Pressure sensitive key techniques are described. In one or more implementations, a device includes at least one pressure sensitive key having a flexible contact layer spaced apart from a sensor substrate by a spacer layer, the flexible contact layer configured to flex responsive to pressure to contact the sensor substrate to initiate an input, for a computing device, associated with the pressure sensitive key. At least one of the flexible contact layer or the sensor substrate are configured to at least partially normalize an output resulting from pressure applied at a first location of the flexible contact layer with an output resulting from pressure applied at a second location of the flexible contact layer that has lesser flexibility than the first location.

An actuator for moving a movable furniture part includes at least one movably mounted actuating member for moving the movable furniture part, a spring device for applying a force to the actuating member, and a setting device by which a force of the spring device that acts on the actuating member can be set. The setting device has a threaded portion and a screw nut mounted adjustably between two end positions, and the force of the spring device acting on the actuating member can be set by adjusting the screw nut along the threaded portion. At least one supporting element is provided which relieves the screw nut in at least one of the two end positions of the force of the spring device.

Input device adhesive techniques are described. A pressure sensitive key includes a sensor substrate having one or more conductors, a spacer layer, and a flexible contact layer. The spacer layer is disposed proximal to the sensor substrate and has at least one opening. The flexible contact layer is spaced apart from the sensor substrate by the spacer layer and configured to flex through the opening in response to an applied pressure to initiate an input. The flexible contact layer is secured to the spacer layer such that at first edge, the flexible contact layer is secured to the spacer layer at an approximate midpoint of the first edge and is not secured to the spacer along another portion of the first edge and at a second edge, the flexible contact layer is not secured to the spacer layer along an approximate midpoint of the second edge.

Sensor fusion algorithm techniques are described. In one or more embodiments, behaviors of a host device and accessory devices are controlled based upon an orientation of the host device and accessory devices, relative to one another. A combined spatial position and/or orientation for the host device may be obtained based on raw measurements that are obtained from at least two different types of sensors. In addition, a spatial position and/or orientation for an accessory device is ascertained using one or more sensors of the accessory device. An orientation (or position) of the accessory device relative to the host computing device may then be computed based on the combined spatial position/orientation for the host computing device and the ascertained spatial position/orientation for the accessory device. The relative orientation that is computed may then be used in various ways to control behaviors of the host computing device and/or accessory device.

A hinge mechanism with multiple preset positions is described. According to various embodiments, the hinge mechanism enables a support component to be adjustably attached to an apparatus, such as a computing device. In at least some embodiments, the hinge mechanism utilizes preset hinge positions that enable the support component to be placed at different preset positions. For instance, the hinge mechanism is configured such that an attached support component tends to snap into various preset positions. In at least some embodiments, the hinge mechanism includes an emergency escape position that enables the support component to be rotated beyond normal operating positions without damaging the support component.

The present invention relates to a hinge device for opening and closing a cover of office equipment, and more particularly to a hinge device disposed at a cover which is rotatably opened and closed and having a multi-layered cam and a slider, so that a free stop section and a slow down section are performed in closing the cover, thereby reducing a noise in closing the cover and improving a sensibility of product.

The hinge device for opening and closing a cover of office equipment of the present invention comprises: a housing (10) which is disposed at a main body (110) of an office equipment and having a pair of hinge holes (11) on the upper portion thereof; a rotational lever (20) which is fixedly disposed at a cover (120) and having hinge holes (21) at the rear thereof and being provided with a hinge connection part (22) inserted into the upper portion inside the housing (10) at the lower portion of the rear thereof; a hinge shaft (30) being inserted into the hinge holes (11) of the housing (10) and the hinge holes (21) of the rotational lever (20) and combined with them and supporting rotation of the rotational lever (20) and the cover (120); a compression coil spring (40) being disposed inside the housing (10); and a slider (50) being disposed on the upper portion inside the housing (10) and being elastically supported by the compression coil spring (40), and the upper end portion of which contacts with the lower end surface of the hinge connection part (22) of the rotational lever (20); wherein the hinge connection part (22) of the rotational lever (20) is located at the front of hinge holes (21), so that a multi-layered cam (23) is provided to the lower end surface of the hinge connection part (22) and a supporting surface (51) is formed on the upper end surface of the slider (50), the multi-layered cam (23) of the rotational lever (20) has a stop cam (23a) in the center and at both sides thereof, down cams (23b) which locate at the rear than the surface of the stop cam (23a) and are lower than the stop cam (23a), the supporting surface (51) of the slider (50) has an inclined plane that is getting higher toward the front, at the center of the front end, a stop surface (51a) which contacts with the stop cam (23a) of the rotational lever (20) and down surfaces (51b) which is protruded from both sides of the stop surfa

A detent hinge firmly secures the door of a containment system in an upward position, downward position, and optionally at pre-determined positions therebetween. The hinge generally includes two hinge assemblies each including a leaf and one or two knuckles, with the knuckles of both assemblies aligned end-to-end. The two hinge assemblies are independently rotatable relative to each other but share a rotational axis. The hinge is locked and the door is substantially immovable due to a spring-activated cam that impedes rotation of the hinge assemblies relative to each other. The hinge is unlocked by depressing a plunger which repositions the cam such that the hinge assemblies can freely rotate relative to each other, and the door can be raised or lowered.

Techniques for fabric lamination to a component are described. According to various implementations, a single piece of fabric is laminated to a moveable component and to an apparatus to which the moveable component is attached. Generally, lamination of fabric to a moveable component and portions of an associated apparatus can enhance a user experience in a variety of ways. Embodiments may also be employed to cut fabric from around a surface component of an apparatus.

A refrigerator includes a storage chamber for storing food; an ice making compartment provided at an upper side corner of the storage chamber; and two shelves provided between a sidewall of the ice making compartment and a sidewall of the storage chamber opposite to the sidewall of the ice making compartment. The two shelves include a rotatable shelf and a horizontal shelf mounted between the sidewall of the storage chamber and the rotatable shelf and configured to be adjustable vertically upwards and downwards independently of the rotatable shelf. The rotatable shelf, while maintaining the vertical position, forms a vertical space for keeping food having a great height and stored on a shelf provided below the rotatable shelf. The rotatable shelf and the horizontal shelf form a horizontal space for keeping food having a great width when the horizontal shelf and the rotatable shelf in the horizontal position are horizontally aligned.

A dual sided opening roof mount cargo box for a carrying vehicle includes a lid portion releasably hinge-connected at two lateral sides to a bottom portion of the cargo box for alternate pivotation at each of the two lateral sides between open and closed configurations. A spring-biased strut is operatively interposed between the lid portion and the bottom portion of the cargo box and located at an end region of the cargo box. The spring-biased strut includes two arms operatively interconnected for pivotation relative to one another and a biasing spring operatively interposed therebetween. The spring-biased strut is configured to control an assisting force to have a substantially zero magnitude when the lid portion is in the closed configuration.