An electrical connection structure includes a first connection device and a second connection device. The first connection device includes a first outer tube and a first base; multiple rolling parts are disposed in a tube wall of the first outer tube; the second connection device includes a second outer tube, a casing tube and a second base; the second outer tube has a recess on an outer wall thereof; a gap space is provided between the casing tube and the second outer tube; when the first connection device is docked with the second connection device, the first outer tube is inserted into the gap space, the rolling parts are inserted into the recess; the casing tube forces the rolling parts to remain in the recess for locking up the first and second connection devices. A UAV includes a tail rod quick release structure which includes the electrical connection structure.

Electrical connector with low profile connector position assurance (CPA) member for assuring the engagement of a female housing with a male housing. The female housing forms apertures designed to stably and securely receive the low profile CPA member. Also, the female housing includes a connector latch used to securely hold together the female housing and the male housing.

The present invention discloses a connector that utilizes a first connecting portion includes a plurality of terminals and a latching arm that forms a connection end and utilizes a second connecting portion includes a plurality of terminal slots and an engaging groove that be coupled to the connection end of the first connecting portion. The terminals are electrically connected to the terminal slots and the connecting ends are fastened to the engaging arms, and the terminals are electrically connected to the terminal slots. In a state in which the electrical connection is maintained, the first connecting portion and the second connecting portion are disposed in close to or in the same plane by applying an external force to change the first angle between the first connecting portion and the second connecting portion to the second angle.

The present disclosure relates to an arrangement of support elements for holding electronic function modules; having a first support element, wherein the first support element has a top side and a bottom side, wherein a first web receptacle is formed in the top side, and wherein a second web receptacle is formed in the bottom side; and a second support element, wherein the second support element has a first side web and a second side web, wherein the first side web can be inserted into the first web receptacle, and wherein the second side web can be inserted into the second web receptacle.

Plural contacts include other ends on which first substrate connections that are connected to the signal electrodes of a substrate are formed. A shell includes an upper plate that covers the whole of the plural contacts on the substrate. Side plates block both ends of the first substrate connections in an array direction (x-axis direction) between the upper plate and the substrate and include edges which face the substrate and on which second substrate connections connected to the ground electrode of the substrate are formed. A back plate blocks the fronts of the first substrate connections with respect to contactors between the upper plate and the substrate and includes an edge which faces the substrate and on which third substrate connections connected to the ground electrode of the substrate are formed.

A connector component for a connector includes a plate and a pair of fastening devices freely protruding from the plate and securing the plate to a connector housing. The plate and the fastening devices are made of a metal or plastic material having a higher inflammability resistance than the connector housing and are adapted to extend on more than one of a plurality of external surfaces of the connector housing.

A plug-in connector has two pushbuttons arranged laterally thereon. An annular, asymmetric spiral spring is inserted in such a manner that the spiral spring, in its locking orientation, permits the respective pushbutton pin to move into the plug-in connector housing and prevents the pushbutton pin from moving out of the plug-in connector housing. The spiral spring can tilt from its locking orientation into its release orientation when arranged with its inner region in a release groove of the pushbutton pin. In its release orientation, the spiral spring permits the pushbutton pin to move out of the plug-in connector housing. This permits actuation similar to a ballpoint pen with only a few components and with high operating comfort.

In one example, a connector assembly for providing security to an article of merchandise is provided. The connector assembly includes a cord having a plurality of conductors and a body portion connected to the cord. The connector assembly also includes a connection portion engaged with the body portion and including a plurality of engagement members. Each of the engagement members is electrically connected to a respective conductor in the cord, and the connection portion is configured to engage the article of merchandise to thereby electrically connect the engagement members to one another for establishing a sense loop through the conductors in the cord. Interruption of the sense loop is indicative of a security event.

A connector (10) includes a housing (20) to be connected to a mating housing (90), and a separate connection detecting member (60) to be mounted slidably on the housing (20) for connection assurance of the housing (20) and the mating housing (90). The connection detecting member (60) includes a detecting member-side contact surface (72) to be brought into contact with the housing (20) and resiliently displaceable second arms (78). The housing (20) includes a housing-side contact surface (30) to be brought into contact with the detecting member-side contact surface (72) and arm contacts (50) to be brought into contact with the arms (78). The arms (78) are in contact with the arm contacts (50) in a direction opposite to a direction from the detecting member-side contact surface (72) toward the housing-side contact surface (30).

A connector includes a housing to be fitted to a mating housing. The housing includes an outer peripheral surface exposed to an outside of the connector, the outer peripheral surface including a high-friction surface having a greater surface roughness than a portion of the outer peripheral surface other than the high-friction surface.