An integrated hinge for connecting an article of a furniture assembly to one or more articles or a main body of the furniture assembly comprising a multi-rod rigid structure and a flexible membrane. The multi-rod rigid structure comprises two or more rods arranged in a default shape, wherein each of the rods functions as a hinge arm, and wherein the rods are lateral-rotatable or pivot-able about an intersecting or meeting point of the rods. The flexible membrane has a three-dimensional contour configured to wrap around the multi-rod rigid structure tightly, fixing the multi-rod rigid structure in its default shape. The flexible membrane can be configured to wrap around the integrated hinge and articles of furniture assembly forming a single integrated furniture piece. The elasticity in the flexible membrane turns the integrated hinge into a spring hinge.

A cylinder-piston unit with load-dependent damping includes a piston longitudinally displaceable in a cylinder. The piston has a first piston channel and a second piston channel, which each connect a compensation space on one side of the piston to a displacement space side on an opposite side of the piston. On the displacement space side a throttle channel connects one first piston channel to the piston lateral surface. On its displacement space side the piston has a piston journal, which carries a resiliently deformable piston disc. The piston disc is displaceable and covers the throttle channel at least partially. The displacement space side has at least one relief portion deviating from a piston end face plane. The relief portion is delimited on a number of sides by a plurality of boundary lines running concentrically with respect to the central axis. Each of these boundary lines can be differentiated continuously.

A sensor unit manufacturing method includes: a core metal insertion process of inserting a core metal member having a length dimension smaller than a length dimension of a core metal accommodation portion into a predetermined location (a section of a curving portion) extending along a longitudinal direction of the core metal accommodation portion; and a bending process of bending the section (the section of the curving portion) of a fixation base portion, into which the core metal member is inserted, following a curved shape of a sensor bracket.

A vehicle window glass raising-and-lowering mechanism is achieved which can prevent a window glass from tilting, caused by a carrier plate rotating, even if the carrier plate is lowered down to a bottom dead point so that the window glass is fully open. The carrier plate includes a point of force that receives a movement force from wires in a downward direction. Two stopper members are provided at separated positions with respect to the vehicle forward and rearward direction, and the two stopper members have a positional relationship that crosses over either side of the point of force of the carrier plate.

The present disclosure a hinge blade structure comprises two hinge blades, a connection sleeve, a fixed rod, a screw sleeve, a plug, a damping positioning pull rod, and an air cylinder. The damping positioning pull rod and the air cylinder are both disposed in the connection sleeve and disposed between the fixed rod and the plug, the air cylinder is relatively secured to the plug, the damping positioning pull rod is relatively secured to the screw sleeve, the damping positioning pull rod is slidably connected to an inner side of the air cylinder along a length direction of the connection sleeve, the damping positioning pull rod and the air cylinder cooperate to define an air chamber, the air cylinder comprises an air chamber vent through hole and an air inlet, and a resistance force generated between the air chamber and the damping positioning pull rod achieves positioning.

A surface protection device is provided comprising a shock-absorbent object characterized by a semi-spherical shape, a flat underside, and a flattened area at a topmost point of the object wherein the device attaches to one of a moving object and a stationary object. The device absorbs shock associated with the moving object making contact with the stationary object. The device is continuous and solid and is made of gelatinous synthetic material. The underside of the device is coated with adhesive material and attaches via the underside to the one of the moving object and the stationary object. The shock-absorbency of the device further absorbs noise associated with the contact of the objects and is substantially transparent and unobtrusive.

Systems and methods for providing a door seal system for top-hanging sliding doors. In some implementations, two angled mating surfaces are used, one angled surface on a fixed frame and one reversed angled surface on the slideable door panel. The slideable door panel slides directly parallel to the fixed door frame. A mating seal surface is created that is only in frictional contact for a small portion of the linear slide distance of the door panel. In some implementations, rather than placing two opposing angled seal surfaces, the sealing system has one angled surface on the fixed door frame. In such implementations, the sliding door panel is adjusted to be in a reverse angled orientation relative to the angled surface of the fixed door frame. Seal designs for the rear vertical edge of the slideable door panel are also provided herein.

A co-extruded safety contact strip includes at least one contact or switching chamber situated in a section or profile and containing contactor or switching strips. One end of the base of the section is pivotally connected to a first side part and the other end of the base can be form-lockingly locked onto a second side piece. A method for securing the safety contact strip is also provided.

In an example, a hinge assembly to pivotably support a display panel of a computing device relative to a base of the computing device includes a first portion that can lock with a second portion. A resilient member is disposed on one of the first portion and the second portion.

To provide a holder-equipped window glass capable of increasing the quality and productivity and capable of preventing breakage of the window glass to be caused by attachment of the holder, and a process for its production. A holder main body 18 is an integrally molded product comprising an inner layer portion 26 and an outer layer portion 28. The inner layer portion 26 is constructed to be U-shaped in cross section to clamp a part of a lower edge 12B of a window glass 12 in the thickness direction of the lower edge 12B. Further, the outer layer portion 28 is located outside the inner layer portion 26, is made of a material harder than the inner layer portion 26 and is constructed to be U-shaped in cross section. This outer layer portion 28 is provided with a connecting portion 16. This connection portion 16 is projecting in a direction departing form the lower edge 12B of the window glass 12.