US953361A - Mercury-arc relay. - Google Patents

Mercury-arc relay. Download PDF

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US953361A
US953361A US39337907A US1907393379A US953361A US 953361 A US953361 A US 953361A US 39337907 A US39337907 A US 39337907A US 1907393379 A US1907393379 A US 1907393379A US 953361 A US953361 A US 953361A
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relay
mercury
anodes
circuit
current
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US39337907A
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John B Taylor
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General Electric Co
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General Electric Co
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    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03FAMPLIFIERS
    • H03F3/00Amplifiers with only discharge tubes or only semiconductor devices as amplifying elements
    • H03F3/68Combinations of amplifiers, e.g. multi-channel amplifiers for stereophonics

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  • My'invcntion is applicable to any situation where a relay is necessary and consists in a device comprising twoanodes and a cathode in an evacuated receptacle containin a body of mercury, a source of current, and means for causing the division of current between the two anodes to vary in accordance with the indications desired, whereby a translating device in circuit with. said anodes will be caused torespond.
  • the current deflecting means which I prefer to use is an electromaguct whose poles are arranged to produce a flux across the mercury are set up between the anodes and the cathode. By varying the current energizing said electromagnet the flux will be. varied, and the result is a corresponding variation in the circuit of the receiving instrument.
  • the elcclromagnet is in circuit with a telephone transmitter, and the receiving instrument is a telephone receiver, the relay will transmit spoken or other sounds.
  • Figure 1 is a front elevation of one embodiment of my improved relay
  • Fig. 2 is a side elevation thereof
  • Figs. 3 and 4 are diagrams showing the relay used intele hone circuits
  • Fig. 5 shows its app ication to a telegraph line.
  • the evacuated glass receptacle comprises an L-shaped tube 1, having pockets 2, 3, at the ends of its horizontal leg.
  • An upright condensing chamber 4 rises above the pocket 3, while a horizontal T-head 5 surmounts the upright leg of the tube 1.
  • the two anodes 6, 7 one in each arm.
  • the pocket 21 In the pocket 21s a mercury cathode 8, and in the pocket 3 isa starting anode 9 of mercury.
  • This relay is shown in Fig. 3 connected up'for service in a telephone system.
  • At 11 is a source of current, one pole of which is connected by branch leads to the two anodes 6, 7 A resistance 12 mav Patented Mar. 29, 1910.
  • the electromagnet T0 is in circuit with a battery 14 and a telephone transmitter 15, while a telephone receiver 16 is in circuit with the anodes, preferably through a trans former whose primary is in shunt to said anodes and its secondary 18 in series with the receiver 16.
  • this device So long as no current fiows through the winding of the electromagnet, or so long as the current is constant, the generator current will divide and will are equally between the two anodes and their common cathode so that the potential at-both anodes will be equal. Butif the current in the magnet winding varies, as will be the case when a sound is made in the transmitter, the resultmg variation in the magnetic flux between the poles of the electromagnet transverse to the mercury arc will produce more or less of a deflectionof the mercury are, causing more or less current to flow through one anode than the other and, therefore, unbalancing the potentials of the two anodes. This will cause a flow of current'from them through the transformer which will produce a sound in the receiver. This effect will occur at every fluctuation of flux, the direction of flow in the transformer de ending upon the direction of the magnetic ux.
  • Fig. t shows a modification ill-which the anodes are connected to the'sourceof supply through a tap 19 brought from the neutral oint of the transformer.
  • a rheostat 20 is included in this circuit. Otherwise the conncctions are like those shown in Fig. 3 and the method of operation is practically the same.
  • Fig. 5 illustrates a mode of using the relay in telegraph systems.
  • the coils of the electromagnets 10 are in series with the line 21 and with the keys 22 and batteries 23.
  • the sounders 24 are in circuit with the anodes,
  • each sounder having preferably two coils 25' and 26 located respectively in the two anode ancing of the potentials of 1 the two anodes by the closing of either of the keys, will cause one or the other of said coils to attract the armature.
  • my invention will not only serve as an ordinary relay, but is, at the same time, a polarized relay. Moreover it is what may be termed a proportional relay, by which I mean a relay in which the eifect in the relay circuit is greater or less in accordance with the current in the main circuit. This feature adapts it for use in many locations where a contact-making relay Will not serve.
  • An electric relay comprising an evacuated receptacle, a vaporizable cathode and two anodes, and transmitting means for deflecting the arc stream away from one or the other of said anodes.
  • An electric relay comprising means for producing a divided mercury arc stream, i and means for deflecting said stream in accordance with signals to be transmitted.
  • An electric relay comprising means for producing a divided mercury are, means for producing a magnetic flux adjacent to said are and a transmitter controlling said flux.
  • Means for repeating electric oscillations comprising a circuit including a divided mercury arc and a receiving instruinstrument and an .electromagnet, the latter being in proximity to said are.
  • Means for repeating electric oscillations comprising a circuit having two parallel branches, each including one leg of a divided mercury are, a recelving instrument responsive to variations in potential between ment, and means whereby the latter can de fleet said are in order to vary the potential of said branch circuits in accordancewith the indications to be transmitted.
  • Means for producing two mercury arcs in parallel means responsive to a variation in voltage between said arcs, and means responsive to a transmitting instrument for causing such variation.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Electrolytic Production Of Metals (AREA)

Description

J. B. TAYLOR.
MERCURY ARC RELAY.
APPLIUATION FILED SEPT.17, 1907.
0L m w m A m Rm L an DY Mm T M m m5 w v M .LNIN P. H
WITNESSES:
J. B. TAYLOR.
MERCURY ARC RELAY.
APPLIOATION FILED SEPT. 17, 1907.
3 BHEETS-BHEET 2.
WITNESSEEH |NVENTUR Jul-1N BTAYLDR.
Patented Mar. 29, 1910.
J. B. TAYLOR.
mncumr ARC RELAY.
, I APPLICATION FILED SEPT. 17, 1907. 953,361 Patented Mar.29, 1910.
3 SHEETS-SHEET 3.
IN M R l LEI 5- .9
||||||||i-lh- M M P WITNEEEES: INVENTUR QM JEIHN ELTAYLEIR.
UNITED STATES PATENT onmon.
JOHN B. TAYLOR, OF SCHENECTADY, NEW YORK, ASSIGNOR T0 GENEBAE ELECTRIC COMPANY, A CORPORATION OF NEW YORK.
MERCURY-ARC RELAY.
Specification of Letters Patent.
Application filed September 17. 1907. Serial No. 393,379.
To all whom 'it may concern:
Be it known that I, Jon}: B. TAYLOR, a
it is desired to reproduce or repeat in one.
circuit an electric impulse or oscillation impressed on another. Such devices are common in telegraph lines, telephone systems, signaling layouts, and the like.
My'invcntion is applicable to any situation where a relay is necessary and consists in a device comprising twoanodes and a cathode in an evacuated receptacle containin a body of mercury, a source of current, and means for causing the division of current between the two anodes to vary in accordance with the indications desired, whereby a translating device in circuit with. said anodes will be caused torespond. The current deflecting means which I prefer to use is an electromaguct whose poles are arranged to produce a flux across the mercury are set up between the anodes and the cathode. By varying the current energizing said electromagnet the flux will be. varied, and the result is a corresponding variation in the circuit of the receiving instrument.
It the elcclromagnet is in circuit with a telephone transmitter, and the receiving instrument is a telephone receiver, the relay will transmit spoken or other sounds.
In the accompanying drawings, Figure 1 is a front elevation of one embodiment of my improved relay; Fig. 2 is a side elevation thereof; Figs. 3 and 4 are diagrams showing the relay used intele hone circuits; andFig. 5 shows its app ication to a telegraph line. j
In the form in which the relay is here shown, the evacuated glass receptacle comprises an L-shaped tube 1, having pockets 2, 3, at the ends of its horizontal leg. An upright condensing chamber 4 rises above the pocket 3, while a horizontal T-head 5 surmounts the upright leg of the tube 1. In the arms of the head 5 are the two anodes 6, 7 one in each arm. In the pocket 21s a mercury cathode 8, and in the pocket 3 isa starting anode 9 of mercury. The
l anodes 6, 7, face'each other .a little distance apart and on each side of them, and preferably in a transverse plane midway between them, lie the poles of an electromagnet- 10, arranged close to the outside of the head 5. This relay is shown in Fig. 3 connected up'for service in a telephone system. At 11 is a source of current, one pole of which is connected by branch leads to the two anodes 6, 7 A resistance 12 mav Patented Mar. 29, 1910.
be included in each branch, if desired. The
other terminal of the current generator is connected with the cathode 8. If the source of current is not absolutely steady, reactances 13 may be inserted in the circuit. The electromagnet T0 is in circuit with a battery 14 and a telephone transmitter 15, while a telephone receiver 16 is in circuit with the anodes, preferably through a trans former whose primary is in shunt to said anodes and its secondary 18 in series with the receiver 16. 1
The operation of this device is as follows: So long as no current fiows through the winding of the electromagnet, or so long as the current is constant, the generator current will divide and will are equally between the two anodes and their common cathode so that the potential at-both anodes will be equal. Butif the current in the magnet winding varies, as will be the case when a sound is made in the transmitter, the resultmg variation in the magnetic flux between the poles of the electromagnet transverse to the mercury arc will produce more or less of a deflectionof the mercury are, causing more or less current to flow through one anode than the other and, therefore, unbalancing the potentials of the two anodes. This will cause a flow of current'from them through the transformer which will produce a sound in the receiver. This effect will occur at every fluctuation of flux, the direction of flow in the transformer de ending upon the direction of the magnetic ux.
Fig. tshows a modification ill-which the anodes are connected to the'sourceof supply through a tap 19 brought from the neutral oint of the transformer. A rheostat 20 is included in this circuit. Otherwise the conncctions are like those shown in Fig. 3 and the method of operation is practically the same.
Fig. 5 illustrates a mode of using the relay in telegraph systems. The coils of the electromagnets 10 are in series with the line 21 and with the keys 22 and batteries 23. The sounders 24: are in circuit with the anodes,
each sounder having preferably two coils 25' and 26 located respectively in the two anode ancing of the potentials of 1 the two anodes by the closing of either of the keys, will cause one or the other of said coils to attract the armature.
Obviously, many combinations of connections and various forms of tube or electromagnet may be devised to carry out the object of my invention, all falling within its general scope or spirit.
It will be observed that my invention will not only serve as an ordinary relay, but is, at the same time, a polarized relay. Moreover it is what may be termed a proportional relay, by which I mean a relay in which the eifect in the relay circuit is greater or less in accordance with the current in the main circuit. This feature adapts it for use in many locations where a contact-making relay Will not serve.
In accordance with the provisions of the patent statutes, I have described'the principle of operation of my invention, together wlth the apparatus which I now consider to represent the best embodiment thereof; but I desire to have it understood that the apparatus shown is only illustrative, and that the invention can be carried out by other means.
What I claim as new and desire to secure by Letters Patent of the United States, is,
1. An electric relay, comprising an evacuated receptacle, a vaporizable cathode and two anodes, and transmitting means for deflecting the arc stream away from one or the other of said anodes.
' anodes near each other, and an electromagnet adapted to set up a magnetic flux transverse to the divided mercury are.
4. An electric relay, comprising means for producing a divided mercury arc stream, i and means for deflecting said stream in accordance with signals to be transmitted.
5. An electric relay, comprising means for producing a divided mercury are, means for producing a magnetic flux adjacent to said are and a transmitter controlling said flux.
6. Means for repeating electric oscillations, comprising a circuitincluding a divided mercury arc and a receiving instruinstrument and an .electromagnet, the latter being in proximity to said are.
7. Means for repeating electric oscillations, comprising a circuit having two parallel branches, each including one leg of a divided mercury are, a recelving instrument responsive to variations in potential between ment, and means whereby the latter can de fleet said are in order to vary the potential of said branch circuits in accordancewith the indications to be transmitted.
8. The combination with an electric generator, of a circuit containing two parallel branches, an anode in each branch, a vaporizable cathode common to both anodes, a receiving instrument responsive to variations in potential between said anodes, an electromagnet arranged to deflect the arc stream between said anodes and cathode, and a transmitting instrument in circuit with said electromagnet.
9. Means for producing two mercury arcs in parallel, means responsive to a variation in voltage between said arcs, and means responsive to a transmitting instrument for causing such variation.
In witness whereof, I have hereunto set my hand this 16th day of September, 1907.,
JOHN B. TAYLOR.
Witnesses:
BENJAMIN B. HULL, MARGARET E. WOOLLEY.
ment, and a circuit including a transmitting said branch circuits, a transmitting instru-
US39337907A 1907-09-17 1907-09-17 Mercury-arc relay. Expired - Lifetime US953361A (en)

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