US593692A - Electric signaling mechanism - Google Patents

Electric signaling mechanism Download PDF

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US593692A
US593692A US593692DA US593692A US 593692 A US593692 A US 593692A US 593692D A US593692D A US 593692DA US 593692 A US593692 A US 593692A
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arm
magnet
armature
movement
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    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR 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

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  • fire-alarm signaling apparatus In electric signaling apparatusfor instance, fire-alarm signaling apparatusthe signal given by a box on the main circuit is transmitted to the signal in the main station and from there transmitted to the various fire-houses.
  • the object of my invention is to make this transmission or repeating of a signal on the main line to branch lines automatically with certaintyandto'allow sufficient time to enable the signals to be transmitted clearly, and, further, to provide a construction which will enable the translating devices on the branch lines to be in closed circuits and yet not acted on until dictated by the signal given on the main line. I accomplish the first of these by placing in the main circuit in the central station an electromagnet the core of which controls a switch device of the secondary circuit, which latter circuit includes thefsignals in the various fire-houses.
  • Figure l is a view showing two fire alarm circuits provided with boxes and the signal, the main station, the secondary circuit, with its signals,',and the switch device controlled by the electromag- Figs. 2, 3, 4, 5, 6, and 7 show various forms of switch devices for operating the secondary circuit.
  • A represents the fire-alarm circuits, having thebatteries B and make-and-break boxes 0 C. x I
  • E are electromagnets on the circuits A within the central station. .7 i. V
  • ..F. is an independent circuit having battery f and extending from the central station to the various fire-houses and provided at the desired points with the signals G.
  • an electromagnet D of high resistanceflvhich normally prevents the current afiecting the signals G.
  • F is'a circuit having the signal F which is controlled by the armature of the magnet D.
  • the wire of the circuit lT is connected to the pivoted armH and also to the pivoted arm I.
  • This arm I is secured to or formspart of the armature of the magnet E. i is a spring holding the arm away from the magnet when the magnet is not energized.
  • the projection 2 Connected to the arm I is the projection 2", and i is a pivoted arm having the insulated portion '5, the arm II having the cut-away portion 72,. Also connected to the arm I is the arm i, having projection and pivoted pawl i working on the ratchet i of the balance-wheel i Taking the devices as shown in Fig. 1, the magnet E, being energized, draws the arm I toward it, and the projection strikes arm so as to cause the insulated portion 2' to fall into the cut-away portion h, which allows the arm II to fall so that its projecting end is in alinement with the end of the arm I, the arm I being, however, in that position beyond said arm II. Now when the circuit A is broken the spring 1.
  • the switch mechanism for making and breaking the circuit F consists of the following: an arm J, centrally pivoted. To this arm is connected the wire of the circuit F, the wire also being connected to the binding-post j in line with the end of the arm J in its movement in one direction, and 3' is a stop in line with the same end of the arm J in its movement in the other direction.
  • the opposite end of the arm has projection 7' which rests in the notches in the roller J
  • a springj holds the projectionj of arm J against the roller.
  • the pivoted arm K Upon the shaft of this roller is connected the pivoted arm K, which forms or is connected with the armature.
  • a spring keeps the arm K in its retracted position when the magnet is not energized, and the stop 70 limits its movement in that direction.
  • Fig. 3 the circuit F is completed through a notched roller L and two armsZ Z, contacting, one arm, Z, being always in contact with the roller L, the other, Z, being in such position as to be struck by the crown of the notches of wheel L, but to be without the route of said notches.
  • Z is a pawl connected with the armature Z of magnet E, said armature having the stops Z Z to limit its movement, the spring Z to hold it and move it away from the magnet,
  • Z is a holding dog or pawl for the roller L. Then the magnet is energized, the pawl Z moves over the teeth of roller L; but when the arm is moved by the spring Z the rolleris moved so that the arms Z Z contact with the roller and the circuit F is completed.
  • Fig. 4 the current F passes through the binding-post M and the plate m, which normally rests out of contact with binding-post M.
  • the plate m has the vertical slot m, in which the pin or stud m rests.
  • the lower end of plate m is beveled or inclined toward magnet E.
  • the armature m of the magnet E is pivotally provided with spring m and has in alinement with it the stop on. ⁇ Vhen the magnet is energized, the armature in its movement lifts the plate on vertically through the pin-and-slot connection of the plate without causing the plate to contact with the binding-post M.
  • the armature m moves in the opposite direction, striking the straight face of the plate m causes it (the plate) to turn on the pin and contact with binding-post M, thus completing circuit F.
  • Fig. 5 the construction is substantially like that of Fig. 7, except the armature has connected with it a pawl O, which works in the notches n of a ratchet-wheel N.
  • the pawl slips over the notches, but in its movement in the other direction the pawl moves the wheel and to that extent retards the movement.
  • Fig. 6 The construction shown in Fig. 6 is substantially like that shown in Fig. 1, as modified in Fig. 6, except instead of a notched roller an escapement P, having a notched hub or barrel 1), is used. In the movement of the armature-arm from the magnet this escapement acts to retard the movement of the arm.
  • an escapement P having a notched hub or barrel 1
  • Fig. 7 the circuit F is connected with the armature Q of magnet E.
  • q is a spring for returning the armature Q when the magnet E is demagnetized.
  • q q are steps limiting the movement of the armature Q.
  • Q is a pivoted arm to which the circuit F is also connected. lVhen these two arms Q and Q are electrically connected, the circuit is complete.
  • the face g is insulated, while face 1 of the arm Q is active, so that when the magnet is energized and the arm Q passes over the face (1 the circuit is not completed; but when the magnet is deenergized and the spring q returns the arm Q in the other direction .and contact is made between said arm and the face Q3 the circuit is completed.
  • a main circuit signaling devices on said circuit, a second circuit, receiving devices on said circuit, a switch de vice consisting of two members, controlling IIO said second device, the first member of which is moved in one direction bysaid electric device when energized, and means to return said member to its initial position, when said electric device is denergized, and a device adapted to hold said second switch member out of electric connection with said first switch member in its movement under the action of the electric device.
  • a main circuit signaling devices on said circuit, a second circuit, receiving devices on said circuit, a switch device consisting of two members controlling said second device, the first member of which is moved in one direction by said electric device when energized, and means to return said member to its initial position when said electric device is denergized, and a device adapted to hold said second switch member out of electric connection with said first switch member in its movement under the action of the electric device, and means to retard the return movement of said first switch member when said electric device is denergized.
  • a main circuit signaling devices on said circuit, a second circuit, receiving devices upon said circuit, an electromagnet upon said main circuit, said magnet having a pivoted armature, means to hold the armature of said magnet in its retracted position and move it toward I that position when the main-line circuit is broken, the second circuit including the said armature, and a pivoted arm in alinement with the armature,
  • the armature being free from said arm at its extreme position in either direction, the armature in its movement under the influence of the retractile device making electrical connection with said pivoted arm.
  • a main circuit signal-' ing devices on said circuit, a second circuit, receiving devices upon said circuit, an electromagnet upon said main circuit, said magnet having a pivoted armature, means to hold the armature of said magnet in its retracted position and move it toward that position when the main-line circuit is broken, the second circuit including the said armature and the pivoted arm in alinement with the armature, the armature being free from said arm at its extreme position in. either direction, the armature in its movement underthe .infiuence of the retractile device making electical' connection with said pivoted arm, and a retarding device connected with the arma-' ture and acting during the movement of the armature under the action of the retractile device.
  • a main circuit signaling devices upon said circuit, a second circuit, receiving devices in said circuit, an electromagnet in said circuit of high resistance, a shunt about said high-resistance magnet, said shunt being normally open, a switch device consisting of two members controlling said shunt, the first member of which is moved in one direction by said electromagnet when said electromagnet is energized, and means to return said member to its initial position, when said electromagnet is deenergized, and a device adapted to hold said second switch member out of electric connection with said first switch member in its movement under the action of the electromagnet.
  • a main circuit signaling devices upon said circuit, a second circuit, receiving devices in said circuit, an electromagnet in said circuit of high resistance, a shunt about said high-resistance magnet, said shunt being normally open, a switch device consisting of two members controlling said shunt, the first member of which is moved in one direction by said electromagnet, when said electromagnet is energized, and means to return said member to its initial position when said electromagnet is'denergized, and a device adapted to hold said second switch member out of electric connection with said first switch member in its movement under the action of the electromagnet, and means to retard the return movement of said first switch member when said electromagnet is denergized.
  • a normally-closed circuit a magnet upon said circuit, a second circuit having a signal or signals thereon, a switch comprising two members one of which is moved by the magnet in one direction, and means independent of the magnet to move it in the other direction, and means to hold the second member of said switch out of alinement with the first-mentioned switch member, when moving under the action of the magnet.

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  • Emergency Management (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
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Description

(No Model.) 2 sheets-sheet 2.
L. G. 'ROWAND.
gym 1 310 SIGNALING MECHANISM. No. 593,692. Patented Nov. 16, 1897.
Invntor.
Afforney.
norms warms ca. Puo'mu'mu, wASHlNC-TON a c LEWIS'G. RowANn, E CAMDEN, NEW JERSEY.
ELJEYCTRIC SIGNALING MECHANISM-.1
SPECIFICATION forming part of Letters Patent No. 593,692, dated November 16, 1897.
Application filed December 22, 1896. Serial No. 616,678. (No model.)
To all whom it may concern: 7
Be it known that I, LEwIs G. ROWAND, a citizen of the United States, residing at Gamden, county of Camden, and State of New Jersey, have invented a new and useful Improvement in Electric Signaling Mechanism, of which the following is a full, clear, and exact description, reference being had to the accompanying drawings, which form a part of this specification.
, In electric signaling apparatusfor instance, fire-alarm signaling apparatusthe signal given by a box on the main circuit is transmitted to the signal in the main station and from there transmitted to the various fire-houses. The object of my invention is to make this transmission or repeating of a signal on the main line to branch lines automatically with certaintyandto'allow sufficient time to enable the signals to be transmitted clearly, and, further, to provide a construction which will enable the translating devices on the branch lines to be in closed circuits and yet not acted on until dictated by the signal given on the main line. I accomplish the first of these by placing in the main circuit in the central station an electromagnet the core of which controls a switch device of the secondary circuit, which latter circuit includes thefsignals in the various fire-houses. Further, as the action is veryv rapid, if the switch acted to close the second ary circuit under the influence of the magnet, I cause-the circuit to close in the return movement of the switch under the action of the mechanical device which normally holds it in its retracted position. I further provide means to retard the return movement of this switch, and thus make its operation slower, its closure longer, and its action more certain.
I accomplish that object of my invention which consistsin providing a construction of circuits which will enable the translating devices on the main line to be in a closed circuit and yet not acted on until dictated by the signal given on the main line by placing the translating devices on the secondary circuit in closed circuit, and upon the same circuit I place an electromagnet of high resist ance which will prevent the current of that circuit acting upon the translating devices.
nets in the main circuit.
electromagnet on the secondary circuit, so that when said magnet is energized it holds the switch open, and when for any cause the secondary circuit becomes deranged its magnet is disenergized and the switch operated to close. the circuit. i
I will now describe the embodiment of my invention as illustrated in the accompanying drawings and then point out the invention in the claims.
In the drawings, Figure l is a view showing two fire alarm circuits provided with boxes and the signal, the main station, the secondary circuit, with its signals,',and the switch device controlled by the electromag- Figs. 2, 3, 4, 5, 6, and 7 show various forms of switch devices for operating the secondary circuit.
A represents the fire-alarm circuits, having thebatteries B and make-and-break boxes 0 C. x I
E are electromagnets on the circuits A within the central station. .7 i. V
..F.is an independent circuit having battery f and extending from the central station to the various fire-houses and provided at the desired points with the signals G. Upon the circuit F'is an electromagnet D of high resistanceflvhich normally prevents the current afiecting the signals G.
F is ashunt-circuit about the magnet D. This shunt is normally open and is closed by aswitch under the control of the magnet E on the main circuit A, various forms of which switch and method of operationare shown in the various figures.
F is'a circuit having the signal F which is controlled by the armature of the magnet D. In Fig. l the wire of the circuit lT is connected to the pivoted armH and also to the pivoted arm I. This arm I is secured to or formspart of the armature of the magnet E. i is a spring holding the arm away from the magnet when the magnet is not energized.
Connected to the arm I is the projection 2", and i is a pivoted arm having the insulated portion '5, the arm II having the cut-away portion 72,. Also connected to the arm I is the arm i, having projection and pivoted pawl i working on the ratchet i of the balance-wheel i Taking the devices as shown in Fig. 1, the magnet E, being energized, draws the arm I toward it, and the projection strikes arm so as to cause the insulated portion 2' to fall into the cut-away portion h, which allows the arm II to fall so that its projecting end is in alinement with the end of the arm I, the arm I being, however, in that position beyond said arm II. Now when the circuit A is broken the spring 1. moves the arm I away from the magnet, causing the end of the arm I to strike the end of the arm H, lifting the arm H and bringing itinto the position shown in Fig. 1. During the time which the arm I is in contact with the arm II the circuit F is completed and the circuit to the signals G made independent of the magnet D. The movement of the pawl over the ratchet causes the movement of the arm I under the action of the spring 2' to be retarded and thus contact between the arm I and the arm II maintained for a longer period.
In the following forms I have connected the circuit F direct to the signals instead of the shunt-circuit F.
In the form shown in Fig. 2 the switch mechanism for making and breaking the circuit F consists of the following: an arm J, centrally pivoted. To this arm is connected the wire of the circuit F, the wire also being connected to the binding-post j in line with the end of the arm J in its movement in one direction, and 3' is a stop in line with the same end of the arm J in its movement in the other direction. The opposite end of the arm has projection 7' which rests in the notches in the roller J A springj holds the projectionj of arm J against the roller. Upon the shaft of this roller is connected the pivoted arm K, which forms or is connected with the armature. A spring keeps the arm K in its retracted position when the magnet is not energized, and the stop 70 limits its movement in that direction. Vhen the magnet E is energized, the movements of the arm K and roller j do not move the arm J, the roller merely revolving; but when the magnet is disenergized and the arm by the action of the spring is moved toward stop 7t" the movement of the roller lifts the arm out of the notch, causing it at its other end to contact with j and thus close the circuit F.
In Fig. 3 the circuit F is completed through a notched roller L and two armsZ Z, contacting, one arm, Z, being always in contact with the roller L, the other, Z, being in such position as to be struck by the crown of the notches of wheel L, but to be without the route of said notches. Z is a pawl connected with the armature Z of magnet E, said armature having the stops Z Z to limit its movement, the spring Z to hold it and move it away from the magnet,
and Z is a holding dog or pawl for the roller L. Then the magnet is energized, the pawl Z moves over the teeth of roller L; but when the arm is moved by the spring Z the rolleris moved so that the arms Z Z contact with the roller and the circuit F is completed.
In Fig. 4 the current F passes through the binding-post M and the plate m, which normally rests out of contact with binding-post M. The plate m has the vertical slot m, in which the pin or stud m rests. In line with the lower end of the plate misplaced the stop m The lower end of plate m is beveled or inclined toward magnet E. The armature m of the magnet E is pivotally provided with spring m and has in alinement with it the stop on. \Vhen the magnet is energized, the armature in its movement lifts the plate on vertically through the pin-and-slot connection of the plate without causing the plate to contact with the binding-post M. lVhen the armature m moves in the opposite direction, striking the straight face of the plate m causes it (the plate) to turn on the pin and contact with binding-post M, thus completing circuit F.
In Fig. 5 the construction is substantially like that of Fig. 7, except the armature has connected with it a pawl O, which works in the notches n of a ratchet-wheel N. In the movement of the armature toward the magnet the pawl slips over the notches, but in its movement in the other direction the pawl moves the wheel and to that extent retards the movement.
The construction shown in Fig. 6 is substantially like that shown in Fig. 1, as modified in Fig. 6, except instead of a notched roller an escapement P, having a notched hub or barrel 1), is used. In the movement of the armature-arm from the magnet this escapement acts to retard the movement of the arm.
In Fig. 7 the circuit F is connected with the armature Q of magnet E. q is a spring for returning the armature Q when the magnet E is demagnetized. q q are steps limiting the movement of the armature Q. Q is a pivoted arm to which the circuit F is also connected. lVhen these two arms Q and Q are electrically connected, the circuit is complete. The face g is insulated, while face 1 of the arm Q is active, so that when the magnet is energized and the arm Q passes over the face (1 the circuit is not completed; but when the magnet is deenergized and the spring q returns the arm Q in the other direction .and contact is made between said arm and the face Q3 the circuit is completed.
Having now fully described my invention, what I claim, and desire to protect by Letters Patent, is
1. In combination, a main circuit, signaling devices on said circuit, a second circuit, receiving devices on said circuit, a switch de vice consisting of two members, controlling IIO said second device, the first member of which is moved in one direction bysaid electric device when energized, and means to return said member to its initial position, when said electric device is denergized, and a device adapted to hold said second switch member out of electric connection with said first switch member in its movement under the action of the electric device.
2. In combination, a main circuit, signaling devices on said circuit, a second circuit, receiving devices on said circuit, a switch device consisting of two members controlling said second device, the first member of which is moved in one direction by said electric device when energized, and means to return said member to its initial position when said electric device is denergized, and a device adapted to hold said second switch member out of electric connection with said first switch member in its movement under the action of the electric device, and means to retard the return movement of said first switch member when said electric device is denergized.
3. In combination, a main circuit, signaling devices on said circuit, a second circuit, receiving devices upon said circuit, an electromagnet upon said main circuit, said magnet having a pivoted armature, means to hold the armature of said magnet in its retracted position and move it toward I that position when the main-line circuit is broken, the second circuit including the said armature, and a pivoted arm in alinement with the armature,
the armature being free from said arm at its extreme position in either direction, the armature in its movement under the influence of the retractile device making electrical connection with said pivoted arm.
4. In combination, a main circuit, signal-' ing devices on said circuit, a second circuit, receiving devices upon said circuit, an electromagnet upon said main circuit, said magnet having a pivoted armature, means to hold the armature of said magnet in its retracted position and move it toward that position when the main-line circuit is broken, the second circuit including the said armature and the pivoted arm in alinement with the armature, the armature being free from said arm at its extreme position in. either direction, the armature in its movement underthe .infiuence of the retractile device making electical' connection with said pivoted arm, and a retarding device connected with the arma-' ture and acting during the movement of the armature under the action of the retractile device.
5. In combination, a main circuit, signaling devices upon said circuit, a second circuit, receiving devices in said circuit, an electromagnet in said circuit of high resistance, a shunt about said high-resistance magnet, said shunt being normally open, a switch device consisting of two members controlling said shunt, the first member of which is moved in one direction by said electromagnet when said electromagnet is energized, and means to return said member to its initial position, when said electromagnet is deenergized, and a device adapted to hold said second switch member out of electric connection with said first switch member in its movement under the action of the electromagnet.
6. In combination, a main circuit, signaling devices upon said circuit, a second circuit, receiving devices in said circuit, an electromagnet in said circuit of high resistance, a shunt about said high-resistance magnet, said shunt being normally open, a switch device consisting of two members controlling said shunt, the first member of which is moved in one direction by said electromagnet, when said electromagnet is energized, and means to return said member to its initial position when said electromagnet is'denergized, and a device adapted to hold said second switch member out of electric connection with said first switch member in its movement under the action of the electromagnet, and means to retard the return movement of said first switch member when said electromagnet is denergized.
7. In combination, a normally-closed circuit, a magnet upon said circuit, a second circuit having a signal or signals thereon, a switch comprising two members one of which is moved by the magnet in one direction, and means independent of the magnet to move it in the other direction, and means to hold the second member of said switch out of alinement with the first-mentioned switch member, when moving under the action of the magnet.
In testimony of which invention I have hereunto set my hand.
LEWIS G. ROXVAND.
Witnesses:
M. F. ELLIS, CAROL H. DESHONG.
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