US1515202A - Automatic flatiron controller - Google Patents

Automatic flatiron controller Download PDF

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Publication number
US1515202A
US1515202A US501046A US50104621A US1515202A US 1515202 A US1515202 A US 1515202A US 501046 A US501046 A US 501046A US 50104621 A US50104621 A US 50104621A US 1515202 A US1515202 A US 1515202A
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circuit
switch
heating element
electrically
conductive
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US501046A
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Harris D Hineline
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CBS Corp
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Westinghouse Electric and Manufacturing Co
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Priority to US501046A priority Critical patent/US1515202A/en
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B1/00Details of electric heating devices
    • H05B1/02Automatic switching arrangements specially adapted to apparatus ; Control of heating devices
    • H05B1/0227Applications
    • H05B1/0252Domestic applications
    • H05B1/0255Irons

Definitions

  • My invention relates to electrically-heated devices and particularly to circuit-control-. ling means for electrica llyheated irons and it has, for its object, to provide a relatively simple, inexpensive and rugged means for controlling the energization of an electrically-heated iron,
  • a salt thermostat under the ther mal control of the heating element, is so connected as to control the energization of the winding, and comprises a material which is normally electrically non-conductive but becomes conductive at a predetermined temperature and permits the switch to interrupt the circuit through the heating element. When the temperature falls below a predetermined value, the material again becomes non-conductive and permits the electromagnetic switch to re-establish the circuitthrough the heating element.
  • Figure 1 is a view, in side elevation, of
  • an electric iron comprising the device em loodying my invention, mg cut away;
  • Fig. 2 is a top plan view of an electric iron comprising the device embodying my invention, cut away.
  • An electrically heated iron 3 comprises a sole late or working member 4c, a top plate 5 and an electric heating element 6 suitably clamped therebetween by means not shown.
  • the heating element 6 may be of any suitable or desired construction known in the art.
  • a hood or cover member 7 may be clamped against the sole plate 4 by a bolt 8..
  • a handle strap 9. substantially of U- shape, is suitably riveted to the top of the cover 7 by rivets 1G and carries a handle 11 suitably secured thereto.
  • Strap terminals 12 are secured to the ends of the heating element 6 by means of bolts or screws 13 and have secured thereto, at their upper ends, terminal pins 14 which extend through an opening 15 in the cover 7, being held in spaced relation to each other and to the cover by an insulating member, 16.
  • a circuit-controlling device comprises a suitably laminated soft-iron core 17 within which is located an energizing winding 18 which is connected in series-circuit relation to a suitable resistor 19.
  • the two parts 18 and 19 are connected in shunt-circuit relation to the strap terminals 12 so as to be energized when the iron is connected to a suitable source of energy (not shown).
  • "An elongated armature 22 is located within the winding 18 and the core 17 and has mounted thereon, at one end, an insulated contactbridging member 23 which is adapted to engage twocontact terminals 2etand 25 which are mounted upon, and insulated from, the iron core 17.
  • a spring member 26 is mounted on the core 17 to engage the other end of the core 22, the member 26 being of such form as to resilientlymaintain the contactbrid ing member 2-3 out of engagement with the contact terminals 24 and 25 as long as the winding 18 is de-energized.
  • the core 22 is moved to eltect engagement of the contact bridging member with the terminals 24 and 25 to permit current to traverse the heating element 6.
  • the resistance of the resistor 19 is of such value'that the voltage drop through the winding 18 does not exceed 25 volts and may be preferably as low as 6 volts.
  • a recess 27 may be provided in the top plate within which the control mechanism is located, or the relay may be located in such other position as may be desirable, as, for instance, in the leads
  • a recess 28 is provided in the top plate 5 within which may be located a mass 29 of a salt such as potassium nitrate or silver chloride, which is electrically non-conducti e at all temperatures below a predetermined value but liquefies and becomes electrically conductive at temperatures above such predetermined value.
  • screw plug the insulating 30 may be located in the topof ss 28, and a termmal 31 pro ects lows.
  • the other end is connected to the terminal 31.
  • the operation of the device is as fol- If a contact plug, the conductors of which are connected to a suitable supply circuit, is placed upon the terminal pins 14, a circuit is established through the'resistor 19 and the winding 18, whereby the core armature 22 is moved to close the switch, thus permitting the current to traverse the heating element 6. If, for any reason, the temperature of the top plate exceeds a predetermined value, the salt 29 liquefies and becomes electrically conductive, short-circuitenergizing the heating element 6.
  • the device embodying my invention provides a relatively simple, inexpensive and rugged device for controlling the energization of an electricallyheated iron by means comprising a fusiblesalt thermostat which is effective to interrupt the current through the heating element when the temperature exceeds a predetermined value and to again permit the current to traverse the heating element as soon as the temperature drops below the predetermined value.
  • a circuit-controlling device for an electrically-heated appliance comprising a normally open switch, electromagnetic means for maintaining said switch in its closed position and means electrically conductive at a predetermined temperature only for de-energizing said electromagnet means.
  • a circuit-controlling device for an electrically-heated appliance comprising an electromagnetic switch and means comprising a closed electric circuit and a variableresistance element. normally electrically non-conductive for permitting the closing thereof only at temperatures below a predetermined value.
  • a circuit-controlling device for an electrically-heated appliance comprising an electromagnetic switch and means normally electrically non-conductive and connected in shunt-circuit relation to said switch for permitting the energization thereof-only at temperatures below a predetermined value.
  • a circuit-controlling device for an electrically-heated appliance comprising an electromagnetic switch and means connected in shunt-circuit relation to saidswitch for selectively actuating the same, said actuat ing means comprising a closed electric circuit electrically non-conductive at all temperatures below a predetermined value and conductive at temperatures above said value.
  • a circuit-controlling means for an electrically-heated appliance having a heating element comprising a two-position switch biased to one of its positions, an
  • a circuit-controlling means for an electrically-heated appliance having a heat-1 ing element said means comprising an electromagnetic switch for controlling the circuit through said heating element, and staing element, said means tionary variable resistance means electrically conductive only at a predetermined temperature for controlling said switch to interrupt the circuit ,upon the occurrence of said predetermined temperature and to reestablish the circuit when thetemperature falls below said predetermined value.
  • a circuit-controlling means for an electrically-heated appliance having a heatcomprising a twoposition switch biased to one of its positions, an electromagnet for holding said switch in the other of its positions, and a variable re sistance closed circuit means under the thermal control of said heating element and electrically conductive at a predetermined tempe 'atnre only for causing said electromagnet to more said switch to its open position upon the occurrence of said predetermined temperature and for permitting said switch to return to its biased position When the telnperature falls below said predetermined value.

Description

Nov 11, 1924. 1,515,202
H. D. HINELINE AUTOMATIC FLATIRON CONTROLLER Filed Sept. '16 1921 24 15 31 I 7 I 30 v E 26 -ALE Q r 8 5 i7 6 3 WITNESSES: INVENTOR Y BY . ATTORNEY till li atenterl Nov. ll, 1924e HG-USE ELECTRIC & MANUFACTURING CQMPANY,
A. CORPORATIQII! 9F PENNSYL AUTOMATIC FLATIRGN CONTROLLER.
Application filed September 16, 1921.
To all whom 2'25 may concern:
Be it known that I, HAnRIs D. HINELINE, a citizen of the United States, and a resident of lVilkinsburg, in the county of Allegheny and State of Pennsylvania, have invented anew and useful Improvement in Automatic Flatiron Controllers, of which the following is a specification.
My invention relates to electrically-heated devices and particularly to circuit-control-. ling means for electrica llyheated irons and it has, for its object, to provide a relatively simple, inexpensive and rugged means for controlling the energization of an electrically-heated iron,
In practising my invention, I provide a -a plural-position electromagnetic switch,
spring biased to one of its positions, the winding of which is connected in shuntcircuit relation to the heating element of the iron. A salt thermostat, under the ther mal control of the heating element, is so connected as to control the energization of the winding, and comprises a material which is normally electrically non-conductive but becomes conductive at a predetermined temperature and permits the switch to interrupt the circuit through the heating element. When the temperature falls below a predetermined value, the material again becomes non-conductive and permits the electromagnetic switch to re-establish the circuitthrough the heating element.
In the single sheet of drawings,
Figure 1 is a view, in side elevation, of
an electric iron comprising the device em loodying my invention, mg cut away; and
Fig. 2 is a top plan view of an electric iron comprising the device embodying my invention, cut away.
An electrically heated iron 3 comprises a sole late or working member 4c, a top plate 5 and an electric heating element 6 suitably clamped therebetween by means not shown. The heating element 6 may be of any suitable or desired construction known in the art. A hood or cover member 7 may be clamped against the sole plate 4 by a bolt 8.. A handle strap 9. substantially of U- shape, is suitably riveted to the top of the cover 7 by rivets 1G and carries a handle 11 suitably secured thereto.
certain parts be certain portions thereof beingto the iron.
Serial No. 501,048.
Strap terminals 12 are secured to the ends of the heating element 6 by means of bolts or screws 13 and have secured thereto, at their upper ends, terminal pins 14 which extend through an opening 15 in the cover 7, being held in spaced relation to each other and to the cover by an insulating member, 16.
A circuit-controlling device comprises a suitably laminated soft-iron core 17 within which is located an energizing winding 18 which is connected in series-circuit relation to a suitable resistor 19. The two parts 18 and 19 are connected in shunt-circuit relation to the strap terminals 12 so as to be energized when the iron is connected to a suitable source of energy (not shown). "An elongated armature 22 is located within the winding 18 and the core 17 and has mounted thereon, at one end, an insulated contactbridging member 23 which is adapted to engage twocontact terminals 2etand 25 which are mounted upon, and insulated from, the iron core 17. A spring member 26 is mounted on the core 17 to engage the other end of the core 22, the member 26 being of such form as to resilientlymaintain the contactbrid ing member 2-3 out of engagement with the contact terminals 24 and 25 as long as the winding 18 is de-energized. When the winding 18 is energized, the core 22 is moved to eltect engagement of the contact bridging member with the terminals 24 and 25 to permit current to traverse the heating element 6. The resistance of the resistor 19 is of such value'that the voltage drop through the winding 18 does not exceed 25 volts and may be preferably as low as 6 volts. A recess 27 may be provided in the top plate within which the control mechanism is located, or the relay may be located in such other position as may be desirable, as, for instance, in the leads A recess 28 is provided in the top plate 5 within which may be located a mass 29 of a salt such as potassium nitrate or silver chloride, which is electrically non-conducti e at all temperatures below a predetermined value but liquefies and becomes electrically conductive at temperatures above such predetermined value. screw plug the insulating 30 may be located in the topof ss 28, and a termmal 31 pro ects lows.
through the insulating cover 30 into the salt 29. One end of the winding 18 is grounded on the top plate 5 as at 32, and
the other end is connected to the terminal 31.
The operation of the device is as fol- If a contact plug, the conductors of which are connected to a suitable supply circuit, is placed upon the terminal pins 14, a circuit is established through the'resistor 19 and the winding 18, whereby the core armature 22 is moved to close the switch, thus permitting the current to traverse the heating element 6. If, for any reason, the temperature of the top plate exceeds a predetermined value, the salt 29 liquefies and becomes electrically conductive, short-circuitenergizing the heating element 6.
ing the winding 18 and permitting the spring 26 to move the core 22 and the contact-bridging member 23 to substantially the position illustrated in Fig. 2, thus de- If the temperature of the top plate falls below the predetermined value, the salt 29 solidifies and a ain becomes electrically non-conductive, t us permitting the deenergization of the win ding 18 and the closing of the switch.
It may be noted that the device embodying my invention provides a relatively simple, inexpensive and rugged device for controlling the energization of an electricallyheated iron by means comprising a fusiblesalt thermostat which is effective to interrupt the current through the heating element when the temperature exceeds a predetermined value and to again permit the current to traverse the heating element as soon as the temperature drops below the predetermined value. i I
.Various modifications may be made in the I device embodying my invention without detrically-heated appliance, mounted therein and comprising an electromagnetic switch and stationary means comprising a closed electric circuit, electrically conductive at a predetermined temperature only for causing said switch to interrupt the circuit.
3. A circuit-controlling device for an electrically-heated appliance comprising a normally open switch, electromagnetic means for maintaining said switch in its closed position and means electrically conductive at a predetermined temperature only for de-energizing said electromagnet means.
4. In an electrically heated appliance, in
combination, a heating element, a normally open switch member for controlling the energization of said heating element, electromagnetic means connected in shunt-circuit relation to said heating element for maintaining said switch in its closed position, and means electrically conductive at a predetermined temperature only for dc-energizing said electromagnetic means. 5. A circuit-controlling device for an electrically-heated appliance comprising an electromagnetic switch and means compris ing a closed electric circuit and a variableresistance element. normally electrically non-conductive for permitting the closing thereof only at temperatures below a predetermined value.
6. A circuit-controlling device for an electrically-heated appliance comprising an electromagnetic switch and means normally electrically non-conductive and connected in shunt-circuit relation to said switch for permitting the energization thereof-only at temperatures below a predetermined value.
7. In an electrically-heated iron, in combination, a heating element, a switch spring biased to its open position, electromagnetic means for causing said switch to close upon the energization of said heating element, and means under the thermal control of said heating element and electrically conductive at a predetermined temperature only for deenergizing said electromagnetic means upon the occurrence of said temperature. 8.. A circuit-controlling device for an electrically-heated appliance comprising an electromagnetic switch and means connected in shunt-circuit relation to saidswitch for selectively actuating the same, said actuat ing means comprising a closed electric circuit electrically non-conductive at all temperatures below a predetermined value and conductive at temperatures above said value.
9. A circuit-controlling means for an electrically-heated appliance having a heating element, said means comprising a two-position switch biased to one of its positions, an
,electromagnet for holding said switch, a va riable resistance closed circuit under the thermal control of said heating element and electrically conductive at a predetermined temperature only for causing said electromagnet to move said switch to its open position upon the occurrence of saidpredetermined temperature.
10. A circuit-controlling means for an electrically-heated appliance having a heat-1 ing element, said means comprising an electromagnetic switch for controlling the circuit through said heating element, and staing element, said means tionary variable resistance means electrically conductive only at a predetermined temperature for controlling said switch to interrupt the circuit ,upon the occurrence of said predetermined temperature and to reestablish the circuit when thetemperature falls below said predetermined value.
11. A circuit-controlling means for an electrically-heated appliance having a heatcomprising a twoposition switch biased to one of its positions, an electromagnet for holding said switch in the other of its positions, and a variable re sistance closed circuit means under the thermal control of said heating element and electrically conductive at a predetermined tempe 'atnre only for causing said electromagnet to more said switch to its open position upon the occurrence of said predetermined temperature and for permitting said switch to return to its biased position When the telnperature falls below said predetermined value.
In testimony whereof, I have hereunto subscribed my name this 31st day of August, 1921.
HARRIS D. HIN ELIN E.
US501046A 1921-09-16 1921-09-16 Automatic flatiron controller Expired - Lifetime US1515202A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3225320A (en) * 1962-12-19 1965-12-21 Honeywell Inc Temperature-sensitive elements
US3271584A (en) * 1961-06-21 1966-09-06 Energy Conversion Devices Inc Resistance switches and the like
US4687903A (en) * 1984-11-01 1987-08-18 Danny Zimmerman Thermostatically controlled electrically heated soldering bit

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3271584A (en) * 1961-06-21 1966-09-06 Energy Conversion Devices Inc Resistance switches and the like
US3225320A (en) * 1962-12-19 1965-12-21 Honeywell Inc Temperature-sensitive elements
US4687903A (en) * 1984-11-01 1987-08-18 Danny Zimmerman Thermostatically controlled electrically heated soldering bit

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