US523123A - hibbard - Google Patents

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US523123A
US523123A US523123DA US523123A US 523123 A US523123 A US 523123A US 523123D A US523123D A US 523123DA US 523123 A US523123 A US 523123A
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wire
arm
circuit
magnet
armature
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    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING SYSTEMS, e.g. PERSONAL CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B25/00Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
    • G08B25/01Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium
    • G08B25/04Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium using a single signalling line, e.g. in a closed loop

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  • Figure l is a diagram showing a face view of the system with which the boxes are connected.
  • Fig. 2 is a face view of the differentiating apparatus with a portion of its top broken away.
  • Fig. 3 is a plan vlew of the relay.
  • Fig. 4. is a perspective View of the electrical stop connected with the differentiating apparatus.
  • Fig. 5 is a plan View of the signal box.
  • Fig. 6 is a similar V1 9W witha portion of the top broken away.
  • Fig. 7 is an edge elevation of same.
  • Fig. 8 is a diagram showing a face view of the system with which the boxes are connected.
  • Fig. 2 is a face view of the differentiating apparatus with a portion of its top broken away.
  • Fig. 3 is a plan vlew of the relay.
  • Fig. 4. is a perspective View of the electrical stop connected with the differentiating apparatus.
  • Fig. 5 is a plan View of the signal box.
  • FIG. 1 is a perspective view of the electrical stop connected therewith.
  • the relay A indicates the relay, B the difierentiating apparatus, C an engine house or fire department station, E a police or other station, and F an electro magnet for operating a register at the central station whereon is recorded the nuntlber of the box from which the signal is sen
  • the relay A is made double where connection is made by circuits with two different departments, such as fire and police. It consists of two pairs of electro-magnets a a. and a a, two sets of swinging armatures c c c and c c 0 located at opposite ends of the magnets, and two upright contact posts I) and b. The armatures play between the magnets and the posts in the usual way.
  • the object of the differentiating apparatus B is to change the current from one circuit to another by the rotation of an arm which comes successively in contact with different conducting points on an insulated surface of the box. It consists of a box provided with a conducting base plate f and an exterior face d, of rubber or other insulating material.
  • 9' is a time movement or clock work of any suitable construction, and h an escapement connected therewith.
  • 2' is an arm forming a circuit breaker, which I denominate the swinging arm, attached to a shaft of the time movement, said shaft extending fromthe base out through the insulated face, and the arm resting acrossrthe face, but not in contact therewith.
  • the time movement when released gives motion to the arm and causes it to traverse over the face of theapparatus.
  • lo lo H and m are contact blocks forming electrodes set into the insulated face
  • n n are spring tongues forming contact points, attached to the swinging arm z' and connected together by a web n said tongues and their connection being insulated from the arm by a rubber block 0.
  • the spring tongues come in successive contact with the several electrodes and change the currents, as will be more fully described.
  • 19 p is an electro magnet, and q a pivoted crank forming an armature which operates in connection with said magnet.
  • On the outer 'end of the crank is a pin g which passes out through a slot of the face of the apparatus and intercepts a corresponding pin 4, on the under side of the swinging arm 2', thereby holding said arm against rotation.
  • the magnet 19 p is charged the armature is drawn back removing pin g from the path of pin 0 and allowing the swinging arm to rotate.
  • s s is another electro magnet connected with the apparatus, and tan armature pivoted at t and provided with an inclined lug 25
  • the armature t is pressed forward by a spring a tightened by a screw 1).
  • the magnet When the magnet is charged it overcomes the spring and draws the armature back.
  • the above described arrangement is for communication with the fire department only.
  • the main circuit consists of two wires 1 and 2 laid through the streets or other locality where the line is to be established, said wires being provided, respectively, with batteries GILor other sources of electricity.
  • the terminals of wire 1 connect with the two contact blocks 7a 011 the face of the differentiating apparatus, and the terminals of wire 1 with the two sets of magnets a a of the relay, as shown in the diagram Fig. 1.
  • the main line is provided with suitable fire boxes N, police boxes P, and auxiliary boxes L, the latter connected with circuits extending through buildings and provided with thermostats and manuals, either or both. By means of theseboxes signals are sent to the various destinations over the same main line.
  • the circuits are as follows:A circuit extends from battery J, through wire 3 to armature o, thence, (when the main circuit has been broken and said armature is in contact with post Z),) through post Z2, wire 4, through the register magnet F, charging same and causing it to operate the registering apparatus, through wire 5, magnet 17 p, charging same, wire 6, (touching the conducting block 711,) back to battery J, completing the circuit.
  • the energizing of magnets 12 1) draws back armature q, removes pin g from the path of pin 0' and thereby releases the swinging arm '5 and allows it to rotate by means of the time mechanism before described.
  • the spring tongues 12 72 Prior to this time the spring tongues 12 72, have remained in contact with the blocks 7:, 7c. They now leave said blocks and pass to block Z and m.
  • Another circuit extends from battery K to the fire department. This circuit is from battery K through wire 7, upright e, armature 0, wire 8, the magnet at the fire station, and wire 9 back to battery K.
  • circuit K is another circuit thus:from battery K through wire 7, wire 10, spring, or, arm, 20, thepivotw of said arm, through the metallic base of the ditterentiating apparatus, wire 11, wire 8, the magnet at the fire department, and wire 9 back to battery K.
  • Another circuit extends from the central station to the police or other department, from battery I through wire 12, upright e, armature 0'', wire 13, the magnet at the police station, wire 14, back to battery I.
  • Auxiliary to this circuit is a circuit from battery I through wire 14, the magnet at-the police station, wires 13 and 15, spring 9?, arm tu the pivot to, of said arm, the base of the apparatus, wire 16, and wire 12 back to battery I.
  • circuit K and its auxiliary just described are duplicates of the circuit I and its auxiliary before described, one circuit and its auxiliary connecting with the police department and the other circuit and its auxiliary with the tire department.
  • the first action in opening and then closing the main circuit through wire 2 is to temporarily close the local circuit J, and thus re lease the time mechanism of the differentiat: ing apparatus and allow the swinging arm 2 to rotate as before described.
  • the movement of arm 1' now causes the tongues n n to come in contact with the blocks Z m, thereby forming anew circuit, from batteryJ through wire 3, armature c (then in contact with the upright of the relay magnet), wires 17 and 1S, magnet s 3, wire 19, to contact block Z, through tongue n n to contact block m, through wire 6, back to battery J.
  • the charging of magnets s 3 draws back armature t and releases the arm to allowing it to separate from the spring 00, thus breaking the shunt circuit that previously existed by the contact of the arm with the spring and extending through the base of the apparatus to wire 11.
  • swinging arm Z causes tongucn to leave block Z, breaking the circuit just described, and brings tongues n a in contact with blocks Z m, and forms a new circuit, from battery J through wire 3, armature c, upright e, wires 17 and 20, magnet ss, wire 21, contact block Z, tongues 12 n, block m, and wire 6 back to battery J.
  • the energizing of magnets s s'draws back armature Z releases the pivoted arm to from spring acin the samemanner as on the op posito side of the diiterentiatingapparatus, thereby breaking the shunt circuit that previously existed leading from battery I through the base of the apparatus to wire 16.
  • This shunt circuit together with its companion on the opposite side, will not be re-established again until arms to and 10 are forced into contact with the armatures t and 29, by the.pin z near the end of rotation of the swinging arm 2'.
  • the register F, the magnets at the fire station 0 and the police station E are each, through the armatures at therelay, rendered susceptible to the operation of the relay, and that the circuits are changed to send the signal to one department or the other through the instrumentality of the differentiating apparatus before described.
  • this differentiating apparatus all signals which come to the central station are recorded there and dispatched to the proper destination, such as the fire department or the police department, without one interfering. with the other.
  • the box P which forms the subject of my present invention, has a base plate, f and an insulated face d similar to those of the It also has a time mechanism 9 and swinging arm" 13 forming a circuit breaker similar to those of said apparatus.
  • the swinging arm has two outer spring tongues n n connected together and insulated from the arm, and a single tongue 17. in electrical contact with the arm. These three spring tongues rest in line with the three concentric rims before described.
  • crank arm 19 is an electro magnet similar to the magnet 0 of the differentiating apparatus, and f is a pivoted armature provided with an inclined lug f h is a crank arm carrying astop pin g at its outer end which stands in the path of a corresponding pin r on the under side of the swinging arm.
  • the energizing of p attracts the armature, releases the crank arm, and removes the stop pin allowing the swinging arm to rotate.
  • the crank arm It has an intermediate arm it, which projects inward in such position as to be struck bya pin 2 on the shaft of the swinging arm shortly after the latter has started to rotate, in order to re-set the crank arm with the armature.
  • 0 is a small wheel on the shaft of the swinging arm, against the periphery of which bears a spring r pressed up by a screw 3 the object of which is to apply sufficient friction to prevent back action of the gearing of the clock work.
  • t is a plunger resting in a barrel and forced up by a spring t. It has a projecting pin a against which the end of the swinging arm strikes and is stopped thereby. By pressing on the knob the plunger is forced down,
  • the break serves an important purpose. It is of such length that, the current in Wire 2 having been broken, and the differentiating apparatus having been started, the current in wire 2 will remain broken until such time as the swinging arm of the difierentiating apparatus shall have passed the point when the fire department circuit is placed in position to receive signals from wire 2. In such case the signals given at the police boxes are sent to the central station and from there to the police station without being sent to the fire department.

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Description

(N0 Moaei. 3 Sheets-Sheet 1.
.w. W. HIBBARD, ELECTRIC SIGNAL BOX.
No. 523,123. Patented July 17, 1894.
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3 Sheets+Sheet 2. W. W. HIBBARD. ELECTRIC SIGNAL BOX.
No. 523,123. Patented July 17, 1894.
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W. W. HIBBARD, ELECTRIC SIGNAL BOX.
3 SheetsSheet 3.
(No Model.)-
No. 523,123. Patented July 17,1894.
l ms :0 Puofoumo" WASHINGTON n c Unwrap STATES PATENT Fries.
WILLIAM W. HIBBARD, OF RCCHESTER, NEW YORK, ASSIGNOR TO THE STANDARD ELECTRIC SIGNAL COMPANY, OF SAME PLACE.
ELECTRIC SIGNAL-BOX.
SPECIFICATION forming part of LettersPatent No. 523,123, dated July 1'7, 1894. Application filed August I2, 1893. Serial No. 488,025- (No model.)
To all whom it may concern.-
Be it known that I, WILLIAM W. HIBBARD,
of Rochester, in the 'county of Monroe and State of New York, have invented a certain new and useful Improvement in Electric Signal-Boxes; and I do hereby declare that the following is a full, clear, and exact description of the same, reference being had to the drawings accompanying this application. My improvement relates to electric signallng apparatus, and consists inthe constructron and arrangement of the signal boxes as hereinafter more fully described and embodied in the claims.
In the drawings-Figure l is a diagram showing a face view of the system with which the boxes are connected. Fig. 2 is a face view of the differentiating apparatus with a portion of its top broken away. Fig. 3 is a plan vlew of the relay. Fig. 4. is a perspective View of the electrical stop connected with the differentiating apparatus. Fig. 5 is a plan View of the signal box. Fig. 6 is a similar V1 9W witha portion of the top broken away. Fig. 7 is an edge elevation of same. Fig. 8
is a perspective view of the electrical stop connected therewith.
In this system a central station or office is used in which are located the working parts, except the signal boxes on the main line.
A indicates the relay, B the difierentiating apparatus, C an engine house or fire department station, E a police or other station, and F an electro magnet for operating a register at the central station whereon is recorded the nuntlber of the box from which the signal is sen The relay A is made double where connection is made by circuits with two different departments, such as fire and police. It consists of two pairs of electro-magnets a a. and a a, two sets of swinging armatures c c c and c c 0 located at opposite ends of the magnets, and two upright contact posts I) and b. The armatures play between the magnets and the posts in the usual way.
The object of the differentiating apparatus B is to change the current from one circuit to another by the rotation of an arm which comes successively in contact with different conducting points on an insulated surface of the box. It consists of a box provided with a conducting base plate f and an exterior face d, of rubber or other insulating material.
9' is a time movement or clock work of any suitable construction, and h an escapement connected therewith.
2' is an arm forming a circuit breaker, which I denominate the swinging arm, attached to a shaft of the time movement, said shaft extending fromthe base out through the insulated face, and the arm resting acrossrthe face, but not in contact therewith. The time movement when released gives motion to the arm and causes it to traverse over the face of theapparatus. lo lo H and m are contact blocks forming electrodes set into the insulated face, and n n are spring tongues forming contact points, attached to the swinging arm z' and connected together by a web n said tongues and their connection being insulated from the arm by a rubber block 0. As the arm rotates the spring tongues come in successive contact with the several electrodes and change the currents, as will be more fully described.
19 p is an electro magnet, and q a pivoted crank forming an armature which operates in connection with said magnet. On the outer 'end of the crank, is a pin g which passes out through a slot of the face of the apparatus and intercepts a corresponding pin 4, on the under side of the swinging arm 2', thereby holding said arm against rotation. When the magnet 19 p is charged the armature is drawn back removing pin g from the path of pin 0 and allowing the swinging arm to rotate.
s s is another electro magnet connected with the apparatus, and tan armature pivoted at t and provided with an inclined lug 25 The armature t is pressed forward by a spring a tightened by a screw 1). When the magnet is charged it overcomes the spring and draws the armature back.
to is an arm provided with a pivot to connected with the base, the free end of the arm engaging with the inclined lug t of the armature. When in this position the arm to rests in contact with a spring a attached to an insulating block y. When the armature is drawn back by the magnet the arm w frees from contact with the spring and opens the circuitpasslng therethrough, and remains open t1ll arm 20 is struck by a pin on the shaft of the swinging arm 2' which restores it" to place by pressing it under the lug 25 The arm to is drawn from contact with spring as by a coiled springj.
The above described arrangement is for communication with the fire department only.
The same arrangement is duplicated on the opposite side of the apparatus, consisting of magnets s s, armatures t provided with inclined lug t, spring it, screw 1) pivoted arm 10 contact spring 00' attached to insulating block y, and coiled spring 7", the whole operatlng to establish communication with the police department or other station than the fire department.
The main circuit consists of two wires 1 and 2 laid through the streets or other locality where the line is to be established, said wires being provided, respectively, with batteries GILor other sources of electricity. The terminals of wire 1 connect with the two contact blocks 7a 011 the face of the differentiating apparatus, and the terminals of wire 1 with the two sets of magnets a a of the relay, as shown in the diagram Fig. 1. The main line is provided with suitable fire boxes N, police boxes P, and auxiliary boxes L, the latter connected with circuits extending through buildings and provided with thermostats and manuals, either or both. By means of theseboxes signals are sent to the various destinations over the same main line.
Under normal conditionsthccircuitth rough the main line is closed, the magnets of the relay are charged, and the armatures of the relay are drawn in connection with the magnets. But any opening of the circuit of the main line releases the armatures which are then drawn toward the posts Z2 Z2 and the circuits at the central station are then ready to.
come into operation.
The circuits are as follows:A circuit extends from battery J, through wire 3 to armature o, thence, (when the main circuit has been broken and said armature is in contact with post Z),) through post Z2, wire 4, through the register magnet F, charging same and causing it to operate the registering apparatus, through wire 5, magnet 17 p, charging same, wire 6, (touching the conducting block 711,) back to battery J, completing the circuit. The energizing of magnets 12 1) draws back armature q, removes pin g from the path of pin 0' and thereby releases the swinging arm '5 and allows it to rotate by means of the time mechanism before described. Prior to this time the spring tongues 12 72, have remained in contact with the blocks 7:, 7c. They now leave said blocks and pass to block Z and m.
Another circuit extends from battery K to the fire department. This circuit is from battery K through wire 7, upright e, armature 0, wire 8, the magnet at the fire station, and wire 9 back to battery K.
Auxiliary to circuit K is another circuit thus:from battery K through wire 7, wire 10, spring, or, arm, 20, thepivotw of said arm, through the metallic base of the ditterentiating apparatus, wire 11, wire 8, the magnet at the fire department, and wire 9 back to battery K.
Another circuit extends from the central station to the police or other department, from battery I through wire 12, upright e, armature 0'', wire 13, the magnet at the police station, wire 14, back to battery I. Auxiliary to this circuit is a circuit from battery I through wire 14, the magnet at-the police station, wires 13 and 15, spring 9?, arm tu the pivot to, of said arm, the base of the apparatus, wire 16, and wire 12 back to battery I.
The circuit K and its auxiliary just described are duplicates of the circuit I and its auxiliary before described, one circuit and its auxiliary connecting with the police department and the other circuit and its auxiliary with the tire department.
The first action in opening and then closing the main circuit through wire 2 is to temporarily close the local circuit J, and thus re lease the time mechanism of the differentiat: ing apparatus and allow the swinging arm 2 to rotate as before described. The movement of arm 1' now causes the tongues n n to come in contact with the blocks Z m, thereby forming anew circuit, from batteryJ through wire 3, armature c (then in contact with the upright of the relay magnet), wires 17 and 1S, magnet s 3, wire 19, to contact block Z, through tongue n n to contact block m, through wire 6, back to battery J. The charging of magnets s 3 draws back armature t and releases the arm to allowing it to separate from the spring 00, thus breaking the shunt circuit that previously existed by the contact of the arm with the spring and extending through the base of the apparatus to wire 11.
The further progress of swinging arm Z causes tongucn to leave block Z, breaking the circuit just described, and brings tongues n a in contact with blocks Z m, and forms a new circuit, from battery J through wire 3, armature c, upright e, wires 17 and 20, magnet ss, wire 21, contact block Z, tongues 12 n, block m, and wire 6 back to battery J. The energizing of magnets s s'draws back armature Z releases the pivoted arm to from spring acin the samemanner as on the op posito side of the diiterentiatingapparatus, thereby breaking the shunt circuit that previously existed leading from battery I through the base of the apparatus to wire 16. This shunt circuit, together with its companion on the opposite side, will not be re-established again until arms to and 10 are forced into contact with the armatures t and 29, by the.pin z near the end of rotation of the swinging arm 2'.
Under such conditions, with both shunt circuits open, the circuit through the fire (1opartment is from battery K through wire 7, upright e, armature c c (then drawn back by IIO differentiating apparatus.
the magnets a a, and subject to any action of the relay), wire 8, through the magnet at the fire station, and wire 9 back to battery K. At the same time the circuit through the police station is from battery I through wire 12, upright e, armatures c wire 13, through the magnet at the police station, and wire 14 back to battery I.
It will be seen that the register F, the magnets at the fire station 0 and the police station E, are each, through the armatures at therelay, rendered susceptible to the operation of the relay, and that the circuits are changed to send the signal to one department or the other through the instrumentality of the differentiating apparatus before described. By the use of this differentiating apparatus all signals which come to the central station are recorded there and dispatched to the proper destination, such as the fire department or the police department, without one interfering. with the other.
The box P, which forms the subject of my present invention, has a base plate, f and an insulated face d similar to those of the It also has a time mechanism 9 and swinging arm" 13 forming a circuit breaker similar to those of said apparatus.
a a a a are electrodes attached to the insulated face, the outer ring, a having a long break 19 just in advance of the starting point of the swinging arm, as shown in the face view Fig. 5. The swinging arm has two outer spring tongues n n connected together and insulated from the arm, and a single tongue 17. in electrical contact with the arm. These three spring tongues rest in line with the three concentric rims before described.
19 is an electro magnet similar to the magnet 0 of the differentiating apparatus, and f is a pivoted armature provided with an inclined lug f h is a crank arm carrying astop pin g at its outer end which stands in the path of a corresponding pin r on the under side of the swinging arm. The energizing of p attracts the armature, releases the crank arm, and removes the stop pin allowing the swinging arm to rotate. In addition to these features the crank arm It has an intermediate arm it, which projects inward in such position as to be struck bya pin 2 on the shaft of the swinging arm shortly after the latter has started to rotate, in order to re-set the crank arm with the armature.
0 is a small wheel on the shaft of the swinging arm, against the periphery of which bears a spring r pressed up by a screw 3 the object of which is to apply sufficient friction to prevent back action of the gearing of the clock work.
t is a plunger resting in a barrel and forced up by a spring t. It has a projecting pin a against which the end of the swinging arm strikes and is stopped thereby. By pressing on the knob the plunger is forced down,
strument at 2 through swinging arm 2' tongue a block a ,wire 3l,wire 1 back to battery. The current through wire 2 is from battery G through ring a", tongues Mn, ring a and wire 2 back to battery. The first movement of the swinging arm from the fingerhold to the electricalstop pin removes tonguen fromblocka and brings it in contact with block 0. which forms a new circuit in wire 1, from battery 11 through wire 1, the base of the instrument at 25, swinging arm "i tongue a block a", wire 36, magnet p, wire 37, wire 34, and wire 1 back to battery. The current through wire 2 remains the same as before, since the tongues 11 n have not left the rings a a'. The charging of magnet 19 attracts armature ff, releases crank arm h removes the stop pin in advance of the swinging arm, and allows said arm to rotate. The further progress of the swinging arm brings tongue n over the long break 19 in the outer ring, thereby breaking the circuit in wire 2 leading to the relay at the central station. This starts the differentiating apparatus as before described. The further progress of the swinging arm brings tongues n u again in connection with both rings a a restoring the circuit through wire 2. As the swinging arm progresses the tongue n passes over a series of signal notches o o in ring a alternately opening and closing the circuit and signaling the number of the box at the central station and through that to the police department. Now while this particu lar box is in operation as described, should some other box on the main line he started by pressing the plungeigthe swinging arm of the second box could advance no farther than the stop pin controlled by the electro magnet, and the current through wire 1 ,being destroyed said magnet would not be energized and no action could take place. It would so remain until the first box, having completed its signal and restored the current in wire 1,
energized the magnet in the second box, when the stop pin in the second box would be with drawn allowing the second box to give its signalfollowing the other.
The break serves an important purpose. It is of such length that, the current in Wire 2 having been broken, and the differentiating apparatus having been started, the current in wire 2 will remain broken until such time as the swinging arm of the difierentiating apparatus shall have passed the point when the fire department circuit is placed in position to receive signals from wire 2. In such case the signals given at the police boxes are sent to the central station and from there to the police station without being sent to the fire department.
Having described my invention I do not claim in this application the single wire and double wire systems described in my pending applications, Serial Nos. 483,022 and 483,025; neither do I claim the differentiat ing apparatus described in my pending application, Serial No. 483,024; nor the signal box described in my pending application, Serial No. 483,026, all filed contemporaneously herewith.
- \Vhat I claim as new, and desire to secure by Letters Patent, is-
1. The combination, with a main circuit composed of two wires, of a signal box attached thereto, a tripping device connected with one wire, and suitable electrical connections, the whole capable, when in action, of opening said wire,transmittin g a signal over the other wire, and of closing the first wire again after transmitting the signal, as and for the purpose specified.
2. The combination, with a movable arm forming a circuit breaker, of an electro magnet electrically connected with the main circuit, an armature provided with a stop operating therewith, a crank arm engaging at one end with the stop on the armature and provided at the other with a pin that acts as a stop to the circuit breaker, an intermediate arm attached to the crank arm, and a pin at-.
tached to a shaft for operating the intermediate arm, as described.
3. The combination, with a movable arm forming a circuit breaker, of an electro magnet electrically connected with the main 011- cuit, an armature provided with a stop connected therewith, a crank arm engagingwith the stop of the armature and provided with a pin that formsa stop to the circuit breaker, an intermediate arm attached to the crank arm, a pin attached to a shaft for operating the intermediate arm, and a manual stop in advance of the electrical stop for holding the circuit breaker at a distance from the electrical stop, as and for the purpose spec fied.
4. The combination, with a main circuit consisting of two Wires, of a signal box provided with an insulated face, the electrodes a a a a set thereon in three concentric circles, the circuit breaker t resting over the box, the tongues n n and n resting in line with the electrodes, and a magnet electrically connected with the main circuit for controlling the circuit breaker, as herein shown and described.
In witness whereof I have hereunto signed my name in the presence of two subscribing witnesses.
' W. W. HIBBARD.
Witnesses:
R. F. Osooon,
GEORGE A. BENTON.
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