A quick fastener by means of which at least a first and a second component are connectable to each other. The quick fastener includes a fastening bolt having a fastening thread of a first spiral direction, which is fastenable at the second component, and a compressible pretension element which is fastenable at the first component. The compressible pretension element includes a pretension thread at a radial inner side having a second spiral direction opposite to the first spiral direction, a hollow cylindrical thread element which is screwable with an outer thread at a radial outer side into the pretension thread of the pretension element having an inner thread at its radial inner side into which the fastening thread of the fastening bolt is screwable. At least a constructive rotation protection is provided between the hollow cylindrical thread element and the compressible pretension element. A production method for the quick fastener is further provided.

A toolless clamp comprises a shaft, a base, a latch, a first biasing member, and a clamping member. The base has a base bore configured and arranged to slidably receive a portion of the shaft. The latch has a latch bore configured and arranged to slidably receive a portion of the shaft and a portion of the base. The first biasing member is configured and arranged to bias the latch in a first direction away from the clamping member in an unclamped position and bias the shaft and clamping member in a second direction toward the base in a clamped position. The clamping member is operatively connected to a proximal end of the shaft and is configured and arranged to disengage the connecting member when the latch is in the unclamped position and engage the connecting member when the latch is in the clamped position.

A closer for an attachment orifice of an OGV in a turbine engine, the vane having a blade fixed to a root provided with attachment orifices, the closer including a cup adapted to be fixed in the attachment orifice of an OGV; a cylindrical shaped plug engaging in the cup, the plug including an upper face inclined relative to the ground plane of the plug; a guide adapted to position the plug on the cup by rotation into a working position, in which the upper face of the plug coincides with the surface level of the vane root; a blocking system to block the plug in the working position.

A closer for an attachment orifice of an OGV in a turbine engine, the vane having a blade fixed to a root provided with attachment orifices, the closer including a cup adapted to be fixed in the attachment orifice of an OGV; a cylindrical shaped plug engaging in the cup, the plug including an upper face inclined relative to the ground plane of the plug; a guide adapted to position the plug on the cup by rotation into a working position, in which the upper face of the plug coincides with the surface level of the vane root; a blocking system to block the plug in the working position.

A float drain for an enclosure can include a basket to collect liquid from the enclosure, a sealing structure surrounding an outlet of the basket, and a float configured to seat against the sealing surface to prevent fluid flow out of the outlet and to rise off of the sealing surface due to buoyancy forces as the liquid collects in the basket. The float drain can include other features, including: ribs or other protrusions extending into an interior are of the basket to space the float apart from an inner wall of the basket; an angled orientation of the sealing surface; and a trough, at least partly defined by the sealing structure, to collect debris.

A fastener assembly (100) includes a securing panel (102) and a fixation member (104) that projects away from the securing panel along a center axis (101). The fixation member includes opposing arms (106, 108) that are angled toward the center axis and opposite ribs (118, 120) disposed between the arms and angled toward the center axis. The fixation member is inserted through openings in first and second components. The arms engage the first component and the securing panel engages the second while the fastener assembly is in a locked state to secure the first and second components together. The fixation member is partially rotated around the center axis to transition the fixation member to an unlocked state. The ribs are brought into contact with an edge of the first component and the arms are moved out of contact with the first component while the fastener assembly is in the unlocked state to decouple the components from each other.

A female latch member comprising a main body having an aperture with a central axis and an inside surface. The female latch member further includes a first upper portion and second, third and fourth lower portions extending radially from said inside surface that cooperate to form first, second and third channels, each of said first, second and third channels having in order a first vertical upper limit, a second vertical lower limit, and a third vertical upper limit, said first, second and third channels configured to receive three related pins of a male hook member and cause said female latch member to rotate relative to said male hook member. The female latch member further includes a floating bearing assembly attached to the main body, the floating bearing configured to allow for rotation and at least one of parallel, angular or axial movement of the main body.

The Pixel Block builds a wide range of useful constructions such as tables, chairs, and houses, with the modularity in three-dimensional space to make a universe of objects with a versatility similar to that of a pixel on a computer screen. It has a basic cylindrical shape that is as long as it is wide and deep to occupy a basic cube space. It is a versatile and useful geometric building block comprised of snaps, screws, nobs, magnetic forces, and combinations of these interfaces to assemble into constructions comprised of multiple copies of the Invention. On one end of the cylinder is a protruding screw that is also a hook and a snap, that can fit into itself and into each of five other sides of the cylinder. Once assembled into a shape, the Invention can be locked in place with spheres or with cylinders inside the Invention.

A method of joining panels is disclosed, including adhesively bonding a case in a slot of a first panel, the case having a channel on an inner side, and adhesively bonding a plate to a tab portion of a second panel, the plate having an external pin member. The method further includes inserting the tab portion of the second panel into the case in the slot of the first panel and sliding the external pin member of the plate along the channel on the inner side of the case, to a locking position.

A method of joining panels is disclosed, including adhesively bonding a case in a slot of a first panel, the case having a channel on an inner side, and adhesively bonding a plate to a tab portion of a second panel, the plate having an external pin member. The method further includes inserting the tab portion of the second panel into the case in the slot of the first panel and sliding the external pin member of the plate along the channel on the inner side of the case, to a locking position.