US438870A - Island - Google Patents

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US438870A
US438870A US438870DA US438870A US 438870 A US438870 A US 438870A US 438870D A US438870D A US 438870DA US 438870 A US438870 A US 438870A
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Prior art keywords
carriage
rail
magnet
sections
brackets
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Expired - Lifetime
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K41/00Propulsion systems in which a rigid body is moved along a path due to dynamo-electric interaction between the body and a magnetic field travelling along the path
    • H02K41/02Linear motors; Sectional motors
    • H02K41/03Synchronous motors; Motors moving step by step; Reluctance motors

Definitions

  • This invention has reference to an improved device for transmitting articles by electromagnetic force; and it consists in a receptacle provided with two or more electromagnets, a contact rod or rail having alternate insulated sections connected with one arm of the circuit, a rail forming the other arm of the circuit orthe ground, and a series of attracting-plates, as will be more fully set forth hereinafter.
  • Figure 1 is a side view of my improved magneto-electric transmitter. Parts of the curved plates are broken away to show the marriage more clearly.
  • Fig. 2 is a sectional view ot'the rear part of the carriage and the track.
  • Fig. 3 is a cross-section of the device. Similar numbers of reference indicate corresponding, parts in all the figures.
  • the numberfi indicates the body of the carriage, made in tubular form of any suitable non-magnetic material.
  • the metal brackets 6 are secured, and in these brackets the wheels 7 are journaled.
  • the wheels 7 run on the metallic rail 8,securcd to the longitudinal sill 9.
  • the brackets 10 are secured, and in these brackets 10 the wheels 11 are journaled.
  • the brackets 10 are insulated from the brackets 6 by inter-posing any good insulating material 12 between the brackets, as is shown in Figs. 1 and 2.
  • the wheels 11 run on the rail 13, secured to the upper girder 14. (For the purpose of this specification the sill 0 and girder 14 are considered as made of wood.)
  • the rail 13 is formed of alternate sections of electrically conducting and non-conducting material.
  • the non-conducting material 15 is indicated in solid black, and the conducting-sections 16 by the white space between the two edge lines.
  • the conducting or metallic sections 16 are connected by short conductor-wires with the main conductor-wire 17, which forms one arm of an electric circuit. It is connected at one end with a dynamo 01' other source of electric energy and extends the wlole length of the transmitting device.
  • the sill 9 and girder 14 are connected at intervals by the curved plates 18, which are firmlysecured at their ends by bolts extending through the sill and the girder and through the ends of the two opposite plates 18, so as to form a space of circular or approximately circular cross-section between the two plates, through which the carriage may pass.
  • the plates 18 are made of iron.
  • the soft-iron tubular cores of the magnets 19 Surrounding the tubular carriage 5 are the soft-iron tubular cores of the magnets 19. One end of'the wire of the spool of each magnet is connected with the spring-wiper 20, secured to-and insulated from the carriage 5, justin front of the attractiveend of the magnet-core, and the other end of the wire of the spool of each of the magnets is connected with the wire 21, which ends in and connects with the bracket (3 and through the wheel 7 with therail 8.
  • the relative positions of the spring-wipers .and the alternate sections of the rail 13 are such that at the instant when one wiper passes off from one contact-plate 16 another wiper is in contact with another contact plate or section 16.
  • the superstructure consisting of the sill 9, the girder 14, the curved plates 18,- the rail 13, having a succession of contact-sections 16 and insulated sections 15, the conductor 17, connected with adynanio, and the rail 8, connected with the negative pole of a dynamo or at intervals with the ground, erected from any point to any other point of greater or less distance, forms a path for the carriage 5, which, being provided with a door or opening 23, is filled with such articles as are to be sent'from one end of the structure to the other.
  • the insulated portion 15 of the rail 13 extends for a distance equal to the whole length of the carriage. -When now the carriage is moved. into the position shown in Fig. 1, the first SEARCH Roe...
  • the magnet will be energized and the iron core of the magnet will be drawn forward to the two opposite curved plates 1 8, immediately in front of the magnet,
  • the wiper 20 of the second magnet Before the center of the first magnet is opposite the center of the curved plates 18 the wiper 20 of the second magnet has made contact with the contactsection 16.
  • the second magnet is energized and draws itself and the carriage into or between the two curved plates 18, immediately in front of its attractive pole, and so on with the third or any number of magnets forming part of the carriage.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Electromagnetism (AREA)
  • Power Engineering (AREA)
  • Linear Motors (AREA)
  • Toys (AREA)

Description

aim-'12: v
FIE-8502 QR 453M870 UTED FOR MICSINE 626W SEARCH R365 (No Model.)
' A. E. TODD. 4 i MAGNETO ELECTRIC TRANSMITTER. No. 438,870. Patented Oct. 2 1. 1890.
SUBSTITUTED TOR .CIZ'SZHG curt UNITED STATES PATENT OFFICE.
ARCIIIBALD E. TODD, Oh PROVIDENCE, RHODE ISLAND.
MAGNETO-ELECTRTO TRANSMITTER.
SPECIFICATION forming part-of Letters Patent N 0. 438,870, dated October 21, 1e51,. Application filed Jnly28, 1890. Serial No. 359,602] (lib model.)
all whom it may concern.-
Beitknown that I, ARCHIBALD E. TODD, of the city of Providence, county of Providence, and State of Rhode Island, have invented a new and useful Improvement in Magneto- Electric Transmitters; and I hereby declare that the following is a full, clear, and exact description oft-he same, reference being had to-the accompanying drawings, forming pdrt of this specification.
This invention has reference to an improved device for transmitting articles by electromagnetic force; and it consists in a receptacle provided with two or more electromagnets, a contact rod or rail having alternate insulated sections connected with one arm of the circuit, a rail forming the other arm of the circuit orthe ground, and a series of attracting-plates, as will be more fully set forth hereinafter.
Figure 1 is a side view of my improved magneto-electric transmitter. Parts of the curved plates are broken away to show the marriage more clearly. Fig. 2 is a sectional view ot'the rear part of the carriage and the track. Fig. 3 is a cross-section of the device. Similar numbers of reference indicate corresponding, parts in all the figures.
In the drawings,the numberfi indicates the body of the carriage, made in tubular form of any suitable non-magnetic material. On each end of the body of the carriage 5 the metal brackets 6 are secured, and in these brackets the wheels 7 are journaled. The wheels 7 run on the metallic rail 8,securcd to the longitudinal sill 9.
To the brackets 6 the brackets 10 are secured, and in these brackets 10 the wheels 11 are journaled. The brackets 10 are insulated from the brackets 6 by inter-posing any good insulating material 12 between the brackets, as is shown in Figs. 1 and 2. The wheels 11 run on the rail 13, secured to the upper girder 14. (For the purpose of this specification the sill 0 and girder 14 are considered as made of wood.) The rail 13 is formed of alternate sections of electrically conducting and non-conducting material. The non-conducting material 15 is indicated in solid black, and the conducting-sections 16 by the white space between the two edge lines. The conducting or metallic sections 16 are connected by short conductor-wires with the main conductor-wire 17, which forms one arm of an electric circuit. It is connected at one end with a dynamo 01' other source of electric energy and extends the wlole length of the transmitting device.
The sill 9 and girder 14 are connected at intervals by the curved plates 18, which are firmlysecured at their ends by bolts extending through the sill and the girder and through the ends of the two opposite plates 18, so as to form a space of circular or approximately circular cross-section between the two plates, through which the carriage may pass. The plates 18 are made of iron.
Surrounding the tubular carriage 5 are the soft-iron tubular cores of the magnets 19. One end of'the wire of the spool of each magnet is connected with the spring-wiper 20, secured to-and insulated from the carriage 5, justin front of the attractiveend of the magnet-core, and the other end of the wire of the spool of each of the magnets is connected with the wire 21, which ends in and connects with the bracket (3 and through the wheel 7 with therail 8.
The relative positions of the spring-wipers .and the alternate sections of the rail 13 are such that at the instant when one wiper passes off from one contact-plate 16 another wiper is in contact with another contact plate or section 16.
' To enable others skilled in the art to use my invention, I will now describe the operation of the device more fully.
The superstructure, consisting of the sill 9, the girder 14, the curved plates 18,- the rail 13, having a succession of contact-sections 16 and insulated sections 15, the conductor 17, connected with adynanio, and the rail 8, connected with the negative pole of a dynamo or at intervals with the ground, erected from any point to any other point of greater or less distance, forms a path for the carriage 5, which, being provided with a door or opening 23, is filled with such articles as are to be sent'from one end of the structure to the other. At the entrance of the structure the insulated portion 15 of the rail 13 extends for a distance equal to the whole length of the carriage. -When now the carriage is moved. into the position shown in Fig. 1, the first SEARCH Roe...
5 magnet 19, thcwire 2], the bracket 6, and
wheel 7 to the rail 8, the magnet will be energized and the iron core of the magnet will be drawn forward to the two opposite curved plates 1 8, immediately in front of the magnet,
10 and the carriage 5 will roll forward on therail 8, being steadied by the wheels 11, running on the rail 13. Before the center of the first magnet is opposite the center of the curved plates 18 the wiper 20 of the second magnet has made contact with the contactsection 16. The second magnet is energized and draws itself and the carriage into or between the two curved plates 18, immediately in front of its attractive pole, and so on with the third or any number of magnets forming part of the carriage.
Having thus described my invcntion,l claim as new and desire to secure by Letters Patent 1. The combination, with the sill 9, the girder 14, the rail 13, conductor-wire 17, contact-sections 16, the rail'8, and the curved plates 18, of the carriage 5, the magnets 19, the brackets 6 and 10, wheels 7 and 11, the wipers 20, connected with the wire of the magnets, and the wire 21, connecting the wire of the magnets with the rail 8, as described.
2. The combination, with atrack and a series of iron plates forming a succession of sections of practically tubular cross-section, of a tubular carriage surrounded by two or more magnets, each magnet provided with a wiper and connected with the track through the running-gear of the carriage, and a conductor connected with a dynamo and at successive intervals witlreontact-sections swept by the wipers, constructed to energize the magnets successively, as described.
ABCIIIBALD E. TODD.
Witnesses:
" J. A. MILLER, Jr.,
M. F. BLIuH.
US438870D Island Expired - Lifetime US438870A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2717981A (en) * 1952-07-09 1955-09-13 Apstein Maurice Magnetostriction traveling-wave transducers
US4015540A (en) * 1975-05-01 1977-04-05 The Port Authority Of N.Y. & N.J. Electromagnetic transportation system

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2717981A (en) * 1952-07-09 1955-09-13 Apstein Maurice Magnetostriction traveling-wave transducers
US4015540A (en) * 1975-05-01 1977-04-05 The Port Authority Of N.Y. & N.J. Electromagnetic transportation system

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