US1429948A - Electrical apparatus - Google Patents

Electrical apparatus Download PDF

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Publication number
US1429948A
US1429948A US149013A US14901317A US1429948A US 1429948 A US1429948 A US 1429948A US 149013 A US149013 A US 149013A US 14901317 A US14901317 A US 14901317A US 1429948 A US1429948 A US 1429948A
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Prior art keywords
battery
voltage
switch
charge
latch
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Expired - Lifetime
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US149013A
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George E Hulse
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Safety Car Heating and Lighting Co
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Safety Car Heating and Lighting Co
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Priority to US149013A priority Critical patent/US1429948A/en
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • H02J7/0029Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with safety or protection devices or circuits
    • H02J7/0031Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with safety or protection devices or circuits using battery or load disconnect circuits

Definitions

  • This invention relates to electrical apparatus and with regard-to certain more specific features thereof, to electrical controlling and' protective apparatus.
  • One of the objects thereof is to provide apparatus of the above nature of sensitive and reliable action.
  • Anotherobject is to provide practical apparatus of the above nature of simple and inexpensive construction.
  • Another object is to provide apparatus of the above nature in which the parts dependably co-act and are yet capable of independent action.
  • Other objects will be in part obvious and in part pointed out hereinafter.
  • Figure 1 is a diagrammatic plan showing electrical circuits
  • Figure 2 is a diagrammatic view of mechanism showing a method of release
  • Figure 3 is a similar view showing the parts in another position; and a Figure 4 is a front elevation showing the parts in normal position.
  • a storage battery comprising the sections 1 and.2 connected in series as by the heavy conductors 3.
  • This battery is connected as a whole across the terminals of a generator 4 by the conductors 5, and 6, heavy conductors of the circuit being used to reduce the resistance and accordingly permit the use of extremely high charging currents.
  • heavy conductor 7 leads through a binding post 8 and thence to banks of lamps 9,
  • the lamps and battery may be connected in parallel across the source of current t, or when a stationary source of current such as a storage battery, for example, is employed in connection with an electric 1i hting system for railway cars, for which re ation this apparatus is peculiarly adapted, the lamps may be connected across the battery merely by closing the cutouts 10.
  • a voltage coil 18 the connection being made to one battery. lead by means of a conductor 19., and at the other end of the coil through a resistance member 20 of zero temperature co-eflicient and conductor 21 to the pivotal point 14, thence through conductor 15, binding post 16, and to the negative main 17.
  • the field of this coil will accordingly be substantially proportional to the voltage of the storage battery.
  • voltage type is connected with the battery lead 5 adjacent the source of charging current by means of the conductor 19.
  • the field of the coil 23 is substantially proportional battery and this voltage will vary in accordance with the rate at which the battery may be charged for a given state of charge of the battery itself. Thus, for example, should the battery be approximately fully charged, and should the charging rate be excessively high,
  • the voltage impressed across the battery in' order to maintain such an excessive charging rate will be much higher than the normal battery voltage for the assumed state of charge.
  • the coil 23, in responding to the voltage impressed across the battery, will thus be strongly energized when the charging rate of the battery is greatly above normal. When such a condition is reached, this magnet 23 acts as hereinafter described.
  • the voltage of the battery during discharge varies with the state of charge of the'battery and that, for example, when the battery reaches a state of low charge, the battery voltage falls rapidly; and when the discharge of the battery is carried on to a relatively excessive extent, the battery voltage will reach a value that is materially less than the average battery voltage.
  • the coil 18, being responsive to the voltage of the storage battery, is arranged to respond and to act in the manner hereinafter described when the battery voltage reaches a low value which corresponds to a state of low charge beyond which it becomes detrimental to discharge the battery to a further extent.
  • the swinging member is provided at its extreme end with a pin 30 preferably insulated therefrom, and interlockpin is a latch 31 having a hooked lower end 32 and ivotally mounted to swing about the axis
  • This latch is normally urged in the direction indicated by the arrow 34 by means of a spring 35, coiled about its plvot, and it is provided with the projecting lugs or arms 36 and 37, respectively f 11 disposed on opposite sides of its axis.
  • the coil 18 is mounted upon a suitable core 38 to which is secured a steel angle arm 39. Pivoted at the lower end of this arm at 40 is an armature 41 provided with a spring 42 tending to swing it out of engagement with the core 38, this spring being admeans of the nuts 43. If the field strength of the coil 18 fall beneath that re uired to maintain the armature 41 in position in opposition to the pull of the pring 4 hen the armature will S g downwardly as indicated in Figure 2 of the drawings, engaging the lug 37 of the latch 31, and swinging it into releasing position. This action will immediately result in the contact 13 being swung away from the contact 12 and the circuit between the storage battery and the lamps is thus interrupted irrespective of the position of the switches 10.
  • the field strength of the coil 18 depends on the voltage across the battery, and when the battery is discharged to such an extent that further discharge would be injurious, then the connection with the lamps or other current utilizing devices, is automatically broken and the battery thus protected from injury.
  • the coil 23 is mounted upon and serves to magnetize a core and angle arm similar to those of the magnet first described, the swingin armature in this case being shown at 44 an retracted by the adjustable spring 45.
  • This armature is normall held in retracted position as shown in Figure 4 of the drawings. but upon the strength of the magnet 23 increasing to a predetermined value, then the armature will be retracted as shown'in Figure 3 of the drawings, engaging and throwing upwardly the lug 36 of the latch 31. This action will also result in the opening of the lamp circuit, as indicated in Figure 3 of the drawings, and protect the lamps against injury which might result if they were continuously con nected while the battery was being charged at an extremely high rate.
  • a storage battery means adapted to charge said battery, current utilizing devices adapted to be connected to said battery, a switchfor connecting said devices to said battery, a mechanical means adapted -to-hold said switch closed, means adapted to operate said mechanical means to open said switch upon the voltage across said battery attaining a predetermined maximum value and resulting in an excessive charging current through said battery, and
  • a storage battery in a storage battery, means adapted to charge said battery, current utilizing devices, a switch for connecting said devices to said battery, a spring pressed mechanical device tending to hold said switch in closed position, electromagnetic means adapted to operate said springpressed mechanism to open said switch when the voltage of said storage battery reaches a 'redetermined maximum value correspondmg to an excessive charging current for a given state of charge of said battery, and
  • the hand grip 29 upwardly until it is electromagnetic means adapted to operate said spring pressed mechanism to open said switch when the voltage of said storage battery reaches a. predetermined minimum value corresponding to a predetermined low state of charge of said battery, the magnetic circuits of, said two electromagnetic means being independent of one another.
  • a storage battery means adapted to charge said battery, current utilizing devices a circuit connecting said devices and said battery and including a switch, means tending to move said switch into open position, a latch tending to hold said switch closed, electromagnetic means adapted to release said latch upon the voltage of said battery reaching a predetermined maximum value corresponding to an excessive charging current for a given state of charge of said battery, and independent electromagnetic means adapted to release said latch upon the volta e of said battery falilin below a certain va ue.
  • a storage battery means adapted to charge said battery, current utilizing devices, a circuit connecting said current utilizing devices with said battery and comprising a switch, means tending to open said switch, a latch tending to hold said switch in closed position, a pair of magnets, a pair of armatures respectively coacting with said magnets, one of said armatures being mounted to release said latch upon being attracted by its magnet and the other being mounted to release said latch upon being 'a given state of charge of said'battery and a winding forming part of the other of said magnets wound and connected to present a field substantially proportional to the voltage of said battery and adapted to respond toa predetermined low voltage of said battery corresponding to a predetermined minimum state of charge.
  • a stora e 7 battery means adapted to charge said attery, current utilizing devices, a circuit connecting said current utilizing devices with said battery and comprising a switch, means tending to open said switch, a latch tending to hold said switch in closed position, a pair of magnets, a pair of armatures respectively vcoacting with said magnets, one of said armatures being mounted to release said latch upon beingattracted by itsmagnet and the other being mounted to release said latch said windin being adapted to respond to an excessive y high voltage across said battery corresponding to an excessively high charging rate for a given state of charge of said battery and a Winding forming part of the other of said magnets wound and connected to present a field substantially proportional of the voltage of said battery,
  • the magnetic circuits of said magnets being substantially independent one from the 10 other.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)

Description

G. E.-HULSE.
ELECTRICAL APPARATUS. APPLICATION FILED FEB, 16 I917.
Patented Sept. 26, 1922.
2 SHEETSSHEET I.
BY AHJXVEY 1 G. E. HULSE.
ELECTRICAL APPARATUS. APPLICATION FILED FEB; 16. 1917.
1,429,948. Patented Sept. 26, 1922,
2 SHEETSSHEET 2.
INVENTOI? Ma a A FIG. 4
Patented- Sept. 26, 1922.
UNITED STATES PATENT OFFICE.
GEORGE E. HULSE, OF NEWARK, NEW JERSEY, ASSIGNOR 'IO SAFETY OAR HEATING & LIGHTING COMPANY, A CORPORATION OF NEW JERSEY.
ELECTRICAL APPARATUS.
Application filed February 16. 1917. Serial No. 149,018.
To all whom it may concern:
Be it known that I, GEORGE E. HULSE, a citizen of the United States, and a resident of Newark, in the county of Essex and State of New Jersey, have invented an Improvement in Electrical Apparatus, of which the following is a specification.
This invention relates to electrical apparatus and with regard-to certain more specific features thereof, to electrical controlling and' protective apparatus. One of the objects thereof is to provide apparatus of the above nature of sensitive and reliable action. Anotherobject is to provide practical apparatus of the above nature of simple and inexpensive construction. Another object is to provide apparatus of the above nature in which the parts dependably co-act and are yet capable of independent action. Other objects will be in part obvious and in part pointed out hereinafter.
The invention accordingly consists in the features of construction, combinations of elements and arrangement of parts which will be exemplified in the structure'hereinafter described and the scope of the application of which will be indicated in the following claims.
In the accompanying drawin s in which is shown one of various possi le embodiments of this invention,
. Figure 1 is a diagrammatic plan showing electrical circuits;
Figure 2 is a diagrammatic view of mechanism showing a method of release;
Figure 3 is a similar view showing the parts in another position; and a Figure 4 is a front elevation showing the parts in normal position.
Similar reference characters refer to similar parts throughout the several views of the drawings.
Referring now to Figure 10f the drawings, there is shown a storage battery comprising the sections 1 and.2 connected in series as by the heavy conductors 3. This battery is connected as a whole across the terminals of a generator 4 by the conductors 5, and 6, heavy conductors of the circuit being used to reduce the resistance and accordingly permit the use of extremely high charging currents.
From the positlve terminal of. the battery,
n. heavy conductor 7 leads through a binding post 8 and thence to banks of lamps 9,
to the voltage across the upon the switches or cut-outs 10 being closed. When these are closed, the circuit to the lamp is completed through a heavy conductor 11 leading to a fixed contact 12 which is 'mounted on the switchboard or panel hereinafter described, and with the parts in normal position, the circuit leads from the member 12 throughthe swinging contact 13 to its pivot 14 and thence through conductor 15, binding post'16 and conductor 17 to the negative lead of the battery. It
willthus be seen that the lamps and battery may be connected in parallel across the source of current t, or when a stationary source of current such as a storage battery, for example, is employed in connection with an electric 1i hting system for railway cars, for which re ation this apparatus is peculiarly adapted, the lamps may be connected across the battery merely by closing the cutouts 10.
This action assumes the closed position of the contact 13 and the controlling means for the latter member form a dominant portion of this invention. H
- Bridged across the battery is a voltage coil 18, the connection being made to one battery. lead by means of a conductor 19., and at the other end of the coil through a resistance member 20 of zero temperature co-eflicient and conductor 21 to the pivotal point 14, thence through conductor 15, binding post 16, and to the negative main 17. The field of this coil will accordingly be substantially proportional to the voltage of the storage battery. voltage type, is connected with the battery lead 5 adjacent the source of charging current by means of the conductor 19. The circuit from the opposite end of the coil 23 A; coil 23, also of the leads through conductor 24, resistance 25 of zero temperature co-eflicient, and conductor 26 to the conductor 17. The field of the coil 23 is substantially proportional battery and this voltage will vary in accordance with the rate at which the battery may be charged for a given state of charge of the battery itself. Thus, for example, should the battery be approximately fully charged, and should the charging rate be excessively high,
the voltage impressed across the battery in' order to maintain such an excessive charging rate will be much higher than the normal battery voltage for the assumed state of charge. The coil 23, in responding to the voltage impressed across the battery, will thus be strongly energized when the charging rate of the battery is greatly above normal. When such a condition is reached, this magnet 23 acts as hereinafter described.
It may also be noted at this point that the voltage of the battery during discharge varies with the state of charge of the'battery and that, for example, when the battery reaches a state of low charge, the battery voltage falls rapidly; and when the discharge of the battery is carried on to a relatively excessive extent, the battery voltage will reach a value that is materially less than the average battery voltage. The coil 18, being responsive to the voltage of the storage battery, is arranged to respond and to act in the manner hereinafter described when the battery voltage reaches a low value which corresponds to a state of low charge beyond which it becomes detrimental to discharge the battery to a further extent.
These coils 18 and 23 are mounted upon a suitable panel 27 which bears the switch mechanism hereinbefore described, and it may here be noted that the term switch is broadly used throughout to comprehend any equivalent type of apparatus. eferring now to Figure 4 of the drawings, it will be seen that the switch member 13, pivoted at 14 as hereinbefore described, is provided at the opposite end from the contact 12 with an extension 28 to which is secured a hand grip 29, either insulated therefrom or formed of insulating material.
. These parts are so proportioned that when free from restraint, the switch member 13 b tends to swing upwardly out-of contact with the member 12, as indicated in Figures 2 and 3 of the drawings; a spiral spring at the justable as by ing WIth this pivot being employed to quicken this action if desired. The swinging member is provided at its extreme end with a pin 30 preferably insulated therefrom, and interlockpin is a latch 31 having a hooked lower end 32 and ivotally mounted to swing about the axis This latch, the term being broadly used, is normally urged in the direction indicated by the arrow 34 by means of a spring 35, coiled about its plvot, and it is provided with the projecting lugs or arms 36 and 37, respectively f 11 disposed on opposite sides of its axis.
The coil 18 is mounted upon a suitable core 38 to which is secured a steel angle arm 39. Pivoted at the lower end of this arm at 40 is an armature 41 provided with a spring 42 tending to swing it out of engagement with the core 38, this spring being admeans of the nuts 43. If the field strength of the coil 18 fall beneath that re uired to maintain the armature 41 in position in opposition to the pull of the pring 4 hen the armature will S g downwardly as indicated in Figure 2 of the drawings, engaging the lug 37 of the latch 31, and swinging it into releasing position. This action will immediately result in the contact 13 being swung away from the contact 12 and the circuit between the storage battery and the lamps is thus interrupted irrespective of the position of the switches 10. As hereinbefore noted, the field strength of the coil 18 depends on the voltage across the battery, and when the battery is discharged to such an extent that further discharge would be injurious, then the connection with the lamps or other current utilizing devices, is automatically broken and the battery thus protected from injury.
The coil 23 is mounted upon and serves to magnetize a core and angle arm similar to those of the magnet first described, the swingin armature in this case being shown at 44 an retracted by the adjustable spring 45. This armature is normall held in retracted position as shown in Figure 4 of the drawings. but upon the strength of the magnet 23 increasing to a predetermined value, then the armature will be retracted as shown'in Figure 3 of the drawings, engaging and throwing upwardly the lug 36 of the latch 31. This action will also result in the opening of the lamp circuit, as indicated in Figure 3 of the drawings, and protect the lamps against injury which might result if they were continuously con nected while the battery was being charged at an extremely high rate. It will be understood that for a given state of charge of the battery the voltage impressed across the attery corresponding to an excessively high charging rate may assume such high values that the lamps 9 would be endan red, and that such a dangerously high v0 tage may be impressed across the battery at almost any state of charge of the battery when the charging rate reaches exceedingly high values. It is to guard a ainst such hi h voltages that the action ereinbefore escribed takes place. This method of battery charge is eculiarly adapted for use in connection with apparatus of the nature herein dealt with.
The operation of the above described apparatus may be briefly recapitulated as While the battery is being charged with the parts in their normal position indicated in Figure 4 of the drawings, the lamps may be freely used unless the charging rate rises to such an extent for a given state of charge of the battery that the corresponding voltage across the mains mi ht result in injury to the lamps. When this field strength of the magnet 23 is reached, it snaps the armature 44 upwardly as indicated in Figure 3 of the drawings, thus breakin the circuit leading to th lan ps. It may a so be noted th t this III protection is gained even though the excess of voltage across the mains is due to some cause other than that resulting from an excessive charging rate. In like manner, when the voltage of the battery in use drops down to such a point that further discharge would be harmful, at that point the field strength of the coil or magnet 18 becomes so weak that armature 41 is retracted by the spring 42, thus releasing the latch and opening the lamp circuit by swingin the parts into the osition indicated in igure 20f the drawings, as above described. This action is also independent of magnet 18, and
hence may be accurately predetermined. The
arts are readil reset by merely throwmg locked into position-by the latch which is assumed to have been set free, due to a return to normal conditions in the system. This, moreover, is achieved bythe simplest apparatus, and although the actions are independent, nevertheless one switch or cutout only is required.
It will thus be seen that there is rovided apparatus in which the several 0 jects-of this invention are achieved.
As various possible embodiments might be made of the above invention and as various changes might be made in the embodiment above set forth, it is to be understood'that all matter herein set forth or shown in the accompany ng drawings is. to be interpreted as illustrative and not in a limiting sense.
I claim as my invention:
1. In apparatus of the class described, in combination, a storage battery, means adapted to charge said battery, current utilizing devices adapted to be connected to said battery, a switchfor connecting said devices to said battery, a mechanical means adapted -to-hold said switch closed, means adapted to operate said mechanical means to open said switch upon the voltage across said battery attaining a predetermined maximum value and resulting in an excessive charging current through said battery, and
means independent of said charging current adapted to operate said mechanical means to open said switch upon the voltage of said battery falling below a predetermined value.
' 2. In apparatus of the class described, in a storage battery, means adapted to charge said battery, current utilizing devices, a switch for connecting said devices to said battery, a spring pressed mechanical device tending to hold said switch in closed position, electromagnetic means adapted to operate said springpressed mechanism to open said switch when the voltage of said storage battery reaches a 'redetermined maximum value correspondmg to an excessive charging current for a given state of charge of said battery, and
the hand grip 29 upwardly until it is electromagnetic means adapted to operate said spring pressed mechanism to open said switch when the voltage of said storage battery reaches a. predetermined minimum value corresponding to a predetermined low state of charge of said battery, the magnetic circuits of, said two electromagnetic means being independent of one another.
3. In apparatus of the class described, in combination, a storage battery, means adapted to charge said battery, current utilizing devices a circuit connecting said devices and said battery and including a switch, means tending to move said switch into open position, a latch tending to hold said switch closed, electromagnetic means adapted to release said latch upon the voltage of said battery reaching a predetermined maximum value corresponding to an excessive charging current for a given state of charge of said battery, and independent electromagnetic means adapted to release said latch upon the volta e of said battery falilin below a certain va ue.
4. I n apparatus of the class described, in combination, a storage battery, means adapted to charge said battery, current utilizing devices, a circuit connecting said current utilizing devices with said battery and comprising a switch, means tending to open said switch, a latch tending to hold said switch in closed position, a pair of magnets, a pair of armatures respectively coacting with said magnets, one of said armatures being mounted to release said latch upon being attracted by its magnet and the other being mounted to release said latch upon being 'a given state of charge of said'battery and a winding forming part of the other of said magnets wound and connected to present a field substantially proportional to the voltage of said battery and adapted to respond toa predetermined low voltage of said battery corresponding to a predetermined minimum state of charge.
5; In apparatus of the class described, in combination, a stora e 7 battery, means adapted to charge said attery, current utilizing devices, a circuit connecting said current utilizing devices with said battery and comprising a switch, means tending to open said switch, a latch tending to hold said switch in closed position, a pair of magnets, a pair of armatures respectively vcoacting with said magnets, one of said armatures being mounted to release said latch upon beingattracted by itsmagnet and the other being mounted to release said latch said windin being adapted to respond to an excessive y high voltage across said battery corresponding to an excessively high charging rate for a given state of charge of said battery and a Winding forming part of the other of said magnets wound and connected to present a field substantially proportional of the voltage of said battery,
the magnetic circuits of said magnets being substantially independent one from the 10 other.
In testimony whereof, I have signed my name to this specification this 14th day of February, 1917.
GEORGE E. HULSE.
US149013A 1917-02-16 1917-02-16 Electrical apparatus Expired - Lifetime US1429948A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2916583A (en) * 1958-01-20 1959-12-08 Marco Ind Company Latching relay
US3076074A (en) * 1959-01-23 1963-01-29 Clark Controller Co Mechanically latched device
US3189708A (en) * 1963-03-28 1965-06-15 Gen Electric Electric circuit recloser
US3376525A (en) * 1964-07-09 1968-04-02 Mc Graw Edison Co Repeating circuit interrupter
US3417307A (en) * 1966-02-14 1968-12-17 Sonotone Corp Battery charging and discharging control system

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2916583A (en) * 1958-01-20 1959-12-08 Marco Ind Company Latching relay
US3076074A (en) * 1959-01-23 1963-01-29 Clark Controller Co Mechanically latched device
US3189708A (en) * 1963-03-28 1965-06-15 Gen Electric Electric circuit recloser
US3376525A (en) * 1964-07-09 1968-04-02 Mc Graw Edison Co Repeating circuit interrupter
US3417307A (en) * 1966-02-14 1968-12-17 Sonotone Corp Battery charging and discharging control system

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