US619735A - Multiple-rate electric meter - Google Patents

Multiple-rate electric meter Download PDF

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US619735A
US619735A US619735DA US619735A US 619735 A US619735 A US 619735A US 619735D A US619735D A US 619735DA US 619735 A US619735 A US 619735A
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worm
rate
wheel
registering
train
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R15/00Details of measuring arrangements of the types provided for in groups G01R17/00 - G01R29/00, G01R33/00 - G01R33/26 or G01R35/00
    • G01R15/08Circuits for altering the measuring range
    • G01R15/09Autoranging circuits

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  • My present invention relates to electric meters, and particularly to the type known as multiple-rate motor-meters, by means of which it is possible to supply electrical energy at different times of the day at different rates-such; for example, as charging a less rate for energy used during the day or periods when the load of the central station is very light and charging more or the normal rate during the evening when the centralstation load is heavy.
  • Figure 1 is a front elevation showing the motor part of the meter and the arrangement by means of which the double-rate registration is operated on a two-wire system.
  • Fig. 2 is also a front elevation of a three-wire meter, showing the double-rate registering-train and the manner in which the worm-wheels are operated.
  • Fig. 3 is a view of the double-rate mechanism proper, showing its construction in detail.
  • the principal elements entering into the construction of my invention are a motor, a special registering train with two wormwheels, and means for electromagnetically operating the said registering-train by means of suitable electromagnets contained within the meter and controlled by a simple switch at a distance-usually at the central station.
  • a commutated motor-meter of the ordinary type in which there are two series field-coils 6 and 6, that carry the main current supplying the translating devices 5.
  • the armature 7 is connected in multiple to the leads 3 and 4 by the connecting-wires 11 and 12.
  • a non-inductive resistance 13 is used in series with the armature to reduce the current in the usual manner.
  • the brushes 10 and commutator 9 are shown.
  • the spindle 8, which carries the armature, also carries two worms 32 and 33, the upper of which is a right-handed and the lower a left-handed worm.
  • the upper end of the spindle 8 is held in position by an adjustable screw 28 and its support 29, the latter part being screwed to the back frame of the registering-train 14.
  • an adjustable screw 28 and its support 29 At two diametric points of the spindle and placed in the registering mechanism are two worm-wheels secured to a movable lever 39, which is connected to a movable bar 38, placed at the back of the train of gears.
  • These worm-wheels are numbered, respectively, 35 and 36, and of which the upper one, 35, is right-handed and;
  • the object of having one of the worms and its connecting-wheel right-handed and the other worm with its connectin'g wheel lefthanded is to enable both the registering-train and the spindle to have a constant direction ofrotation and operation as follows: If we assumethat the direction of rotation of the armature and spindle is counter-clockwise when looking down upon them from the top of the meter, the worm-wheel, Fig. 2, will also travel counter-clockwise,thereby causing the intermediate gear-wheel 34 to move clockwise, and since the said wheel 34 is the one that actuates the remaining wheels of the. registering-train it must always rotate in the same direction- 6. e., clockwise. Now if the lever-bar 38 is moved to the right, Fig. 3, the worm-wheel 35 is disengaged from its worm 32 and the worm-wheel 36 engages with the worm 33, when the said worm-wheel 36 will also revolve in a counter-clockwise direction;
  • the bar 38 is moved to the left and the worm 32 is engaged with the worm-wheel 35, and when the hour arrives for making the normal rate of charge the bar 38 is moved to the right.
  • the operation must of course be conducted from the central station, where asuitable and simple switch B is located and which consists of a series of contacts 20, 21, 22, and 23 and a contact-bar 27. If it is the early morning hours and the cheaper rate is in. operation, the switch-ham establishes a current from.
  • the diameter and number of. teeth on theworm-wheels may be changed to suit any requirement without altering the mechanism proper of the registering-train.
  • a registering mechanism comprising a train of gearwheels and two worm-wheels and means for connecting or meshing either of the said worms with its respective worm-wheel as and forthe purpose herein set forth.
  • a multiple-rate motor-meter the combination of a motor, two Worms driven by said motor, two worm-wheels driven by said two worms, a registering-train, and means whereby the said registering-train may be driven worm, a right-hand worm-wheel, a left-hand worm, a left-hand worm-wheel, a movable 1ever carrying the said right and left hand Worm-wheels, and means for meshing separately either the said right-hand worm-wheel with the said right-hand worm or the said left-hand worm-wheel with the saidleft-hand worm, all as herein set forth.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Measurement Of Unknown Time Intervals (AREA)

Description

No. 6I9,735. Patented Feb. 2|, I899.
T. DUNCAN.
MULTIPLE .RATE I ELECTRIC METER.
(Application filed June 11, 1898.) {No Model.) 2 Shuts-Sheet I.
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No. 6l9,735.
Patented Feb. 2|, I899. T. DUNCAN.,
MULTIPLE BATE ELECTRIC METER.
(Application filed June 11, 1898.)
(N0 Model.)
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UNITED STATES,
PATENT OFFICE.
THOMAS DUNCAN, OF FORT WAYNE, INDIANA.
MULTIPLE-RATE ELECTRIC METER.
SPECIFICATION forming part of Letters Patent No. 619,735, dated February 21, 1899.
Application filed June 1 1, 1 398- To all whom it may concern.-
Be it known that I, THOMAS DUNCAN, a citizen of the United States, residing at Fort Wayne, in the county of Allen and State of Indiana, have invented certain new and useful Improvements in Multiple-Rate Electric Meters, of which the following is a full, clear, and exact description, which will enable others skilledin the art to which it appertains to make and use the same.
My present invention relates to electric meters, and particularly to the type known as multiple-rate motor-meters, by means of which it is possible to supply electrical energy at different times of the day at different rates-such; for example, as charging a less rate for energy used during the day or periods when the load of the central station is very light and charging more or the normal rate during the evening when the centralstation load is heavy.
It is a fact that the earnings of a central station can be very materially increased if a demand for energy during the early morning and daylight hours can be created, thereby permitting the generators to be kept in operation and not allowed to stand idle during the major portion of the day. This demand can only be obtained by having a double or multiple system of metering, whereby a cheaper rate can be given during the early morning hours, thereby oflering an inducement to multiply the application and use of electrical energy which in the absence of the cheaper rate would be very hard to introduce on a practical and successful basis. In doing this it becomes necessary to have a system of metering whereby the lower rate and its hours of use and the amount of energy consumed during this period can be integrated separately from the higher or normal rate and the amount of energy consumed during its period of registration. For the purpose of accomplishing this is the object of the present invention.
I am aware that a number of methods have been invented to supply this needviz., by introducing a resistance into the armaturecircuit of the motor and reducing the torque during the period of the day assigned for the lower rating; by employing a variable damping or retarding mechanism; by using two Serial No- 683,161. (No model.)
separate registering trains, which represent the high or normal and the lower rate, respectivel y, and each being brought into meshing contact with the motor-spindle when its proper time arrives, and by the use of a single framework consisting of two registeringtrain outfits, one of which is continuously meshed with the spindle, while the other is operated only at such intervals as when the meter is measuring the energy during the reduced-rate hours.
In the present invention it is my purpose to simplify upon the foregoing methods, and in so doing I have herein shown a method which consists only of a single registeringtrain with two worm-wheels and which cooperate with two worms upon the motor-spindle.
In the drawings accompanying this, speci- M fication and in which similar letters and numerals refer to like parts throughout, Figure 1 is a front elevation showing the motor part of the meter and the arrangement by means of which the double-rate registration is operated on a two-wire system. Fig. 2 is also a front elevation of a three-wire meter, showing the double-rate registering-train and the manner in which the worm-wheels are operated. Fig. 3 is a view of the double-rate mechanism proper, showing its construction in detail.
The principal elements entering into the construction of my invention are a motor, a special registering train with two wormwheels, and means for electromagnetically operating the said registering-train by means of suitable electromagnets contained within the meter and controlled by a simple switch at a distance-usually at the central station.
In describing my invention with reference to Fig. 2 it is to be understood that the generators 2 and the switch B are located at the central station, while the leads 3, 4, 19, and 37 represent the necessary conducting or distributing wires of the system.
In applying the present improvement I have shown a commutated motor-meter of the ordinary type, in which there are two series field- coils 6 and 6, that carry the main current supplying the translating devices 5. The armature 7 is connected in multiple to the leads 3 and 4 by the connecting- wires 11 and 12. A non-inductive resistance 13 is used in series with the armature to reduce the current in the usual manner. To produce the proper commutation, the brushes 10 and commutator 9 are shown. The spindle 8, which carries the armature, also carries two worms 32 and 33, the upper of which is a right-handed and the lower a left-handed worm. The upper end of the spindle 8 is held in position by an adjustable screw 28 and its support 29, the latter part being screwed to the back frame of the registering-train 14. At two diametric points of the spindle and placed in the registering mechanism are two worm-wheels secured to a movable lever 39, which is connected to a movable bar 38, placed at the back of the train of gears. These worm-wheels are numbered, respectively, 35 and 36, and of which the upper one, 35, is right-handed and;
meshes with the right-handed worm 32 when the lever-bar 38 is moved to the left, so as to make the worm 32 and worm-wheel 35 mesh. 1 In like manner the worm-wheel 36 is cut to mesh with the left-handed worm 33. The lever 39 is suspended at the hole 40 andthe setscrew 42 and is moved laterally by being connected to the bar 38 at the point 41. From the foregoing it is obvious that if the bar 38 is moved to the left-hand side it will draw the worm-wheel 36 from the worm 33.
place. I
The object of having one of the worms and its connecting-wheel right-handed and the other worm with its connectin'g wheel lefthanded is to enable both the registering-train and the spindle to have a constant direction ofrotation and operation as follows: If we assumethat the direction of rotation of the armature and spindle is counter-clockwise when looking down upon them from the top of the meter, the worm-wheel, Fig. 2, will also travel counter-clockwise,thereby causing the intermediate gear-wheel 34 to move clockwise, and since the said wheel 34 is the one that actuates the remaining wheels of the. registering-train it must always rotate in the same direction- 6. e., clockwise. Now ifthe lever-bar 38 is moved to the right, Fig. 3, the worm-wheel 35 is disengaged from its worm 32 and the worm-wheel 36 engages with the worm 33, when the said worm-wheel 36 will also revolve in a counter-clockwise direction;
thereby revolving the intermediate wheel 34 in a clockwise directionas required. If the worm- wheels 35 and 36 have the same nu mber of teeth, then both will drive the registering-l large whee135 is meshing with the worm 32 the amount being registered will be exactly one-half of what it would be if the wheel 36 wheel 35. p, normal rate, the switch-handle and contacthad been meshing with the worm 33 and the speed of the motor the same in both cases. Hence if in the idle hours of the day the rate for energy is only one-half of what it is normally, or in the evening, the bar 38 is moved to the left and the worm 32 is engaged with the worm-wheel 35, and when the hour arrives for making the normal rate of charge the bar 38 is moved to the right. The operation must of course be conducted from the central station, where asuitable and simple switch B is located and which consists of a series of contacts 20, 21, 22, and 23 and a contact-bar 27. If it is the early morning hours and the cheaper rate is in. operation, the switch-ham establishes a current from. the terminal of 2 up by the wire 17 through the electromagnet .16 and by means of the wire 26 and the grounded connectionG 2.back to the generator by way of the earth, G 24, 23, 27, 22, 25, and 4. By doingthis theelectromagnet 16 attracts the iron pole-piece 30 of the bar 38 andcauses theworm 32 to mesh with the When the time arrives for. the
bar 27 are closed down upon the . contacts 20 and 21, and the current starts from the-lterminal of .2, and along 3 17 18, through 15 .and by the wire 19 tothe switchvcontact. 20,
when it completes its course orcircuit through 27, 21, 25, and 4. In this operation the polepiece 31 will be attracted by the electromagnet 15 and the bar 38will be moved tothe right, thereby meshing the wheel 36 with the worm 33, as shown'in Fig. 3.
B y the foregoing arrangement I am enabled to operate a single orany number. of doublerate meters from a central pointby the use of a single registering-train with two wormwheels in cooperative relation with two worms upon the motor-spindle,
For difierentrates the diameter and number of. teeth on theworm-wheels may be changed to suit any requirement without altering the mechanism proper of the registering-train.
What I desire to secure by Letters Patent 1. In a multiple-rate system of metering, the combination with the armature of a motormeter, of a spindle carrying or supporting the said armature, a right-handed Worm,a lefthanded worm, and aregistering mechanism operated by the said worms, as set forth.
2. In a multiple-rate system of metering the combination with the revoluble spindle of a motor-meter, of a right-hand worm, a left-hand worm, both. of saidworms being se cured to and revoluble with the said spindle, a registering mechanism comprising a train of gearwheels and two worm-wheels and means for connecting or meshing either of the said worms with its respective worm-wheel as and forthe purpose herein set forth. e
3. In a system of multiple-rate metering the combination of a motor-meter, a source of currentsupply, service-leads carrying said supply, a registering-train operated by the said motor-meter, a single-pole double-throw switchB having one of its contact-points connected with the earth, and means for electromagnetically controlling the operation of the said registering-train with the said switch B, as set forth.
4. In a system of multiple-rate metering the combination with a motor of a registering-train, of an electromagnet 15, an electromagnet 16, a single-pole double-throw switch for energizing the said electromagnets', and a connecting-bar 38 provided with an iron pole at each end and in cooperative relation with the said electromagnets and the said registering-train.
5. In a multiple-rate motor-meter the combination of a motor, two Worms driven by said motor, two worm-wheels driven by said two worms, a registering-train, and means whereby the said registering-train may be driven worm, a right-hand worm-wheel, a left-hand worm, a left-hand worm-wheel, a movable 1ever carrying the said right and left hand Worm-wheels, and means for meshing separately either the said right-hand worm-wheel with the said right-hand worm or the said left-hand worm-wheel with the saidleft-hand worm, all as herein set forth.
In testimony that the foregoing is my invention I have affixed my signature, in the presence of two subscribing witnesses, at Fort Wayne, Indiana, this 1st day of J nne, 1898.
THOMAS DUNCAN.
Witnesses:
JOHN E. DALTON, WILLIAM CUMMINGS;
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4587814A (en) * 1984-06-08 1986-05-13 Designs Unlimited, Inc. Mechanical security device
US20040137135A1 (en) * 2000-08-16 2004-07-15 Geoffrey Margolis Method and system for producing a dehydrated whole food product

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4587814A (en) * 1984-06-08 1986-05-13 Designs Unlimited, Inc. Mechanical security device
US20040137135A1 (en) * 2000-08-16 2004-07-15 Geoffrey Margolis Method and system for producing a dehydrated whole food product

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