WILLIAM C YOUNG
Engineering in Middletown, NJ

4213932, Jul 22, 1980

Jun 23, 1978

5/918412

William C. Young - Middletown NJ

Bell Telephone Laboratories, Incorporated - Murray Hill NJ

B29F 100

264236

An apparatus and method of molding a biconical socket (FIG. 1) of precise concentricity and length. The biconical socket is formed by a two piece mandrel assembly (20, 21), each mandrel member having a frustoconical end (22, 23). The frustoconical ends of the mandrel members are abutted and aligned by means of a coaxially extending pin (24) in one member which engages a hole (25) in the second member. The pin is fabricated from a dissimilar material so that at the elevated molding temperature the clearance between pin and hole is substantially reduced, thereby providing precise concentricity. During molding the pressure of the mold material forces the mandrel members slightly apart against predetermined stops (32, 33) to provide a socket of precise length (L). The resulting biconical socket is particularly well-suited for use in an optical connector assembly.

4407562, Oct 4, 1983

Oct 1, 1982

6/432254

William C. Young - Middletown NJ

Bell Telephone Laboratories, Incorporated - Murray Hill NJ

C02B 726

350 9620

Switching between optical fibers is achieved through the use of a fixed (101) and a moveable (102) housing disposed within a slotted support member (103, 205). The fixed and moveable housings respectively contain first (104, 105) and second (108) sets of optical fibers. Each housing has two grooved (204) and parallel exterior surfaces. Both housings are disposed in substantial abutment to one another in the slotted support member with both sets of optical fibers parallel to one another. The sidewalls of the slot are grooved to be the mating opposite of the grooved housing surfaces. The first housing is fixedly positioned in the slot by the mutual engagement of the grooved exterior housing surfaces and the grooved sidewalls. Switching between optical fibers is accomplished by the translation of the moveable housing surfaces to either of two positions which axially aligns a predetermined number of optical fibers in the first and second sets. Each position of the moveable housing is precisely determined by the engagement of one grooved exterior housing surface and one grooved sidewall.

4264128, Apr 28, 1981

Nov 21, 1979

6/096519

William C. Young - Middletown NJ

Bell Telephone Laboratories, Incorporated - Murray Hill NJ

G02B 514

350 9620

An insert (21) is molded within an optical fiber connector (2,3) to provide more precisely defined and symmetric alignment surfaces (5,6). The insert may be used for connectors directly molded about an optical fiber or for field mountable connectors subsequently affixed thereto. During molding, the insert partitions the mold cavity into two portions. The first portion (53) defines the alignment surfaces and the second defines the balance of the connector. Filler material (55) fills the second portion first and then is conducted through the insert to symmetrically fill the first portion. This directed flow control also precludes bending of the optical fiber (32) during direct molding of a connector about the fiber.

5123581, Jun 23, 1992

Jan 4, 1991

7/638736

Lyn Curtis - Fair Haven NJ
Derek D. Mahoney - Tinton Falls NJ
Virendra S. Shah - Edison NJ
William C. Young - Middletown NJ

Bell Communications Research, Inc. - Livingston NJ

C03B 3716

225 2

A smooth, oblique-angled endface fracture of an optical fiber 20 useful in low reflectance, low insertion loss mechanical splices is achieved by tensioning the fiber while it is in contact with the abrupt edge 23 of an anvil 22 and applying a shearing force to the fiber at a point closely offset from the anvil edge and in a direction substantially perpendicular to the longitudinal axis of the fiber.

5213244, May 25, 1993

Feb 28, 1992

7/844952

Lyn Curtis - Fair Haven NJ
Derek D. Mahoney - Tinton Falls NJ
Virendra S. Shah - Edison NJ
William C. Young - Middletown NJ

Bell Communications Research, Inc. - Livingston NJ

C03B 3716

225 2

A smooth, oblique-angled endface fracture of an optical fiber 39 useful in low reflectance, low insertion loss mechanical splices is achieved by creating tensile stress in the fiber and scoring the fiber at an angle to its longitudinal axis. Tension may be applied by bending the fiber with a flexible platen 16 to which it is affixed, and the scoring may be accomplished by scribing the fiber surface with a sharp point or impressing a notch into the fiber with a blade 28.

4519671, May 28, 1985

Apr 1, 1983

6/481483

Lyn Curtis - Fair Haven NJ
William C. Young - Middletown NJ

AT&T Bell Laboratories - Murray Hill NJ

G02B 514

350 9615

Continuously variable attenuation between the substantially abutting ends of two optical fibers is provided by varying the angle formed between the fiber ends. In the disclosed embodiment, the ends of two optical fibers are abutted and biased against a fiber receiving member. The varying angle is then formed by displacement of the receiving member.