler section for securing said housing to a fixed object, and a connector section for securing the housing to the base. The base is formed from a cylindrical shaped tube defining an interior chamber, having an insertion section constructed and arranged to slidably receive said housing, but prevent the connector section of the housing from passing therethrough. An expanded coil spring is positioned within the interior chamber to maintain the housing and base in an expanded position. The lid stay is for use with a storage container base having a lid pivotally attached thereto. The lid stay biases the lid in an open position and provides resistance when closing the lid.

A door closer system that comprises a left post, a right post, a top frame and a bottom fame all connected to each other, wherein the left post, the right post, the top frame and the bottom frame are configured to hold a door, wherein the bottom frame includes a first adjustable multi-sizing spring force and a second adjustable multi-sizing spring fore, where the first adjustable multi-sizing spring force and the second adjustable multi-sizing spring force are configured to allow control of the door, where the door may have a plurality of weights and sizes. The bottom frame includes a custom hinge with a special closer, wherein the special closer is configured to pivot to swing into a bearing at the top frame and the bottom frame to allow free and easy ADA movement. The special closer includes a check valve allowing the door to return to a center closed position.

A lever pushes a latch drawn into a hook accommodating space in a latch holder in a direction where a door opens is installed in the latch holder, and the latch is released from the latch holder using the lever. The door that is opened by an initial opening angle by the latch holder releasing the latch automatically opens by self-weight of the door.

An appliance includes a hinge module between a main body and a pull-down door. The hinge module includes a housing, a rotational axis member disposed in the housing serving as a center of rotation between the pull-down door and the main body, an inner link housing movably disposed in the housing that moves with the opening of the pull-down door in a direction of the rotational axis member, and a damper installed in the inner link housing, the damper including a piston and a cylinder and providing damping force according to a relative movement of the piston and the cylinder. Any one of the piston and the cylinder of the damper moves with the inner link housing and the other of the piston and the cylinder of the damper moves by a predetermined distance as the inner link housing moves and then is interfered by the housing so as not to move further, and the piston and the cylinder of the damper starts damping, wherein the predetermined distance corresponds to an opening angle of the pull-down door in which the damping is started.