US726292A - Burglar-alarm system. - Google Patents

Burglar-alarm system. Download PDF

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US726292A
US726292A US2405500A US1900024055A US726292A US 726292 A US726292 A US 726292A US 2405500 A US2405500 A US 2405500A US 1900024055 A US1900024055 A US 1900024055A US 726292 A US726292 A US 726292A
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signal
circuit
line
burglar
alarm
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Edwin T Holmes
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    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B13/00Burglar, theft or intruder alarms
    • G08B13/02Mechanical actuation
    • G08B13/08Mechanical actuation by opening, e.g. of door, of window, of drawer, of shutter, of curtain, of blind

Definitions

  • V WITNESSES lNVENI 96 22 NZ Wm]? Mes 2.1? gm 2? QSXY 2 HISATTORNEY V in its signal.
  • the main line may be out of condition so that the original signal doesnot reach the center office, or the of the subsequent alarm-signals which the clock mechanism causes to be sent in may reach the central office in time to provide requisite protection to the guarded structure.
  • Figure 1 is a diagrammatic View of a burglar-alarm system embodying my invention.
  • Fig. 2 is a front elevation of a signaling apparatus employed in the system.
  • Figs. 3 andet are each cross-sectional views taken on the lines 3 3 and Serial No. 24,055. (No model.)
  • Fig. 5 isadetail view of a portion of theapparatns.
  • a I represent the linewires or line-circuit extending between the central oifice and the protected structure. If desired, a single line-wire may be used and a ground return. It will be understood that the line-wires a b may be continued, as indicated in dotted lines, and the apparatus of any number of protected structures connected therewith.
  • the apparatus at the, central office may be of any signal-receiving form, and, as here shown, it consists of a relay R, a bell-signal S, and a registering apparatus T.
  • the magnet r of the relay is included in the line-circuit, while its armature 1* forms part of a local circuit.
  • This local circuit includes the bell-signal S and register T.
  • theline-circuit is preferably a normally closed one.
  • the armature r'1of the relay R will therefore be attracted,thu's having the local circuit at the central office an open one.
  • the armature r is attracted to and moved away from its magnet, which is caused by opening and closing the line-circuit, the bellsignal and register are correspondingly affected.
  • the doors, windows, skylights, &c., in factall places where ingress and egress may be had to the premises, are covered by a fine or other Wire 0, as shown in Fig. 1.
  • the wire 0 may form a circuit in which a battery Z and a magnet D are included.
  • the circuit is a closed one and is broken on the surreptitious openingof any door or window, &c., which is covered by the wire 0.
  • the magnet D form's'part of the The signals E and F, together with their operating mechanism, are inclosed in a suit able casing or cabinet F.
  • the signals are preferably so arranged as to be accessible through separate doors or hinged covers of the casing-that is to say, the opening of one door only presents to view the mechanism covered thereby and nothing of the apparatus covered by the second door.
  • the magnet D is provided with a hinged armature d, which is moved in one direction bya spring 61'.
  • d represents a detent having a weighted end (1 which is suitably pivoted in bracketarms (1
  • the detent has a pin 61 which is engaged by the notched end 01 of the armature d.
  • the detent When engaged by the end d, the detent is held in such position as to prevent any movement of a part 6, connected with the primary signal E.
  • the weighted end d When disengaged, the weighted end d causes the detent to move on its pivots and permits the part c to operate. Insulation cl is carried by the detent against which the part c rests.
  • the primary signal E consists of the usual form of signal wheel or wheels 6, a spring 6 for turning said wheel, which spring is wound through the arbor c and an escapement e", of which the part e serves as a pendulum thereof. Coacting with the signal wheel or wheels 6 are the spring finger or fingers e.
  • the spring fingeror fingers e and the signal-wheels are included in the line-circuit.
  • Fixed on the arbor e and moving therewith is a projection e, which operates a leverf, fixed on a rock-shaft f, which is suitably journaled on the framework of the clock mechanism.
  • the rock-shaft is provided with an arm f which is engaged by the projection e u f represents a spring, one end of which is connected to the leverfand the other end of which is connected with the framework of the clock mechanism.
  • the wiper f represents a spring-wiper carried by the lever f and adapted to coact with the arbor f of the balance-wheel.
  • the spring f moves the lever f and causes the wiper f to move across the arbor and prevent any movement of the balance-wheel,thus stopping the clock mechanism.
  • the wiper f causes the arbor to rotate somewhat to wind the coiled springf.
  • the wiper f is moved ofi the arbor, it causes a reverse rotary movement of the arbor, thus insuring amovement of the arbor and balance-wheel and a starting of the clock mechanism.
  • the wiper f is moved off the arbor by the projection e engaging the arm f This is done when the circuit of the magnet D is broken. It is obvious that the wiper f may be made to engage some other part of the clock mechanism to start and stop it.
  • the clock mechanism G is of the ordinary kind and may be wound to run for any desired length of time.
  • a head g On the arborg usually employed for the hands I secure a head g, which may carry a pointer 9
  • the head is also provided with a pin, which upon each revolution of the head engages a tooth of a dial g to move it one space.
  • the dial g is marked to represent time-spaces, and as it is turned a pointer 9 indicates the number of spaces of time the dial has been moved. In the present instance the dial is marked to indicate hour-spaces.
  • the second ary signal F In connection with the clock mechanism there is the usual striking mechanism. Instead of a gong the second ary signal F is operated thereby.
  • the signalwheel consists of a disk 71, having a series of peripheral openings and a number of pins h, which are removably inserted in the said openings.
  • [2, and h represent the usual spring-fingers normally in contact and included in the linecircuit. It will be understood that when the clock mechanism is operating the signalwheel F will be operated at preferably every hour.
  • the circuit of the wire 0 is a normally closed one, as stated, in which case the magnet D will be energized and armature 01 will be attracted.
  • the notched end of the armature is' on the arbor of the balance-wheel of the clockmechanism.
  • the device shown in Fig. 2 is in what may be termed set position.
  • the spring 01 moves the armature to disengage it from the detent, the detent falls, and the pendulum e is left free to operate under the influences of the spring in the primary signal.
  • the signal-wheel is then rotated and its signal made at the central office. This signal serves as a Warning, and the structure from which the alarm was sounded should be inspected.
  • the break in the circuit is repaired and the primary signal reset.
  • the lever f is moved to start the clock mechanism.
  • the clock mechanism operates until the circuit 0 is repaired and the primary signal reset, and at regular in: tervals it sends to the central office a different signal, or it may send the same signal as that of the primary signal.
  • the pins h on the wheel H are arranged about the disk h to cause the finger h to lift to open the circuit. In this manner the secondary or auxiliary signal serves to record the time from the sending of the primary signal to its resetting.
  • What I claim as my invention is- 1.
  • a burglar-alarm signal system comprising a line between a protected structure and a central office, the combination of a local circuit at the guarded structure, a primary signal device in circuit with the line and controlled by a device in the local circuit, and a repeating signal device also in circuit with the line and adapted to be put in operation by the primary signal device and to repeat its signal as often as desired at predetermined intervals.
  • a burglar-alarm signal system comprising a line between a protected structure and a central office, the combination of a local circuit at the guarded structure, a primary signal device in circuit with the line and controlled by an electromagnetic device in the local circuit, a repeating signal device also in circuit with the line and adapted to be put in operation by the primary signal device and to repeat said signal as often as desired at predetermined intervals, said repeating signal device comprising a train ot wheels operated bya motor and signal-wheels which are periodically operated from said train of wheels and motor.
  • a burglar-alarm signal system comprising a line between a protected structure and a central office, the combination of a local circuit at the guarded structure, a primary signal device in circuit with the line and controlled by an electromagnet in the local circuit, a repeating signal device also in circuit with the line and adapted to be put in operation by the primary signal device to repeat its signal to the central ofi'ice at predetermined intervals with respect to the primary signal, said repeating signal device comprising a train of wheels operated by a motor and signal-wheels which are periodically operated from the train of wheels and motor and a dial for indicating the interval elapsed after the starting of the repeating signal device.
  • a burglar-alarm signalsystem comprising a line between a protected structure and a central office, the combination of a local circuit at the guarded structure, a primary signal device in circuit with the line and controlled by an electromagnet in the local circuit, a repeating signal device also in circuit with the line and adapted to be put in operation by the primary signal device to repeat its signal to the central office at predetermined intervals with respect to the primary signal, said signal-repeating device comprising a time-train provided with a balance- Wheel, a signal-wheel and time-dial, and a starting-lever acting upon said balance-wheel and operated from the primary signal.

Description

No. 726,292. PATENTED APR. 28., 1903. E. T. HOLMES.
BURGLAR ALARM SYSTEM.
APPLICATION FILED JULY 18, 1900. N0 MODEL.
2 SHEETS-S ITNSSES: INVENTOR fldml'fim HIS ATTORNEY,
Tm: "cams PETKRS co. PNUIG-LITHG WASHINGTON, 11c
No. 726,292. PATENTED APR. 28, 1902 E. T. HOLMES. BURGLAR ALARM SYSTEM.
APPLICATION FILED JULY 18, 1900.
NO MODEL.
2 SHEETS-SHEET 2,
V WITNESSES: lNVENI 96 22 NZ Wm]? Mes 2.1? gm 2? QSXY 2 HISATTORNEY V in its signal.
lINiTEn STATES PATENT @EETCE.
EDWIN T. HOLMES, OF NEW YQRK, N. Y.
BURGLAR-ALARM SYSTEM.
SPECIFICATION forming" of Letters Patent No. 7 26,292, dated April 28, 1903.
Application filed July 18, 1900. i
To aZZ whom it may concern:
Be it known that I, EDWIN T. HOLMES, a citizen of the United States, residing in the borough of Manhattan, city, county, and State of New York, have invented certain new and useful Improvements in Burglar-Alarm Systems, of which the followingis a specification.
In towns and cities where a messenger-call service is in use the call-boxes are frequently It) made to act as burglar-alarm signaling apparatuses. This is done by runninga local closed circuit in the structure to be protected, which laces across exposed openings, as windows, doors, skylights, &c., and includes, besides a battery, a magnet attached to the call-box, so
that when its armature is released by breaking the local circuit the'call-box at once sends Obviously, to secure good protection with such a system, first, the main line must always be in working order; second,
two signals must not pass over the line at the same time, and third, the operator at the central office must always be at hand and promptly respond to the signal. As these conditions are not always present, I have improved such a system by adding thereto a clock mechanism which will be set in operation when the first alarm is sent in and thereafter for a definite interval say twenty-four or forty-eight hours-repeat the alarm-signal over the main line as often as it may be thought desirable.
With my improvement the main line may be out of condition so that the original signal doesnot reach the center office, or the of the subsequent alarm-signals which the clock mechanism causes to be sent in may reach the central office in time to provide requisite protection to the guarded structure.
I will describe a burglar-alarm system embodying my invention and then point out the novel features thereof in the claims.
In the accompanying drawings, Figure 1 is a diagrammatic View of a burglar-alarm system embodying my invention. Fig. 2 is a front elevation of a signaling apparatus employed in the system. Figs. 3 andet are each cross-sectional views taken on the lines 3 3 and Serial No. 24,055. (No model.)
4 4, respectively, of Fig. 2. Fig. 5 isadetail view of a portion of theapparatns.
Similar letters of reference designate corresponding parts in all of the figures.
Referring now to Fig. 1, all the apparatus to the left of the line A B is located at the central office C O and all the apparatus to the right of the line A Bis located at the protected structure P S. a I) represent the linewires or line-circuit extending between the central oifice and the protected structure. If desired, a single line-wire may be used and a ground return. It will be understood that the line-wires a b may be continued, as indicated in dotted lines, and the apparatus of any number of protected structures connected therewith.
The apparatus at the, central office may be of any signal-receiving form, and, as here shown, it consists of a relay R, a bell-signal S, and a registering apparatus T. The magnet r of the relay is included in the line-circuit, while its armature 1* forms part of a local circuit. This local circuit includes the bell-signal S and register T.
Z represents a battery for the local circuit. In the operation of theburglar-alarm system theline-circuitis preferably a normally closed one. The armature r'1of the relay R will therefore be attracted,thu's having the local circuit at the central office an open one. As the armature r is attracted to and moved away from its magnet, which is caused by opening and closing the line-circuit, the bellsignal and register are correspondingly affected. At the protected structure the doors, windows, skylights, &c., in factall places where ingress and egress may be had to the premises, are covered by a fine or other Wire 0, as shown in Fig. 1. The wire 0 may form a circuit in which a battery Z and a magnet D are included. The circuit is a closed one and is broken on the surreptitious openingof any door or window, &c., which is covered by the wire 0. The magnet D form's'part of the The signals E and F, together with their operating mechanism, are inclosed in a suit able casing or cabinet F. The signals are preferably so arranged as to be accessible through separate doors or hinged covers of the casing-that is to say, the opening of one door only presents to view the mechanism covered thereby and nothing of the apparatus covered by the second door. The magnet D is provided with a hinged armature d, which is moved in one direction bya spring 61'.
d represents a detent having a weighted end (1 which is suitably pivoted in bracketarms (1 The detent has a pin 61 which is engaged by the notched end 01 of the armature d. When engaged by the end d, the detent is held in such position as to prevent any movement of a part 6, connected with the primary signal E. When disengaged, the weighted end d causes the detent to move on its pivots and permits the part c to operate. Insulation cl is carried by the detent against which the part c rests.
The primary signal E consists of the usual form of signal wheel or wheels 6, a spring 6 for turning said wheel, which spring is wound through the arbor c and an escapement e", of which the part e serves as a pendulum thereof. Coacting with the signal wheel or wheels 6 are the spring finger or fingers e. The spring fingeror fingers e and the signal-wheels are included in the line-circuit. Fixed on the arbor e and moving therewith is a projection e, which operates a leverf, fixed on a rock-shaft f, which is suitably journaled on the framework of the clock mechanism. The rock-shaft is provided with an arm f which is engaged by the projection e u f represents a spring, one end of which is connected to the leverfand the other end of which is connected with the framework of the clock mechanism.
f represents a spring-wiper carried by the lever f and adapted to coact with the arbor f of the balance-wheel. When the projection e is not in engagement with the arm f the spring f moves the lever f and causes the wiper f to move across the arbor and prevent any movement of the balance-wheel,thus stopping the clock mechanism. In its movement across the arbor the wiper f causes the arbor to rotate somewhat to wind the coiled springf. When the wiper f is moved ofi the arbor, it causes a reverse rotary movement of the arbor, thus insuring amovement of the arbor and balance-wheel and a starting of the clock mechanism. The wiper f is moved off the arbor by the projection e engaging the arm f This is done when the circuit of the magnet D is broken. It is obvious that the wiper f may be made to engage some other part of the clock mechanism to start and stop it.
The clock mechanism G is of the ordinary kind and may be wound to run for any desired length of time. On the arborg usually employed for the hands I secure a head g, which may carry a pointer 9 The head is also provided with a pin, which upon each revolution of the head engages a tooth of a dial g to move it one space. The dial g is marked to represent time-spaces, and as it is turned a pointer 9 indicates the number of spaces of time the dial has been moved. In the present instance the dial is marked to indicate hour-spaces. In connection with the clock mechanism there is the usual striking mechanism. Instead of a gong the second ary signal F is operated thereby. The signalwheel consists of a disk 71, having a series of peripheral openings and a number of pins h, which are removably inserted in the said openings.
[2, and h represent the usual spring-fingers normally in contact and included in the linecircuit. It will be understood that when the clock mechanism is operating the signalwheel F will be operated at preferably every hour.
The operation of the system is as follows:
The circuit of the wire 0 is a normally closed one, as stated, in which case the magnet D will be energized and armature 01 will be attracted. The notched end of the armature is' on the arbor of the balance-wheel of the clockmechanism. In other words, the device shown in Fig. 2 is in what may be termed set position. As soon as the wire 0 is broken in any manner the magnet D is deenergized, the spring 01 moves the armature to disengage it from the detent, the detent falls, and the pendulum e is left free to operate under the influences of the spring in the primary signal. The signal-wheel is then rotated and its signal made at the central office. This signal serves as a Warning, and the structure from which the alarm was sounded should be inspected. The break in the circuit is repaired and the primary signal reset. Immediately at the end of the sounding of the primary signal or during the sounding of the primary signal, if desired, the lever f is moved to start the clock mechanism. The clock mechanism operates until the circuit 0 is repaired and the primary signal reset, and at regular in: tervals it sends to the central office a different signal, or it may send the same signal as that of the primary signal. To accomplish this, the pins h on the wheel H are arranged about the disk h to cause the finger h to lift to open the circuit. In this manner the secondary or auxiliary signal serves to record the time from the sending of the primary signal to its resetting. Thus it will be seen in case of the primary signal not being heard at the central office at a time when it is sprung and the linewire broken or interrupted a signal will be heard at regular intervals from the secondary or auxiliary apparatus when the break in the line is repaired or the line otherwise cleared, provided, of course, that the clock mechanism had not run down.
What I claim as my invention is- 1. In a burglar-alarm signal system comprising a line between a protected structure and a central office, the combination of a local circuit at the guarded structure, a primary signal device in circuit with the line and controlled by a device in the local circuit, and a repeating signal device also in circuit with the line and adapted to be put in operation by the primary signal device and to repeat its signal as often as desired at predetermined intervals.
2. In a burglar-alarm signal system comprising a line between a protected structure and a central office, the combination of a local circuit at the guarded structure, a primary signal device in circuit with the line and controlled by an electromagnetic device in the local circuit, a repeating signal device also in circuit with the line and adapted to be put in operation by the primary signal device and to repeat said signal as often as desired at predetermined intervals, said repeating signal device comprising a train ot wheels operated bya motor and signal-wheels which are periodically operated from said train of wheels and motor.
3. In a burglar-alarm signal system, comprising a line between a protected structure and a central office, the combination of a local circuit at the guarded structure, a primary signal device in circuit with the line and controlled by an electromagnet in the local circuit, a repeating signal device also in circuit with the line and adapted to be put in operation by the primary signal device to repeat its signal to the central ofi'ice at predetermined intervals with respect to the primary signal, said repeating signal device comprising a train of wheels operated by a motor and signal-wheels which are periodically operated from the train of wheels and motor and a dial for indicating the interval elapsed after the starting of the repeating signal device.
4. In a burglar-alarm signalsystem, comprising a line between a protected structure and a central office, the combination of a local circuit at the guarded structure, a primary signal device in circuit with the line and controlled by an electromagnet in the local circuit, a repeating signal device also in circuit with the line and adapted to be put in operation by the primary signal device to repeat its signal to the central office at predetermined intervals with respect to the primary signal, said signal-repeating device comprising a time-train provided with a balance- Wheel, a signal-wheel and time-dial, and a starting-lever acting upon said balance-wheel and operated from the primary signal.
In testimony whereof I have signed my name to this specification in the presence of two subscribing witnesses.
EDWIN T. HOLMES. Witnesses:
GEO. E. ORUsE,
GEG. H; RAYMOND.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2492432A (en) * 1946-07-27 1949-12-27 Electro Protective Corp Electrical protective alarm system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2492432A (en) * 1946-07-27 1949-12-27 Electro Protective Corp Electrical protective alarm system

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