US2269842A - Vapor electric device - Google Patents

Vapor electric device Download PDF

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US2269842A
US2269842A US271897A US27189739A US2269842A US 2269842 A US2269842 A US 2269842A US 271897 A US271897 A US 271897A US 27189739 A US27189739 A US 27189739A US 2269842 A US2269842 A US 2269842A
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cathode
anodes
current
valve
conductive
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US271897A
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Myron J Brown
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CBS Corp
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Westinghouse Electric and Manufacturing Co
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Priority to CA408679A priority Critical patent/CA408679A/en
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Priority to DES5173D priority patent/DE921951C/en
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H3/00Mechanisms for operating contacts
    • H01H3/22Power arrangements internal to the switch for operating the driving mechanism
    • H01H3/28Power arrangements internal to the switch for operating the driving mechanism using electromagnet
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H47/00Circuit arrangements not adapted to a particular application of the relay and designed to obtain desired operating characteristics or to provide energising current
    • H01H47/22Circuit arrangements not adapted to a particular application of the relay and designed to obtain desired operating characteristics or to provide energising current for supplying energising current for relay coil
    • H01H47/28Energising current supplied by discharge tube

Definitions

  • My invention relates to electric discharge apparatus and has particular relation to control apparatus for circuit breakers
  • a circuit breaker is customarily provided with 'a closing coil which is supplied with current when the breaker is to be operated. Since the automatically in response to a fault on another network or to a prior opening of the circuit breaker. In many cases it is desirable that the circuit breaker be closed as quickly as possible after the control contact is closed. The time required .for the actuation of the auxiliary relay introduces a delay in the operation of the circuit breaker which may consume'as high as 12% of the total time required to close the breaker.
  • Another object of myinvention is to eliminate the delay in the closing of a circuit breaker" which is incident to the auxiliary coil...
  • a generalobiect of my invention is to provide an arrangement of simple and inexpensive structure .for supplying direct current to the closing coil of a circuit breaker used to control an alter nating current circuit.
  • An ancillary object of myinvention is to provide an electric discharge device of the immersed ignition electrode type particularly adapted for use in the operation of a circuit breaker.
  • An incidental object of my invention is to provide a circuit breaker'system in which in response to a closing operation only a single operation of the circuit breaker shall be possible.
  • I provide an electric discharge valve having a cathode of the pool type, a plurality of anodes and an ignition elec-' trode which dips into the cathode.
  • the closing coil is supplied through the valve from an alternating current source and the. valve rectifles the ignition electrode is so disposed within the valvev that when it is supplied with an impulse of current, it is capable of igniting a discharge between i any one o! the anodes and the cathode.
  • the valve continues to supply current until the circuitbreaker is operated. When this occurs, capacitors charged by the current flow through the valve are connected to the anodes in such manner as to extinguish the discharge. Since the ignition 'of avalve in re-'-- sponse to an exciting impulse is an instantaneous phenomenon the operating time of the auxiliary coil in the prior art apparatus is eliminated in my invention.
  • a capacitor is charged before the operation is commenced.
  • the capacitor is discharged through the ignition electrode when the control contact is closed.
  • the circuit breaker operates, it closes a contact, short circuiting the capacitor and preventing further operation ofthe breaker through the valve, regardless of whether or not it is closed or open.
  • the circuit breaker 3 is provided with the usual main movable contacts I and a set of auxiliary movable contacts ⁇ II, it and II;
  • the auxiliary contacts II, it and II are slidable on the operating bar l1 and are actuable by pivotal levers' I! coupled to the latch 2i whereby the circuit breaker is held in the closed position.
  • Figure 1 is a diagrammatic :view showing an breaker rod, the levers i9 actuate the auxiliary movable contacts 'i 1, l3 and i5 to engage correspending fixed contacts.
  • the circuit breaker 3 is provided with a closing coil which is supplied with current through an electric discharge valve 21 when the circuit breaker is to be closed.
  • the valve ill comprises a mercury pool cathode 29, a plurality of anodes and 33 and an ignition electrode which dips into the cathode.
  • the electrode 35 so disposed that current flow through it may produce a discharge between any anode ill or 33 and the cathode 29.
  • the valve may have the ame structure and may be formed oi the same s as an ordinary ignitron.
  • le valve 21 and the closing coil .25 are supith current from the source through 11 ormer 31 provided with a secondary sec- 'iaving a plurality of terminal taps ti termediate tap it.
  • the anodes and miected to the terminal ii and i ode E9 is connected to the intermediate i through the closing coil 25.
  • a plurality of networks "l5 and 41, h consisting of a capacitor 9 and a resistor cl in series, are connected.
  • ignition current is supplied from a capacitor t3 which is charged from the source a through another secondary section 55 of the transformer and a rectifier 51.
  • control contact 59 "1 closed and the ignition capacitor 53 is discharged through the ignition electrode 35 and the cathode 29.
  • one or the other of the iii or 33 of the valve 21 is electrically itive relative tothe cathode and a discharge is initiated between the positive anode and the cathode.
  • a resistor BI is provided in the ignition capacitor circuit to assure that the discharge of the capacitor continues for a suflicient time interval to establish the discharge in the valve.
  • the dis charge is first initiated between the right-hand anode 3i and the cathode 29.
  • current flows in a circuit extending from the right-hand terminal ll of the secondary section 35 through the right-hand anode 3
  • the potential impressed by the secondary section 39 on the right-hand branch 31-29 of the valve 21 passes through zero.
  • current flow is maintained in the branch by the reactive action of the closing coil 25.
  • the breaker 3 After the closing coil has carried current for iii ace-c 4 a predetermined interval of time, the breaker 3 is operated and latched in the closed position.
  • the movement of the latch in closing actuates the auxiliary contacts ll', I3 and 15.
  • the upper contacts H and i3 connect the negative plates of the capacitors 49 in the networks 45 and ll to the anodes 3i and 33, respectively, of the valve 21 and thus impress a substantial negative anode-cathode potential across the branches of the valve.
  • the latter potential counteracts the potential supplied by the secondary section 39 and renders the valves non-conductive.
  • auxiliary contact I5 short-circuits he ignition capacitor 53 and thus prevents lurr ignition of the valve 2'! if the breaker 3 re- .ins ciosed. iii the breaker should reopen for a 1" reason, does not reclose if the control contact lit remains closed.
  • This situation arises from the fact that the ignition capacitor 53 is discharged by the shortwircuiting auxiliary contact and prevented from recharging after the breaker opens by the closed circuit through control contact 59, resistor El, ignition electrode and cathode 29. Thus pumping is prevented.
  • the apparatus shown in Fig. 2 is largely simito that shown in Fig. 1. However, in this case the lever arrangement between the circuit breaker latch 23 and the auxiliary contacts II, it and it in the Fig. i system is not used. In place of this arrangement a slow acting relay 63 provided. When the coil 65 of the relay is supplied with current it picks up quickly. However, when the current flow through the coil is interrupted the relay drops out slowly.
  • the slow acting relay 63 is provided with a pair of contacts 5'! and 59 which normally maintain the capacitors 49 charged from the closing coil '25 connected to the anodes 3i and 33, respectively. However, since the capacitors I! are initially uncharged, this connection does not interiere with the operation of the valve 21.
  • the coil 65 of the relay B3 is connected in parallel with the closing coil 25 through a resistor 56 and when the valve 21 is rendered conductive, the slow-acting relay is operated at the same time as the circuit breaker Ill
  • the breaker H is provided with a pair of auxiliary contacts 13 and which are secured to the operating rod 11 and which close when the circuit breaker closes. The upper contact shortcircuits the coil 65 of the slow-acting relay G3.
  • the short-circuiting of the closing coil 25 at the same time is prevented by the resistor 66 connected between the closing coil 25 and the coil 55 of the relay 63.
  • the slow relay 63 does not immediately operate when its coil is short-circuited.
  • the delay in the operation is sufllcient to enable the circuit breaker H to be latched in the closed position.
  • the capacitors 49 are connected to the anodes 3
  • an electric discharge valve having a cathode of the pool type, a plurality of anodes and an ignition electrode which dips into said cathode at such a point that it may ignite an arc between any anode and said cathode, connections between said terminal taps and said anodes and between said intermediate tap and said cathode, said connections having reactive means interposed therein, and means for supply.- ing ignition current to said ignition electrode, said; supply means comprising charge-storing 'means, means for charging said charge-storing means, means for discharging said charge-storing means through said ignition electrode and means responsive to said valve when it is rendered conductive for thereafter preventing the recharging of said charge storing means.
  • a reactive device responsive to current and a source of alternating current having an intermediate tap and a plurality of terminal taps
  • the combination comprising an elec tric discharge valve having a cathode of the pool type, a plurality of anodes and an ignition electrode which dips into said cathode at a point such that current flow through it may ignite an are between any one of said anodes and said cathode, connections, including said reactive device, between said anodes and said terminal taps and said cathode and said intermediate tap,
  • the combination comprising an electric discharge valve having a cathode of the pool type, a plurality of anodes and a single ignition electrode which dips into said cathode at a point such th-at'current flow through it may ignite an are between any one of said anodes and said cathode, connections, including said reactive device, between said anodes and said terminal taps and said cathode and said intermediate tap,
  • electric discharge valve having a cathode of the pool type, a plurality of anodes and a single ignition electrode which dips into said cathode at a point such that current flow through it may ignite an are between any one of said anodes and said cathode, connections, including said reactive device, between said anodes and said terminal taps and said cathode and said inter- -mediate tap, means, including a capacitor, means for charging said capacitor and means for discharging said capacitor, for supplying a discrete type, a plurality of anodes and a single ignition electrode which dips into said cathode at a point such that current flow through it may ignite an are between any one of said anodes and said cathode, connections, including said reactive device, between said anodes and said terminal taps and said cathode and said intermediate tap,
  • - means including a capacitor, means for charging said capacitor and means for discharging said capacitor, for supplying a discrete current pulse to said ignition electrode to render said valve conductive and means responsive .to the actuation of said reactive device to render said valve non-conductive and to prevent the further charging of said capacitor.
  • a reactive device responsive to current and asource of alternating current having an intermediate tap and a plurality of terminal taps
  • the combination comprising an electric discharge valve having a cathode of the pool type, a plurality of anodes and a single ignition electrode which dips into said cathode at a point such that current flow through it may ignite an are between any one of said anodes and said cathode, connections, including said reactive device, between said anodes and said terminal taps and said cathode and said intermediate tap, means for supplying a discrete current pulse to said ignition electrode to render said valve conductive and means responsive to the actuation of said reactive device to render said valve nonconductive, said responsive means including charge-storing means to be.
  • the combination comprising a plurality of electric discharge paths each defined by an anode and cathode means of the pool type, connections between said anode and said terminal taps and said cath- Ode means and said intermediate tap, said connections including said closing coil, means including ignition electrode means dipping in said cathode means and means for supplying an impulse to said ignition electrode means for rendering any one of said paths conductive, said impulse being supplied only for a relatively small portion oi the time during which said paths are to be conductive, said paths being so related to each other and to said closing coil that when one oi said paths is rendered conductive it cooperates to maintain the others conductive, and means responsive to the resultant operation of said breaker by said closing coil when said paths are rendered conductive for rendering said paths non-conductive.
  • the combination comprising a plurality of electric discharge paths each defined by an anode and cathode means, connections, including said device, between said anode and said terminal taps and said cathode means and said intermediate tap, means for ren dering any one of said paths conductive, said means functioning only for a relatively small portion of the time during which said paths are to be conductive.
  • said paths being so related that when one of said paths is rendered conductive, it cooperates to maintain the others conductive and means responsive to the resultant operations of said device, when said paths are rendered conductive for rendering said paths non-conductive.
  • the combination comprising a plurality of electric discharge paths each defined by an anode and cathode means, connections including said device between said anode and said terminal taps and said cathode means and said intermediate tap, and means for rendering any one of said paths conductive, said means functioning only for a relatively small portion of the time during which said paths are to be conductive, said paths being so related that when one of said paths is rendered conductive, it cooperates to maintain the others conductive.
  • the combination comprising an electric discharge device having a plurality of anodes, a cathode of the pool type, and an ignition electrode which dips into said cathode at a point such that the supply of current to it may ignite a discharge from any one of said anodes, connections between said anodes and said terminal taps, connections.
  • said closing coil between said cathode and said intermediate tap, means for supplying current to said ignition electrode to render said paths conductive and means responsive to the actuation of said breaker by reason of the resultant current conducted through said closing coil for rendering said paths non-conductive.
  • the combination comprising an electric discharge device having a piurality of anodes, a cathode of the pool type, and an ignition electrode which dips into said cathode at a point such that the supply of current to it may ignite a discharge from any one of said anodes, connections between said anodes and said terminal taps, connections, including said closing coil, between said cathode and said intermediate tap, means for supplying current to said ignition electrode to render said paths conductive and means responsive to the actuation of said breaker by reason of the resultant current conducted through said closing coil for rendering said paths non-conductive.
  • the combination comprising an electric discharge device having a plurality of anodes, a cathode of ductive and means responsive to the actuation of said breaker by means of the resultant current conducted through said closing coil for rendering said paths non-conductive and preventing the recharging of said capacitor.
  • the combination comprising an electric discharge device having a plurality of anodes, a cathode of the pool type, and an ignition electrode which dips into said cathode at a point such that the supply of current to it may ignite a discharge from any one of said anodes, connectionshetween said anodes and said terminal taps, connections, including said closing coil, between said cathode and said intermediate tap, means, including a capacitor, means Ioncharging said capacitor and means for discharging said capacitor through said ignition electrode for supplying current to said ignition electrode to render said paths conductive' and means responsive to the actuation of said breaker by means of the resultant current conducted through said closing coil for rendering said paths non-conductive and preventing the recharging of said capacitor, said responsive means including capacitive means to be charged by the potential drop across, said closing coil when said discharge device is conductive and means for connecting

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Ignition Installations For Internal Combustion Engines (AREA)
  • Driving Mechanisms And Operating Circuits Of Arc-Extinguishing High-Tension Switches (AREA)

Description

Jan. 13, 1942. M. J. BROWN ,2
' VAPOR ELECTRIC DEVICE I Filed May 5, E1959 INVENTOR Myron Jfirawn. BY
l '7 ATTNEY Patented Jun. 13, 1942 VAPOR ELECTRIC DEVICE Myron J. Brown, Wilkinsburg, Pa... asnignor to Westinghouse Electric & Manufacturing Conr- Pennsy Pa, a corporation of manner, 5, 1939, S8111 noiz'ussr 14 Claims.
My invention relates to electric discharge apparatus and has particular relation to control apparatus for circuit breakers;
A circuit breaker is customarily provided with 'a closing coil which is supplied with current when the breaker is to be operated. Since the automatically in response to a fault on another network or to a prior opening of the circuit breaker. In many cases it is desirable that the circuit breaker be closed as quickly as possible after the control contact is closed. The time required .for the actuation of the auxiliary relay introduces a delay in the operation of the circuit breaker which may consume'as high as 12% of the total time required to close the breaker.
It is accordingly an object of my invention to provide an arrangement for operating a circuit breaker immediately after the control contact has been closed.
Another object of myinvention is to eliminate the delay in the closing of a circuit breaker" which is incident to the auxiliary coil...
A generalobiect of my invention is to provide an arrangement of simple and inexpensive structure .for supplying direct current to the closing coil of a circuit breaker used to control an alter nating current circuit.
An ancillary object of myinvention is to provide an electric discharge device of the immersed ignition electrode type particularly adapted for use in the operation of a circuit breaker.
An incidental object of my invention is to provide a circuit breaker'system in which in response to a closing operation only a single operation of the circuit breaker shall be possible.
More concisely stated, it is an object of my invention to provide a simple and tractable highspeed circuit breaker control system.
According to my invention, I provide an electric discharge valve having a cathode of the pool type, a plurality of anodes and an ignition elec-' trode which dips into the cathode. The closing coil is supplied through the valve from an alternating current source and the. valve rectifles the ignition electrode is so disposed within the valvev that when it is supplied with an impulse of current, it is capable of igniting a discharge between i any one o! the anodes and the cathode. Once a discharge between any anode and the cathode is initiated. it is maintained by the reactive action of the closing coil. As the potential impressed on each of the anodes in its turn predominates the discharge is transferred from one anode to the other. The valve continues to supply current until the circuitbreaker is operated. When this occurs, capacitors charged by the current flow through the valve are connected to the anodes in such manner as to extinguish the discharge. Since the ignition 'of avalve in re-'-- sponse to an exciting impulse is an instantaneous phenomenon the operating time of the auxiliary coil in the prior art apparatus is eliminated in my invention.
To supply the ignition'current to the valve, a capacitor is charged before the operation is commenced. The capacitor is discharged through the ignition electrode when the control contact is closed. when the circuit breaker operates, it closes a contact, short circuiting the capacitor and preventing further operation ofthe breaker through the valve, regardless of whether or not it is closed or open.
The novel features that I consider charactera load I. The circuit breaker 3 is provided with the usual main movable contacts I and a set of auxiliary movable contacts} II, it and II; The auxiliary contacts II, it and II are slidable on the operating bar l1 and are actuable by pivotal levers' I! coupled to the latch 2i whereby the circuit breaker is held in the closed position.
When the latch 2| slips into engagement with v .5 its cooperative locking cam 23 on the circuit istic of my invention are set forth with partic-' Figure 1 is a diagrammatic :view showing an breaker rod, the levers i9 actuate the auxiliary movable contacts 'i 1, l3 and i5 to engage correspending fixed contacts.
The circuit breaker 3 is provided with a closing coil which is supplied with current through an electric discharge valve 21 when the circuit breaker is to be closed. The valve ill comprises a mercury pool cathode 29, a plurality of anodes and 33 and an ignition electrode which dips into the cathode. The electrode 35 so disposed that current flow through it may produce a discharge between any anode ill or 33 and the cathode 29. The valve may have the ame structure and may be formed oi the same s as an ordinary ignitron. le valve 21 and the closing coil .25 are supith current from the source through 11 ormer 31 provided with a secondary sec- 'iaving a plurality of terminal taps ti termediate tap it. The anodes and miected to the terminal ii and i ode E9 is connected to the intermediate i through the closing coil 25. across the sing coil a plurality of networks "l5 and 41, h consisting of a capacitor 9 and a resistor cl in series, are connected.
ignition current is supplied from a capacitor t3 which is charged from the source a through another secondary section 55 of the transformer and a rectifier 51. When the operation of breaker is to be initiated, control contact 59 "1 closed and the ignition capacitor 53 is discharged through the ignition electrode 35 and the cathode 29. At the instant when the capacii' r is discharged, one or the other of the iii or 33 of the valve 21 is electrically itive relative tothe cathode and a discharge is initiated between the positive anode and the cathode. A resistor BI is provided in the ignition capacitor circuit to assure that the discharge of the capacitor continues for a suflicient time interval to establish the discharge in the valve.
For the purpose of explaining the operation of the apparatus, we may assume that the dis charge is first initiated between the right-hand anode 3i and the cathode 29. In such a. case, current flows in a circuit extending from the right-hand terminal ll of the secondary section 35 through the right-hand anode 3|, the oathode 29, the closing coil 25, to the intermediate tap 43. At the end of the half-period during which the right-hand terminal ll of the secondary section 33 is positive and the left-hand terminal negative, the potential impressed by the secondary section 39 on the right-hand branch 31-29 of the valve 21 passes through zero. However, current flow is maintained in the branch by the reactive action of the closing coil 25. The current flow persists under the action of the closing coil until the anode-cathode'potential in the left-hand branch 33-49 of the valve 21 becomes sufllciently positive to take over the discharge. The above described process is now repeated for the left-hand branch until the potential of the right-hand branch 3|!!! again becomes sufficiently positive so that the discharge is again transferred.
While the closing coil 25 is being supplied with current through'the valve 21, the potential drop across the coil is impressed in the capacitor-resistor networks and 41. The capacitors I! are charged, the plates connected directly to the closing coil being positive and the other plates being negative.
After the closing coil has carried current for iii ace-c 4 a predetermined interval of time, the breaker 3 is operated and latched in the closed position. The movement of the latch in closing actuates the auxiliary contacts ll', I3 and 15. The upper contacts H and i3 connect the negative plates of the capacitors 49 in the networks 45 and ll to the anodes 3i and 33, respectively, of the valve 21 and thus impress a substantial negative anode-cathode potential across the branches of the valve. The latter potential counteracts the potential supplied by the secondary section 39 and renders the valves non-conductive.
'lihe lower auxiliary contact I5 short-circuits he ignition capacitor 53 and thus prevents lurr ignition of the valve 2'! if the breaker 3 re- .ins ciosed. iii the breaker should reopen for a 1" reason, does not reclose if the control contact lit remains closed. This situation arises from the fact that the ignition capacitor 53 is discharged by the shortwircuiting auxiliary contact and prevented from recharging after the breaker opens by the closed circuit through control contact 59, resistor El, ignition electrode and cathode 29. Thus pumping is prevented.
The apparatus shown in Fig. 2 is largely simito that shown in Fig. 1. However, in this case the lever arrangement between the circuit breaker latch 23 and the auxiliary contacts II, it and it in the Fig. i system is not used. In place of this arrangement a slow acting relay 63 provided. When the coil 65 of the relay is supplied with current it picks up quickly. However, when the current flow through the coil is interrupted the relay drops out slowly.
The slow acting relay 63 is provided with a pair of contacts 5'! and 59 which normally maintain the capacitors 49 charged from the closing coil '25 connected to the anodes 3i and 33, respectively. However, since the capacitors I! are initially uncharged, this connection does not interiere with the operation of the valve 21. The coil 65 of the relay B3 is connected in parallel with the closing coil 25 through a resistor 56 and when the valve 21 is rendered conductive, the slow-acting relay is operated at the same time as the circuit breaker Ill The breaker H is provided with a pair of auxiliary contacts 13 and which are secured to the operating rod 11 and which close when the circuit breaker closes. The upper contact shortcircuits the coil 65 of the slow-acting relay G3. The short-circuiting of the closing coil 25 at the same time is prevented by the resistor 66 connected between the closing coil 25 and the coil 55 of the relay 63. The slow relay 63 does not immediately operate when its coil is short-circuited. The delay in the operation is sufllcient to enable the circuit breaker H to be latched in the closed position. When the slow-acting relay does operate, the capacitors 49 are connected to the anodes 3| and 33 of the valve 21 and the latter is rendered non-conductive.
While my invention is shown herein as practiced with a. discharge valve of the ignitron type and operates most propitiously with a valve of this type, other valves may be used. For exampie, 9. hot cathode, arc-like, or high-vacuum valve, having a cathode, a control electrode and a plurality of anodes yields satisfactory results where the power required for the closing coil is not too great.
Although I have shown and described certain specific embodiments of my invention, I am fully aware that many modifications thereof are possible. My invention, therefore, is'not to be restricted except insofar as is necessitated by the prior art and by the spirit of the appended claims.
I claim as my invention:
1. For use with a source of alternating current having an intermediate tap and a plurality of terminal taps an electric discharge valve having a cathode of the pool type, a plurality of anodes and an ignition electrode which dips into said cathode at such a point that it may ignite an arc between any anode and said cathode, connections between said terminal taps and said anodes and between said intermediate tap and said cathode, said connections having reactive means interposed therein, and means for supply.- ing ignition current to said ignition electrode, said; supply means comprising charge-storing 'means, means for charging said charge-storing means, means for discharging said charge-storing means through said ignition electrode and means responsive to said valve when it is rendered conductive for thereafter preventing the recharging of said charge storing means.
2. For use with a reactive device responsive to current and a source of alternating current having an intermediate tap and a plurality of terminal taps, the combination comprising an elec tric discharge valve having a cathode of the pool type, a plurality of anodes and an ignition electrode which dips into said cathode at a point such that current flow through it may ignite an are between any one of said anodes and said cathode, connections, including said reactive device, between said anodes and said terminal taps and said cathode and said intermediate tap,
means for supplying a discrete current pulse to said ignition electrode to render said valve conductive and means responsive to the actuation of said reactive device to render said valve nonconductive.
3. For'use with a reactive device responsive to current and a source of alternating current having an intermediate tap and a plurality of ter minal taps, the combination comprising an electric discharge valve having a cathode of the pool type, a plurality of anodes and a single ignition electrode which dips into said cathode at a point such th-at'current flow through it may ignite an are between any one of said anodes and said cathode, connections, including said reactive device, between said anodes and said terminal taps and said cathode and said intermediate tap,
means for supplying only a discrete current pulse to said ignition electrode to render said valve 7 conductive and means responsive to the actuation of said reactive device to render said valve nonconductive and to prevent the supply of another current pulse to said ignition electrode.
4. For use with a reactive device responsive to current and a source of alternating current having an intermediate tap and a plurality of terminal, taps, the combination comprising an.
electric discharge valve having a cathode of the pool type, a plurality of anodes and a single ignition electrode which dips into said cathode at a point such that current flow through it may ignite an are between any one of said anodes and said cathode, connections, including said reactive device, between said anodes and said terminal taps and said cathode and said inter- -mediate tap, means, including a capacitor, means for charging said capacitor and means for discharging said capacitor, for supplying a discrete type, a plurality of anodes and a single ignition electrode which dips into said cathode at a point such that current flow through it may ignite an are between any one of said anodes and said cathode, connections, including said reactive device, between said anodes and said terminal taps and said cathode and said intermediate tap,
- means including a capacitor, means for charging said capacitor and means for discharging said capacitor, for supplying a discrete current pulse to said ignition electrode to render said valve conductive and means responsive .to the actuation of said reactive device to render said valve non-conductive and to prevent the further charging of said capacitor. I
6. For use with a reactive device responsive to current and asource of alternating current having an intermediate tap and a plurality of terminal taps, the combination comprising an electric discharge valve having a cathode of the pool type, a plurality of anodes and a single ignition electrode which dips into said cathode at a point such that current flow through it may ignite an are between any one of said anodes and said cathode, connections, including said reactive device, between said anodes and said terminal taps and said cathode and said intermediate tap, means for supplying a discrete current pulse to said ignition electrode to render said valve conductive and means responsive to the actuation of said reactive device to render said valve nonconductive, said responsive means including charge-storing means to be. charged by the potential derived from said reactive device and means actuated after said device is actuated to connect said charge-storing means between said anod'es and said -cathode in such a sense that the potential of said storing means e'xtinguishes the discharge between said anodes and cathode.
7. For use in operating a circuit breaker having a closing coil, requiring direct current from an alternating current source having a plurality of terminal taps and an intermediate tapthe combination comprising a plurality of electric discharge paths each defined by an anode and cathode means, connections between said anode and said terminal taps and said cathode means and said intermediate tap, said connections including said closing coil, means for rendering any one of said paths conductive, said paths being so related that when one of said paths is rendered conductive it cooperates to maintain the others,
conductive, regardless of whether or not said rendering means continues to function, and means responsive to the resultant operation of said breaker by said closing coil when said paths are rendered conductive for rendering said paths non-conductive.
8. For use in operating a circuit breaker having a closing coil, requiring direct current from an alternating current source having a plurality of terminal taps and an intermediate tap the combination comprising a plurality of electric discharge paths each defined by an anode and cathode means of the pool type, connections between said anode and said terminal taps and said cath- Ode means and said intermediate tap, said connections including said closing coil, means including ignition electrode means dipping in said cathode means and means for supplying an impulse to said ignition electrode means for rendering any one of said paths conductive, said impulse being supplied only for a relatively small portion oi the time during which said paths are to be conductive, said paths being so related to each other and to said closing coil that when one oi said paths is rendered conductive it cooperates to maintain the others conductive, and means responsive to the resultant operation of said breaker by said closing coil when said paths are rendered conductive for rendering said paths non-conductive.
9. For use in operating a current responsive device requiring direct current from an alternating current source having a plurality of terminal taps and an intermediate tap the combination comprising a plurality of electric discharge paths each defined by an anode and cathode means, connections, including said device, between said anode and said terminal taps and said cathode means and said intermediate tap, means for ren dering any one of said paths conductive, said means functioning only for a relatively small portion of the time during which said paths are to be conductive. said paths being so related that when one of said paths is rendered conductive, it cooperates to maintain the others conductive and means responsive to the resultant operations of said device, when said paths are rendered conductive for rendering said paths non-conductive.
10. For use in operating a current responsive device requiring direct current from an alternating current source having a plurality of terminal taps and an intermediate tap the combination comprising a plurality of electric discharge paths each defined by an anode and cathode means, connections including said device between said anode and said terminal taps and said cathode means and said intermediate tap, and means for rendering any one of said paths conductive, said means functioning only for a relatively small portion of the time during which said paths are to be conductive, said paths being so related that when one of said paths is rendered conductive, it cooperates to maintain the others conductive.
11. For use in operating a circuit breaker having a closing coil requiring direct current from an alternating current source having a plurality of terminal taps and an intermediate tap, the combination comprising an electric discharge device having a plurality of anodes, a cathode of the pool type, and an ignition electrode which dips into said cathode at a point such that the supply of current to it may ignite a discharge from any one of said anodes, connections between said anodes and said terminal taps, connections. including said closing coil, between said cathode and said intermediate tap, means for supplying current to said ignition electrode to render said paths conductive and means responsive to the actuation of said breaker by reason of the resultant current conducted through said closing coil for rendering said paths non-conductive.
12. For use in operating a circuit breaker for an alternating current source having a closing coil, requiring direct current, from said source. said source having a plurality of terminal taps and an intermediate tap, the combination comprising an electric discharge device having a piurality of anodes, a cathode of the pool type, and an ignition electrode which dips into said cathode at a point such that the supply of current to it may ignite a discharge from any one of said anodes, connections between said anodes and said terminal taps, connections, including said closing coil, between said cathode and said intermediate tap, means for supplying current to said ignition electrode to render said paths conductive and means responsive to the actuation of said breaker by reason of the resultant current conducted through said closing coil for rendering said paths non-conductive.
13. For use in operating a circuit breaker having a closing coil requiring direct current from an alternating current source having a plurality of terminal taps and an intermediate tap, the combination comprising an electric discharge device having a plurality of anodes, a cathode of ductive and means responsive to the actuation of said breaker by means of the resultant current conducted through said closing coil for rendering said paths non-conductive and preventing the recharging of said capacitor.
14. For use in operating a circuit breaker having a closing coil requiring direct current from an alternating current source having a plurality of terminal taps and an intermediate tap, the combination comprising an electric discharge device having a plurality of anodes, a cathode of the pool type, and an ignition electrode which dips into said cathode at a point such that the supply of current to it may ignite a discharge from any one of said anodes, connectionshetween said anodes and said terminal taps, connections, including said closing coil, between said cathode and said intermediate tap, means, including a capacitor, means Ioncharging said capacitor and means for discharging said capacitor through said ignition electrode for supplying current to said ignition electrode to render said paths conductive' and means responsive to the actuation of said breaker by means of the resultant current conducted through said closing coil for rendering said paths non-conductive and preventing the recharging of said capacitor, said responsive means including capacitive means to be charged by the potential drop across, said closing coil when said discharge device is conductive and means for connecting said capacitive means to saitri1 anodes in such manneras to extinguish said pa s.
MYRON J. BROWN.
US271897A 1939-05-05 1939-05-05 Vapor electric device Expired - Lifetime US2269842A (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
CA408679A CA408679A (en) 1939-05-05 Vapour electric device
US271897A US2269842A (en) 1939-05-05 1939-05-05 Vapor electric device
DES5173D DE921951C (en) 1939-05-05 1940-05-07 Device for controlling electromagnetically operated switches

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US271897A US2269842A (en) 1939-05-05 1939-05-05 Vapor electric device

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US2269842A true US2269842A (en) 1942-01-13

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DE (1) DE921951C (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2874355A (en) * 1957-01-02 1959-02-17 Rca Corp Pulse width modulation system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2874355A (en) * 1957-01-02 1959-02-17 Rca Corp Pulse width modulation system

Also Published As

Publication number Publication date
CA408679A (en) 1942-11-17
DE921951C (en) 1955-01-07

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