A universal end clamp and method for clamping a solar module to a rail are configured for applying a torque to a clamp body and generating a compressive clamping force between the body and a lower flange of a solar panel module frame so that the lower flange of the module frame is clamped to the rail. The clamp is disposed underneath the solar module, where it cannot be seen. The components of the assembly that can move include threaded bolts, front and rear T-slides, drive blocks, cams, coil springs, leaf springs, and offset drive brackets.

A mounting device includes a panel portion, and a fastener receiving structure provided within a perimeter of the panel portion. The fastener receiving structure can include a flexure mechanism to enable at least a portion of the fastener receiving structure to flex with insertion of a fastener into the flexure mechanism that attaches the panel portion against an underlying surface.

A magnetic fastener includes a female component and a male component. The female component includes a base, a hooded portion spaced from the base and formed opposite thereto, and a peripheral wall connecting the base to the hooded portion. A pocket is formed between the base and the hooded portion. The hooded portion includes a slot formed therein. A portion of the female component is magnetically attractive. The male component includes an insertion portion and a shaft extending from the insertion portion. A portion of the male component is formed by a magnet. The male component is configured to be coupled to the female component when the magnet is magnetically coupled to the portion of the female component that is magnetically attractive, the insertion portion is received within the pocket, and the shaft is received within the slot.

The present invention is generally directed towards clamps for high tension load applications. In particular, the invention relates to high holding power clamps in which fabric can be secured, and which can withstand a large amount of force, including, in at least some embodiments, the maximum amount of tension permitted in various modern high strength fabrics and/or fiber weaves. In at least one embodiment, a holding clamp has a single-V design, with at least three areas that exert pinching effects on fabric held in the clamp, and at least four capstan areas that exert capstan effects on the clamped fabric. In at least a further embodiment, a holding clamp has a double-V design, with at least six areas that exert pinching effects on fabric held in the clamp, and at least seven capstan areas that exert capstan effects on the clamped fabric.

A method for attaching a first surface to a second surface with a fastening device. The fastening device has a female component having a female opening featuring a broader female width at a first depth and a narrower female width at a second depth. The female component also has a female attachment surface with an interior slope rising away from the female opening. The fastening device also has a male component with a male attachment member that at least partially conforms to the interior slope of the female attachment surface. The male attachment member also has a broader male width larger than the narrower female width. The method comprises mounting the female component to the first surface, mounting the male component to the second surface, aligning the male component to the interior slope on the female component and applying pressure to couple the male component and the female component.

A clip assembly secures a flexible material to a profile with a receiving channel. An exemplary profile is a pontoon fence rail. The clip assembly includes a clip bracket with a material connecting section and a profile connecting section. The material connecting section has an aperture, and the profile connecting section has a connection tab. A connector includes a shaft and a cap. The shaft is insertable through the flexible material into the aperture of the material connecting section. The connection tab is releasably engageable with the receiving channel with the flexible material sandwiched between the material connecting section and the cap of the connector.

A cabin monument arrangement for a passenger cabin of an aircraft, has at least two cabin monuments arranged next to each other, aligned substantially parallel and forming a gap. The gap includes a gap covering in the fastening region of the first lateral monument part and of the second lateral monument part in the region of the front edge portion of the respective cabin monument. In each case, a first contour-adapted rigid fastening strip is on the fastening region and a second contour-adapted, rigid fastening strip is on the second fastening region. A covering element is between the first and second fastening strips for covering the gap between the first monument part and the second monument part, the covering element formed from a flexible covering material of thin design. A corresponding covering of the gap between the cabin monuments can therefore be achieved with sufficient flexibility and material width.

A shutter mechanism for a camera of an electronic device can include a slider mechanism that enables the shutter mechanism to operate between an open state in which a lens of the camera is exposed and a closed state that blocks the lens of the camera. The slider mechanism comprises a one or more slider appendages that operate the shutter mechanism between the open state and the closed state. Each of the one or more slider appendages slide along a horizontal axis in relation to a horizontal axis corresponding to the lens of the camera.

An electrical mating interface includes one or more electrical connectors that electrically couple the mounting device to a corresponding set of electrical connectors of an electronic device. The electrical mating interface further includes a front façade comprising a plunger coupled to a safety switch. The safety switch is disposed between the one or more electrical connectors and main wiring of a dwelling. When the plunger depresses upon coupling of the electronic device to the electrical mating interface, the safety switch closes and electrically couples the main wiring of the dwelling to the electronic device.

A temporary panel and panel system. The panel system comprises a fabric held in a two-part, snap-together connector system. The connector system is attachable to a window connector system to secure it temporarily until fasteners can be driven into the panel system and the channel of the window frame. The window connector includes a fastener boss that helps to hold the fasteners that hold the panel to the window frame. The fabric of the panel system is made of a geotextile. The marginal edge of the geotextile may be coated with urethane adhesive before being inserted between the two parts of the connector system. Placement of fasteners along the perimeter of the connector system is guided by a centering groove in the connector system that positions the fastener over a fastener boss in the window frame. The panel system, help temporarily in place to the window frame, may then be securely attached by fasteners driven into the connector system.