US913180A - Temperature-annunciator. - Google Patents

Temperature-annunciator. Download PDF

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US913180A
US913180A US37369407A US1907373694A US913180A US 913180 A US913180 A US 913180A US 37369407 A US37369407 A US 37369407A US 1907373694 A US1907373694 A US 1907373694A US 913180 A US913180 A US 913180A
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annunciator
tube
wires
circuit
wire
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US37369407A
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Nehemiah D Wyman
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H35/00Switches operated by change of a physical condition
    • H01H35/24Switches operated by change of fluid pressure, by fluid pressure waves, or by change of fluid flow
    • H01H35/26Details
    • H01H35/2657Details with different switches operated at substantially different pressures

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  • My invention relates to tiiat class of temperature annunciators wherein an expansible' quid in a thermometer closes or opens an electric circuit to cause an alarm device to arrangement of parts, all of which will be hereinafter set forth and particularly pointed out in the claims.
  • Figure 1 is a view of the apparatus to be used for operating the annunciator at high temperatures.
  • Fig. 2 illustrates a modification of certain connections between the thermometer and the annunciator.
  • Fig. 3 is a sectional view showing a detail of the construction of the upper part of Fig. 2.
  • Fig. 4 is a view illustrating the apparatus to be used for lowtemperatures.
  • Fig. I 5 illustrates the same apparatus with some of the parts in different positions from that shown in Fig. 4.
  • the part marke 1 represents an an-, nunciator which, in this case, is an ordinar electric bell.
  • a Wire3 which connects to the pivoted arm 4 of. a switch.
  • a wire 6 Leading from the other binding post 5, is a wire 6 which is connected to one battery 8. From the other pole 9 of this battery extends the wire 10.
  • 11 a 'li uid thermometer one end of which is provided with the usual enlargement of bulb 12, which pole 7 of a contains an expansible li uid 13, preferably mercury.
  • the tube 14 o the thermometer has the usual bore 15, which communicates with the bulb and into which the mercury rises or falls as the temperature increases or decreases.
  • the lever 4 is p aced on the switch terminal corresponding to that temperature. 4
  • the circuit is completed through the mercury column and the bell rings and continues to do so until the'temperature is again lowered or the circuit broken by moving the switch' lever 4.
  • the switchlever 4 is set so that the annunciator will ring at 80, and this figure shows that the mercury is slightly above the wire 17 fixed in the mercury tube at 80.
  • thermometer tube is surrounded by a j sleeve 30, said sleeve .and the thermometer being connected together by cement 31'.
  • a cap 32 Tightly but slidably fitted over the upper end of the sleeve is a cap 32, the upper end of which is closed. Projecting from the inner surface of this cap and into the bore 15 of the tube 14,.is awire 33. The wire 3 leading from the .annunciator is electrically connected to this Wire 33.
  • a finger 34 Secured to the cap 32 is a finger 34 which points to the scale 35, indicat ng. the tem erature.
  • the wire 10 rom the battcry leads directly through the tube and into the mercury .column, although in this construction this wire 10 may be provided with three branches 20, 21 and 22 as shown in Fig. 1.
  • the cap is raised or lowered unti the finger 34 points to the predetermined temperature at which the annunciator is to be sounded as shown at
  • the mercury rises in the column until it comes in contact with the inner end of the rod or wire 33
  • the electric connection is made and the annunciator 1 is operated and will continue to operate until the cap is raised to bring the rod 33 out of contact with the mercury or the temperature falls.
  • Figs. 5 and 6 I have shown the apparatus constructed to be used for low temperatures and where the annunciator is operated when the temperature falls -below a predetermined point.
  • the annunciator wires 3 and 10 leading directly to the thermometer tube, they are connected to the terminal 40 and the armature 41, respectively, of a relay 42.
  • the terminals 20, 21 and 22 are connected to the wire 10 of the local battery 43 and the other wires 10 of this battery lead to the relay.
  • 16*, 17, 18 and 19* are terminal wires projecting through the wall of the tube 14 near the lower end thereof and at predetermined low temperatures as shown, 40, 30, 20, and 10 respectively. These wires are connected to the switch terminals 40*, 30 20 and 10 respectively.
  • the conducting wire 3 Leading from the switch arm to the annunciator is the conducting wire 3 In this construction, the relay circuit'is normally closed, as the annunciator is to ring only when the temperature falls. As shown in these figures, the annunciator is set to ring when the temperature falls below 30.
  • Fi 4 shows the mercu above 30, in whic case the relay circuit 1s closed and the armature 41 is pulled towards the pole of the relay, the point 44 of the armature is out of contact with the terminal 40 and the bell circuit is open.
  • the relay magnets are deener ized and the armature 41 is pulled over by t e spring 45 so that its polnt 44 will come in contact with the terminal 40, whereby the annunciator circuit is closed and the annunciator is caused to ring.
  • Fig. 5 shows the position of the parts when the tem erature has fallen below 30 as set forth in i ig. 4.
  • an expansible liquid thermometer a series of terminal wires projecting through the wall of the thermometer tube above the bulb thereof and into communication with the liquid therein, each of saidwires connected to a single circuit wire a series of other wires also projecting through the wall of the thermometer tube and above the first mentioned wire at a predetermined point, a battery, an annunciator, circuit wires connected to the battery and annunciator, and a switch connected to one of said circuit wires and adapted to be moved to each one of the series of wires projectin in the thermometer tube, whereby upon the change of temperature the annunciator will be operated.
  • an expansible liquid thermometer a series of wires projecting through the wall of the thermometer tube above the bulb and in communication with the li uid in the tube and connected to a singe circuit wire, a sleeve on the upper end of the tube, a cap movable on sai sleeve, a wire or rod connected to said cap and projecting into the bore of the tube, a circuit w1re connected to said rod, an annunciator, and a battery in the circuit as and for the purpose set forth.
  • an expansible liquid thermometer In a device of the class described, an expansible liquid thermometer, a series of wires projecting through the wall of the tube of the bulb and into the liquid therein above the bulb and connected to a single circuit wire, another series of wires rojecting through the wall of the tube and into the bore thereof above the first mentioned wire, a switch adapted to be moved into contact with each one of the last mentioned wires, a circuit leading from the switch to the first mentioned wire, a battery in said circuit, a relay in the circuit, another circuit connected to said relay, and an annunciator in said second circuit as and for the purpose set forth. 7.
  • an eztpansihle liquid thermometer a series of Wires projecting through the wall of the thermometer tube above the bulb of the tube 1 and into the liquid therein, another series of Wires above the first mentioned wires rojeeting through the wall of the tube and into the bore thereof, each of said SWOTltl mentioned wires connected to a switch.
  • a switch F lever adapted to be connected with any one ⁇ of said wires, a circuit leading from said switch lever and to the first series of wires, a battery and a relay in said circuit, a second circuit connected to the armature of the relay and to a terminal on said relay, and an annunciator in said circuit as and for the purpose set forth.

Description

N. D. WYMAN.
TEMPERATURE ANNUNGIATOR.
APPLICATION FILED MAY 14, 1907.
913,180. Patented Feb. 23, 1909.
2 SHEETS-SHEET 1.
WITNESSES.-
Patented Feb. 23, 1909.
2 SHEETS-SHEET 2.
. W) TNESSES:
NEHEMIAH, n. WYMAN, or MONTCLAIR, NEW JERSEY.
TEMPIEBATUBE-ANNUNOIATOB.
' Specification of Letters Patent.
Patented. Feb. 23, 1909. I
Application filed Kay 14, 1907. Serial No. 878,694.
To all whom it may concern:
Be it known that I, NEHEMIAH D. WYMAN, a citizen of the United States, and residing at Montclair, Essex county, New Jersey, have invented certain new and useful Improvements in Temperature-Annunciators, of which the following is a s ecification.
My invention relates to tiiat class of temperature annunciators wherein an expansible' quid in a thermometer closes or opens an electric circuit to cause an alarm device to arrangement of parts, all of which will be hereinafter set forth and particularly pointed out in the claims.
In the accompanying drawings which form a part of this application, I have illustrate what I now consider to be the best form of my apparatus.
Referring to the drawings in which the same reference character indicates the same partin the several views, Figure 1 'is a view of the apparatus to be used for operating the annunciator at high temperatures. Fig. 2 illustrates a modification of certain connections between the thermometer and the annunciator. Fig. 3 is a sectional view showing a detail of the construction of the upper part of Fig. 2.- Fig. 4 is a view illustrating the apparatus to be used for lowtemperatures. Fig. I 5 illustrates the same apparatus with some of the parts in different positions from that shown in Fig. 4.
Referring specificall .to Fig. 1 of the drawings, the part marke 1 represents an an-, nunciator which, in this case, is an ordinar electric bell. Leading from one of the bin ing posts 2 of this bell, is a Wire3 which connects to the pivoted arm 4 of. a switch. Leading from the other binding post 5, is a wire 6 which is connected to one battery 8. From the other pole 9 of this battery extends the wire 10. 11 a 'li uid thermometer, one end of which is provided with the usual enlargement of bulb 12, which pole 7 of a contains an expansible li uid 13, preferably mercury. The tube 14 o the thermometer has the usual bore 15, which communicates with the bulb and into which the mercury rises or falls as the temperature increases or decreases. Projecting through the wall of the tube, at the .up er end thereof and into the bore in the patli of the mercury column at predetermined oints, 60, 70, 80 and 90, respectively, are t e ends of a series of conducting wires 16, 17,18 and 19. The other ends of these wires are connected to terminals 7 0, 80 and 90", respectively of a switch, the pivoted arm 4 being adapted to be placed in contact with any one of these terminals to make connection between the wire 3 and either one of the wires 16, 17, 18 or 19. Projecting through the wall of the tube below the wire 19, and near the lower end thereof, but above the bulb 13 is a series of conducting wires 20, 21 and 22, which series is connected to the wire 10. The lower wires 20, 21 and 22 form one terminal of the circuit and either one of the wires 16, 17 18 or 19 forms the other terminal. When it is desired that the annunciator should operate at a redetermined temperature, the lever 4 is p aced on the switch terminal corresponding to that temperature. 4 When the mercury in the tube reaches the end of the wire corresponding-to said'temperature, the circuit is completed through the mercury column and the bell rings and continues to do so until the'temperature is again lowered or the circuit broken by moving the switch' lever 4. As illustrated in Fig. 1, the switchlever 4 is set so that the annunciator will ring at 80, and this figure shows that the mercury is slightly above the wire 17 fixed in the mercury tube at 80.
' In Figs. 2 and 3 we have shown a different construction of terminal for the thermometer. In this construction the upper end of the thermometer tube is surrounded by a j sleeve 30, said sleeve .and the thermometer being connected together by cement 31'. Tightly but slidably fitted over the upper end of the sleeve is a cap 32, the upper end of which is closed. Projecting from the inner surface of this cap and into the bore 15 of the tube 14,.is awire 33. The wire 3 leading from the .annunciator is electrically connected to this Wire 33. Secured to the cap 32 is a finger 34 which points to the scale 35, indicat ng. the tem erature. In this construction, the wire 10 rom the battcry leads directly through the tube and into the mercury .column, although in this construction this wire 10 may be provided with three branches 20, 21 and 22 as shown in Fig. 1. In operatin this device the cap is raised or lowered unti the finger 34 points to the predetermined temperature at which the annunciator is to be sounded as shown at When the mercury rises in the column until it comes in contact with the inner end of the rod or wire 33, the electric connection is made and the annunciator 1 is operated and will continue to operate until the cap is raised to bring the rod 33 out of contact with the mercury or the temperature falls.
'In Figs. 5 and 6 I have shown the apparatus constructed to be used for low temperatures and where the annunciator is operated when the temperature falls -below a predetermined point. In this construction, instead of the annunciator wires 3 and 10 leading directly to the thermometer tube, they are connected to the terminal 40 and the armature 41, respectively, of a relay 42. In this construction the terminals 20, 21 and 22 are connected to the wire 10 of the local battery 43 and the other wires 10 of this battery lead to the relay. 16*, 17, 18 and 19* are terminal wires projecting through the wall of the tube 14 near the lower end thereof and at predetermined low temperatures as shown, 40, 30, 20, and 10 respectively. These wires are connected to the switch terminals 40*, 30 20 and 10 respectively. Leading from the switch arm to the annunciator is the conducting wire 3 In this construction, the relay circuit'is normally closed, as the annunciator is to ring only when the temperature falls. As shown in these figures, the annunciator is set to ring when the temperature falls below 30.
Fi 4 shows the mercu above 30, in whic case the relay circuit 1s closed and the armature 41 is pulled towards the pole of the relay, the point 44 of the armature is out of contact with the terminal 40 and the bell circuit is open. When the temperature falls below 30 the mercury in the tube is out of contact with the wire 17 whereby the relay circuit is open, the relay magnets are deener ized and the armature 41 is pulled over by t e spring 45 so that its polnt 44 will come in contact with the terminal 40, whereby the annunciator circuit is closed and the annunciator is caused to ring.
Fig. 5 shows the position of the parts when the tem erature has fallen below 30 as set forth in i ig. 4. I
While I have shown in Figs. 1, 4 and 5, more than one wire for the lower terminal, yet it is-to be understood that this is merely the preferred construction, as the wire 10 or 10 can be run directly through the wall of the tube into the mercury column. It is to be noted also that whether one or more wires are used for this, the lower terminal should be placed in the tube above the bulb. I do this for the reason that I have discovered in all such apparatus with which I am familiar, this termmal has been\placed in the bulb itself, which is objectionable for the reason that when the circuit is completed, the mercury in the bulb is heated and as the mercury rises in the tube it becomes separated and it often happens that there is not a com lete circuit through the mercury in the tul ie, and therefore, the annunciator will not ring at the redetermined point. The disadvantage of t is, of course, is apparent.
While I have shown the high and low temperature alarms connected to the tube separately, yet it comes well within the scope of my invention to place high and low temperature terminals in the same tube and set the apparatus so that the annunciator will 0 erate at either a predetermined high or ow tem erature.
aving now described my invention, what I claim as new' and desire to secure by Letters Patent is:
1. In a device of the class described, an expansible liquid thermometer, a series of terminal wires projecting through the wall of the thermometer tube above the bulb thereof and into communication with the liquid therein, each of saidwires connected to a single circuit wire a series of other wires also projecting through the wall of the thermometer tube and above the first mentioned wire at a predetermined point, a battery, an annunciator, circuit wires connected to the battery and annunciator, and a switch connected to one of said circuit wires and adapted to be moved to each one of the series of wires projectin in the thermometer tube, whereby upon the change of temperature the annunciator will be operated.
2. In a device ofv the class described, an expansible liquid thermometer, a series of wires projecting through the wall of the thermometer tube above the bulb and in communication with the li uid in the tube and connected to a singe circuit wire, a sleeve on the upper end of the tube, a cap movable on sai sleeve, a wire or rod connected to said cap and projecting into the bore of the tube, a circuit w1re connected to said rod, an annunciator, and a battery in the circuit as and for the purpose set forth.
3. In a device of the class described, an expansible liquid thermometer, a series of wires projecting through the wall of the tube of the bulb and into the liquid therein above the bulb and connected to a single circuit wire, another series of wires rojecting through the wall of the tube and into the bore thereof above the first mentioned wire, a switch adapted to be moved into contact with each one of the last mentioned wires, a circuit leading from the switch to the first mentioned wire, a battery in said circuit, a relay in the circuit, another circuit connected to said relay, and an annunciator in said second circuit as and for the purpose set forth. 7.
4. In a device of the class described, an eztpansihle liquid thermometer, a series of Wires projecting through the wall of the thermometer tube above the bulb of the tube 1 and into the liquid therein, another series of Wires above the first mentioned wires rojeeting through the wall of the tube and into the bore thereof, each of said SWOTltl mentioned wires connected to a switch. a switch F lever adapted to be connected with any one {of said wires, a circuit leading from said switch lever and to the first series of wires, a battery and a relay in said circuit, a second circuit connected to the armature of the relay and to a terminal on said relay, and an annunciator in said circuit as and for the purpose set forth.
In witness whereof I have hereunto set in 5 hand at the city of New York, county 3 New York and State of New York, this 3: l: day ol" April, 1907.
NEHEMIAII D. WYMAN ln presence ot' T. RICHARDS,
ALLAN W. Foosn.
US37369407A 1907-05-14 1907-05-14 Temperature-annunciator. Expired - Lifetime US913180A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2603234A (en) * 1952-07-15 Relief valve operating and control
US2644400A (en) * 1950-06-24 1953-07-07 David L Hofer Control circuit for emergency relief valve of a dredge

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2603234A (en) * 1952-07-15 Relief valve operating and control
US2644400A (en) * 1950-06-24 1953-07-07 David L Hofer Control circuit for emergency relief valve of a dredge

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