US1780202A - Circuit-breaking device - Google Patents

Circuit-breaking device Download PDF

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US1780202A
US1780202A US321904A US32190428A US1780202A US 1780202 A US1780202 A US 1780202A US 321904 A US321904 A US 321904A US 32190428 A US32190428 A US 32190428A US 1780202 A US1780202 A US 1780202A
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magnet
circuit
magnetic
bimetallic
thermostatic
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US321904A
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Charles A Martin
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H37/00Thermally-actuated switches
    • H01H37/02Details
    • H01H37/64Contacts
    • H01H37/66Magnetic reinforcement of contact pressure; Magnet causing snap action
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H37/00Thermally-actuated switches
    • H01H37/02Details
    • H01H37/64Contacts
    • H01H37/68Contacts sealed in evacuated or gas-filled tube

Definitions

  • thermostatic circuit controlling device adapted to be inserted in an electric cirfb cuit tor securing rapid contact or separation ot electrical contacts by magnetic means operating in conjunction With heat responsive means to bring about contact or separation of the electrical contacts controlling an electric l5 circuit.
  • my invention consists of the provision of a magnet and a bimetallic thermostatic element u'hich are adapted to be connected in an electric circuit in such manner thatat normal working temperatuaes the circuit is completed through the bimetallic element and the magnet and upon a rise in the temperature above a predetermined value.
  • the bimetallic element is adapted to move away from the magnet at its contacting point due to the unequal expansion of the component metals making up the element.
  • Fig. l is a sectional view of my circuit breaking device showing the same applied to a. plurality of electric circuits;
  • Fig. 2 is a side view of the device
  • Fig. '3 is a section on the line 3 3 of Fig. l.
  • my invention consists essentially of the eloning similar characteristics may non-oxidizing atmosphere which is gated bar'magnet 5 and the bimetallic ele.- ments 6 and 7 secured to opposite sides of the magnet 5 in a manner which will presently be described. Thisstructure is then enclosed by means of the glass tube 8 in a preferably hydrogen gas although other gases havbe used.
  • the circuit making and breaking structure consisting of the magnet '5 and thermostatic elements 6 ported by means of the wires 9, 10, and 11 which connect to the magnet 5, thermostatic -element 6, and element 7 respectively.
  • These' wires extend through the stem or press 12 of the tube and form terminals at the exterior of the tube for connecting the device in an electric circuit.
  • the magnet 5 and thermostatic element 6 are connected in series with a heating resistance 13 and controlling switch 14 across a source of electric currentindicated generally by the numeral 15.
  • the magnet 5 and element 7 are connected in series with the heating resistance 16 and circuit controlling switch 17-across the same source of current.
  • the bimetallic elements 6 and 7 are substantially duplicates both in their construction and in the manner of securing them to the magnet 5.
  • These elements consist of the metallic strip 18- which is preferably of a magnetic metal such for instance as iron and a strip 19 consisting ⁇ of a non-magnetic metal such for instance as brass having a greater coefficient of expansion than the magnetic metal18.
  • the metallic strip 18- which is preferably of a magnetic metal such for instance as iron
  • a strip 19 consisting ⁇ of a non-magnetic metal such for instance as brass having a greater coefficient of expansion than the magnetic metal18.
  • At the upper end of the magnet 5 these elements are turned in as at 20 to make contact directly with this end of the magnet. It will be noted that these turned in portions bring the outer magnetic metal strips of the elements directly into contact with the magnet when the circuits are closed in the normal position of the device.
  • At the lower end of the magnet as shown in Fig.
  • the bimetallic elements are turned in toward the magnet and then extended upwardly substantially parallel thereto as indicated by the portions'21 and 22.
  • a pair of strips of insulation 23 and 24 are placed between the magnet and the bimetallic elements to insulate them so far as the flow of current between the magnet and theelements at this point is concerned.
  • the elements are then secured in place by means of la cord 25 wound therearound along the rebent portions 21 and 22. This serves to firmly mount the elements in position on the magnet and forms a very compact structure.
  • the magnetic circuit between the opposite ends. or poles of the magnet is substantially closed by means of the magnetic strips 18 which normally contact with the and 7, is supmagnet at the upper end thereof and which at the lower end thereof are'separated Afrom the magnet only by the thin strips of insulation 23 and 211.
  • a thermostatic control device for electric circuits comprising a thermostatic make and break switch including a bimetallic element and a magnet, va sealed receptacle 1n which said switch is enclosed and conductors extending from said element and said magnet to the exterior of said receptacle for connecting said switch in an electric circuit.
  • a thermostatic control device adapted to be inserted in an electric circuit for opening and closing the circuit in response to Achanges in temperatures of said device, comprising a sealed vessel having lead in conductors extending through the wall thereof, a
  • a thermally responsive means composed in part of magnetic material associated with said magnet and normally held in contact therewith by magnetic attraction but adapted to separate therefrom when the temperature of said device exceeds a certain value, said magnet and means being electrically connected with said conductors.
  • a circuit controlling device comprising a closed vessel having a non-oxidizing gaseous filling, a magnet therein, a bimetallic thermostatic element'therein composed in part of magnetic material whereby it is attracted by said magnet, and lead in conductors extending through said vessel and secured to said element and magnet respectively.
  • a circuit controlling device comprising an elongated bar magnet, a bimetallic thermostatic element composed of a magnetic metal and a non-magnetic metal, said magnet 'contacting faces at the other end thereo with the and the and element being secured to but insulated from each other adjacent one end and havin whereb the magnetic circuit between the ends o by means of said magnetic metal, and means for connecting said element and magnet in anelectric circuit.
  • a circuit controlling device comprising an elongated bar magnet, an elongated bimetallic thermostatic element composed of a magnetic and a non-magnetic metal and having one end thereof insulatingly mounted on l said magnet adjacent' one end thereof with the magnetic metal between the magnet and the non-magnetic metal at the said end, said element and magnet having contacting faces at their free ends normally in contact but adapted to separate u on a rise in temperature of said device a ove a predetermined value.
  • a circuit controlling device comprising an elongated magnet, a bimetallic thermostatic element composed of a magnetic metal and a non-magnetic metal having a greater co-eicient of expansion than said magnetic metal, one end of said element being insulatingly secured to one end of said magnet magnetic metal between the magnet non-magnetic metal, said element being bent to extend toward the other end of said magnet whereby the non-magnetic metal lies between the magnet and the magnetic metal intermediate the ends thereof, the free ends of said element ⁇ and magnet having cooperating contact faces and means for connecting said magnet and element in an electric circui 7.
  • a thermostatic control device forelectric circuits comprising a thermostaticmake and break switch including a bimetallic element and a magnet, a sealed receptacle in whlch said switch is enclosed and conductors extending from said element and said magnet to the exterior of said receptacle for connecting said switch in an electric circuit, said conductors supporting said switch in spaced relation to said receptacle.
  • a circuit controlling device comprising a closed vessel having a non-oxidizing gaseous filling, an elongated bar magnet therein, a bimetallic thermostatic element therein CHARLES A. MARTIN.
  • said magnet is substantially closed

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  • Thermally Actuated Switches (AREA)

Description

Nov. 4, 1930. c. A. MARTIN CIRCUIT BREAKING DEVICE Filed Nov. 26, 1928 Patented Nov. 4, 1930 UNITED 'STATES CHARLES MARTIN, 0F CHICAGO, ILLINOIS CIRCUIT-BREAKING DEVICE Application filed November 26, 1928. Serial No. 321,904.
My inventionl relates to Circuit controlling or breaking devices and more particularly to a device of this character which is adapted to be inserted in an electric circuit to open or' close the circuit in response to the changesin the temperature of said device.
@ne of the objects of this invention is to provide a thermostatic circuit controlling device adapted to be inserted in an electric cirfb cuit tor securing rapid contact or separation ot electrical contacts by magnetic means operating in conjunction With heat responsive means to bring about contact or separation of the electrical contacts controlling an electric l5 circuit.
it is also a purpose of this invention to provide in a device of this character means for enclosing the contacts and the associated magnetic means and heat responsive means in an atmosphere that Will prevent oxidization of the contacts due to the making or breaking of an electric current carrying circuit.
More particularly my invention consists of the provision of a magnet and a bimetallic thermostatic element u'hich are adapted to be connected in an electric circuit in such manner thatat normal working temperatuaes the circuit is completed through the bimetallic element and the magnet and upon a rise in the temperature above a predetermined value. the bimetallic element is adapted to move away from the magnet at its contacting point due to the unequal expansion of the component metals making up the element.
The magnetic. attraction of the magnet in a device ot this character holds the contacts securely together until the force exerted by the unequal expansion of the metals in the bimetallic element create a great enough torce to overcome the magnetic attraction Whereupon the contacts snap apart. Since the magnetic attraction between the magnet and the bimetallic element increases rapidly as the two are brought closer together and has its maximum when the contacts are in engagement, it is obvious that a very rapid separation or closing of the contacts is obtained by these elements.
lt is a purpose of this invention to provide a device of this character in which the ele- ISR ments are so arranged as to obtain the maximum utility ot' the magnetic attraction by reducing the reluctance of the magnetic path between the opposite poles of the magnet. To accomplish this purpose with small elements which may be readily utilized in small spaces and to obtain a long life for the device, I preferably utilize a bimetallic element which consists of a strip of magnetic metal and a strip of non-nurgnetic metal having a o0 greater coeflicient of espansion than the magnetic element and so associate them with the magnet as to bring the magnetic metal into close relation With the opposite poles of the magnet to thereby reduce the gaps in the magnetic circuit to a minimum.
It is also a purpose of this invention to provide a vdevice of this character wherein the magnet and the thermostatic element are supported in proper relation Within a sealed vessel by means of the lead in conductors which serve to connect the circuit controlling device in an electric circuit.
It is also a purpose of this invention' to provide a device of this character which may be readily sealed in a closed vessel and wherein the magnet. may be utilized for controlling a pluralit)v of electric circuits by combining therewith a plurality of thermostatic elements.'
Other objects and advantages of the invention Will appear as the description procecds in connection with the accompanying drawing wherein the preferred form of my invention is illustrated. It is obvious. however, that various modifications may be made in the detailed structure Without departing Jfrom the spirit ofthe invention and it is to be distinctly understood that l intend to avail myself of all such modifications as fall Within the scope of the claims.
In the drawings:
Fig. l is a sectional view of my circuit breaking device showing the same applied to a. plurality of electric circuits;
Fig. 2 is a side view of the device; and
Fig. '3 is a section on the line 3 3 of Fig. l.
Referring now in detail to the drawings, my invention consists essentially of the eloning similar characteristics may non-oxidizing atmosphere which is gated bar'magnet 5 and the bimetallic ele.- ments 6 and 7 secured to opposite sides of the magnet 5 in a manner which will presently be described. Thisstructure is then enclosed by means of the glass tube 8 in a preferably hydrogen gas although other gases havbe used.
As shown in Fig. 1, the circuit making and breaking structure, consisting of the magnet '5 and thermostatic elements 6 ported by means of the wires 9, 10, and 11 which connect to the magnet 5, thermostatic -element 6, and element 7 respectively. These' wires extend through the stem or press 12 of the tube and form terminals at the exterior of the tube for connecting the device in an electric circuit.
As shown the magnet 5 and thermostatic element 6 are connected in series with a heating resistance 13 and controlling switch 14 across a source of electric currentindicated generally by the numeral 15. Similarly the magnet 5 and element 7 are connected in series with the heating resistance 16 and circuit controlling switch 17-across the same source of current.-
The bimetallic elements 6 and 7 are substantially duplicates both in their construction and in the manner of securing them to the magnet 5. These elements consist of the metallic strip 18- which is preferably of a magnetic metal such for instance as iron and a strip 19 consisting `of a non-magnetic metal such for instance as brass having a greater coefficient of expansion than the magnetic metal18. At the upper end of the magnet 5 these elements are turned in as at 20 to make contact directly with this end of the magnet. It will be noted that these turned in portions bring the outer magnetic metal strips of the elements directly into contact with the magnet when the circuits are closed in the normal position of the device. At the lower end of the magnet as shown in Fig. 1, the bimetallic elements are turned in toward the magnet and then extended upwardly substantially parallel thereto as indicated by the portions'21 and 22. A pair of strips of insulation 23 and 24 are placed between the magnet and the bimetallic elements to insulate them so far as the flow of current between the magnet and theelements at this point is concerned. The elements are then secured in place by means of la cord 25 wound therearound along the rebent portions 21 and 22. This serves to firmly mount the elements in position on the magnet and forms a very compact structure.
It will be noted from the preceding description that the magnetic circuit between the opposite ends. or poles of the magnet is substantially closed by means of the magnetic strips 18 which normally contact with the and 7, is supmagnet at the upper end thereof and which at the lower end thereof are'separated Afrom the magnet only by the thin strips of insulation 23 and 211. This makes the reluctance of the magnetic circuit very low and serves to prolong the life of the magnet as well as to obtain a maximum of magnetic attraction at the upper end of the magnet for drawing the thermostatic elements into engagement therewith.
In order to reduce the size of this device sufficiently to make it a practical circuit controlling device for small currents that can be inserted in small spaces, it'is necessary to use a very small magnet, and I have found that to obtain a long life for the magnet, it is better to construct it in the elongated bar form shown in the drawing. This enables me to use comparatively long bimetallic strips so that the change in temperature necessary to cause them to separate from the magnet a suticient distance to break the circuit 1s not too great. Also, the elongated magnet has a longer life than a short heavy magnet would have with the same amount of materialand this, of course, is essential in a de vice of this character.
The provision of the hydrogen gas filling prevents any oxidization or forming of carbon on the contact points due to the arcing of the current across the gap when the cir-v cuit is open. In this manner substantially clean and bright contacts are maintained at all times which not only makes a good electrical contact, but also maintains the magnetic reluctance of the path between the poles of the magnet substantially the same so that a substantially constant attraction of the thermostatic elements is obtained from the magnet. This would not be the case if the contacts were permitted to oxidize by sparking since that would soon build up a carbon layer between them and this would greatly reduce the magnetic attraction thus slowing down the opening or closing of the contacts.
From the above description it is thought that the construction and advantages of this invention will be clear to those skilled in this art, and having thus'described my invention what I desire to secure by Letters Patent of the United States is:
1. A thermostatic control device for electric circuits, comprising a thermostatic make and break switch including a bimetallic element and a magnet, va sealed receptacle 1n which said switch is enclosed and conductors extending from said element and said magnet to the exterior of said receptacle for connecting said switch in an electric circuit.
2. A thermostatic control device adapted to be inserted in an electric circuit for opening and closing the circuit in response to Achanges in temperatures of said device, comprising a sealed vessel having lead in conductors extending through the wall thereof, a
magnet in said vessel, a thermally responsive means composed in part of magnetic material associated with said magnet and normally held in contact therewith by magnetic attraction but adapted to separate therefrom when the temperature of said device exceeds a certain value, said magnet and means being electrically connected with said conductors.
3. A circuit controlling device comprising a closed vessel having a non-oxidizing gaseous filling, a magnet therein, a bimetallic thermostatic element'therein composed in part of magnetic material whereby it is attracted by said magnet, and lead in conductors extending through said vessel and secured to said element and magnet respectively.
4. A circuit controlling device comprising an elongated bar magnet, a bimetallic thermostatic element composed of a magnetic metal and a non-magnetic metal, said magnet 'contacting faces at the other end thereo with the and the and element being secured to but insulated from each other adjacent one end and havin whereb the magnetic circuit between the ends o by means of said magnetic metal, and means for connecting said element and magnet in anelectric circuit.
5. A circuit controlling device comprising an elongated bar magnet, an elongated bimetallic thermostatic element composed of a magnetic and a non-magnetic metal and having one end thereof insulatingly mounted on l said magnet adjacent' one end thereof with the magnetic metal between the magnet and the non-magnetic metal at the said end, said element and magnet having contacting faces at their free ends normally in contact but adapted to separate u on a rise in temperature of said device a ove a predetermined value. l
6. A circuit controlling device comprising an elongated magnet, a bimetallic thermostatic element composed of a magnetic metal and a non-magnetic metal having a greater co-eicient of expansion than said magnetic metal, one end of said element being insulatingly secured to one end of said magnet magnetic metal between the magnet non-magnetic metal, said element being bent to extend toward the other end of said magnet whereby the non-magnetic metal lies between the magnet and the magnetic metal intermediate the ends thereof, the free ends of said element `and magnet having cooperating contact faces and means for connecting said magnet and element in an electric circui 7. A thermostatic control device forelectric circuits, comprising a thermostaticmake and break switch including a bimetallic element and a magnet, a sealed receptacle in whlch said switch is enclosed and conductors extending from said element and said magnet to the exterior of said receptacle for connecting said switch in an electric circuit, said conductors supporting said switch in spaced relation to said receptacle.
8. A circuit controlling device comprising a closed vessel having a non-oxidizing gaseous filling, an elongated bar magnet therein, a bimetallic thermostatic element therein CHARLES A. MARTIN.
said magnet is substantially closed
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2615104A (en) * 1949-10-31 1952-10-21 Bendix Aviat Corp Pressure responsive switch
US3036294A (en) * 1958-01-24 1962-05-22 Jefferson C Gibson Fire alarm
WO1984002425A1 (en) * 1982-12-17 1984-06-21 Texas Instruments Australia Motor starting device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2615104A (en) * 1949-10-31 1952-10-21 Bendix Aviat Corp Pressure responsive switch
US3036294A (en) * 1958-01-24 1962-05-22 Jefferson C Gibson Fire alarm
WO1984002425A1 (en) * 1982-12-17 1984-06-21 Texas Instruments Australia Motor starting device

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