US1719474A - Current-controlling device - Google Patents
Current-controlling device Download PDFInfo
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- US1719474A US1719474A US270859A US27085928A US1719474A US 1719474 A US1719474 A US 1719474A US 270859 A US270859 A US 270859A US 27085928 A US27085928 A US 27085928A US 1719474 A US1719474 A US 1719474A
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- 239000004020 conductor Substances 0.000 description 9
- 238000004804 winding Methods 0.000 description 9
- 230000000694 effects Effects 0.000 description 6
- 238000000034 method Methods 0.000 description 2
- 230000000737 periodic effect Effects 0.000 description 2
- 230000005540 biological transmission Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 239000011810 insulating material Substances 0.000 description 1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M15/00—Arrangements for metering, time-control or time indication ; Metering, charging or billing arrangements for voice wireline or wireless communications, e.g. VoIP
- H04M15/10—Metering calls from calling party, i.e. A-party charged for the communication
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- This invention relates in general to-current controlling devices and more particularly to current reversing devices as applied to telephone systems for operating metering equipment associated with subscribers lines.
- the object'of this invention is to improve the means for effecting current reversals in telephone metering systems.
- FIG. 1 illustrates a manual telephone system in which the invention is applied to "an operators cord circuit at a central office.
- Fig. 2 illustrates an automatic telephone system in which the'invention:isapphed to I a trunk line at a central oflice.
- two relays 8 and 9 which are repeatedly and alternately operated and released by means of an interrupter mechanism, to reverse the direction of flow of current delivered from the supply source B through the windings of the repeating coil 4 to the calling subscribers line A. These repeated reversals, which may occur for example every 15 seconds, cause the'operation of the meter 1 during the conversational period. Since the current flow .in the called line B undergoes no reversal the called subscribers meter 7 is not actuated.
- the subscriber of line A initiates a call the usual line signal (not shown) is lighted and the operator responds by inserting the plug 3 of the cord circuit C at her position into jack-2 associated with the lighted line lamp. After obtaining the'details of the service desired she completes the connection by inserting plug-5 into jack 6 of the called line B.
- the interrupter mechanism hereinbefore mentioned comprises three discs 10, 11 and 12 all rigidly mounted on a shaft 13 which is actuated-by any suitable device and preterably at a speed of 1 R. P. M.
- the disc 10 is made entirely of conducting material whereas the discs 11 and 12 comprise alternate segments of insulating and conducting materials. The insulating segments cut arcs of on the circumference of the discs so that the relays 8 and 9 controlled by the discs 12 and 11 respectively have two operated and two released periods for each revolution of their associated discs.
- the insulating segments of disc 11 are 90 out of phase with those of disc 12 so that, when the contact finger 14 is in engagement with a conducting segment of disc 11, the contact finger 15 will be in engagement with aninsulating segment of disc 12 and vice versa.
- the three discs 10, 11 and 12 are electrically connected together in any suitable manner so that the current source 16 serves to supply all three discs.
- the interrupter mechanism is continuously operating.
- relay 9 With relay 9 operated as just described the'filaments of tubes 23 and 24 are-connected across the transformer secondary windings 17 and 19 by wayof .the'iupper and lower armatures respectively of relay 9. These filaments are'accordinglyheated by current from the source 22.-v At this time the circuit for the filaments of tubes 25 and 26 are opened at the armature contacts of relay 8.
- Tubes 25 and 26 now being actuated a circuit exists which may be traced from the positive plate of battery R, plateto filament of tube 25, conductor 29, through the operators equipment and subscribers metering device in a direction reverse to that hereinbefore described, and thence through the choke coil 28, conductor 27, conductor 31, plate to filament of tube 26 conductor 30 to the negative plate of battery R.
- the meter 1 is again actuated in this-circuit.
- the choke coil 9 and associated condensers and 36 serve as a filter to smooth out the wave form of the current at periods of reversal. This prevents the transmission of objectionable clicks to the subscribers receiver.
- Fig. 2 shows a similar arrangement applied to an automatic system.
- the subscribcrs lines A and B are equipped respectively with meters 37 and 38. .Nhen the subscriber of line A initiates a call a line finder F operates to seize his line. In any well known manner he causes the operation of selector switches S and S to complete the connection to the called line B. It is believed unnecessary to repeat the description of the operation of applicants invention as applied to the automatic system disclosed since the description made in connection with the manual system disclosed is equally applicable.
- a telephone line In combination, a telephone line, a current operated device for said line, a source of current for said line and means including a plurality of electron discharge devices for periodically reversing the flow of current from said source to actuate said current operated device.
- a telephone line a current operated device for said line, a source of current for said line, a plurality of electron discharge devices, and means for periodically energizing the filaments of said electron discharge devices in pairs to effect the reversal of current from said source and the consequent periodic actuation of said current actuated device.
- a telephone line a current operated device for said line, a source 3 of current for said line, a plurality of electron discharge devices, a source of current and means for periodically associating said second source of current with the filaments of said electron discharge devices in pairs, alternately to effect the reversal of current from said first mentioned source of current and the consequent actuation of said current operated device.
- a telephone line a current operated device for said line, a source of current for said line, a plurality of electron discharge devices, a filament control relay for each pair of electron discharge devices and means for alternately actuating said relays to include said pairs of electron discharge devices in active circuit relation with said source of current to effect the periodic actuation of said current operated device.
- a telephone line a current operated device for said line, a source of current for said line, a plurality of electron discharge devices, a source of alternating current, a transformer having a primary winding normally bridging said source of alternating current, and a secondary coil for the filament of each of said electron discharge devices and means for alternately associating the filaments of said electron discharge devices with their respective transformer coils in pairs to effect the reversal of current from said first mentioned source of current and the consequent actuation of said current operated device.
- a telephone line a current operated device for said line, a source of current for said line, a plurality of sets of vacuum tubes, a filament supply circuit for said tubes including a transformer and means for alternately connecting the filaments of said sets of tubes to the secondary of said transformer to effect the reversal of current from said source and the consequent actuation of said current operated device.
- a telephone line a link circuit for association therewith in the establishing of telephone connections
- a current control device associated with said link circuit comprising a plurality of two electrode vacuum tubes and a source of current, means for alternately actuating the filaments of said vacuum tubes in pairs to effect the reversal of current from said source and a meter individual to said line receptive to said current reversals.
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- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Monitoring And Testing Of Exchanges (AREA)
Description
July 2, 1929.
R. P. JUTSON CURRENT CONTROLLING DEVI CE Filed April 18, 1923 INVE/V 70/? fiaamr Jursmv Patented July 2, 1929.
UNITE STATES mam PATENT orFics.
ROBERT IE. JUTSON, OF ASTORIA, NEW YORK, ASSIGNOR TO BELL TELEPHONE LABO- RATORIES, INCORPORATED, OF NEW YORK, N. Y., A CORPORATION OF NEJV YORK.
CURRENT-CONTROLLING DEVICE.
Application filed April 18, 1928. Serial No. 270,859.
This invention relates in general to-current controlling devices and more particularly to current reversing devices as applied to telephone systems for operating metering equipment associated with subscribers lines.
The object'of this invention is to improve the means for effecting current reversals in telephone metering systems.
Here-tofore reversing devices have been provided at central ofiices to periodically change the direct-ion of current flow over a calling subscribers line during conversation, to operate a meter located at the subscribers substation. As such reversing devices are in operation during the period of conversation, it is essential that they functiounoiselessly and with a minimum of disturbance in the line circuit. Simplicity of construction and positiveness of operation are also essential to an efiicient system of this. type.
According to the present invention these requisites are met by the use ofa plurality of electron discharge devices which have their filaments energized from a local source of current in pairs, alternately, so that current from a main supply is periodically reversed and sentoutover an associated line circuit to actuate the metering device.
In the drawing, Fig. 1 illustrates a manual telephone system in which the invention is applied to "an operators cord circuit at a central office.
Fig. 2 illustrates an automatic telephone system in which the'invention:isapphed to I a trunk line at a central oflice.
In telephone systems where it is desirable to actuate periodically during the conversation period a service meter located atjthe subscribers station, a convenient method of accomplishing this purpose is to reverse the direction of current irr the subscribers line at the end of each successiverharging period. These current reversals act upon 'a'suitable meter of the polarized type which makes a record of the conversations originated byithe subscriber of the'line. This method is the basis of the operation of applicants invenvention which will be readily understood from the following description.
A description of the operation of applicants current reversing device will first be given in connection with its application to the manual system disclosed, reference being had to Fig. 1 exclusively. I
In this figure of the draw g a call g cord circuits such as the cord circuit C. As-
sociated with the cord circuit C are two relays 8 and 9 which are repeatedly and alternately operated and released by means of an interrupter mechanism, to reverse the direction of flow of current delivered from the supply source B through the windings of the repeating coil 4 to the calling subscribers line A. These repeated reversals, which may occur for example every 15 seconds, cause the'operation of the meter 1 during the conversational period. Since the current flow .in the called line B undergoes no reversal the called subscribers meter 7 is not actuated.
lVhen the subscriber of line A initiates a call the usual line signal (not shown) is lighted and the operator responds by inserting the plug 3 of the cord circuit C at her position into jack-2 associated with the lighted line lamp. After obtaining the'details of the service desired she completes the connection by inserting plug-5 into jack 6 of the called line B.
'The interrupter mechanism hereinbefore mentioned comprises three discs 10, 11 and 12 all rigidly mounted on a shaft 13 which is actuated-by any suitable device and preterably at a speed of 1 R. P. M. The disc 10 is made entirely of conducting material whereas the discs 11 and 12 comprise alternate segments of insulating and conducting materials. The insulating segments cut arcs of on the circumference of the discs so that the relays 8 and 9 controlled by the discs 12 and 11 respectively have two operated and two released periods for each revolution of their associated discs. It will be noted that the insulating segments of disc 11 are 90 out of phase with those of disc 12 so that, when the contact finger 14 is in engagement with a conducting segment of disc 11, the contact finger 15 will be in engagement with aninsulating segment of disc 12 and vice versa. The three discs 10, 11 and 12 are electrically connected together in any suitable manner so that the current source 16 serves to supply all three discs. The interrupter mechanism is continuously operating.
Assuming the discs 11 and 12 to be in the positions shown at the instant plug 3 is inserted in jack 2 it will be noted that relay 9 will be in its operated position and relay 8 deenergized. It is to be understood that the windings 1T, 18, 19 and 20 represent the sec ondary windings of a transformer, the primary winding-of which is shown at 21 connected to the alternating current source 22.
With relay 9 operated as just described the'filaments of tubes 23 and 24 are-connected across the transformer secondary windings 17 and 19 by wayof .the'iupper and lower armatures respectively of relay 9. These filaments are'accordinglyheated by current from the source 22.-v At this time the circuit for the filaments of tubes 25 and 26 are opened at the armature contacts of relay 8.
Current from the source R now passes over-a circuit extending'from the positive plate of battery R, plate to filament of tube 23,:conductor 27., choke coil 28; lower lefthand winding of repeating coil 4, ring contacts of plug 3 and jack 2 and thence through the actuating windings of meter 1 and the subscribers subset, to the tip contacts of jack 2 and plug 3, upper left-hand winding of repeatingcoil 4,-conductor 29, late to filament of tube 24, conductor 30 to t e negative plate of battery It. Meter 1 is actuated in this circuit.
Due to the continued rotation of the interrupter discs the contact finger 14 will eventually'engage the-next succeeding insulating segment of disc. 11 and relay 9 will become 'deenergized and .retract its armatures, The filament circuits of tubes'23 and 24 accordingly are opened.
\Vhen the contact finger 14 engages an insulating segment of disc 11 the contact finger 15 of disc 12 will engage a conducting segment and relay 8 will be energized. Under this condition of the control circuit, i. e. with relay 9 deenergized and relay 8 oper ated it will be noted that the filaments of tubes 25 and 26 are connected across the transformer secondary windings 18 and 19 by way of the upper and lower armatures respectively, of relay-8. Tubes 25 and 26 now being actuated a circuit exists which may be traced from the positive plate of battery R, plateto filament of tube 25, conductor 29, through the operators equipment and subscribers metering device in a direction reverse to that hereinbefore described, and thence through the choke coil 28, conductor 27, conductor 31, plate to filament of tube 26 conductor 30 to the negative plate of battery R. The meter 1 is again actuated in this-circuit.
It is apparent from the foregoing description that for each 15 seconds of conversation, assuming the shaft 13 is to be rotated at l R. I. M., the meter 1 is actuated and that this actuation is repeated every 15 seconds for the period of conversation. The cycle of operation justexplained will continue periodically as long as the connection is established.
The choke coil 9 and associated condensers and 36 serve as a filter to smooth out the wave form of the current at periods of reversal. This prevents the transmission of objectionable clicks to the subscribers receiver.
At the end of conversation the connection is disestablished by removing the plugs 3 and 5 of the cord circuit C fron'rjacks 2 and 6 of the subscribers"lines.
Fig. 2 shows a similar arrangement applied to an automatic system. The subscribcrs lines A and B are equipped respectively with meters 37 and 38. .Nhen the subscriber of line A initiates a call a line finder F operates to seize his line. In any well known manner he causes the operation of selector switches S and S to complete the connection to the called line B. It is believed unnecessary to repeat the description of the operation of applicants invention as applied to the automatic system disclosed since the description made in connection with the manual system disclosed is equally applicable.
Thus parts of the system not pertaining directly to the inventionhave been illus' trated schematically for the sake of simplicity. The meters at the subscribers stations are illustrated schematically'and maybe of any suitable type. For example, a meter of this character is illustrated in the patent to Thomson No. 1,121,953 granted December 22,1914.
It will also be understood that the automatic switches shown in Fig. 2 may be of any well known type.
What is claimed is:
1.' In combination, a telephone line, a current operated device for said line, a source of current for said line and means including a plurality of electron discharge devices for periodically reversing the flow of current from said source to actuate said current operated device.
2. In combination, a telephone line, a current operated device for said line, a source of current for said line, a plurality of electron discharge devices, and means for periodically energizing the filaments of said electron discharge devices in pairs to effect the reversal of current from said source and the consequent periodic actuation of said current actuated device.
3. In combination, a telephone line, a current operated device for said line, a source 3 of current for said line, a plurality of electron discharge devices, a source of current and means for periodically associating said second source of current with the filaments of said electron discharge devices in pairs, alternately to effect the reversal of current from said first mentioned source of current and the consequent actuation of said current operated device.
4. In combination, a telephone line, a current operated device for said line, a source of current for said line, a plurality of electron discharge devices, a filament control relay for each pair of electron discharge devices and means for alternately actuating said relays to include said pairs of electron discharge devices in active circuit relation with said source of current to effect the periodic actuation of said current operated device.
5. In combination, a telephone line, a current operated device for said line, a source of current for said line, a plurality of electron discharge devices, a source of alternating current, a transformer having a primary winding normally bridging said source of alternating current, and a secondary coil for the filament of each of said electron discharge devices and means for alternately associating the filaments of said electron discharge devices with their respective transformer coils in pairs to effect the reversal of current from said first mentioned source of current and the consequent actuation of said current operated device.
6. In combination, a telephone line, a current operated device for said line, a source of current for said line, a plurality of sets of vacuum tubes, a filament supply circuit for said tubes including a transformer and means for alternately connecting the filaments of said sets of tubes to the secondary of said transformer to effect the reversal of current from said source and the consequent actuation of said current operated device.
7. In combination, a telephone line, a link circuit for association therewith in the establishing of telephone connections, a current control device associated with said link circuit comprising a plurality of two electrode vacuum tubes and a source of current, means for alternately actuating the filaments of said vacuum tubes in pairs to effect the reversal of current from said source and a meter individual to said line receptive to said current reversals.
In Witness whereof, I hereunto subscribe my name this 9th day of April, 1928.
ROBERT P. JUTSON.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US270859A US1719474A (en) | 1928-04-18 | 1928-04-18 | Current-controlling device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US270859A US1719474A (en) | 1928-04-18 | 1928-04-18 | Current-controlling device |
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US1719474A true US1719474A (en) | 1929-07-02 |
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US270859A Expired - Lifetime US1719474A (en) | 1928-04-18 | 1928-04-18 | Current-controlling device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2533677A (en) * | 1945-09-15 | 1950-12-12 | Automatic Elect Lab | Electronic device for timing toll calls and for signaling both subscriber and operator |
US3140424A (en) * | 1962-01-16 | 1964-07-07 | William G Stech | Polarity-reversing system for electrochemical process |
-
1928
- 1928-04-18 US US270859A patent/US1719474A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2533677A (en) * | 1945-09-15 | 1950-12-12 | Automatic Elect Lab | Electronic device for timing toll calls and for signaling both subscriber and operator |
US3140424A (en) * | 1962-01-16 | 1964-07-07 | William G Stech | Polarity-reversing system for electrochemical process |
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