US130661A - Improvement in electric-signaling apparatus for railroads - Google Patents

Description

W. ROiBiNSON:

Improvement in Electric Signaling Apparatus for Raiiroads.

N0. 130,661. 'Pa'tenied Aug 20,1872.

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UNITED STATES PATENT Orrron WILLIAM ROBINSON, 0F BROOKLYN, NEW YORK.

IMPROVEMENT IN ELECTRIC-SIGNALING APPARATUS FOR RAILROADS.

Specification forming part ofLetters Patent No. 130,661, dated August 20, 1872.

signal-box with its face removed to show the' signal within, the whole being arranged to illustrate my invention.

The object of this invention is to operate electric signals, audible or visible, by means of moving or standing vehicles or trains without the use of ordinary track-connections for .closing or breaking circuits, and without the use or with a limited use of line-wires for conducting the electric current, the rails of the track beingused for the latter purpose. The invention consists in an improved signal of very simple construction, by which great ease of action is secured. It also embraces certain peculiarities in the arrangement of wires from thesign'al and battery to the track.

A in the drawing represents a double-track railroad. G is a section of track, which may be a mile long, more or less, and having its rails a b separated from metallic contact with the rails of the sections D and E, as shown at a, b. In like manner the section 0 of' the other track has its rails separated from metallic contact with the rails of the sections D and E. The rails a b c (1 should each have metallic continuity throughout the length of its section. The signal-box F is constructed of any suitable material, and is providedwith an orifice, preferably in .the center, covered with glass windows capable of illumination, through which the signal may be seen when exposed, day or night. W'ithin this signalbox is placed the signal G, consisting of a disk, S, attached to the lever e, which, pivoted at f, turns on a horizontal axis. To the lever 0 or its arbor is fixed the small projection or lever, preferably segmental, g. A cord, link, chain, or delicate elastic spring, 93, is attached to the lever g and to the upper part of the long lever L, in such a manner that when the armature m, which is attached to the lever L, is attracted by its magnet M and the upper part of said lever L swings in the direction of the arrow 2, the upper part of the segmental lever g moves forward and downward, thus permitting the chain c to work closer to the pivot f. By this arrangement it will be seen that the greatest leverage-power is secured for moving the signal when the armature m is the greatest distance from its magnet and the magnetic force is consequently weakest, the leverage-power diminishing gradually as the armature approaches the magnet. The vertical lever L moves on a horizontal axis, f, and is prevented from swinging too far. back from the magnet by the adjustable steps, which may be so adjusted as to bring the armature m a greater or less distance from its magnet M, as may be found necessary. The levers L and away he made of any suitable material and in any manner; but are preferably constructed of thin tubular metal for the purpose of securing great strength and rigidity with minumum weight and friction of parts. Furthermore, the disk S is counterbalanced by an adjustable weight, w, and by making that part of the lever c embraced between the pivot f and the disk S of considerable length, the disk S is brought from a state of concealment to a state of exposure, or the reverse, by passing through a comparatively small angle, and by arranging the disk-lever e, as shown in the drawing, in such a manner that in bringing the disk from a state of concealment to a state of exposure or the reverse, said lever 6 shall swing to and beyond ahorizontal position, the greatest uniformity of motion with the least possible loss of power are secured.

Having thus described the construction of the visual signal G, it will be seen that when the electro-magnet M is charged it attracts the armature m to itself, thus swinging the upper end of the lever L in the direction of the arrow 2, and carrying the upper end of the lever 9 forward, at the same time turning the same together with the lever e on the axis f, and carrying the disk S down into the position indicated in dotted outline. Now connect one pole of the battery B withthe rails a and c, and the other pole with the rails b and d of the sections 0 and C by means of the wires k and K", respectively. In like manner connect the ends of the coils of the magnet M, the one end with the rails a and c and the other end with the rails 11 and d of the same sections 0 and C by the wires l and l, as shown in the drawing, and the apparatus is operative. the signal to the track are preferably insulated.

Before describing the operation of the apparatus as a whole, it may be stated that the electric current will follow a naked metallic conductorif of sufficient surface, even when immersed in a river or in the mud at the bottom of a river, because the metal offers less resistance to its passage than either water or mud. Much more will it follow the rails of a railroad track when they are made a part of the circuit, since the rails present a large sur face of good conducting material, which offers much less resistance to its passage than any surrounding mediums; and it is well known that when several courses are presented the electric current will follow that course which oli'ers least resistance to its passage. 7

The mode of operation is as follows: Suppose the sections 0 and G to be entirely clear of cars; then the electric current from the positive pole P of the battery B will pass as indicated by the arrows'a: :0, through the wire k, railb,wire l, and magnetM, chargingthe same, and return through the wire I, rail a, and wire k, as indicated by the arrows y y, to the negative pole N of the battery. The magnet M, being thus charged, attracts its armature and swings the signal-disk S into the position of concealment shownjn dotted outline, and holds it in that position as long as the sections 0 G are clear. Nowlet a train enter uponO or G, as indicated at H O, and the wheels and axles of the same will bridge over the rails c and d, and thus, by ofi'ering a large conducting-surface, will present to the' electric current a complete circuit, which ofl'ers much less resistance to its passage than that through the magnet M. The electricity now takes the course over the wire 7., rail (1, wheels and axle H, returnin g, by the rail 0 and wire k, to the battery, as indicated by the arrows a; w y, using the rails 0 and d, as will be seen, with their bridge, and

entirely avoiding the magnet M, which, beingthus demagnetized, lets go its armature, and the counterpoise 10, which slightly overbalances the disk S, carries the same up in front of the orifice, into aposit-ion of exposure, where it remains, as shown, while a train is on section 0 or C. When, however, the train has run oft, leaving sections (1 and 0 clear, the magnet M is instantly charged again and the signal-disk S is removed and kept concealed until the track is again blocked by the presence of another train, when the same process is repeated. When the signal disk is in a position of exposure, as shown, the lever l may serve to close an additional circuit through the battery B, which may be used to operate an alarm, I, in conjunction with the signal S, or to actuate another signal at a distant point. Furthermore, the concealment of the signal S The wires from the battery and may serve to close another circuit for cxposin g another signal, or the reverse. Instead of usin g the signal G, constructed as herein min utely described, a signal of any suitable construction may be used without affecting the spirit of the invention. Furthermore, instead of using the magnet M to actuate the signal directly, it it may be used as a relay, operating, when charged, to keep the circuit which directly actuates the signal open or closed, as desired. It is evident that an alarm may be used either in conjunction with or independently of a visual signal. The drawing shows an application particularly adapted to road-crossing signals on a double track. The signals may be used, also, on a single track and be applied as block-Sig nals and for other purposes on single or double tracks. When used as a block-signal or for other purposes, it may be desirable to indicate at a distant station when the signal is operative. To accomplish this object, carry one of the wires from the magnet M to the distant station. Here let the wire be passed through the coils of a bell-magnet or other signaling device, and thence be carried to the track and attachedto the same, as already described. Theofiice signal will operate simultaneously with the signal S. Thus any desired number of signals may be operated simultaneously, at different points, from a single s ction of track. 1 ya slight modification of the plan described tin eflicient switch and drawbridge signal may be operated, the rails being used as conductors. Thus half a mile, more or less, from a switch maybe placed a signal-bt'ix and signal, substantially as described, and connected with the rails, as shown. Near this point let the rails be divided, taking care that the signal and battery wire are connected to the section toward the switch. Now, while the switch is on the main line, the bars connecting the rails of the switch will act as'a bridge to divert the electricity from the signal-magnet. But when the switch is misplaced the metallic connection of the rails of the track will be interrupted. The signal-magnet will thus become charged and the position of the signal changed. In this case the signal should be exposed when the magnet M is charged. In like manner a cross-bar may bridge the rails on a draw-bridge. The displacing of the draw-bridge or withdrawing of the bolt or bolts which hold the same in position will allow the signal-magnet to become charged and the signal to be changed, substantia-ll y as described, in connection with a switch. It is not necessary in all cases that the rails a and 1), section 0, should both be separated from metallic contact with the sections D and .E. It may often, it not always, be sufficient to separate only one of said rails from such-metallic contact with the adjacent sections.

What I here claim as new, and desire to secure by Letters Patent, is-

1. The batteryB and magnet M, so connected with the rails of a section of railroad track that when said section is bridged by the wheels and axle of a car the electric circuit is changed and the signal operated through the demagnetization of the magnet M, substantially as specitied.

2. A signal constructed partially of tubular material, for the purpose of securing lightness combined with strength, in the manner substantially as herein set forth;

3. The arrangement of the pivotal bearing of the lever e at a point midway between the horizontal lines of exposure and concealment of the signal-disk, as shown and described,for the purpose set forth.

4. The combination of the elastic spring i, or

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