A thermally stabilized fastener system and method is disclosed. The disclosed system/method integrates a fastener (FAS) incorporating a faster retention head (FRH), fastener retention body (FRB), and fastener retention tip (FRT) to couple a mechanical member stack (MMS) in a thermally stabilized fashion using a fastener retention receiver (FRR). The MMS includes a temperature compensating member (TCM), a first retention member (FRM), and an optional second retention member (SRM). The TCM is constructed using a tailored thermal expansion coefficient (TTC) that permits the TCM to compensate for the thermal expansion characteristics of the FAS, FRM, and SRM such that the force applied by the FRH and FRR portions of the FAS to the MMS is tailored to a specific temperature force profile (TFP) over changes in MMS/FAS temperature. The TCM may be selected with a TTC to achieve a uniform TFP over changes in MMS/FAS temperature.

A thermally stabilized fastener system and method is disclosed. The disclosed system/method integrates a fastener (FAS) incorporating a faster retention head (FRH), fastener retention body (FRB), and fastener retention tip (FRT) to couple a mechanical member stack (MMS) in a thermally stabilized fashion using a fastener retention receiver (FRR). The MMS includes a temperature compensating member (TCM), a first retention member (FRM), and an optional second retention member (SRM). The TCM is constructed using a tailored thermal expansion coefficient (TTC) that permits the TCM to compensate for the thermal expansion characteristics of the FAS, FRM, and SRM such that the force applied by the FRH and FRR portions of the FAS to the MMS is tailored to a specific temperature force profile (TFP) over changes in MMS/FAS temperature. The TCM may be selected with a TTC to achieve a uniform TFP over changes in MMS/FAS temperature.

A cable television apparatus with a screwless clamping connector structure includes a support structure and at least one rotary connector structure which includes a screwless clamping connection part and a printed circuit board connection part, wherein the screwless clamping connection part includes a first end part which defines an opening to receive a coaxial cable core of a coaxial cable. The at least one rotary connector structure can be rotated to change an opening direction of the opening.

A system includes knobs on an item of gear and a latch attached to a carrier. Each knob has a neck and a head with a larger diameter. First and second sliders fit into a latch frame. Hooks on the sliders form expandable apertures. To attach, the knob is pushed against the slider hooks to expand the aperture. After the head passes through the aperture, a spring biases the hooks together, so the aperture width is smaller than the head diameter, capturing the knob. A carrier adapter adapts the latch to a carrier. Adapters are available for duty belts, PALS-equipped carriers, and horizontal slots.

The invention relates to a nozzle system (100) for a textile machine. The nozzle system (100) comprises at least one nozzle element (1) and a connecting element (2) for connecting the nozzle element (1) to a textile machine. The connecting element (2) comprises at least one quick fastening system (3). The quick fastening system (3) comprises a first and a second position. In the first position, the quick fastening system (3) is connected to the connecting element (2) so that the nozzle element (1) can be fastened to the quick fastening system (3) in such a way that the nozzle element (1) can be removed without auxiliary means. The quick fastening system (3) is designed in such a way that in the second position the nozzle element (1) is immovably fastened to the connecting element (2).

Disclosed are systems and methods for coupling a first panel to a second panel via a fastener. The fastener having a cap, a shank, pair of wings, and one or more PIA-retention features. The shank defines a central longitudinal axis that is substantially perpendicular to the cap. The pair of wings is resiliently coupled to the shank at a distal end thereof. The pair of wings includes a first wing and a second wing, each angled away from the central longitudinal axis. In some examples, the one or more PIA-retention features can be a pair of whiskers resiliently coupled to the shank and angled away from the central longitudinal axis. Each of the pair of whiskers is substantially perpendicular to the central longitudinal axis. In other examples, the one or more PIA-retention features include a first fin resiliently coupled to and angled away from the first wing and a second fin resiliently coupled to and angled away from the second wing. The first fin and the second fin can retain the fastener relative to the first panel.

A locking mechanism for first and second housing parts of a housing of a plug connector, includes a push button, which extends in the axial longitudinal direction through an opening of the first housing part into the interior of the housing. The push button is movably arranged, relative to the housing, between predetermined first and second axial positions, which correspond with the first and second positions of the housing parts. The push button and an interior locking element are configured such that the push button is in pressure contact to the locking element and interacts with the locking element such that, in the case of movement of the push button from the first to the second positions a radial pressure contact between the two housing parts is provided such that a gap between the first and second housing parts is minimized.

A hole plug includes: a tube-shaped outer peripheral wall configured to be inserted into an attachment hole formed in an attachment-target member; a blocking portion-close off the inside of the outer peripheral wall; a ring-shaped flange that juts out toward a radial direction outer side of the outer peripheral wall from an end portion of the outer peripheral wall on an opposite side from an insertion direction so as to cover a location surrounding the attachment hole; a hook portion engage with an edge of the attachment hole; and a plurality of recess portions that are formed at a front face of a base end portion of the flange at intervals around a circumferential direction of the flange, each of the recess portions including a bottom portion with a planar face profile or a curved face profile.

In order to provide a connecting device for connecting two components, which is simple to manufacture and enables a stable and reliable connection of the two components, it is proposed that the connecting device comprises a main body which comprises a receiving channel extending through the main body for accommodating a fixing element, wherein the receiving channel is preferably accessible at one end by way of an insertion opening of the main body and/or preferably at a (further) end by way of a fixing opening of the main body, wherein the main body preferably further comprises an actuating opening that is different from the insertion opening and/or the fixing opening, by way of which in particular the fixing element arranged in the receiving channel is preferably accessible for the actuation thereof.

A fastener comprises a housing, a socket, a pintle and a locking feature. The housing includes a shaft, a central bore that extends axially at least partially through the housing and a ball lock aperture extending from the bore. The socket extends into the housing adjacent to the first end face, and is configured such that rotation of the first socket rotates the fastener. The pintle is positioned within the bore and includes an actuation end and a rod that extends axially from the actuation end. The rod includes a ball transitioning surface and a ball locking surface. The pintle is moveable axially within the bore between a designated lock position where the ball locking surface of the pintle is aligned in register with each ball lock aperture, and a designated unlocked position where the ball lock surface of the pintle is moved axially away from each ball lock aperture.