The invention relates to a coaxial connection system in which solid insulating structures are used and it is provided a lengthening of the guide portion of the connectors, while ensuring an axial immobilization of the ground contacts independently of the locking device that mechanically locks the plug to the jack when they are in mutual connection configuration.

An electrical connector includes an electrically conductive plastic member having positioning grooves and connecting blocks arranged continuously, a side plate on one side of each positioning groove, a concave wall on an opposite side of each positioning groove and each of two opposite sides of each connecting block and butting bumps protruded from the side plates and the concave walls, and a terminal block provided with conductive terminals and having buckle blocks bent downward from one side thereof and used to be buckled to respective positioning grooves, abutment blocks formed on the buckle blocks for abutting against respective concave wall and proximity grooves provided between the adjacent said buckle blocks or the abutment blocks for respective butting bumps to extend and abut.

This connector (100) is provided with a locking member (200), a receiving part (192), an additional elastic part (420) and a pressing member (440). The locking member (200) comprises a supporting part (220) and a locking part (250). A mating-side connector (600) is provided with a mating-side locking part (660) and an abutting part (632). In the fitted state, the locking part (250) applies backwards force on the mating-side locking part (660) with the elasticity of the supporting part (220). The abutting part (632) is positioned in front of the receiving part (192), is pressed against the receiving part (192), and is restricted from moving backwards by the receiving part (192). When the pressing member (440) is in a first position, the additional elastic part (420) is interposed between the supporting part (220) and the pressing member (440), presses down the supporting part (220), and maintains pressing of the locking part (250) against the mating-side locking part (660). In this way, in the fitted state, even when an outside force in the fitting direction is applied to the connector (100) or the mating-side connector (600), the connector (100) does not move in the fitting direction relative to the mating-side connector (600).

Example implementations relate to point of sale cables. For example, a system may comprise a point of sale terminal coupled to a splitter via a registered jack (RJ) cable to provide electrical power to the splitter, a receipt printer coupled to receive electrical power from the splitter at a DIN connector input, and a cash drawer to receive electrical power from the splitter via an RJ connector input.

Power connection assembly including a connection module and electric cable terminations to be locked in/unlocked from the module in a desired insertion position. Terminal block includes a plurality of independent connection modules. A cavity in the body of a connection module is provided into which it is possible to insert an electric cable termination that is able to be fastened and locked in at least two separate insertion positions, preferably a multitude thereof, through sliding/translational movement of a locking plate over the body that is provided with reliefs, preferably ridges that interleave in complementary reliefs, preferably ridges of the sleeve of the termination.

Systems and techniques are disclosed for an electronic device that may be coupled to an external device via a connector. The external device may have a protective cover, and different protective covers may have different thicknesses. The electronic device may include a connector adjustment mechanism that may adjust a position of the connector depending on the cover thickness.

Disclosed herein is a receptacle and a plug for a miniaturized connector for use in an audio device, a hearing device or a similar device.

Embodiments are generally directed to a snap button fastener providing electrical connection. An embodiment of a fastener includes a first mechanical part, the first mechanical part including at least a stud portion, the first mechanical part including a first electrical connector; a second mechanical part, the second mechanical part including at least a socket portion with a spring element and the socket portion, the second mechanical part including a second electrical connector. The stud portion of the first mechanical part and the socket portion of second mechanical part, if separated, are to interlock upon the application of a first force towards each other, and, if interlocked, to separate upon the application of a second force away from each other. The first electrical connector and the second electrical connector are to be electrically connected when the first mechanical part and the mechanical part are interlocked, and first electrical connector and the second electrical connector are to be disconnected when the first mechanical part and second mechanical part are separated.

A connector device comprises a connector and a mating connector. Under a mated state where the connector and the mating connector are mated with each other, the mating connector is positioned forward of the connector in a front-rear direction. The connector comprises at least one supporting portion, at least one lock portion and a receiving portion. The mating connector has at least one mating lock portion and an abutment portion. At least one of the lock portion and the mating lock portion has an intersecting surface which intersects with both the front-rear direction and a perpendicular direction. Under the mated state, the abutment portion is positioned forward beyond the receiving portion in the front-rear direction and is brought into abutment against the receiving portion by a rearward force so that a rearward movement of the abutment portion beyond the receiving portion is regulated by the receiving portion.

Various embodiments disclosed herein are directed to a Network system including: a connector comprising a housing comprising a groove running widthwise on a surface of the housing; and a push-pull tab comprising a complementary groove, wherein the push-pull tab is detachably connected to the housing; and a receiver device comprising one or more ports for receiving the connector, the one or more ports having an interchangeable anchor device including a first portion and a second portion; wherein the groove is configured to receive the first portion of the interchangeable anchor device when the connector is inserted into the receiving element, and wherein the complimentary groove is configured to receive the second portion of the interchangeable anchor device when the connector is inserted into the receiving element, the push-pull tab being configured to disengage the second portion of the interchangeable anchor device from the complementary groove when the push-pull tab is moved in a direction away from the connector, thereby disengaging the first portion of the interchangeable anchor device from the grove of the connector. Other aspects are described and claimed.