The present invention relates to a snagless telecommunications connector assembly. More particularly, the present invention relates to a snagless telecommunications plug assembly having first and second ears on the plug body and a rib on a latch beam between the first and second ears. Still more particularly, the present invention relates to a telecommunications plug assembly in which a rib on a latch beam extends above the highest point of first and second ears on the plug body. The snagless telecommunications plug assembly facilitates removing the plug assembly without catching or snagging the latch beam on adjacent wiring or cables.
In telecommunication systems, signals are transmitted over cables having a plug assembly at one end connected to a complementary mating connector. Such connections are often made in areas of trunking or patch panels, where space is extremely limited. The areas in which these connections are made have numerous wires or cables, electrical components and other electrical equipment that make inserting the plug assemblies into receiving jack assemblies difficult. Removal of the plug assemblies is also difficult due to the numerous wires, electrical components and other equipment that interfere with accessing the plug and removing the plug from the receiving jack assembly and through the associated wires, and electrical components and equipment.
One problem with existing telecommunications plug assemblies is that the plug latch tends to catch or snag other electrical wires, electrical components or other miscellaneous electrical equipment during the drawback of the plug assembly. The limited space within which all the wires, components and equipment must be installed creates a tight area through which the plug assembly must be drawn. Frequently, a plug latch with catch, engage or otherwise snag on an existing wire, component or other equipment in the area. If the snagged plug latch is continuously pulled in an attempt to free the plug assembly the latch can break, thereby ruining the plug assembly. A need exists for a telecommunications plug assembly that prevents snagging the plug latch upon removal and for protecting the plug latch.
Another problem with existing telecommunications plug assemblies is that it is difficult to access the plug latch to disengage the plug assembly from the complementary jack assembly. The numerous electrical wires, electrical components and other electrical equipment make it difficult to access and depress the latch to remove the plug assembly. Some existing telecommunications plug assemblies have snagless features that increase the difficulty of accessing and depressing the latch to remove the plug assembly. Therefore, a need exists for a snagless telecommunications plug assembly that does not increase the difficulty of accessing and depressing the plug latch.
Existing snagless telecommunications plugs are disclosed in U.S. Pat. No. 4,611,875 to Clarke et al.; U.S. Pat. No. 5,494,457 to Kunz; U.S. Pat. No. 5,638,474 to Lampert et al.; and U.S. Pat. No. 5,685,731 to Lin. Each of these patents discloses plug assemblies in which the latch beam is disposed between two ears that extend above the latch beam. The latch beam being positioned between two higher ears makes it difficult for the user's finger to get between the two ears to depress the plug latch sufficiently to disengage the plug assembly from the receiving jack assembly. Thus, the ears increase the difficulty of accessing and depressing the latch beam.
A need exists for a snagless telecommunications connector assembly.
Accordingly, it is a primary objective of the present invention to provide an improved snagless telecommunications connector assembly.
Accordingly, another objective of the present invention is to provide a snagless telecommunications plug assembly that prevents snagging of the plug latch upon withdrawal of the plug assembly from a receiving jack assembly.
Accordingly, another objective of the present invention is to provide a snagless telecommunications plug assembly in which the plug latch is easily accessible to quickly and easily disengage the plug assembly from a receiving jack assembly.
Accordingly, another object of the present invention is to provide a plug latch that extends above first and second ears on the plug body to provide easy access to the plug latch.
The foregoing objects are basically attained by providing a snagless telecommunications connector assembly, including a connector housing having front and rear ends, and an upper surface extending between the front and rear ends. A latch beam extends rearwardly from the front end of the connector housing over the upper surface. The latch beam is deflectable to disengage the connector assembly from a mated connection. First and second ears extend outwardly from the upper surface of the connector housing. Each of the first and second ears has a portion tapering toward the rear end of the housing. A rib extends outwardly from the latch beam. The first and second ears and the rib prevent the latch beam of the plug from becoming snagged during movement of the plug.
Other objects, advantages and salient features of the invention will become apparent from the following detailed description, which, taken in conjunction with the annexed drawings, discloses preferred embodiments of the invention.
Referring now to the drawings that form a part of the original disclosure:
As shown in
Preferably, the present invention relates to a modular plug assembly 11 for use in a 4, 6, 8 or 10 position interconnection device. The plug assembly 11 has raised, rounded, snagless ears 41 and 43 that extend upwardly from opposite sides of the connector housing 21. Each snagless ear 41 and 43 extends above the highest point of the latch release beam 31, allowing the plug to be threaded backwardly through an electrical wire or cable system without the latch beam “snagging” or catching on other wires, cables and components in the electrical system.
Additionally, the plug assembly 11 has a rounded, raised rib 51 on the latch release beam 31, which preferably extends above the highest point of the snagless ears 41 and 43 on the connector housing 21, as shown in
An internal chamber 29 opens on the rear end 25 of the housing 21 and is defined by housing walls. The front and rear ends 23 and 25 of the connector housing 21 are connected by an upper surface, or top wall, 27, a bottom wall 28, and side walls 24 and 26.
A plurality of slots 61 extend through the housing walls adjacent to and open on the front end 23 and into the internal chamber 29. Preferably, the slots 61 are in the bottom wall 28 of the connector housing 21 and extend downwardly into the internal chamber 29, as shown in
A conventional latch beam 31 is connected to the housing to facilitate inserting and removing the plug housing from a receptacle, such as a jack assembly (not shown). Preferably, the latch beam 31 extends rearwardly, as shown in
First ear 41 and second ear 43 extend upwardly from the upper surface 27 of the connector housing 21, as shown in
The rib 51 extends upwardly from the latch beam 31, as shown in
As shown in
Assembly and Disassembly
As shown in
The plug assembly 11 is matable with a complementary mating connector. Preferably, the plug assembly 11 is an RJ-45 plug assembly, and an appropriate complementary mating connector is a conventional RJ-45 jack assembly. When a mated plug assembly 11 is to be removed from a mating connector, the user inserts a finger, or any other suitable tool, between first and second ears 41 and 43 of the connector housing 21. As discussed above, the greater the height “r” of the rib 51 above the upper surface 27 of the connector housing 21, the more easily the user's finger is able to access the rib to deflect the latch beam 31 to disengage the plug assembly 11 from the mating connector. Once the latch beam 31 is deflected, the plug assembly 11 is pulled rearwardly away from the mating connector to mechanically and electrically disengage the plug assembly 11 from the mating connector.
The rib 51 and the first and second ears 41 and 43 facilitate the rearward movement of the plug assembly 11 to prevent snagging the latch beam 31 on the numerous wires, electrical components and other miscellaneous equipment in the area. The height “r” of the rib 51 and “e” of the first and second ears 41 and 43 above the height “1” of the latch beam 31, deflects the numerous wires, electrical components and other miscellaneous equipment safely above and over the latch beam, thereby allowing the plug assembly 11 to be pulled rearwardly without substantial risk of catching or snagging the latch beam. The rounded contours of the rib 51 and first and second ears 41 and 43 further facilitates the rearward movement of the plug assembly 11 without fear of catching or snagging the latch beam.
While advantageous embodiments have been chosen to illustrate the invention, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the scope of the invention as defined in the appended claims.