US2400085A

US2400085A - Timing mechanism

Info

Publication number: US2400085A
Application number: US529486A
Authority: US
Inventors: Edgar W Gent
Original assignee: Bell Telephone Laboratories Inc
Current assignee: AT&T Corp
Priority date: 1944-04-04
Filing date: 1944-04-04
Publication date: 1946-05-14
Anticipated expiration: 1963-05-14

Description

May 14, 1946. w N 2,400,085

TIMING MECHANISM Filed April 4, 1944 TRANSLUCENT O I .23 I

FIG. 2 1 I a /2\ i: X I I I l lNVENTOR GENT BY 1 A T TORNEY Patented May 14, 1946 TIMING MECHANISM Edgar W. Gent, Morristown, N. J assignor to Bell Telephone Laboratories, Incorporated, New York, N. Y., a corporation of New York Application April 4, 1944, Serial No. 529,436

3 Claims.

This invention relate to timing mechanisms and particularly to arrangements of this character for measuring and indicating telephone conversation time intervals.

It has heretofore been suggested to measure the lapse of a predetermined time interval beginning with the start of a telephone conversation and, at the end of the interval, to give the operator a signal in order that she may take any desired steps such as to collect an additional coin in case the conversation is to be continued, or to request the parties to the connection that they terminate "their conversation promptly as other calls are waiting for one or both of the connected lines. Such arrangements, however, have usually involved complicated structures and switching apparatus and an object of the present invention is therefore to provide an elfficient and relatively simple indicating arrangement for systems of the above character. One feature of the invention whereby this object is attained resides in employing the regularly provided answering or rear supervisory lamp of a cord pair as the elapsed time signal device, which lamp is caused to flash when the conversation has been in progress a predetermined interval of time.

Another feature resides in the provision of means whereby the time interval between the start of the conversation and the flashing si nal is manually adjustable under control of the occupied by the answering cord supervisory lamp and includes as part of its assembly said supervisory lamp.

In Fig. 1, the answering end of a cord C is shown having a supervisory lamp l in its sleeve circuit under control of a supervisory relay 2 which is in series with the ring conductor of the cord, the operations and functions of which are well known, i. e., when the answering plug I8 is inserted in a calling line, the supervisory relay 2 operates, thereby opening at its contacts the circuit for lamp l which therefore remains dark, but when the calling subscriber replaces his receiver on the switchhook, relay 2 releases thereby completing a circuit to light lamp l in an obvious circuit thus indicating to the operator that the subscriber on the calling line has hung up. It will therefore be observed that during the progress of a conversation, the answering supervisory lamp I is dark and may be used for some other signaling purpose, such a flashing signal to indicate the expiration of a predetermined conversation interval so long as its ability to perform its normal supervisory function is not disturbed.

To enable the lamp 1 to function as a timing signal a well as a supervisory signal, it is mounted in the am button 3 of a switch 4, which button may be of some translucent or light transmitting plastic material. When the button 3 is moved off-normal in a clockwise direction, the contacts springs 5 are immediately closed, thus completing an energizing circuit for an alternating current motor 6 of the so-called synchronous type commonly used in electric clocks which motor, in operating, through a sysv tem of gears, drives a brush 1 of a switch 8 also in a clockwise direction against the action of a spring 9, at a predetermined slow rate of speed which in practice may be at the rate of one revolution in six minutes.

Let it be assumed, for example, that it is desired. that the lamp I start flashing when a conversation has been in progress over the cord C for a period of three minutes. arrangement of the present invention to cause the lamp to commence flashing at the conclusion of this time interval, the operator, upon noting that both subscribers to the connection have their receivers off the hook, i. e., that a conversational connection has been established, will rotate the button 3 of switch 4 associated with the answering supervisory lamp I involved in this connection, one quarter turn to the right. As before mentioned, as soon as the switch 4 is moved off-normal, contacts 5 are closed and the motor start to drive switch 8 and when the switch 4 is advanced to the three minute position, the projection M on the upper spring of contact pair l0 drops into a notch H of the switch, thereby permitting contacts ID to close, thus connecting interrupted ground from interrupter l5 over contact to and conductor 12 to the three minute contact l3 of switch 8. Brush 1 of this switch continues to rotate under the driving force of the motor 5 and when it has moved through an angle of approximately To condition the degrees, it reaches contact [3 thereby completing a circuit in series with interrupter IE to flash the supervisory lamp l at some suitable rate, 120 times a minute for example. The face of brush I is of sufficient width so that it will be in engagement with the contact I3 for an appreciable interval of time, 20 seconds for example, during its movement after which it will pass ofi this contact, thus stopping the flashing lamp. The brush, however, will continue to move until it abuts stop member I5 thus stalling the motor. When the operator notes the flashing lamp, she may ask the connected parties to discontinue their conversation and when the connection is taken down the operator may rotate the button 3 around to its normal or resting position. whereupon the projection I! will drop into notch ll, thus opening the circuit of motor 6 at contacts 5 whereupon the brush 1 will rotate in a counter-clockwise direction under force of the spring 9 until it comes to rest against the lower side of stop member [6.

If a. longer conversation interval, such as four minutes, is to be allowed, the button 3 will be rotated to its four minute position, whereupon contacts l8 will be closed, thus grounding contact 19 of switch 8. This contact is so positioned that a four minute interval elapses before brush 1 reaches it and the lamp is flashed. In like manner, a five minute interval is provided for by means of contacts 20 which are closed by rotating button 3 to the third or five minute position. It will be understood that other intermediate time intervals can be obtained by the proper location of contact springs on the switch 4 and the contacts of the switch 8. If longer or shorter intervals than those mentioned are desired, the speed. of rotation of brush I can be adjusted by regulating the speed of motor 6 or changing the ratio of the gears between the motor shaft and the driving shaft of the brush 1.

Fig. 2 shows one form of a combined supervisory lamp housing and manually controlled switch for selectively determining the elapsed time interval before the supervisory lamp starts flashing which structure is adapted to be mounted in the key shelf 2| of an operators switchboard in the location usually occupied by the supervisory lamp alone. This lamp I serves both as a supervisory signal and also to indicate the termination of a preselected time interval and is mounted within the switch operating button 3 which preferably may be of some translucent or light transmitting material. The button 3 has a tubular extension 22 journaled in a bushing 23 mounted in the key shelf 2|. A guide channel 24 is cut in the tubular extension 22 and an opening II is provided therein sufficiently deep so that when it is opposite any one of the contact spring projections such as H, M, etc., the respective contacts will be closed. It will be understood that Fig. 2 may be substituted for that portion of Fig. 1 above the horizontal broken line X, X.

What is claimed is:

1. In a timing device for telephone switch boards, in combination, a cord circuit having a supervisory signal device associated therewith, a manually operable selective switch associated with said signal devices and adapted to close any one of a plurality of associated contacts depending upon its selective setting, a second switch adapted to successively close a plurality of associated contacts corresponding to the contacts of said manual switch, a motor for driving said second switch at a known constant rate of speed, means responsive to an off normal operation of said selective switch for causing said motor to drive said second switch, means interconnecting the respective contacts of said two switches, and means for energizing said supervisory signal when said second switch closes its contact connected to the closed contact of the manually operated switch.

2. In an operators telephone switchboard, subscribers lines terminating thereat, cords for interconnecting said lines, a supervisory lamp associated with each cord and adapted to light when the respective cord is connected to a line and the associated subscribers telephone is on the switchhook, and darkened when the telephone is taken for use, and means including a manual switch individual to and associated with each lamp adapted to be selectively actuated following the darkening of the lamp for causing it to flash when a predetermined interval oitime has elapsed following the selective actuation or said manual switch.

3. An arrangement in accordance with claim 2, characterized in this, that said associated manualswitch and lamp are assembled as individual switch and lamp units and located in the switch board key shelf in the same location as the supervisory lamp alone.

EDGAR W. GENT.