Telephonic communications – Subscriber line or transmission line interface
Reexamination Certificate
1999-02-02
2001-01-09
Chiang, Jack (Department: 2742)
Telephonic communications
Subscriber line or transmission line interface
Reexamination Certificate
active
06173055
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to the testing of telephone lines, in general, and to the testing of such lines as used in voice and data transmission for both personal and business users, in particular.
2. Description of the Related Art
With the advent of deregulation in the telephone industry has come the need to determine whether a problem on a line is external to a structure (and, therefore, the obligation of the telephone company to correct) or internal to the structure (and, thusly, the responsibility of the end-user to deal with) Network interface devices developed to address this concern commonly employ anywhere from 1 to 200 modular jacks as test access ports, depending upon whether the monitoring is of a line that may be present in a residence, or at a business location. Whether or not the modular jack is of an RJ 11 type carrying 2 conductors, or whether it is of an RJ 45 type carrying 8 or 9 conductors, and whether or not the network interface devices additionally incorporate such other features as surge suppression or lightning, over-current or over-voltage suppression controls, the ever increasing competition in the telephone industry requires that the costs associated with these devices be kept as low as possible. These costs include, not only the manufacturing costs of the units, but the installation costs, as well, in addition to the costs connected with their actual use in testing the problem on the line.
SUMMARY OF THE INVENTION
One area of investigation—leading to the present invention—for keeping these various costs low deals with the network interface device itself. More specifically, as presently provided, these devices include a housing having at least one telephone or data equipment test access port and a cover to be secured to the housing. Typically, the housing is provided with a threaded metal insert in its base for receiving the threads of a metal screw inserted through an opening in the cover; turning the screw in one direction thus serves to lock the cover, while turning the screw in the opposite direction releases the cover from the housing. A section in the screw thread is commonly cut away, so as to serve in capturing the screw when unlocking the cover, in preventing the screw from separating. Besides the labor cost associated with turning the screw several times when joining the pieces together, this type of manufacture is in a direction to work against the savings inherent if the manufacture and fitting were to be automated. The same can be said for the cost attendant to the manufacture of the grooved metal screw and of the threaded insert. Additionally, testing has shown that the metal security screw wears quickly in the field due to environmental conditions.
Clearly, if the costly security screw could be replaced, if the threaded insert in the base could be eliminated, and if a latch were developed which does not rust or corrode in usage, for example, significant cost savings in manufacture could follow. As will be appreciated, even the savings of pennies per unit quickly add up when one considers that with the ever expansion of the telecommunications industry into second and third-world nations—along with the need to constantly repair governmental infrastructures damaged by hurricane or other unforeseen catastrophe—, where the number of yearly installations can easily reach into the millions. This becomes even more so in view of analyses which indicate that the typical life of the metal security screw and threaded insert is only of the order of some 20 cycles of opening and closing, before the thread becomes stripped to the point where replacement is needed. Such a situation could manifest itself quickly when servicing the larger network interface devices used as Business Entrance Terminals, or as Business Entrance Protectors, in industrial complexes.
As will become clear from the following description, these problems of the prior art are addressed by the security latch of the present invention for use with network interface devices formed of a plastic enclosure. As will be seen, the network interface device of the invention continues to include a housing, a cover enclosing the housing, and an openable latch arrangement that joins the housing and cover together—with both the housing and cover of a substantially plastic composition. In accordance with the invention, however, the latch construction is also fabricated of this plastic, so that everything can be molded, and then fitted together by an automation process.
In a preferred embodiment of the invention, the latch feature is provided by incorporating a shaft having head and tail ends, inserted with the tail end first through an opening provided in the cover itself. A pair of tabs—which, like the shaft, is fabricated of plastic—is included in the housing, placed at predetermined positions with respect to the shaft so that one of the tabs will be contacted by a projection at the tail end of the shaft upon its angular rotation from an inserted, quiescent position. With the placement of the tabs being angularly offset with respect to that projection—as by 90°, for example—, only a simple rotational twisting will be seen to be needed to either secure the latch in one direction, or to free it in the other direction (as compared to the 7-8 turns of the metal screw previously required for joining with the threaded insert or release therefrom, as characterized the prior art). As with the construction of the prior art, a “stop” is provided to capture the latch in the cover in preventing its becoming free, and accomplished by a second projection at the head end of the shaft—also, simpler to fabricate than the cutting-away of threads along the metal screw as in previous manufacture. With this second projection angularly offset with respect to the first projection—again, preferably, by some 90°—, a simplified manner of providing the captive “stop” feature is provided (particularly, one in which a mere twisting rotation affords the protection much easier than a cutting away of screw threads, and in a manner to further lend itself to automated manufacture and assembly).
As will become clear from the following description, a latching shaft providing these features includes a “bayonet” finger at the tail end of the shaft, and a square or rectangular stop at the head end of the shaft. In this embodiment, a flat surface of the bayonet finger will be seen to bear against a flat surface of one or the other of a pair of tabs extending inwardly of the side walls of the housing. Rotation of the bayonet finger 90° in either direction from its inserted quiescent position provides the contact to secure the cover with the housing faster, easier and more cheaply than the prior art assemblies of turning a metal screw into a threaded insert, hoping that in doing so no stripping of the threads would follow. With the shaft having a hex-head or a KS-type head accessible through a collar molded into, and upwardly extending from, the cover, the end result will be seen to be a substantially plastic construction, with the latch unaffected by dust, rain, sleet or snow, or other harsh environmental exposures.
REFERENCES:
patent: 5625686 (1997-04-01), Capper et al.
patent: 5671273 (1997-09-01), Lanquist
Eckhardt Peter F.
Kay Jason A.
Kerr David S.
Marchisin Ronald
Pawlenko Ivan
Avage Inc.
Chiang Jack
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