US2457487A - Glow relay - Google Patents

Glow relay Download PDF

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Publication number
US2457487A
US2457487A US622738A US62273845A US2457487A US 2457487 A US2457487 A US 2457487A US 622738 A US622738 A US 622738A US 62273845 A US62273845 A US 62273845A US 2457487 A US2457487 A US 2457487A
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United States
Prior art keywords
stem
electrodes
getter material
relay
getter
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Expired - Lifetime
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US622738A
Inventor
Arnold L Peacock
Bergitte A Jensen
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GTE Sylvania Inc
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Sylvania Electric Products Inc
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Publication date
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Priority to US622738A priority Critical patent/US2457487A/en
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Publication of US2457487A publication Critical patent/US2457487A/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
    • H05B41/00Circuit arrangements or apparatus for igniting or operating discharge lamps
    • H05B41/02Details
    • H05B41/04Starting switches
    • H05B41/06Starting switches thermal only
    • H05B41/08Starting switches thermal only heated by glow discharge

Definitions

  • This invention relates to glow relays and particularly to such relays for starting electric gaseous discharge lamps.
  • An object of the invention is a simpler and more reliable glow relay and particularly one in which the ionization conditions remain extremely stable throughout the life of the device.
  • One feature of the invention is the use of a getter material including thorium and a further feature is the use of an electrode of bimetal wire. Still another feature is confining the getter material to the stem press and keeping the electrodes free from it.
  • An advantage of the invention is the uniformity of the delay time of the relay for both inductively and capacitatively ballasted lamps.
  • a tubular glass bulb I has the glass stem 2 sealed to it at one end.
  • Lead-in wires 3 and 4 are sealed through the press 5 of the stem 2 and are welded to the bimetal wire electrodes 6 and 7 inside the press.
  • the bimetal wires extend into the bulb and toward each other some distance into the bulb 6. Their free ends are close together, but spaced a small distance apart.
  • An opening 6 in the stem 2 is in communication with an exhaust tube 9 as is customary in lamp practice.
  • the exhaust tube is sealed off at what is its lower end In in the drawing.
  • a getter material I l is supplied to the outer surface of the stem press between and around the electrodes 6 and i. I
  • the bulb l is filled with an inert gas, for example, argon at 25 mm. pressure.
  • an inert gas for example, argon at 25 mm. pressure.
  • an electric discharge will pass through the gas between them, heating them.
  • the bimetal wires will bend on heating causing the two wires to meet near their free ends, short circuiting the tube and extinguishing the discharge.
  • the electrodes will then cool, causing them to separate again and break contact with each other. It has been found that the use of bimetal wire for the electrodes develops a greater torque and more satisfactory breaking action than do bimetal strips for the same purpose.
  • a getter material H is applied to the outer surface of stem 2 at the press 5 in a suitable manner. No portion of this getter material is applie to the electrodes themselves.
  • This getter material may be prepared by mixing approximately 50 gms. of aluminum dust, 50 gms. of zinc dust, and 17 gms. of magnesium metal dust, and ball-milling the mixture in about 500 cc. of alcohol for a period in the region of 96 hours. After ball-milling this mixture, an additional amount of alcohol (approximately 100 cc.) is added to the suspension. This addition is primarily for rinsing out the mill. We then add stearic acid crystals, approximately 2% by weight of the metallic portion of the suspension and mix thoroughly for about min. This getter material is then stored until ready for use. Just before using approximately 7 gms. of .thorium metal powder is added. The addition of this thorium is extremely important.
  • bimetal wire of substantially rectangular cross-section is much more eflective than the use of extremely thin bimetallic strip.
  • bimetallic wire having a cross section of .015 inch by .030 inch to be extremely successful.
  • the thickness of the wire gives an extremely effective breaking action at the contacts when the relay operates.
  • the relay may also aid in emitting electrons for the starting of the discharge in the glow relay itself, but we have found that the relay works more satisfactorily and maintains its characteristics better when the getter material is kept oil the electrodes themselves.
  • the use of coatings or platings of zinc, aluminum and the like on the electrodes has been found by us to harm the characteristics of the tube.
  • a glow relay comprising a sealed envelope having a stem at one end thereof, lead-in wires sealed through said stem, straight bimetal wire electrodes extending from said lead wires inside said bulb and terminating with their free ends close together but spaced apart, a gaseous filling in said envelope and a getter material on the press only of said stem inside said envelope, said getter comprising approximately 50 parts aluminum dust, 50 parts zinc dust, 17 parts magnesium metal dust and 7 parts thorium.
  • a glow relay comprising a sealed envelope having a stem at one end thereof, lead-in wires sealed through said stem, straight bimetal wire electrodes extending from said lead wires inside said bulb and terminating with their free ends close together but spaced apart, a gaseous filling in said envelope and a getter material on the 4 press only of said stem inside said envel p said getter comprising a mixture of aluminum. zinc, magnesium, and thorium metal powders with stearic acid.
  • ARNOID L PEACOCK.

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  • Vessels And Coating Films For Discharge Lamps (AREA)

Description

Dec. 28, 1948. A. PEACOCK EI'AL 2,457,487
GLOW RELAY Filed Oct. 17, 1945 INVENTORS Arno; L. Peacock! Ber-attic A.Jensen Attorncy Patented Dec. 28, 1948 2,457,4 7
UNITED STATES PATENT. OFFICE 2,457,487 GLOW RELAY Arnold L. Peacock, Danvers, and Bergitte A. J en- 'sen, Boston, Mass., assignors to Sylvania Electric Products Inc., Salem, Mass., a corporation of Massachusetts Application October 17, 1945, Serial No. 622,738
3 Claims. (Cl. 200-1135) This invention relates to glow relays and particularly to such relays for starting electric gaseous discharge lamps.
An object of the invention is a simpler and more reliable glow relay and particularly one in which the ionization conditions remain extremely stable throughout the life of the device. One feature of the invention is the use of a getter material including thorium and a further feature is the use of an electrode of bimetal wire. Still another feature is confining the getter material to the stem press and keeping the electrodes free from it. An advantage of the invention is the uniformity of the delay time of the relay for both inductively and capacitatively ballasted lamps.
Other objects, features and advantages of the invention will be apparent from the accompanying drawing in which the figure is a glow relay according to the invention and partly in section.
In the drawing, a tubular glass bulb I, has the glass stem 2 sealed to it at one end. Lead-in wires 3 and 4 are sealed through the press 5 of the stem 2 and are welded to the bimetal wire electrodes 6 and 7 inside the press. The bimetal wires extend into the bulb and toward each other some distance into the bulb 6. Their free ends are close together, but spaced a small distance apart. An opening 6 in the stem 2 is in communication with an exhaust tube 9 as is customary in lamp practice. The exhaust tube is sealed off at what is its lower end In in the drawing. A getter material I l is supplied to the outer surface of the stem press between and around the electrodes 6 and i. I
The bulb l is filled with an inert gas, for example, argon at 25 mm. pressure. When sufficient voltage is applied to the electrodes an electric discharge will pass through the gas between them, heating them. The bimetal wires will bend on heating causing the two wires to meet near their free ends, short circuiting the tube and extinguishing the discharge. The electrodes will then cool, causing them to separate again and break contact with each other. It has been found that the use of bimetal wire for the electrodes develops a greater torque and more satisfactory breaking action than do bimetal strips for the same purpose.
In order to maintain the ionization conditions constant throughout the rated life of the glow relay, a getter material H is applied to the outer surface of stem 2 at the press 5 in a suitable manner. No portion of this getter material is applie to the electrodes themselves.
This getter material may be prepared by mixing approximately 50 gms. of aluminum dust, 50 gms. of zinc dust, and 17 gms. of magnesium metal dust, and ball-milling the mixture in about 500 cc. of alcohol for a period in the region of 96 hours. After ball-milling this mixture, an additional amount of alcohol (approximately 100 cc.) is added to the suspension. This addition is primarily for rinsing out the mill. We then add stearic acid crystals, approximately 2% by weight of the metallic portion of the suspension and mix thoroughly for about min. This getter material is then stored until ready for use. Just before using approximately 7 gms. of .thorium metal powder is added. The addition of this thorium is extremely important.
We have found that the use of this getter material enables the production of the desired heat in the glow discharge to cause speedy initial closure of the bimetallic electrodes.
The use of bimetal wire of substantially rectangular cross-section is much more eflective than the use of extremely thin bimetallic strip. We have found that bimetallic wire having a cross section of .015 inch by .030 inch to be extremely successful. The thickness of the wire gives an extremely effective breaking action at the contacts when the relay operates.
The exact nature of the action of the getter coating on the stem is not known, but presumably it acts as a getter which maintains the purity 1 0f the gases throughout the life of the lamp. It
may also aid in emitting electrons for the starting of the discharge in the glow relay itself, but we have found that the relay works more satisfactorily and maintains its characteristics better when the getter material is kept oil the electrodes themselves. The use of coatings or platings of zinc, aluminum and the like on the electrodes has been found by us to harm the characteristics of the tube.
When the starter is first operated, after being exhausted, filled with gas and sealed, arcing may occur across the stem press due to the getter coating thereon. This arcing removes any excess metal from the stem and may deposit it on the nearby glass of the bulb, leaving a coating of separate metal particles insulated from each other by the stearic acid used in the mixture.
This application is in part a continuation of our co-pending application Serial No. 567,630, 'filed December 11, 1944.
sealed through said stem, straight bimetal wire electrodes extending from said lead wires inside said bu b and terminating with their free ends close together but spaced apart, a gaseous filling in said envelope and a getter material on the press only of said stem inside said envelope, said getter comprising a mixture of aluminum, zinc, magnesium and thorium metal powders.
2. A glow relay comprising a sealed envelope having a stem at one end thereof, lead-in wires sealed through said stem, straight bimetal wire electrodes extending from said lead wires inside said bulb and terminating with their free ends close together but spaced apart, a gaseous filling in said envelope and a getter material on the press only of said stem inside said envelope, said getter comprising approximately 50 parts aluminum dust, 50 parts zinc dust, 17 parts magnesium metal dust and 7 parts thorium.
3. A glow relay comprising a sealed envelope having a stem at one end thereof, lead-in wires sealed through said stem, straight bimetal wire electrodes extending from said lead wires inside said bulb and terminating with their free ends close together but spaced apart, a gaseous filling in said envelope and a getter material on the 4 press only of said stem inside said envel p said getter comprising a mixture of aluminum. zinc, magnesium, and thorium metal powders with stearic acid.
ARNOID L. PEACOCK.
BERGITTE A. JENSEN.
file of this patent:
UNITED STATES PATENTS Number Name Date 1,172,568 Schroter Feb. 22, 1916 15 1,813,571 Gustin July 7-, 1931 1,855,760 Holborn Apr. 26, 1932 2,029,144 Wiegand Jan. 28, 1936 2,056,604 Guertler Oct. 6, 1936 2,259,144 Laidig Oct. 14, 1941 20 2,292,050 Chirelstein Aug. 4, 1942 2,321,910 Hays June 15, 1943 2,324,907 Clack July 20, 1948 2,329,134 Peters Sept. 7, 1943 2,332,809 Peters Oct. 26, 1943 25 2,362,468 Clark Nov. 14, 1944
US622738A 1945-10-17 1945-10-17 Glow relay Expired - Lifetime US2457487A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2740861A (en) * 1954-11-29 1956-04-03 Gen Electric Glow type thermal switch
US3145280A (en) * 1958-08-19 1964-08-18 Thorn Electrical Ind Ltd Glow switch having a cadmium covered electrode
US3162741A (en) * 1960-03-11 1964-12-22 Ericsson Telefon Ab L M Overvoltage arrestor having a light dispersion of fine metallic dust on its inside walls
NL8302039A (en) * 1982-06-10 1984-01-02 Tokyo Shibaura Electric Co SMILE DISCHARGE SWITCH STARTER.
US4882835A (en) * 1988-02-16 1989-11-28 Gte Products Corporation Method of making glow discharge starter
US5001391A (en) * 1986-07-30 1991-03-19 Gte Products Corporation Glow discharge starter

Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1172568A (en) * 1913-04-03 1916-02-22 Fritz Schroeter Method of and apparatus for securing constancy in the light of vacuum-tubes.
US1813571A (en) * 1928-05-11 1931-07-07 Westinghouse Lamp Co Process for gettering coils
US1855760A (en) * 1924-02-20 1932-04-26 Forest Radio Telephone & Teleg Electron discharge device
US2029144A (en) * 1933-05-04 1936-01-28 Gen Electric Electric discharge device or vacuum tube
US2056604A (en) * 1934-07-19 1936-10-06 Degussa Aluminum alloy
US2259144A (en) * 1937-08-05 1941-10-14 Volckening Inc Bottle cleaning device
US2292050A (en) * 1941-08-09 1942-08-04 Chirelstein Charles Starter switch
US2321910A (en) * 1941-10-23 1943-06-15 Westinghouse Electric & Mfg Co Time delay glow switch
US2324907A (en) * 1940-08-22 1943-07-20 Gen Electric Thermal switch
US2329134A (en) * 1941-07-01 1943-09-07 Gen Electric Thermal switch
US2332809A (en) * 1941-03-26 1943-10-26 Gen Electric Glow switch
US2362468A (en) * 1941-09-27 1944-11-14 Fansteel Metallurgical Corp Getter

Patent Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1172568A (en) * 1913-04-03 1916-02-22 Fritz Schroeter Method of and apparatus for securing constancy in the light of vacuum-tubes.
US1855760A (en) * 1924-02-20 1932-04-26 Forest Radio Telephone & Teleg Electron discharge device
US1813571A (en) * 1928-05-11 1931-07-07 Westinghouse Lamp Co Process for gettering coils
US2029144A (en) * 1933-05-04 1936-01-28 Gen Electric Electric discharge device or vacuum tube
US2056604A (en) * 1934-07-19 1936-10-06 Degussa Aluminum alloy
US2259144A (en) * 1937-08-05 1941-10-14 Volckening Inc Bottle cleaning device
US2324907A (en) * 1940-08-22 1943-07-20 Gen Electric Thermal switch
US2332809A (en) * 1941-03-26 1943-10-26 Gen Electric Glow switch
US2329134A (en) * 1941-07-01 1943-09-07 Gen Electric Thermal switch
US2292050A (en) * 1941-08-09 1942-08-04 Chirelstein Charles Starter switch
US2362468A (en) * 1941-09-27 1944-11-14 Fansteel Metallurgical Corp Getter
US2321910A (en) * 1941-10-23 1943-06-15 Westinghouse Electric & Mfg Co Time delay glow switch

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2740861A (en) * 1954-11-29 1956-04-03 Gen Electric Glow type thermal switch
US3145280A (en) * 1958-08-19 1964-08-18 Thorn Electrical Ind Ltd Glow switch having a cadmium covered electrode
US3162741A (en) * 1960-03-11 1964-12-22 Ericsson Telefon Ab L M Overvoltage arrestor having a light dispersion of fine metallic dust on its inside walls
NL8302039A (en) * 1982-06-10 1984-01-02 Tokyo Shibaura Electric Co SMILE DISCHARGE SWITCH STARTER.
US4562379A (en) * 1982-06-10 1985-12-31 Tokyo Shibaura Denki Kabushiki Kaisha Glow switch starter having metal oxide deposit
US5001391A (en) * 1986-07-30 1991-03-19 Gte Products Corporation Glow discharge starter
US4882835A (en) * 1988-02-16 1989-11-28 Gte Products Corporation Method of making glow discharge starter

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