A viscous damper includes a damper housing and a shaft extending through the damper housing. The shaft includes a first exposed end and a second exposed end. A gear is mated to the first exposed end of the shaft. A spring is connected to the second exposed end of the shaft. A storage bin is also disclosed.

A viscous damper includes a damper housing and a shaft extending through the damper housing. The shaft includes a first exposed end and a second exposed end. A gear is mated to the first exposed end of the shaft. A spring is connected to the second exposed end of the shaft. A storage bin is also disclosed.

An apparatus combining a door hinge and a door closer is provided. In one embodiment, the hinge provides a variable hydraulic damping speed control with spring action closing, as well as an optional stop action. In one embodiment, the hinge of the present invention includes an adjustable compression spring to operate the opening and closing of the door. After the door has closed to approximately 20 degrees or so, the hydraulic component of the door may then control the speed of the door preferably from approximately 20 degrees until closed. The hydraulic component can also be adjusted to vary the speed and force of the door opening and closing. A pair of magnets may be present in the control cylinder of the hinge to provide more force to complete the closing function. Additionally, a stop function allows for the door to remain open and in place in one embodiment.

An apparatus combining a door hinge and a door closer is provided. In one embodiment, the hinge provides a variable hydraulic damping speed control with spring action closing, as well as an optional stop action. In one embodiment, the hinge of the present invention includes an adjustable compression spring to operate the opening and closing of the door. After the door has closed to approximately 20 degrees or so, the hydraulic component of the door may then control the speed of the door preferably from approximately 20 degrees until closed. The hydraulic component can also be adjusted to vary the speed and force of the door opening and closing. A pair of magnets may be present in the control cylinder of the hinge to provide more force to complete the closing function. Additionally, a stop function allows for the door to remain open and in place in one embodiment.

There is provided a damper device for a glove compartment has a housing, a damping unit, a rack member and a gear. An insertion hole is formed through a bottom surface of the housing. The damping unit has a case which is fixed to the housing, and a rotation shaft which extends into an inside of the housing. The rack member is removably installed to the housing and is movable back and forth with respect to the housing. The gear is removably coupled to the rotation shaft through the insertion hole of the housing and meshes with the rack member. The case has a boss which protrudes into the housing and is received in the inside of the housing. The gear has a non-gear portion which is inserted to the insertion hole, and a flange which is in contact with the bottom surface of the housing.

There is provided a damper device for a glove compartment has a housing, a damping unit, a rack member and a gear. An insertion hole is formed through a bottom surface of the housing. The damping unit has a case which is fixed to the housing, and a rotation shaft which extends into an inside of the housing. The rack member is removably installed to the housing and is movable back and forth with respect to the housing. The gear is removably coupled to the rotation shaft through the insertion hole of the housing and meshes with the rack member. The case has a boss which protrudes into the housing and is received in the inside of the housing. The gear has a non-gear portion which is inserted to the insertion hole, and a flange which is in contact with the bottom surface of the housing.

An apparatus combining a door hinge and a door closer is provided. In one embodiment, the hinge provides a variable hydraulic damping speed control with spring action closing, as well as an optional stop action. In one embodiment, the hinge of the present invention includes an adjustable compression spring to operate the opening and closing of the door. After the door has closed to approximately 20 degrees or so, the hydraulic component of the door may then control the speed of the door preferably from approximately 20 degrees until closed. The hydraulic component can also be adjusted to vary the speed and force of the door opening and closing. A pair of magnets may be present in the control cylinder of the hinge to provide more force to complete the closing function. Additionally, a stop function allows for the door to remain open and in place in one embodiment.

An apparatus combining a door hinge and a door closer is provided. In one embodiment, the hinge provides a variable hydraulic damping speed control with spring action closing, as well as an optional stop action. In one embodiment, the hinge of the present invention includes an adjustable compression spring to operate the opening and closing of the door. After the door has closed to approximately 20 degrees or so, the hydraulic component of the door may then control the speed of the door preferably from approximately 20 degrees until closed. The hydraulic component can also be adjusted to vary the speed and force of the door opening and closing. A pair of magnets may be present in the control cylinder of the hinge to provide more force to complete the closing function. Additionally, a stop function allows for the door to remain open and in place in one embodiment.

A door component has a controllable rotary damper and two connector units which can be moved relative to one another. One of the two connector units can be connected to a load-bearing construction and the other one can be connected to a movable door device of a vehicle, in order to damp a movement of the door device between a closed position and an open position in a controlled manner. Two mutually engaged spindle units are arranged between the two connector units, one spindle unit being a threaded spindle and the other being a spindle nut. A first spindle unit is fastened rotatably on a coupling rod connected to one of the connector units. A magnetorheological transmission device is arranged between the coupling rod and the first spindle unit, in order to brake a rotational movement of the first spindle unit as required.

A door component has a controllable rotary damper and two connector units which can be moved relative to one another. One of the two connector units can be connected to a load-bearing construction and the other one can be connected to a movable door device of a vehicle, in order to damp a movement of the door device between a closed position and an open position in a controlled manner. Two mutually engaged spindle units are arranged between the two connector units, one spindle unit being a threaded spindle and the other being a spindle nut. A first spindle unit is fastened rotatably on a coupling rod connected to one of the connector units. A magnetorheological transmission device is arranged between the coupling rod and the first spindle unit, in order to brake a rotational movement of the first spindle unit as required.