US783481A - Starting means for gas or vapor electric apparatus. - Google Patents
Starting means for gas or vapor electric apparatus. Download PDFInfo
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- US783481A US783481A US14169703A US1903141697A US783481A US 783481 A US783481 A US 783481A US 14169703 A US14169703 A US 14169703A US 1903141697 A US1903141697 A US 1903141697A US 783481 A US783481 A US 783481A
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- 238000000034 method Methods 0.000 description 6
- 230000000153 supplemental effect Effects 0.000 description 4
- 238000010586 diagram Methods 0.000 description 1
- 239000011810 insulating material Substances 0.000 description 1
- QSHDDOUJBYECFT-UHFFFAOYSA-N mercury Chemical compound [Hg] QSHDDOUJBYECFT-UHFFFAOYSA-N 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
- 239000013589 supplement Substances 0.000 description 1
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B41/00—Circuit arrangements or apparatus for igniting or operating discharge lamps
- H05B41/14—Circuit arrangements
- H05B41/26—Circuit arrangements in which the lamp is fed by power derived from dc by means of a converter, e.g. by high-voltage dc
- H05B41/28—Circuit arrangements in which the lamp is fed by power derived from dc by means of a converter, e.g. by high-voltage dc using static converters
- H05B41/282—Circuit arrangements in which the lamp is fed by power derived from dc by means of a converter, e.g. by high-voltage dc using static converters with semiconductor devices
- H05B41/2825—Circuit arrangements in which the lamp is fed by power derived from dc by means of a converter, e.g. by high-voltage dc using static converters with semiconductor devices by means of a bridge converter in the final stage
- H05B41/2827—Circuit arrangements in which the lamp is fed by power derived from dc by means of a converter, e.g. by high-voltage dc using static converters with semiconductor devices by means of a bridge converter in the final stage using specially adapted components in the load circuit, e.g. feed-back transformers, piezoelectric transformers; using specially adapted load circuit configurations
Definitions
- the apparatus When means are provided for breaking down the electrode reluctance. and for maintaining it in that condition, the apparatus will operate upon direct current during the continuance of such current, or in case an alternating current is applied to the terminals of the apparatus like phases will traverse the apparatus, while opposite phases will be suppressed, owing to the fact that the tendency of such phases to pass through the apparatus 5 is resisted by a reluctance at the opposite electrode, which then becomes the negative electrode with respect to the direction of the current.
- the present invention aims to provide a simple starting means for apparatus of this class in which no extraordinary pressure is applied to the terminals of the apparatus, but in which an additional electromotive force is introduced through the walls of the appara- 6O tus by means of the starting-band or other suitable devices, whereby the strain at or near the electrode is increased to the breakingpoint and current is made to pass through the apparatus. This can be accomplished with 5 very little expenditure oi energy.
- the time when the strain approximates the breaking-point ---that is to say, the point where it is adapted to break down the reluctance at the electrode can be predetermined by means 7 of my invention in such a manner that when the accumulated strain is reinforced by an impulse from the mains without any increase of electromotive force in the said mains the reluctance will be broken down and the apparatus started.
- invention 1 may make use of a transformer the primary of which is connected between the mains of an alternating-current circuit leading to the terminals of 86 the apparatus and the secondary of which is connected between either of said mains and the starting-band.
- In circuit with the primary 1 may place a resistance and an inductance, by means of 5 which the eli'ccts upon the secondary ot' the transformer are properly timed with relation to the electromotive force of the mains. It will be understood that other or ditlerent means may be used for securing the applica- 9 tion of the critical strain-from the secondary circuit at the proper moment of time with relation to the electromotivc force in the main circuit.
- Fig. 3 is a diagram of the eleetromotive forces of the three-phase supply-circuit, and Figs. a and 5 illustrate modifications.
- 1 is a suitable container, inclosing a conducting gas or vapor, which may be mercury-vapor.
- the electrodes appear at 2 and 3 and the starting-band at 4.
- the starting-band might be applied outside of the electrode 3 instead of where it is shown in the drawings, near the electrode 2.
- the lead-wires running through the walls of the container to the electrodes 2 and 3, respectively.
- the mains 7 and 8 leading from an alternating-current source.
- I connect in the circuit between the mains 7 and 8 the primary 9 of a transformer, and I may also connect in series with the said primary a resistance 10 and an inductance 11.
- the secondary of the transformer is indi. cated at 12, and its terminals are connected through an adjustable switch 13 with starting-band Land the main 8.
- the wire connecting with the main 8 might be joined to the main 7 instead of 8, if for any reason it should be found desirable.
- FIG. 2 13 represents a source of threephase alternating currents having the primary 9 connected between the coils 14: and 15 and the secondary 12 connected between the coils 16 and the starting-band 4c.
- a spark-gap (represented at 17,) the usual means of adjustment being supplied.
- the main variation illustrated in this figure as compared with that shown in Fig. 1 is that by reason of the presence of the spark-gap no eleetromotive force is applied at the starting-band until suflicient has accumulated to bridge the gap and apply to the starting-band a strain approximating down the reluctance at the electrode.
- a sudden rush of current of increased density may be applied at the startingband, and the time at which such application is made may be regulated by the adjustment of the spark-gap apparatus.
- Fig. 3 illustrates the phase relation of the eleetromotive forces just described in connection with Fig. 2, in which case 20 represents the phase of the main source of supply which is used for the device 1, and 21 represents the phase from which the primary9 of the exciting-transformer is supplied, and 22 represents the third phase of the three-phase supply-circuit, which in Fig. 2 has not been used.
- the eleetromotive forces which are applied to the starting-band or other part of the apparatus, as herein described, are not necessarily derived from the source of alternating currents through the action of a transformer; but such eleetromotive forces may be supplied from independent sources or-from the source leading to the terminals of the apparatus through other devices than ordinary transformers.
- a third or supplemental electrode instead of to the starting-band.
- a supplemental electrode is shown at 23 as being connected to one terminal of an autotransformer 24:, the other terminal of which is joined to the main 8.
- Fig. 5 illustrates still other means for producing a critical strain within the apparatus, such means consisting of a plate outside the wall of the container and a plate 31 on the inside thereof, the two plates with the intervening wall, which must be of insulating material, constituting a condenser.
- I may form on the inner plate 31 a projecting lug 32, provided with a point, as shown, to facilitate the discharge.
- the supplemental electrode 23 (shown in Fig. 4E) and the condenser constituted by the plates 30 and 31 on the opposite sides of the container-wall and the point 32, projecting inward from the plate 31, as shown in Fig. 5, constitute substitutes for or supplements to the starting-bands illustrated in Figs. 1 and 2. It is found that such supplemental devices serve, in connection with the apparatus de: scribed herein, to form a point at which a critical strain may be applied to the apparatus, tending to break down the negative-electrode resistance.
- the method of starting a gas or vapor electric apparatus in which the terminals are connected with a source of currents and auxiliary electrical energy is required for breaking down the reluctance to starting, which consists in applying to the terminals electromotive force from the source, thereby producing an electric strain at one of the electrodes, and increasing the strain to the critical point at a predetermined time during each alternation by applying an additional electromotive force.
- the method of starting agas or vapor electric apparatus in which the terminals are connected with a source of currents and auxiliary electrical energy is required for breaking down the reluctance to starting, which consists in applying to the terminals electromotive force from the source, thereby producing an electric'strain at one of the electrodes, and applying to the apparatus electromotive force having the relative time of critical strain predetermined by the magnitude of the first-named electromotive force.
- the method of starting agas or vapor electric apparatus in which the terminals are connected with a source of currents and a starting-band is placed near one of the elec trodes, which consists in applying to the term inals the electromotive force from the source, thereby producing an electric strain at the electrode in proximity to the starting-band, and applying to the starting-band electromotive force having the relative time of operative strain predetermined by the magnitude of the first-named electromotive force.
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Description
No 783,481. PATENTED FEB. 28, 1905. P. H'. THOMAS.
STARTING MEANS FOR GAS 0R VAPOR ELEGTRIG APPARATUS.
APPLICATION FILED FEB 3. i903.
2 BHBETS SHEET 1.
Wiinesses: IIZI/enifor I H- 'lkmau r i by PATENTED FEB. 28, 1905.
P. H. THOMAS. STARTING MEANS FOR GAS 0R VAPOR ELECTRIC APPARATUS.
APPLIOATION FILED FEB. 3.1903.
2 SHEETS-SHEBT 2.
all/Ill? 21/ l Wz'inesses:
Jhl'o. "reaaei.
NTTED STATES Patented February 28, 1905.
PERCY H. THOMAS, OF PITTSBURG, PENNSYLVANIA, ASSIGNOR TO COOPER HEWITT ELECTRIC COMPANY, A CORPORATION OF NEl/V YORK.
STAFlTlNG MEANS FOR GAS OR VAPOR ELECTFMC APPARATUS.
SPECIFICATION forming part of Letters Patent No. 783,481, dated February 28, 1905,
Application filed February 3, 1903- Serial No. 141,697.
To (tZZ whom it may concern.-
Be it known that I, PERCY H. THOMAS, a citizen of the United States, and a resident of Pittsburg, in the county of Allegheny and State of Pennsylvania, have invented certain new and useful Improvements in Starting Means for Gas or Vapor Electric Ap iiaratus, of which the following is a specification.
It has been proposed in connection with the gas or vapor electric apparatus invented by Peter Cooper Hewitt and described in one or more of its forms in certain Letters Patent of the United States issued to him on the 17th day of September, 1901, toutilize as a means I 5 for assisting in the starting of such apparatus what is called a starting-band, located on the outside of the containingtube in the neighborhood of one of the electrodes and connected by a wire with the side oi? the cir- 20 euit connected to the other electrode. in the operation of apparatus of this character it is found that there exists a reluctance to starting, this reluctance appearing particularly at the electrode which is for the time being the 2 5 negative electrode. When, therefore, current is applied to the terminals of the apparatus, there is created at or near such electrode a strain which is usually not overcome by the voltage which is afterward applied to the ep- 3 eration oi the apparatus. It appears, nevertheless, to be true that this strain tends toward a breaking down of the reluctance and that when a higher potential is applied in such a direction as to assist the strain this reluct- 55 ance may be broken down and the apparatus will then operate until a cessation of the current supervenes or a reversal of its direction. Means have already been devised for breaking down the reluctance and are now known 4 in the art.
When means are provided for breaking down the electrode reluctance. and for maintaining it in that condition, the apparatus will operate upon direct current during the continuance of such current, or in case an alternating current is applied to the terminals of the apparatus like phases will traverse the apparatus, while opposite phases will be suppressed, owing to the fact that the tendency of such phases to pass through the apparatus 5 is resisted by a reluctance at the opposite electrode, which then becomes the negative electrode with respect to the direction of the current.
The present invention aims to provide a simple starting means for apparatus of this class in which no extraordinary pressure is applied to the terminals of the apparatus, but in which an additional electromotive force is introduced through the walls of the appara- 6O tus by means of the starting-band or other suitable devices, whereby the strain at or near the electrode is increased to the breakingpoint and current is made to pass through the apparatus. This can be accomplished with 5 very little expenditure oi energy. Moreover, the time when the strain approximates the breaking-point ---that is to say, the point where it is adapted to break down the reluctance at the electrode can be predetermined by means 7 of my invention in such a manner that when the accumulated strain is reinforced by an impulse from the mains without any increase of electromotive force in the said mains the reluctance will be broken down and the apparatus started.
In carrying out the invention 1 may make use of a transformer the primary of which is connected between the mains of an alternating-current circuit leading to the terminals of 86 the apparatus and the secondary of which is connected between either of said mains and the starting-band.
In circuit with the primary 1 may place a resistance and an inductance, by means of 5 which the eli'ccts upon the secondary ot' the transformer are properly timed with relation to the electromotive force of the mains. It will be understood that other or ditlerent means may be used for securing the applica- 9 tion of the critical strain-from the secondary circuit at the proper moment of time with relation to the electromotivc force in the main circuit.
Any means for securing the desired relation between the time of the application of the critical strain and the phase of the electromotive force of the supply-circuit may be used without departing from the principle of the maximum strain required for breaking ployment of the invention in connection with l a three-phase source. Fig. 3 is a diagram of the eleetromotive forces of the three-phase supply-circuit, and Figs. a and 5 illustrate modifications.
Referring to the drawings, 1 is a suitable container, inclosing a conducting gas or vapor, which may be mercury-vapor. The electrodes appear at 2 and 3 and the starting-band at 4. The starting-band might be applied outside of the electrode 3 instead of where it is shown in the drawings, near the electrode 2.
At 5 and 6 are shown the lead-wires running through the walls of the container to the electrodes 2 and 3, respectively. To these electrodes are connected the mains 7 and 8, leading from an alternating-current source.
I connect in the circuit between the mains 7 and 8 the primary 9 of a transformer, and I may also connect in series with the said primary a resistance 10 and an inductance 11.
The secondary of the transformer is indi. cated at 12, and its terminals are connected through an adjustable switch 13 with starting-band Land the main 8. The wire connecting with the main 8 might be joined to the main 7 instead of 8, if for any reason it should be found desirable.
By the proper adjustment of the devices in the cross-circuit, which includes the primary 9, it is possible to accelerate in time the production in the circuit of the secondary 12 of an eleetromotive force approximating the breaking-point, and if this eleetromotive force be then reinforced by an impulse of proper direction from the mains and if this is caused to occur at the phase of the supply eleetromotive force at which it is desired to start the apparatus the operation will begin and continue until the direction of the current changes, and the operation will be repeated with each successive phase of the proper direction.
In Fig. 2, 13 represents a source of threephase alternating currents having the primary 9 connected between the coils 14: and 15 and the secondary 12 connected between the coils 16 and the starting-band 4c. In the circuit of the secondary 1 here introduce a spark-gap, (represented at 17,) the usual means of adjustment being supplied. The main variation illustrated in this figure as compared with that shown in Fig. 1 is that by reason of the presence of the spark-gap no eleetromotive force is applied at the starting-band until suflicient has accumulated to bridge the gap and apply to the starting-band a strain approximating down the reluctance at the electrode. By this means a sudden rush of current of increased density may be applied at the startingband, and the time at which such application is made may be regulated by the adjustment of the spark-gap apparatus.
Fig. 3 illustrates the phase relation of the eleetromotive forces just described in connection with Fig. 2, in which case 20 represents the phase of the main source of supply which is used for the device 1, and 21 represents the phase from which the primary9 of the exciting-transformer is supplied, and 22 represents the third phase of the three-phase supply-circuit, which in Fig. 2 has not been used.
The eleetromotive forces which are applied to the starting-band or other part of the apparatus, as herein described, are not necessarily derived from the source of alternating currents through the action of a transformer; but such eleetromotive forces may be supplied from independent sources or-from the source leading to the terminals of the apparatus through other devices than ordinary transformers.
Moreover, assuming the proper time relations between the eleetromotive forces of the supply-circuit and those applied to the apparatus through the transformer or through such othens'ources of eleetromotive force as are indicated in the preceding paragraph, the application of the eleetromotive forces adapted to produce a critical strain may be made, say, to a third or supplemental electrode instead of to the starting-band. This arrangement is illustrated in Fig. a, Where a supplemental electrode is shown at 23 as being connected to one terminal of an autotransformer 24:, the other terminal of which is joined to the main 8.
Fig. 5 illustrates still other means for producing a critical strain within the apparatus, such means consisting of a plate outside the wall of the container and a plate 31 on the inside thereof, the two plates with the intervening wall, which must be of insulating material, constituting a condenser. I may form on the inner plate 31 a projecting lug 32, provided with a point, as shown, to facilitate the discharge.
The supplemental electrode 23 (shown in Fig. 4E) and the condenser constituted by the plates 30 and 31 on the opposite sides of the container-wall and the point 32, projecting inward from the plate 31, as shown in Fig. 5, constitute substitutes for or supplements to the starting-bands illustrated in Figs. 1 and 2. It is found that such supplemental devices serve, in connection with the apparatus de: scribed herein, to form a point at which a critical strain may be applied to the apparatus, tending to break down the negative-electrode resistance.
in a divisional application, Serial No.
IIO
155,924, filed May 6, 1903, claims are made upon the apparatus described herein.
I claim as my invention 1. The method of starting a gas or vapor electric apparatus in which the terminals are connected with a source of currents and auxiliary electrical energy is required for breaking down the reluctance to starting, which consists in applying to the terminals electromotive force from the source, thereby producing an electric strain at one of the electrodes, and increasing the strain to the critical point at a predetermined time during each alternation by applying an additional electromotive force.
2. The method of starting a gas or vapor electric apparatus in which the terminals are connected with a source of currents and auxiliary electrical energy is required for breaking down the reluctance to starting, which consists in applying to the terminals electromotive force from the source, thereby producing an electric strain at one of the electrodes, and applying to the apparatus during each alternation electromotive forces havinga predetermined phase relation to the electromotive forces of the source.
3. The method of starting agas or vapor electric apparatus in which the terminals are connected with a source of currents and auxiliary electrical energy is required for breaking down the reluctance to starting, which consists in applying to the terminals electromotive force from the source, thereby producing an electric'strain at one of the electrodes, and applying to the apparatus electromotive force having the relative time of critical strain predetermined by the magnitude of the first-named electromotive force.
4. The method of starting a gas or vapor electric apparatus in which the terminals are connected with a source of currents and a starting-band is placed near one of the electrodes, which consists in applying to the terminals the electromotive force from the source, thereby producing an electric strain at the electrode in proximity to the starting-band, and applying to the starting-band electromotive forces having a predetermined phase relation to the electromotive forces of the source.
5. The method of starting agas or vapor electric apparatus in which the terminals are connected with a source of currents and a starting-band is placed near one of the elec trodes, which consists in applying to the term inals the electromotive force from the source, thereby producing an electric strain at the electrode in proximity to the starting-band, and applying to the starting-band electromotive force having the relative time of operative strain predetermined by the magnitude of the first-named electromotive force.
6. The method of starting a gas or vapor electric apparatus in which the terminals are connected with a source of currents and an auxiliary electromotive force is required for breaking down the reluctance to starting,
which consists in applying to the terminals electric energy from the source, thereby pro' ducing an electric strain at one of the electrodes, and suddenly applying to the apparatus energy accumulated by a dielectric.
Signed at New York, in the county of New York and State of New York, this 2d day of February, A. I). 1903.
PERCY H. THOMAS.
\Vitnesses:
WILLIAM H. Caren, GEORGE H. STooKnRiDen.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US14169703A US783481A (en) | 1903-02-03 | 1903-02-03 | Starting means for gas or vapor electric apparatus. |
US155924A US783480A (en) | 1903-02-03 | 1903-05-06 | Starting means for gas or vapor electric apparatus. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US14169703A US783481A (en) | 1903-02-03 | 1903-02-03 | Starting means for gas or vapor electric apparatus. |
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US783481A true US783481A (en) | 1905-02-28 |
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US14169703A Expired - Lifetime US783481A (en) | 1903-02-03 | 1903-02-03 | Starting means for gas or vapor electric apparatus. |
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1903
- 1903-02-03 US US14169703A patent/US783481A/en not_active Expired - Lifetime
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