US2175858A - Exciting electrode - Google Patents

Exciting electrode Download PDF

Info

Publication number
US2175858A
US2175858A US176299A US17629937A US2175858A US 2175858 A US2175858 A US 2175858A US 176299 A US176299 A US 176299A US 17629937 A US17629937 A US 17629937A US 2175858 A US2175858 A US 2175858A
Authority
US
United States
Prior art keywords
ignitor
current
starting electrode
cathode
electrode
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US176299A
Inventor
Adolph H Toepfer
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
CBS Corp
Original Assignee
Westinghouse Electric and Manufacturing Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Westinghouse Electric and Manufacturing Co filed Critical Westinghouse Electric and Manufacturing Co
Priority to US176299A priority Critical patent/US2175858A/en
Application granted granted Critical
Publication of US2175858A publication Critical patent/US2175858A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J13/00Discharge tubes with liquid-pool cathodes, e.g. metal-vapour rectifying tubes
    • H01J13/02Details
    • H01J13/34Igniting arrangements
    • H01J13/36Igniting arrangements having resistive or capacitative igniter
    • H01J13/38Igniting arrangements having resistive or capacitative igniter having resistive igniter only

Definitions

  • My invention relates to pool-type discharge devices, and more particularly to new and useful improvements in the exciting electrodes of such devices.
  • ignitor materials become loose in the holders of such devices. It was also observed that the ignitor material was gradually eaten away along the walls of such ignitors where it maintains contact with the holder. The wearing away of portions of the ignitor may be due to one or more of several causes, namely, the concentration of current at a point where current passes from a material of high conductivity to a material of relatively low conductivity or the formation of cathode spots at points of contact. As the material of the ignitor is eaten away, the line of contact gradually moves towards the upper end of the ignitor until portions of the sides of the ignitor are eaten away, whereupon the ignitor falls out from its holder.
  • an object of my invention to provide an insulator between a portion of a starting electrode and its holder so that current enters the ignitor essentially at the upper base.
  • Figure 1 represents diagrammatically a discharge device of a type with which my improved ignitor may be used
  • Fig. 2 represents in section an ignitor of the usual type and the concentration of currents thereabout
  • Fig. 3 represents in section an improved ignitor containing an insulator along the vertical walls of the ignitor
  • Figs. 4 to 7 illustrate possible modifications of ignitors according to my invention.
  • the apparatus according to Fig. 1 of my invention comprises a vapor discharge device 3 having an anode 5, a mercury-pool cathode I and a starting electrode 9 of the immersion-ignitor type.
  • the cathode l and anode are externally connected with a load circuit II and some suitable supply circuit l3.
  • To initiate a discharge between the anode 5 and the cathode I it is essential that the anode 5 is maintained positive with respect to the cathode 1.
  • the starting electrode 3 is also connected externally to some suitable control device It for supplying exciting current which is adapted to cause conduction of current from the starter 9 into the mercury-pool cathode l at predetermined instances of time with respect to the polarity of the main anode potential [3.
  • starting electrodes 9 are composed of some material of high resistivity such as boron carbide and silicon carbide, while the holders IT for securing the starting electrodes 9 in place are of some. metal, or possibly graphite may be used. Due to the relative high difference in the conductivity of the holder H and the starting electrode 9, the path of the exciting current is such that it tends to flow along the lower portion of the holder l1 before entering the starting electrode 9, thus resulting in high current concentration at these points. The heat developed gradually causes a wearing away of portions of the ignitor material so that the line of contact advances towards the upper end of the starting electrode 9. If the upper end of the starting electrode 9 is not adhering to its holder H, the ignitor 9 loosens and falls out into the liquid cathode I.
  • I have illustrated an improved starter 9 in accordance with my invention for reducing or possibly eliminating any current concentration.
  • I provide a suitable insulator I9 such as glass and place it between the metal holder I! and the vertical walls of the ignitor starter 9. This structure permits the current to enter the ignitor 9 only at its upper end with the result that the starting current distributes itself more uniformly along the upper base of the ignitor 9.
  • Fig. 4 illustrates an ignitor 9 with shoulders 21 extending at the point where it was found that the wearing away process first began. It may be feasible to provide notches at this point sloping at an acute angle with respect to the metal holder I! such as illustrated in Fig. 5.
  • Fig. 6 illustrates alternative modifications of which my invention is capable. For example, the
  • the upper base of the starting electrode 9 will be convex.
  • the amount of current entering the ignitor 9 along the points of contact with the holder ll varies inversely with the length of the resistance paths. By keeping the length of these paths more or less uniformly equal, the current likewise will become fairly well distributed until it reaches the neck of the starting electrode 9 where it flows uniformly into the mercury cathode 'I.
  • the metal holder I! has a space projection 23 partly extending through the neck of the starting electrode 9.
  • the current in passing through the metal holder [7 divides itself into several paths with the resulting reduction in current concentration.
  • a discharge device comprising an anode, a liquid metal cathode, a starting electrode of resistance material supported above and in contact with the surface of said cathode, a holding cap in tight fitting engagement with a portion of said starting electrode, means for sending a current through said starting electrode, a shoulder on said starting electrode so shaped as to reduce current concentration in the neighbor hood of said shoulder.
  • a discharge device comprising an anode, a liquid metal cathode, a starting electrode of resistance material supported above and in contact with the surface of said cathode, a holding cap in tight fitting engagement with a portion of said starting electrode, a notch on each side of said starting electrode, said notches forming an acute angle with the walls of said cap, a source of exciting current for said starting electrode, the path of said current being such that current concentration is virtually eliminated.
  • a starting electrode for a vapor-electric de vice comprising a body of resistance material including a tapered tip portion and a head portion, a metal cap in good electrical contact with said head portion, said head portion being enlarged with respect to the remainder of the electrode, there being an abrupt shoulder at the point of enlargement.
  • a starting electrode for a vapor-electric device comprising a body of resistance material including a tapered tip portion and a head portion, a metal cap in good electrical contact with said head portion, said head portion being enlarged with respect to the remainder of the electrode, there being an abrupt shoulder at the point of enlargement, and the portion of the head within the metal cap having a convex outer surface.
  • an immersion type starting electrode comprising a body of resistance material including a tapered tip portion extending into the cathode, a head portion and a substantially straight intermediate portion, a metallic holder for said head portion, said head portion being enlarged with respect to said intermediate portion.
  • an immersion type starting electrode comprising a body of resistance material including a tapered tip portion extending into the cathode, a head portion and a substantially straight intermediate portion, a metallic holder for said head portion, said head portion being enlarged with respect to said intermediate portion, and a groove in said electrode at the junction of said head and intermediate portion.

Landscapes

  • Discharge Heating (AREA)

Description

Oct 10, 1939. TOEPFER' 2,175,858
EXCITING ELECTRODE Filed Nov. 24, 1957 INVENTOR ATTORNEY Patented Oct. 10, 1939 UNITED STATES PATENT OFFICE EXCITING ELECTRODE Pennsylvania Application November 24, 1937, Serial No. 176,299
6 Claims.
My invention relates to pool-type discharge devices, and more particularly to new and useful improvements in the exciting electrodes of such devices.
In the operation of pool-type discharge devices, it has been discovered that some ignitor materials become loose in the holders of such devices. It was also observed that the ignitor material was gradually eaten away along the walls of such ignitors where it maintains contact with the holder. The wearing away of portions of the ignitor may be due to one or more of several causes, namely, the concentration of current at a point where current passes from a material of high conductivity to a material of relatively low conductivity or the formation of cathode spots at points of contact. As the material of the ignitor is eaten away, the line of contact gradually moves towards the upper end of the ignitor until portions of the sides of the ignitor are eaten away, whereupon the ignitor falls out from its holder.
According to my invention, I shall eliminate these destructive features by shaping my ignitors so as to maintain a more uniform distribution of current therein or by providing an insulating means to aid in spreading the flow of exciting current over a greater portion of the ignitor.
It is, therefore, an object of my invention to provide an insulator between a portion of a starting electrode and its holder so that current enters the ignitor essentially at the upper base.
It is a further object of my invention to provide an ignitor so shaped that current concen' tration is virtually eliminated.
Other objects of my invention will be apparent from the following description when read in connection with the accompanying drawing, in which:
Figure 1 represents diagrammatically a discharge device of a type with which my improved ignitor may be used,
Fig. 2 represents in section an ignitor of the usual type and the concentration of currents thereabout,
Fig. 3 represents in section an improved ignitor containing an insulator along the vertical walls of the ignitor; and,
Figs. 4 to 7 illustrate possible modifications of ignitors according to my invention.
The apparatus according to Fig. 1 of my invention comprises a vapor discharge device 3 having an anode 5, a mercury-pool cathode I and a starting electrode 9 of the immersion-ignitor type. The cathode l and anode are externally connected with a load circuit II and some suitable supply circuit l3. To initiate a discharge between the anode 5 and the cathode I, it is essential that the anode 5 is maintained positive with respect to the cathode 1. However, it is also essential to provide an immersion-type starting electrode 9 having its tip I5 projecting into the mercurypool cathode l. The starting electrode 3 is also connected externally to some suitable control device It for supplying exciting current which is adapted to cause conduction of current from the starter 9 into the mercury-pool cathode l at predetermined instances of time with respect to the polarity of the main anode potential [3.
Ordinarily, starting electrodes 9 are composed of some material of high resistivity such as boron carbide and silicon carbide, while the holders IT for securing the starting electrodes 9 in place are of some. metal, or possibly graphite may be used. Due to the relative high difference in the conductivity of the holder H and the starting electrode 9, the path of the exciting current is such that it tends to flow along the lower portion of the holder l1 before entering the starting electrode 9, thus resulting in high current concentration at these points. The heat developed gradually causes a wearing away of portions of the ignitor material so that the line of contact advances towards the upper end of the starting electrode 9. If the upper end of the starting electrode 9 is not adhering to its holder H, the ignitor 9 loosens and falls out into the liquid cathode I.
In Fig. 3, I have illustrated an improved starter 9 in accordance with my invention for reducing or possibly eliminating any current concentration. I provide a suitable insulator I9 such as glass and place it between the metal holder I! and the vertical walls of the ignitor starter 9. This structure permits the current to enter the ignitor 9 only at its upper end with the result that the starting current distributes itself more uniformly along the upper base of the ignitor 9.
It is possible to shape the starting electrode 9 in such fashion that current concentration may be substantially eliminated. For example, Fig. 4 illustrates an ignitor 9 with shoulders 21 extending at the point where it was found that the wearing away process first began. It may be feasible to provide notches at this point sloping at an acute angle with respect to the metal holder I! such as illustrated in Fig. 5. Fig. 6 illustrates alternative modifications of which my invention is capable. For example, the
appropriate shape of the upper base of the starting electrode 9 will be convex. The amount of current entering the ignitor 9 along the points of contact with the holder ll varies inversely with the length of the resistance paths. By keeping the length of these paths more or less uniformly equal, the current likewise will become fairly well distributed until it reaches the neck of the starting electrode 9 where it flows uniformly into the mercury cathode 'I.
In the modification shown in Fig. '7, the metal holder I! has a space projection 23 partly extending through the neck of the starting electrode 9. Thus, the current in passing through the metal holder [7 divides itself into several paths with the resulting reduction in current concentration.
Although I have shown and described certain specific embodiments of my invention, I am fully aware that many modifications thereof are possible. My invention, therefore, is not to be restricted except insofar as is necessitated by the prior art or by the spirit of the appended claims.
I claim as my invention:
1. In a discharge device comprising an anode, a liquid metal cathode, a starting electrode of resistance material supported above and in contact with the surface of said cathode, a holding cap in tight fitting engagement with a portion of said starting electrode, means for sending a current through said starting electrode, a shoulder on said starting electrode so shaped as to reduce current concentration in the neighbor hood of said shoulder.
2. In a discharge device comprising an anode, a liquid metal cathode, a starting electrode of resistance material supported above and in contact with the surface of said cathode, a holding cap in tight fitting engagement with a portion of said starting electrode, a notch on each side of said starting electrode, said notches forming an acute angle with the walls of said cap, a source of exciting current for said starting electrode, the path of said current being such that current concentration is virtually eliminated.
3. A starting electrode for a vapor-electric de vice comprising a body of resistance material including a tapered tip portion and a head portion, a metal cap in good electrical contact with said head portion, said head portion being enlarged with respect to the remainder of the electrode, there being an abrupt shoulder at the point of enlargement.
4. A starting electrode for a vapor-electric device comprising a body of resistance material including a tapered tip portion and a head portion, a metal cap in good electrical contact with said head portion, said head portion being enlarged with respect to the remainder of the electrode, there being an abrupt shoulder at the point of enlargement, and the portion of the head within the metal cap having a convex outer surface.
5. In a vapor-electric device having an anode and a liquid cathode, an immersion type starting electrode comprising a body of resistance material including a tapered tip portion extending into the cathode, a head portion and a substantially straight intermediate portion, a metallic holder for said head portion, said head portion being enlarged with respect to said intermediate portion.
6. In a vapor-electric device having an anode and a liquid cathode, an immersion type starting electrode comprising a body of resistance material including a tapered tip portion extending into the cathode, a head portion and a substantially straight intermediate portion, a metallic holder for said head portion, said head portion being enlarged with respect to said intermediate portion, and a groove in said electrode at the junction of said head and intermediate portion.
ADOLPH H. TOEPFER.
US176299A 1937-11-24 1937-11-24 Exciting electrode Expired - Lifetime US2175858A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US176299A US2175858A (en) 1937-11-24 1937-11-24 Exciting electrode

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US176299A US2175858A (en) 1937-11-24 1937-11-24 Exciting electrode

Publications (1)

Publication Number Publication Date
US2175858A true US2175858A (en) 1939-10-10

Family

ID=22643794

Family Applications (1)

Application Number Title Priority Date Filing Date
US176299A Expired - Lifetime US2175858A (en) 1937-11-24 1937-11-24 Exciting electrode

Country Status (1)

Country Link
US (1) US2175858A (en)

Similar Documents

Publication Publication Date Title
US2148484A (en) Pool type discharge device
US2175858A (en) Exciting electrode
US3495123A (en) Electrode structure
US2773825A (en) Electrolysis apparatus
US2296045A (en) Spark plug electrode
US2107742A (en) Mercury contact interrupter
US1905957A (en) Spark plug
US2548170A (en) Spark plug
GB465762A (en) Improvements in and relating to electric discharge devices
US2396294A (en) Arc discharge starting device
US1757605A (en) Mercury arc rectifier
US2235325A (en) Gas-tight joint between the electrode and the ceramic body
US1222537A (en) Keep-alive anode.
US1760525A (en) Rectifier
US1617179A (en) Electrical apparatus
US1914762A (en) Cathode glow discharge device
US2367556A (en) Vapor-arc device
US2083402A (en) Electrode mounting for pool-type discharge devices
US2179310A (en) Vapor electric device
US2243250A (en) Electrical discharge device and anode therefor
US2214607A (en) Make-alive electrode
US1617180A (en) Electrical apparatus
GB482111A (en) Improvements in and relating to electric discharge devices
US2157923A (en) Make-alive electrode
US2447781A (en) Electric discharge tube