US855966A

US855966A - Electric signaling device.

Info

Publication number: US855966A
Application number: US33300306A
Authority: US
Inventors: Edward L Orcutt
Original assignee: RAILWAY SAFETY SIGNAL Co
Current assignee: RAILWAY SAFETY SIGNAL Co
Priority date: 1906-09-01
Filing date: 1906-09-01
Publication date: 1907-06-04
Anticipated expiration: 1924-06-04

Description

PATENTED JUNE 4, 1907., E. L. ORGUTT. ELECTRIC SIGNALING DEVICE.

APPLIGATION FILED SEPT. 1. 1906.

WITNESSESN I INVENTOR' 444:2 ATTORNEY- UNITED STATES PATENT OFFICE.

EDWARD L. on 'UTT, on NEW YORK, N. r, ASSIGNOR TO RAILWAY SAFETY SIGNAL COMPANY, A CORPORATION OF .NEW JERSEY.

ELECTRIC SIGNALING DEVICE.

Patented June 4, 1907.

Application filed September 1,1906. Serial No., 383,003.

To all whom it may concern:

Be it known that I, EDWARD L. ORCUTT, a citizen of the United States, and a resident of the borough of Manhattan, in the county, city, and State of New York, have invented certain new and useful Improvements in Electric Signaling Devices for Railways, of which the following isa specification.

This invention relates to electric signaling systems for railways; I

It seeks to provide an efficient, economical and reliable system and also one in which both track signals and cab or train signals may be utilized. The track signals are arranged in blocks along the track.

The invention also seeks to provide an efficient, reliable and economical arrangementby means of which the brakes may be a plied to stop the train when the block about to be entered is dangerous or occupied by a preceding train. I

In the accompanying drawings forming part of this specification, and in which like numerals indicate corresponding parts in the several figures, Figure 1 1s a diagram embodying the invention and showm a mto blocks of which rails 1 and 3 single track signal for the block; Fig. 2 1s a similar view showing a plurality of track signals for a block and associated mean's on the train for stopping the train; and Fig. 3 is a diagrammatic representation of a rotary transformer or motor dynamo which may be used in place of the stationary transformer shown in Figs. 1 and 2.

Referring now to the dra and more particularly to F g. 1, the trac is divided belong to the second block, and rails 1 and 4 belong to the third block. Rails 2, 3, 4, etc. are insulated from each other. Rail 1 may, as shown, be electrically continuous through the several blocks. 5 and 6 are two separate track contacts associated with the block to which the rails l and 3 belong. These

track contacts

5 and 6 consist of suitable electric conductors which extend along the track for a suitable distance immediately in advance of the block to which they belong. They are preferably formed of rails fixed on the road-bed. Track contact 5is connected by wire 7 to 'rail 3 at the entering end of the block. At the'opposite end of the block is transformer 8 whose secondary coil 9 is connected bywire 12 to rail 3.and by wires 10'.

and 11 to rail 1. Primary coil 13 of transformer 8 is connected by wire 15 to wire 11" This track a danger and sa ety indication, as required, and this signal may be operated from any convenient source, but preferably from a source of electricity located on the train. As shown in the drawings, this signal consists of two lamps. One lamp lights up to show that the guarded block is dangerous,

as for example when a train is occupying this block. The other lamp lights up to show that the guardedvblock is safe, as for example when there is no train in this block. As

shown in the accompanying drawings, the

signal consists of these danger and safety lamps and is operated from the supply circuit for the transformer said supply circuit including the track contact 6, wire 14, primary coil of transformer 8, and'rail 1. Armature of magnet 17 is connected by wire 19 to wire 14. Back contact 21 is connected by

wires

22 and 24 to wire 25 and includes lamp 23. Front contact 27 is connected by

wires

28 and 30 to wire 25 and includes lamp 29. Wire 25 is connected to wire 18. Thus lamps 23'and 29 are arranged to be connected alternately in a shunt or bridge across the supply circuit. When magnet- 17 is denergized and armature 20 is retracted by its spring 26, the shunt is closed through lamp 23. When, however, magnet 17is energized, the armature 20'moves over to contact 27, lamp 29 is included in the shunt 23 is cut out. In the preferred arrangement'of the system ,the generator for the supply circuit is carried on the train. Any suitable type of generator may be employed. 31 is the generator on the train. One side of this generaand lamp tor is connected by

wires

32 and 52 to a travel- I ingcontact 51, carried by the train. This' travelin contact,=as the train advances, is

arrange to make connection with track contact 6. The opposite side of' the generator is connected by

wires

38 and 54 to a traveling tor 31.

I includes lamp 48.

- cludes lamp 43.

- energizing magnet 17. 43 and 48'indicate electric lamps carried in the train, and preferably in the engine cab, and constitute a.

train signal. This signal is controlled by magnet 36 carried in the train, the arrangement being such that when the magnet is energized the lamp 43 will be lighted to indicate'safety, and when this ma net is den-- ergized the lamp 48 will be lig ted to indi-' cate danger. 'Magnet 36 is connected on one side by wire to traveling contact 34 carried on the train, and is connected 'on its

other side bywires

37 and 54 to travelin contact 53. raveling contact 34 is arranged to make electric connection with a track contact 5. When the train reaches track contact 5, magnet 36 is connected in the track circuit as follows-from magnet 36 through wire 35, traveling contact 34, track contact 5, wire 7, rail 3 secondary coil 9 of transformer 8, rail 1, traveling contact 53, and

wires

54 and 37 to magnet 36. If, at this time, the" primary coil of the transformer is energizedand there is no train "in the block, magnet 36 will be energized and will cause If, however,

the safety lamp 43 to lig t u I and a train is primary coil 13 is energize occupying the block, and thereby shunting the current in the track circuit, magnet 36 will be deenergized and danger lamp 48 will light up. The circuit for these lamps will be presently explained. is the armature of magnet 36 and is connected by wire 39 to one side of the generator 31. Back contact 47 is connected byv wires 49 and to Wire 46 and nected by wires 44 and 45 to wire 46 and in- Wire 46 is connected by

wires

37 and 38 to the opposite side of the generator 3 1.

- ture 40 on the back contact 47 when magnet 36 is not energized. The generator is designed to be continuously active so as to light up either lamp 43 or 48de ending upon the condition of magnet 36. ire 32 is connected to back stop 33 of the traveling contact 34. This traveling contact 34, when it.

makes connection with the stationary con,- tact 5, opens the connection with back stop 33. At other times, the spring of this traveling contact keeps the connection with back sto 33 closed as' shown in the drawings. Be ore the train reaches track contact 5,"the magnet 36 isenergized from generator 31 by the following circuit-from generator 31,

Front contact 41 is con- The spring 42 holds its armaside.

wire 32, back stop 33,'contact 34, wire 35, magnet 36,

wires

37 and 38, back to generator. v

The operation of the system is as follows Before the train reaches the

track contacts

5 and 6, the local train circuit through magnet 36, just above traced, energizes the ma net and closes the circuit through lamp 43, w ich is a white lamp and ives asafety indication. When the train reae es

track contacts

5 and 6, traveling contact 51 makes connection with track contact 6 thereby connecting generator 31 with the supply circuit, as heretofore traced. This circuit operates transformer 8 and energizes track magnet 17 thereby cutting out lamp 23 and cutting in lamp, 29 which thereupon lights up to show safety. At the same time, traveling contact 34 makes connection with track contact 5 and breaks at back stop 33 the local train circuit through ma net 36 but connects this magnet by means 0 co-operating contacts 34 and 5 and by means of contact 53 with the track circuit so that this magnet 36 is immediately energized from current in the track circuit thereby causing safety lamp 43 to continue lighted. If, at this time, a train is occupying the block, the train magnet 17 will be deenergized thereby causing track lamp 23 to li ht up to indicate danger.: The presence of the train in the block also prevents magnet 36 from beingenergized by the track circuit so that armature 40 cuts out safety lam 43 and cuts in danger lamp 48 causing the fatter to light up.

The resistances of the various lampsand magnets, especiallythose on the train can be adjustedin a way so as to secure the best'results.

In Fig. 2 are shown three track si nals, each consisting of a danger and safety amp. I The danger lamps 23 are connected in multiple by

wires

22 and 24 to back contact 21 on a one side and to wire 25 on the other side. The safety lamps 29 are connected in multiple by

wires

28 and 30 .to front contact 27 on one side and to Wire 25 on the other side. Each pair of danger and safety'lamps 23 and 29 constitutes a signal. In Fig. 2, 61 is a magnet carried on the train and connected. by wires 62 and 63, respectively, to contact 41 on one'side and to wire 37 on the other The armature 60 of this magnet is connected by link 59 to lever 57fulcrumed at 58 and operating a valve 55 in lluidpressure pipe 56. This fluid pressure pipe may control or operate a whistle, or other signal, or serve to apply-the brakes. Magnet 611's energized concurrently with safety lamp 43.

When magnet 36 is denergized and lamp 48 lights up toindicate danger, magnet 61- is deenergized, its armature is retracted by spring 64 thereby operating valve 55 to apply the brakes or blow the whistle, as deslred.

In Fig. 3 is shown a diagram of a rotary transformer or motor dynamo 8.

8 shownin Figs. 1 and 2, in which case wires 1-0, 15, 12 and 14 will be connected in the track circuit and in the supply circuit in sub stantially the same way as shown in Figs. 1 and 2.

- It is to be understood that the Various features of the invention may be modified and combined in different ways without departa supply circuit for the transformer; a gen erator for the supply circuit; and contacts on said train connected Vfltll said magnet and arranged to make connection with said track contact and one rail of the track, whereby said train signal is controlled by the track circuit.

2. In an electric railway signaling system, the combination of a track circuit including a transformer, both rails of the track, and a track contact; a signal on'a train; a magnet on said train controlling said signal; a supply circuit for the transformer; a generator on said train for the supplycircuit; and conand a track contact; a signal on a train; a

. tacts on said train connected with said magnet and arranged to make connection with said track contact and one rail of the track, whereby said trainsignalis controlled by the track circuit.

3. In an electric signaling system for railways, the combination of atrack circuit including a transformer, both rails of the track,

magnet on said train controlling said signal;

a supply circuit for the transformer; a generator on said train for the supply circuit for operating said train signal; and contacts on I said train connected with said magnet and arranged-to make connection with said track contact and one rail of the track, whereby said-train signal is controlled by the track circuit.

.4. In an electric signaling system for rail- Ways, the combination of a track circuit, in-

cluding a transformer, both rails of the track,

and a track contact; a signalon a train; a magnet on said train controlling said signal; a supply circuit for the transformer; a generator for the supply circuit; contacts on, said train'connected with said magnet and arranged'to ma'keconnection with said track contact and one rail of the track, whereb said train signal is controlled by the trac circuit; a track signal; and a magnet in the track circuit controlling said track signal.

'5. In an electric signaling system for railways, the combination of a track circuit in This may be substituted for the stationary transformer cluding a transformer, both rails of the track, and a track contact; a signal ona train; a

cluding a transformer, both rails of the track,

and a track contact; a signal on a train; a

magnet on said train controlling said signal; a supply circuit for the transformer; a gen.- erator on said train for the supply c1rcu1t contacts on said train connected with said magnet and arranged .to make connection with said track contact and one rail of the track, whereby said train signal is controlled by the track circuit; a track signal; and a magnet in the track circuit controlling said track signal.

v 6. In an electric signaling system for railways, the combination of a Lack circuitincluding a transformer, both rails of the track, and a track contact; a signal on a train; a magnet on said train controlling said signal; a supply circuit for the transformer; a generator on said train for the sup ly circuit and for operating said train signa contacts on said. train connected with said magnet and arranged to make connection with said track contact and one rail of the track,

whereby said train signal is controlled by the track circuit; a track signal and a magnet inthe track circuit controlling said track signal.

7. In an electric signaling system for railways, the combination of a track circuit including a transformer, both rails of the track,

- and a track contact; a signal on a train; a -magnet on said train controlling said signal;

a supply circuit for the transformer; agenerator for the supply circuit; contacts onsaid train connected with said magnet and arranged to make connection with said track contact and .one rail of the track, whereby said train signal is controlled by the track circuit; a track signal operated by the supply circuit; and a magnet in the track circuit controlling said track signal.

8. In an electric signaling system for rail- Ways, the combination of'a track circuit including a transformer, both railsof the track, and a track contact; a signal on a train; a magnet on said train controlling said signal; a supply circuit for the transformer; a generator on said train for the supply circuit contacts on said train connected with said magnet and arranged to make connection with said track contact and one rail of the track, whereby said train signal is controlled by the track circuit; a track signal operated ways, the combination of a track circuit inmagnet on said train controlling said signal;

a supply circuit for the transformer; a generator on said train for the sup ly= circuit and for operating-said train signal; contacts on said train connected with saidmagnet and arranged to make connection with said track contact and one rail of the track,

whereby said train signal controlled by the track circuit; a track signal operated by the supply circuit: and a magnet in the track circuit controlling said track signal.

10. In an electric signaling system for rail ways, the combination of a track circuit in.

cluding a transformer, both rails of the track, and a track contact; a signal on a train; a magnet on said train controlling said signal;

to a supply circuit for the transformer; a generator for the supply circuit; contacts on said train connected with said magnetand arranged to make connection with said track contact and one rail of the track; whereby said train signal is controlled by the track circuit; a plurality of track signals; and a magnet in the track circuit controlling said track signals. v

1 1. In an electric signaling system for rail- Ways, the combination of a track'c'ircuit including a transformer, both rails of the track, and a track contact; a signal on a train; a magnet on said train controlling said signal; a supply circuit for the' transformer; a genzgierator for the supply circuit; contacts on said train connected with said magnet and arranged'to make connection with said track contact and one railofthe track, whereby said train signal is controlled by the track circuit; a plurality of track signals operated by the supply circuit; and a magnet in the track circult controlling said track signals.

12. In an electric railway signaling system, the combination of a track circuit in- 5' eluding a transformer; both rails of the 4o-01lit contacts on said train connected with said magnet and arranged tomake connection with said track contact and one rail of the track, whereby said train signal is controlled by the track circuit; a plurality of track signals; and a magnetin the track cirvcuit controlling said track signals.

Y 13 In an electric railway signaling sys' tem, the combination of a track circuit including a transformer, both rails of the track, and

5 a track contact; a signal on a train; a magnet on said train controlling said signal; a supply circuit for the transformer; a generator on said train for the supply circuit; contacts on said train connected with said mag- 5 5 net and arranged to make connectionwith said trackcontact and one rail of the track,

- whereby said train signal is controlled by the track circuit; a plurality of track signals operated by the supply circuit; and a mag-- net in the track circuit controlling said track signals.

14. In an electric signaling system for rail ways, the combination of a track circuit including both rails ofthe track, a transformer,

5 and a magnet arranged to be shunted by a passing train; a supply circuit including said transformer; a generator on a train arranged to be connected,with the supply circuit to energize the transformer; a track signal controlled by said magnet of the track circuit; a train signal; and means operated by the 15. In an electric signaling system for railways, the combination of, a trackcircuitim eluding both rails of the track, a transformer, and a magnet arranged to be shunted by a passing train; a supply circuit including said to be connected with the supply circuit to energize the transformer; a plurality of track signals controlled by said magnet of the track circuit; a train signal; and means operated by the track circuit for controlling said train signal.

-16. In an electric signaling system for railand a track contact; a brake applying device said brake applying device; a supplycircuit for the transformer; a generator for the sup- With said magnet and arranged to make connection with said track contact and one rail of the track, whereby said brake applying device is controlled by the track circuit; a trac signal; and a ma net in the track circuit controlling said trac signal.

ways, the combination of a track circuit including a transformer, both rails of the track, 'and a track contact; a brake applying device on a'train; a magnet on said train concircuit for the trans ormer: a generator on said train connected with said magnet and arranged to make connection with said track contact and one rail of the track, whereby said brake applying device is controlled-by the track circuit; a track signal; and a magnet in the track circuit controllingsaid track signal. I

18. In an electric signaling system for railways, the combination of a track circuit inanda track contact; a signal on a train; a magnet on'said train controlling said signal; a supply circuit for the transformer; agenerator for the supply circuit; contacts on said train connected with said magnet and arranged to make connectionv'vith sai track said train'signal is controlled by the track circuit; and a brake applying device on said train controlled by said track circuit.

19. In an electric signaling system for rail= eluding a transformer, both rails of the track, and a" track contact a signal on a train; a

track circuit for controlling said train signal.

ply circuit; contacts on said train connected 1.7 In an electric signaling system for rail-- t'rollirv said brake a lying device; a su l o P? PP Y said train for the supply circuit; contacts ontransformer; a generator on a train arranged .ways, the combination of a track circuit 'ineluding a transformer, both rails of the track,

on a train; a magnet on said train controlling eluding a transformer, both rails of the track.

contact and one rail of the track, whereby ways, the combination of a track-circuit inbrake applying devicev on said train; a magnet on said train controlling said signal and said brake applying device; a supply circuit for the transformer; a generator for the supply circuit; and contacts on said train connected with said magnet and arranged to make connection with said track contact and one rail of the track, whereby said train signal and said brake applying device are controlled by the track circuit.

20. In an electric signaling system for railways, the combination of a track circuit including a transformer, both rails of the track, and a track contact; a signal on a train; a magnet on said train controlling said signal; a supply circuit for the transformer; a-generator or the supply .circuit; contacts on said train connected with said magnet and arranged to make connection with said track contact and one .rail of the track,-whereby said train signal is controlled by the track circuit; a brake a plying device on said train controlled by sai track circuit; and a track signal controlled by said track circuit.

21'. In an electric signaling system for railways, the combination of a track circuit including a transformer, both rails of the track, and a track contact; a signal on a train; a

brake applying device on said train; a magnet on said train controlling said signal and said brake applying device; a su ply circuit for the transformer; a generator ibr the supply circuit contacts on said train connected with said magnet and arranged to make connection with said track contactand one rail of the track, whereby said train signal and said brake applying device are controlled by the track circuit; and a track signal controlled by said track circuit.

22. ,In an electric signaling system for rail ways, the combination of a track circuit including a transformer, both rails of the track, and a .track contact; a signal on a train; a

magnet on said train controlling said signal;-

a sup ly circuit for the transformer; a generator or the supply circuit; contacts on said train connected with said magnet and arranged to make connection with said track .contact and one rail of the track, whereby said train signal is controlled by the track circuit; a brake applyingdevice on said train controlled by said track circuit; a track signal controlled by said track circuit and operated by the supply circuit.

23. In an electric signaling system for rail ways, the combination-of a track circuit ineluding a transformer, both rails of the track, and a track contact; a signal on a train; a brake applying device on said train; a magnet on said train controlling said signal and -'said brake applying device; a supply circuit for the transformer a generator on said train for the supply circuit; and contacts on said train connected with said magnet and arranged to make connection with said track contact and one rail of the track, whereby said train signal and said brake applying device are controlled by the track circuit and operated by the supply circuit.

24. In an electric signaling system for railways, the combination of a track circuit including a transformer, both rails of the track, and a track contact; a signal on a train; a magnet on said'train controlling saidsignal; a supply circuit for the transformer a generator or the supply circuit; contacts on said train connected with said magnet and arranged to make connection with said track contact and one rail of the track, whereby said train signal is controlled by the track circuit; a track signal consisting of danger and safety electric lam s; and a magnet in the track circuit control ing said track signal. 25. In an electric signaling system for rail- Ways, the combination of a track circuit including a transformer, both rails of the track, and a track contact; a signal on a train; a magnet on said train controlling said signal; a supply circuit for the transformer; a generator .on said train for the supply circuit; contacts on said train connected with said magnet and arranged to make connection with said track contact and one rail of the track, whereby said train signal is controlled by the track circuit; a track signal consisting of danger and safety electric lamps operated by the supply circuit; and a magnet in the track circuit controlling said track signal 26. In an electric signaling system for railways, the combination of a track circuit including a transformer, both rails of the track,

and a track contact; a signalon a train; a

magnet on said train controlling said signal; a supply circuit for the transformer; a generator on said train for the supply circuit; contacts on said train connected with said magnet and arranged to make connection with said track contact and one rail of the track, whereby said train signal is controlled by the track circuit; a track signal consisting of danger and safety electric lamps operated by the "supply circuit; a magnet in the track circuit controlling said track signal; and a brake applying device on said train controlled by the track, circuit.

In testimony whereof, I have signed my name to this specification, in the presence of two subscribing Witnesses.

EDWARD L. ()BCUT'I.

Witne, ses:

ICHARD SHELDON, LEONARD DAY.