US1066731A - Thermostatic alarm. - Google Patents

Thermostatic alarm. Download PDF

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US1066731A
US1066731A US75660513A US1913756605A US1066731A US 1066731 A US1066731 A US 1066731A US 75660513 A US75660513 A US 75660513A US 1913756605 A US1913756605 A US 1913756605A US 1066731 A US1066731 A US 1066731A
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alarm
arm
post
battery
band
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US75660513A
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Frank Jaynes
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    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B17/00Fire alarms; Alarms responsive to explosion
    • G08B17/06Electric actuation of the alarm, e.g. using a thermally-operated switch

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  • My invention relates to thermostatic alarms whereby cert-ain changes in the temperature will be indicated by an electrically operated alarm.
  • My object is to provide a device of this class wherein the expansion of a metal band, when subjected to abnormal heat, will. operate to close an electric circuit and thus produce an alarm.
  • said means being so arranged that the device willI adjust itself to position for future operation without further attention on the part 'of the operator.
  • My invention consists in certain details, in the construction, arrangement and combination Y of the various parts of the device, whereby the objects contemplated are attained, as hereinafter more fully set forth, pointed out in my claims and illustrated in the accompanying drawings, in-which:
  • Figure 1 shows a diagrammatic view of my device
  • Fig. 2 shows a front elevation of my device inelosed within a casin'
  • My improved thermostatic alarm wil preferably be located within a supporting' casing 10 and may' be employed withinany building, room or locality where fires aref liable to occur or where it is desired that certain predetermined degrees of temperature be indicated by an alarm.
  • a suitable battery 11 and an electrically operated bell 12 Positioned within the casing 10 are a suitable battery 11 and an electrically operated bell 12. Secured at one end to the casing is an expansible metal bandV 13 and located adjacent to the free end of the band are binder posts 14 and 15 carrying thumb' screws 16 and 17, the screw 16 bein in p0- sition to be engaged'by the free en of the band when said band is in its expanded position and the screw lbeing in position to be engaged by the end .of the band when said band is in its contracted position.
  • An electromagnet 18 is mounted within lthe casing and adjacent thereto is an escapement lever 19, the rear end of said escapement lever.
  • the electrical connections ofV my device are as follows: One pole ofthe battery is connected to the metal band 13 by means of a wire 23. @ne post of the bell is connected to the binder post 14 by means of a wire 24; and the othe'rpost of said bell is connected to the binder post 22 by means of a wire 25. The otherpole of said battery is connected to the battery arm 20 ⁇ byumeans of a wire 26. The electromagn'et 18 is connected t0 the binder post 15 by means of a wire 27 and to the escapement lever 19 by means of awire 28.
  • the arm 20 being in engagement with the escapement lever 19 the current will pass along the arm 20 and back to the battery 11 through the wire 26. The result of this current will be to energize the mag-l net and attract the rear end of the escapement lever '19 downwardly to engagement with the core of said electric magnet.
  • the escapement lever having been attracted downwardly by the electromagnet will assume the position shown by dotted lines in Fig. 2 and thereby the arm 20 will be released and the coil spring 21 will draw said arm back to engagement with the binder post 22, thus putting the parts of my device in position for operation when the tern ⁇ perature again rises and the metal band 13 expands.
  • the arrangement of the parts of my device is obviously an advantageous one in that it permits the several parts comprising my alarm .to be assembled compactly Within a comparatively small'casing and thus ren,- ders my device especially desirable for use in dwelling houses and the like for indicating certain degrees of temperature; the thumb screws 16 and 17 forming the contacts for the metal band 13 offer a simple and effective Way of varying the amount of lcontraction or expansion which the said band must undergo before the alarm will be sounded,- and in this manner the degrees of temperature at which the alarm Will'operate can be widely varied.
  • a device of the classdescribed the combination of a battery, an electrically operated alarm, an expansible metal band fixed at one end and having its opposite end free, said band being electrically connected with one pole of said battery, a contact point designed to be engaged by the free end of said band when in its expanded position, said contact point being electrically connected with one post of the alarm device, a' binder post electrically connected with the other post on said alarm device, a spring actuated arm electrically connected with the I opposite pole of said battery, said arm When in one position of its movement being designed to engage the said binder post and form an electrical contact therewith, an escapement lever adjacent to said arm designed to engage the end of said arm and hold it in position away from said binder post, and means operated by said battery for releasing said arm from engagement with said escapement lever.
  • a device of the class described the combination of a battery, an electrically operated alarm, an expansible metal band fixed at one end and having its opposite end free, said band being electrically connected with one pole of said battery, a contact point designed to be engaged by the free end of said band when in its expanded position, said contact point being electrically connected With one post of the alarm device, a binder post electrically connected with the other post on said alarm device, a spring actuated arm electrically connected with the opposite pole of said battery, said arm When in one position of its movement being designed to engage the said binder post and form an electrical contact therewith, an escapement lever adjacent to said arm designed to engage the end ofJsaid arm and.
  • said means comprising an electromagnet adjacent to said escapement lever and electrically connected therewith, a contact point adjacent to the free end of said metal band and designed to be engaged by the end of said band when in its contacted position,l said contact point being electrically connected with the electromagnet.
  • thumb screws carried by said binder posts, one of said thumb screws forming an electrical contact with said metal band when in its expanded position and the other one of said thumb screws forming an velectrical contact with said band when in its contacted position, the first mentioned one of said binder posts being electrically connected with' one post of said alarm device, an electromagnet xed within said casing andelectrically connected with the second mentioned one of said binder posts, an escapement lever adjacent to said electromagnet and electrically connected therewith, said escapement lever being designed to be moved downwardly at one end by the attraction of said magnet when energized, :l spring actuated arin pivoted Within said casing ndjacent to said escapement lever and designed to coact therewith, said arm being electrically connected with the opposite pole of said battery, and a binder post fixed Within said casing and electrically connected with the remaining post on said alarm device, said last mentioned binder post being in 10 position to be engagedby said pivoted arm and form an electrical Contact therewith when said army is in position out of engagement with the escapement lever

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  • Business, Economics & Management (AREA)
  • Emergency Management (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Emergency Alarm Devices (AREA)

Description

P. JAYNES.
THERMOSTATIC ALARM.
APPLICATION FILED MAR.24,1913.
1,066,731 Patented July 8, 1913.
M A- l 2f 7 V/Y'ILSSES; I y I/ [AVVEYYU/C.
Fran/(f J nw W m' 67 FRIANK JAYNES, 0F Das MOINES, IOWA.
'THERMosTATIc ALARM.
specification of Letters Patent.
Patented July 8, 1913.
Application lied March 24, 1913. Serial No. 756,605.
T 0 all 'whom imag concern:
Be it known that I, FRANK JAYNES, a citizen of the United States, residing at Des Moines, in the county of Polk and State of Iowa, have. invented a certain new and useful Thermostatic Alarm, of which the following is a specification.
My invention relates to thermostatic alarms whereby cert-ain changes in the temperature will be indicated by an electrically operated alarm.
My object is to provide a device of this class wherein the expansion of a metal band, when subjected to abnormal heat, will. operate to close an electric circuit and thus produce an alarm.
More specifically it is my object to provide in connection with a device of this cla simple means for manually shutting off the alarm before the temperature has subsided sufficiently to contract the metal band and of itself break the alarm circuit,
said means being so arranged that the device willI adjust itself to position for future operation without further attention on the part 'of the operator.
My invention consists in certain details, in the construction, arrangement and combination Y of the various parts of the device, whereby the objects contemplated are attained, as hereinafter more fully set forth, pointed out in my claims and illustrated in the accompanying drawings, in-which:
Figure 1 shows a diagrammatic view of my device, and Fig. 2 shows a front elevation of my device inelosed within a casin' My improved thermostatic alarm wil preferably be located within a supporting' casing 10 and may' be employed withinany building, room or locality where fires aref liable to occur or where it is desired that certain predetermined degrees of temperature be indicated by an alarm.
Positioned within the casing 10 are a suitable battery 11 and an electrically operated bell 12. Secured at one end to the casing is an expansible metal bandV 13 and located adjacent to the free end of the band are binder posts 14 and 15 carrying thumb' screws 16 and 17, the screw 16 bein in p0- sition to be engaged'by the free en of the band when said band is in its expanded position and the screw lbeing in position to be engaged by the end .of the band when said band is in its contracted position. An electromagnet 18 is mounted within lthe casing and adjacent thereto is an escapement lever 19, the rear end of said escapement lever. being in position adjacent to said electromagnet so that when the said magnet is energized the end of said escapement lever will be drawn downwardl to engagement with said electromagnet. ('oacting with the escapement leverv is an arm 2O pivoted to the casing and a contractible coil spring 21 is employed for drawing said arm away from the escapement leve;` when the lend of said lever has released the arm. A binder post 22 which also formsv an electrical contact with the arm 20 is secured to the casing and limits the movement of said arm away from theesc'apement lever.
The electrical connections ofV my device are as follows: One pole ofthe battery is connected to the metal band 13 by means of a wire 23. @ne post of the bell is connected to the binder post 14 by means of a wire 24; and the othe'rpost of said bell is connected to the binder post 22 by means of a wire 25. The otherpole of said battery is connected to the battery arm 20 `byumeans of a wire 26. The electromagn'et 18 is connected t0 the binder post 15 by means of a wire 27 and to the escapement lever 19 by means of awire 28.
In practical operation and assuminglthat the temperature is sufficient to expand the band 13, the parts of my device will be in the positions shown in Fig. 2Aof Vthe drawing. Current therefor from the battery 11 will pass throughthe wire 23 to the arm 13 and then to the binder post 14 through the thumb screw 16. Frein athe binder post 14, the current is conducted through the wire 24 to the bell, thence through the bell outwardly through the opposite post and along the wire 25 to the binder ost 22. Thearm 2O being in contact with tlie post 22 current obviously will pass through the arm 20 and back to the battery throughthe wire 26, thus forming a closed circuit which will cause the bell to ring. The operator then having been warned by the sounding of the alarm, and desiring to shut oli the alarm will move the arm 20 to engagement with the escape ment lever 1 9. This obviously will break the ringing circuit and stop the operation 'of the alarm. Thenas the temperature subsides the metal band 13 will be contracted and when it reaches its contracted position, its free end will, -form a contact with the thumb screw 17 andthe following electrical circuit will be completed: Current from the battery will be conducted through the Wire 23 to the metal band 13 and through the thumb screw 17 to the binder post 15. From the binder post 15 a current will pass through the wire 27 to the electromagnet 18 and then from the electromagnet 18 through the wire 28 to the escapement lever 19. The arm 20 being in engagement with the escapement lever 19 the current will pass along the arm 20 and back to the battery 11 through the wire 26. The result of this current will be to energize the mag-l net and attract the rear end of the escapement lever '19 downwardly to engagement with the core of said electric magnet. The escapement lever having been attracted downwardly by the electromagnet will assume the position shown by dotted lines in Fig. 2 and thereby the arm 20 will be released and the coil spring 21 will draw said arm back to engagement with the binder post 22, thus putting the parts of my device in position for operation when the tern` perature again rises and the metal band 13 expands.
The arrangement of the parts of my device is obviously an advantageous one in that it permits the several parts comprising my alarm .to be assembled compactly Within a comparatively small'casing and thus ren,- ders my device especially desirable for use in dwelling houses and the like for indicating certain degrees of temperature; the thumb screws 16 and 17 forming the contacts for the metal band 13 offer a simple and effective Way of varying the amount of lcontraction or expansion which the said band must undergo before the alarm will be sounded,- and in this manner the degrees of temperature at which the alarm Will'operate can be widely varied. l
The arrangement for shutting off the alarm before the expansible metal band has contracted to thereby break the ringing circuit is obviouslya highly advantageous one and is the important feature of my device.
It is understood that many minor` changes V'may be made in the details ofA construction of my device without in any .way departing.
from the spirit of my invention.
I claim as my invention: -1. In a device of the classdescribed, the combination of a battery, an electrically operated alarm, an expansible metal band fixed at one end and having its opposite end free, said band being electrically connected with one pole of said battery, a contact point designed to be engaged by the free end of said band when in its expanded position, said contact point being electrically connected with one post of the alarm device, a' binder post electrically connected with the other post on said alarm device, a spring actuated arm electrically connected with the I opposite pole of said battery, said arm When in one position of its movement being designed to engage the said binder post and form an electrical contact therewith, an escapement lever adjacent to said arm designed to engage the end of said arm and hold it in position away from said binder post, and means operated by said battery for releasing said arm from engagement with said escapement lever.
2. In a device of the class described, the combination of a battery, an electrically operated alarm, an expansible metal band fixed at one end and having its opposite end free, said band being electrically connected with one pole of said battery, a contact point designed to be engaged by the free end of said band when in its expanded position, said contact point being electrically connected With one post of the alarm device, a binder post electrically connected with the other post on said alarm device, a spring actuated arm electrically connected with the opposite pole of said battery, said arm When in one position of its movement being designed to engage the said binder post and form an electrical contact therewith, an escapement lever adjacent to said arm designed to engage the end ofJsaid arm and. hold it in position away from said binder post, and means operated by said battery with said escapement lever, said means comprising an electromagnet adjacent to said escapement lever and electrically connected therewith, a contact point adjacent to the free end of said metal band and designed to be engaged by the end of said band when in its contacted position,l said contact point being electrically connected with the electromagnet. 1
3. In a device of the class described., the combination of a casing, a battery mounted within said casing, an electrically operated alarm Within .said casing, an expansible metal band {ixed at one end to the interior of said casing and electrically connected with one pole of said battery, binder posts adjacent to the free-end of said metal band, l
thumb screws carried by said binder posts, one of said thumb screws forming an electrical contact with said metal band when in its expanded position and the other one of said thumb screws forming an velectrical contact with said band when in its contacted position, the first mentioned one of said binder posts being electrically connected with' one post of said alarm device, an electromagnet xed within said casing andelectrically connected with the second mentioned one of said binder posts, an escapement lever adjacent to said electromagnet and electrically connected therewith, said escapement lever being designed to be moved downwardly at one end by the attraction of said magnet when energized, :l spring actuated arin pivoted Within said casing ndjacent to said escapement lever and designed to coact therewith, said arm being electrically connected with the opposite pole of said battery, and a binder post fixed Within said casing and electrically connected with the remaining post on said alarm device, said last mentioned binder post being in 10 position to be engagedby said pivoted arm and form an electrical Contact therewith when said army is in position out of engagement with the escapement lever, as and for the purposes stated.
Des Moines, Iowa, March 20, 1913.
FRANK J AYN E S.
Witnesses:
M. WALLACE, L. ROBINSON.
US75660513A 1913-03-24 1913-03-24 Thermostatic alarm. Expired - Lifetime US1066731A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2488281A (en) * 1947-01-30 1949-11-15 Joseph E Formanek Fire alarm switch
US2522850A (en) * 1948-06-18 1950-09-19 Therm Alarm Company Inc Safety and alarm apparatus
US2537431A (en) * 1946-11-19 1951-01-09 Gen Motors Corp Refrigerator alarm system
US2575883A (en) * 1948-12-01 1951-11-20 Mateer George Diehl Fire alarm
US3044049A (en) * 1957-05-01 1962-07-10 Speed Developments Company Ltd Temperature alarm systems
US3383674A (en) * 1965-07-29 1968-05-14 Henry J. Soltau Burglar alarm system

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2537431A (en) * 1946-11-19 1951-01-09 Gen Motors Corp Refrigerator alarm system
US2488281A (en) * 1947-01-30 1949-11-15 Joseph E Formanek Fire alarm switch
US2522850A (en) * 1948-06-18 1950-09-19 Therm Alarm Company Inc Safety and alarm apparatus
US2575883A (en) * 1948-12-01 1951-11-20 Mateer George Diehl Fire alarm
US3044049A (en) * 1957-05-01 1962-07-10 Speed Developments Company Ltd Temperature alarm systems
US3383674A (en) * 1965-07-29 1968-05-14 Henry J. Soltau Burglar alarm system

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