US2122571A - Spark plug - Google Patents
Spark plug Download PDFInfo
- Publication number
- US2122571A US2122571A US121296A US12129637A US2122571A US 2122571 A US2122571 A US 2122571A US 121296 A US121296 A US 121296A US 12129637 A US12129637 A US 12129637A US 2122571 A US2122571 A US 2122571A
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- electrode
- spark plug
- metallic
- electrodes
- plug
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01T—SPARK GAPS; OVERVOLTAGE ARRESTERS USING SPARK GAPS; SPARKING PLUGS; CORONA DEVICES; GENERATING IONS TO BE INTRODUCED INTO NON-ENCLOSED GASES
- H01T13/00—Sparking plugs
- H01T13/52—Sparking plugs characterised by a discharge along a surface
Definitions
- This invention relates to a spark plug.
- One object of the invention is to provide a. novel and improved construction of spark plug which may be economically manufactured, easily cleaned, and which is adapted to operate efficiently for long periods of time.
- Another object of the invention is to provide a novel and improved spark plug of the type embodying an outer electrode, an inner electrode and an insulating member between the electrodes and in which provision is made for sealing the firing end of the spark plug against gas leakage in a novel and efiicient manner.
- Fig. 1 is a vertical sectional view of the preferred form of spark plug
- Fig. 2 is an enlarged detail of the lower portion or firing end of the spark plug shown in Fig. 1; and Figs. 3, 4, and 5 are views similar to Fig. 2 of modified forms of spark plugs embodying the invention.
- one feature of the invention contemplates a novel construction of spark plug of the type embodying an outer metallic electrode
- Another feature of the invention contemplates a novel and highly emcient construction of spark plug embodying an outer metallic electrode, an inner metallic electrode and a thin 55 tube of refractory material'disposed between the electrodes and in which provision is made for sealing the firing end of the plug by fusing the insulating member to the inner and outer electrodes.
- the spark plug 5 illustrated in Fig. 1 embodies an outer metallic electrode shown as comprising a metallic sleeve i0 having a longitudinal bore therethrough and a centrally disposed inner electrode comprising a metallic rod or wire.
- the insulating member 10 i4 is preferably of tubular form and of substantially uniform wall thickness to the end that it may be produced economically in accordance with existing methods of manufacture.
- the tubular insulating member I4 is preferably, but not ll necessarily, arranged to terminate at the firing end of the plug in substantially the plane of the ends of the outer and inner electrodes Ill, [2 so that during the operation of the spark plug,
- the end portion I8 of the insulating member I4 is, as herein shown, arranged to project above the outer electrode I0 and is protected by a second insulating member 20 preferably comprising a molded insulating 25 composition such as a phenolic-formaldehyde resinous composition or other suitable insulating material.
- the inner electrode may be electrically connected to a suitable terminal member 24 in any desired manner as illustrated in Fig. 1. 30
- At least the firing end portion of the outer and the inner electrodes of a metal or metallic alloy selected from any of the known metals or alloys having substantially the expansion characteristics as the insulating member l4.
- a metal or metallic alloy selected from any of the known metals or alloys having substantially the expansion characteristics as the insulating member l4.
- I may refer to and have experienced satisfactory results utilizing, an iron-nickel-cobalt alloy obtainable upon the market under the trade name Kovar.
- This particular alloy possessess substantially the. expansion characteristics of glass, and it is preferred therefore, in accordance with this feature of the invention, to utilize glass as'the tubular insulating member i4 and preferably of a wall thickness substantially equal to the usual spark gap employed in between the electrodes of the usual spark plug now on the market.
- glass as'the tubular insulating member i4 and preferably of a wall thickness substantially equal to the usual spark gap employed in between the electrodes of the usual spark plug now on the market.
- the outer electrode may be composed of a composite structure formed by welding or brazing a small Kovar" or equivalent sleeve or eyelet'3il to the lower end of the outer electrode III.
- the sleeve or eyelet 30 is preferably provided with a flanged portion 32 of a size substantially coextensive with the end of the outer electrode l0 and the flanged portion may be conveniently welded to the sleeve as illustrated in Figs. 1 and 2.
- the outer electrode may be provided with a countersunk portion 34, as shown in Fig. 3, and the Kovar" or equivalent eyelet disposed in the countersunk portion with the body of the eyelet, as well as the flange, welded to the outer electrode.
- Figs. 4 and 5 I have illustrated other forms of the firing end of the plug in which the metallic sleeve may be countersunk as shown in Fig. 4 and the sleeve or eyelet formed without a flange the body and end of the eyelet 3D welded to the outer electrode.
- Fig. 5 the end of the eyelet 30 is welded directly to the end of the outer electrode without the use of a flange.
- the insulating member H of a fusible material, preferably a tube of a sealing glass obtainable upon the market and to subject the firing end of the plug to heat and pressure such as to effect fusion of the end portion of the insulating tube M to thereby cause it to adhere to the inner and outer electrodes to hermetically seal the spaces therebetween.
- fused sealing portions are illustrated at 38 and when Kovar or another equivalent metallic alloy is utilized as the firing end portion of the outer and inner electrodes, as above described, expansion troubles are eliminated and the fused seal thus produced is of a permanent and highly efficient nature.
- insulator I4 it is preferred to utilize a thin walled glass tube as the insulator I4, thus enabling the sprak plug to possess the advantages in this respect of the spark plug forming the sub- Ject matter of my copending application, Serial No. 59,351, but it is not desired to limit the invention in this respect as other known insulating members may, for some purposes, be found advantageous, particularly vitreous refractory materials such as porcelain, and the firing ends of such spark plugs, may, if desired, be sealed in any desired manner, as for example by utilizing any known or preferred fusible materials to form the fused sealing portions 38 between the insulator and the outer and inner electrodes.
- a spark plug having an outer metallic member having an elongated bore therethrough, an inner electrode extending through the bore, a thin tube of heat resisting glass between the inner electrode and said outer metallic member, a metallic tube having substantially the coefficient of expansion of the glass secured to and forming a part of said outer metallic member, the lower portion of said glass being fused to said metallic tube and to the inner electrode.
- a spark plug having an elongated metallic outer member provided with a tubular metal member welded upon one end thereof, an inner electrode having one end extending within said tubular metal member, and an insulating member. comprising a tubular member of heat resisting glass having its end portion disposed between the tubular metal member and said inner electrode and fused to each to seal the firing end of the plug.
- a spark plug having an elongated metallic outer member provided with a tubular metal member welded upon one end thereof, an inner electrode having one end extending within said tubular metal member, and an insulating member comprising a tubular member of heat resisting glass having its end portion disposed between the tubular metal member and said inner electrode and fused to each to seal the firing end of the plug, said tubular metal member having substantially the coefficient of expansion of the glass insulating member.
- a spark plug having an elongated metallic outer member provided with a thin tubular metal member welded upon one end thereof, an inner electrode having one end extending within said thin tubular metal member, and an insulating member comprising a thin tubular member of heat resisting glass having its end portion disposed between the thin tubular metal member and said inner electrode and fused to each to seal the firing end of the plug, said thin tubular metal member and said inner electrode having substantially the coefficient of expansion of the glass insulating member.
- a spark plug having an outer, metallic electrode, an inner metallic electrode extended therethrough, a fusible insulating member between the inner and outer electrodes, a metallic tube forming part of the outer electrode and having the same expansion characteristics as said fusible insulating material and being provided with a flange secured to the end portion of the outer member, said fusible insulating material being fused to said metallic tube and to the end portion of the inner electrode whereby to hermeti cally seal the plug.
- a spark plug having an outer metallic electrode, an inner metallic electrode extended therethrough, a fusible insulating member between the inner and outer electrodes, a metallic tube forming part of the outer electrode and having the same expansion characteristics .as said fusible insulating material and provided with a flange, said flange being secured to the end portion of the outer member, said fusible insulating material being fused to said metallic tube and to the end portion of the inner electrode whereby to hermetically seal the plug.
- a spark plug having an outer metallic electrode, an inner metallic electrode extended therethrough, a fusible insulating member between the inner and outer electrodes, a metallic tube having the same expansion characteristics as said fusible insulating material, said tube extending upwardly into the outer member and provided with a flange, said flange being secured to the end portion of the outer member, said fusible insulating material being fused to said metallic tube and to the end portion of the inner electrode whereby to hermetically seal the plug.
- a spark plug having an outer metallic electrode, an inner metallic electrode extended therethrough, a fusible insulating member between the metallic electrodes, a metal tube of the same expansion characteristics as the fusible insulating material secured to the end portion of the outer metallic electrode, said insulating material being fused to said metallic tube and inner electrode.
- a spark plug having an elongated metallicouter member having an elongated bore there.- through, an inne electrode extending through the bore and an insulating member comprising a tubular member of heat resisting glass disposed between the inner and outer electrodes and fused to both electrodes at the firing end only to seal the firing end of the plug.
Description
INVENTOR m... C. y W hum ATTORN EY- A. C. HASTINGS, JR
SPARK PLUG Filed Jan. 19, 1937 July- 5, 1938.
Patented July 5, 1938 UNITED STATES 2,122,571 SPARK PLUG Arthur Chapin Hastings, In, South Yarmouth, Mass.
Application January 19, 1937, Serial No. 121,296
9 Claims.
This invention relates to a spark plug.
One object of the invention is to provide a. novel and improved construction of spark plug which may be economically manufactured, easily cleaned, and which is adapted to operate efficiently for long periods of time.
Another object of the invention is to provide a novel and improved spark plug of the type embodying an outer electrode, an inner electrode and an insulating member between the electrodes and in which provision is made for sealing the firing end of the spark plug against gas leakage in a novel and efiicient manner.
With these general objects in view and such others as may hereinafter appear, the invention consists in the spark plug and in the various structures, arrangements and combinations of parts hereinafter described and particularly defined in the claims at the end of this specifica- In the drawing illustrating different embodiments of the invention, Fig. 1 is a vertical sectional view of the preferred form of spark plug;
Fig. 2 is an enlarged detail of the lower portion or firing end of the spark plug shown in Fig. 1; and Figs. 3, 4, and 5 are views similar to Fig. 2 of modified forms of spark plugs embodying the invention.
In general, one feature of the invention contemplates a novel construction of spark plug of the type embodying an outer metallic electrode,
an inner electrode and a tubular insulating member disposed between the electrodes and in which provision is made for sealing the spaces between the insulating member and the outer and inner electrodes in a novel and efficient manner adapted to reduce to a minimum gas leakage between these parts when the spark plug is used. An-
other feature of the invention contemplates, a
40 construction of spark plug of the type embodying an outer electrode, an inner electrode extended therethrough and a tubular insulating member disposed between said electrodes and in which the outer and inner electrodes are composed, for at 45 least the hot or firing end of the plug, of metal having substantially the same expansion characteristics as the insulating member to the end that the parts during manufacture may be made to a close fit thus facilitating the sealing of the 50 spaces between the electrodes and the insulating member. Another feature of the invention contemplates a novel and highly emcient construction of spark plug embodying an outer metallic electrode, an inner metallic electrode and a thin 55 tube of refractory material'disposed between the electrodes and in which provision is made for sealing the firing end of the plug by fusing the insulating member to the inner and outer electrodes.
Referring now to the drawing, the spark plug 5 illustrated in Fig. 1 embodies an outer metallic electrode shown as comprising a metallic sleeve i0 having a longitudinal bore therethrough and a centrally disposed inner electrode comprising a metallic rod or wire. The insulating member 10 i4 is preferably of tubular form and of substantially uniform wall thickness to the end that it may be produced economically in accordance with existing methods of manufacture. The tubular insulating member I4 is preferably, but not ll necessarily, arranged to terminate at the firing end of the plug in substantially the plane of the ends of the outer and inner electrodes Ill, [2 so that during the operation of the spark plug,
sparks are caused to traverse across the ends of 20' the insulating member I 4. The end portion I8 of the insulating member I4 is, as herein shown, arranged to project above the outer electrode I0 and is protected by a second insulating member 20 preferably comprising a molded insulating 25 composition such as a phenolic-formaldehyde resinous composition or other suitable insulating material. The inner electrode may be electrically connected to a suitable terminal member 24 in any desired manner as illustrated in Fig. 1. 30
In accordance with one feature of the invention, it is preferred to construct at least the firing end portion of the outer and the inner electrodes of a metal or metallic alloy selected from any of the known metals or alloys having substantially the expansion characteristics as the insulating member l4. As typical of one such alloy I may refer to and have experienced satisfactory results utilizing, an iron-nickel-cobalt alloy obtainable upon the market under the trade name Kovar. This particular alloy possessess substantially the. expansion characteristics of glass, and it is preferred therefore, in accordance with this feature of the invention, to utilize glass as'the tubular insulating member i4 and preferably of a wall thickness substantially equal to the usual spark gap employed in between the electrodes of the usual spark plug now on the market. For economical reasons, and as illustrated in Fig.
1, the outer electrodemay be composed of a composite structure formed by welding or brazing a small Kovar" or equivalent sleeve or eyelet'3il to the lower end of the outer electrode III. The sleeve or eyelet 30 is preferably provided with a flanged portion 32 of a size substantially coextensive with the end of the outer electrode l0 and the flanged portion may be conveniently welded to the sleeve as illustrated in Figs. 1 and 2. As a modification of this structure, the outer electrode may be provided with a countersunk portion 34, as shown in Fig. 3, and the Kovar" or equivalent eyelet disposed in the countersunk portion with the body of the eyelet, as well as the flange, welded to the outer electrode. In Figs. 4 and 5 I have illustrated other forms of the firing end of the plug in which the metallic sleeve may be countersunk as shown in Fig. 4 and the sleeve or eyelet formed without a flange the body and end of the eyelet 3D welded to the outer electrode. In Fig. 5 the end of the eyelet 30 is welded directly to the end of the outer electrode without the use of a flange.
In order to effectively seal the spark plug against gas leakage during the use of the plug, I prefer to construct the insulating member H of a fusible material, preferably a tube of a sealing glass obtainable upon the market and to subject the firing end of the plug to heat and pressure such as to effect fusion of the end portion of the insulating tube M to thereby cause it to adhere to the inner and outer electrodes to hermetically seal the spaces therebetween. In the drawing such fused sealing portions are illustrated at 38 and when Kovar or another equivalent metallic alloy is utilized as the firing end portion of the outer and inner electrodes, as above described, expansion troubles are eliminated and the fused seal thus produced is of a permanent and highly efficient nature.
In some instances 1. may find it of advantage to reenforce the fused sealing portions 38 by additional cement of any usual composition at pres ent employed for this purpose, disposed between the upper portions of the insulator II and the outer and inner electrodes, and in some instances where it is preferred not to utilize the fusible seal, I prefer to provide a cementitious seal between the insulator member I4 and the inner and outer electrodes.
In general, it is preferred to utilize a thin walled glass tube as the insulator I4, thus enabling the sprak plug to possess the advantages in this respect of the spark plug forming the sub- Ject matter of my copending application, Serial No. 59,351, but it is not desired to limit the invention in this respect as other known insulating members may, for some purposes, be found advantageous, particularly vitreous refractory materials such as porcelain, and the firing ends of such spark plugs, may, if desired, be sealed in any desired manner, as for example by utilizing any known or preferred fusible materials to form the fused sealing portions 38 between the insulator and the outer and inner electrodes.
While it is preferred to hermetically seal the firing end of the plug, as above described, nevertheless other forms of seal may be used with advantages, particularly in spark plugs of the character, described and embodying Kovar" or equivalent electrodes or parts thereof.
By the use of the term thin as employed in my claims, I intend to define a thickness of glass sufllciently small that the thickness of the insulating materials. now commercially employed between the inner and outer electrodes in the manufacture of spark plugs for the same operating conditions at least is several times 'as great.
While the preferred embodiment of the invention has'been herein illustrated and described it will be understood that the invention may be embodied in other forms within the scope of the following claims.
Having thus described the invention, what is claimed is:
1. A spark plug having an outer metallic member having an elongated bore therethrough, an inner electrode extending through the bore, a thin tube of heat resisting glass between the inner electrode and said outer metallic member, a metallic tube having substantially the coefficient of expansion of the glass secured to and forming a part of said outer metallic member, the lower portion of said glass being fused to said metallic tube and to the inner electrode.
2. A spark plug having an elongated metallic outer member provided with a tubular metal member welded upon one end thereof, an inner electrode having one end extending within said tubular metal member, and an insulating member. comprising a tubular member of heat resisting glass having its end portion disposed between the tubular metal member and said inner electrode and fused to each to seal the firing end of the plug.
3. A spark plug having an elongated metallic outer member provided with a tubular metal member welded upon one end thereof, an inner electrode having one end extending within said tubular metal member, and an insulating member comprising a tubular member of heat resisting glass having its end portion disposed between the tubular metal member and said inner electrode and fused to each to seal the firing end of the plug, said tubular metal member having substantially the coefficient of expansion of the glass insulating member.
4. A spark plug having an elongated metallic outer member provided with a thin tubular metal member welded upon one end thereof, an inner electrode having one end extending within said thin tubular metal member, and an insulating member comprising a thin tubular member of heat resisting glass having its end portion disposed between the thin tubular metal member and said inner electrode and fused to each to seal the firing end of the plug, said thin tubular metal member and said inner electrode having substantially the coefficient of expansion of the glass insulating member.
5. A spark plug having an outer, metallic electrode, an inner metallic electrode extended therethrough, a fusible insulating member between the inner and outer electrodes, a metallic tube forming part of the outer electrode and having the same expansion characteristics as said fusible insulating material and being provided with a flange secured to the end portion of the outer member, said fusible insulating material being fused to said metallic tube and to the end portion of the inner electrode whereby to hermeti cally seal the plug.
6. A spark plug having an outer metallic electrode, an inner metallic electrode extended therethrough, a fusible insulating member between the inner and outer electrodes, a metallic tube forming part of the outer electrode and having the same expansion characteristics .as said fusible insulating material and provided with a flange, said flange being secured to the end portion of the outer member, said fusible insulating material being fused to said metallic tube and to the end portion of the inner electrode whereby to hermetically seal the plug.
7. A spark plug having an outer metallic electrode, an inner metallic electrode extended therethrough, a fusible insulating member between the inner and outer electrodes, a metallic tube having the same expansion characteristics as said fusible insulating material, said tube extending upwardly into the outer member and provided with a flange, said flange being secured to the end portion of the outer member, said fusible insulating material being fused to said metallic tube and to the end portion of the inner electrode whereby to hermetically seal the plug.
8. A spark plug having an outer metallic electrode, an inner metallic electrode extended therethrough, a fusible insulating member between the metallic electrodes, a metal tube of the same expansion characteristics as the fusible insulating material secured to the end portion of the outer metallic electrode, said insulating material being fused to said metallic tube and inner electrode.
9. A spark plug having an elongated metallicouter member having an elongated bore there.- through, an inne electrode extending through the bore and an insulating member comprising a tubular member of heat resisting glass disposed between the inner and outer electrodes and fused to both electrodes at the firing end only to seal the firing end of the plug.
ARTHUR C. HASTINGS, JR.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US121296A US2122571A (en) | 1937-01-19 | 1937-01-19 | Spark plug |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US121296A US2122571A (en) | 1937-01-19 | 1937-01-19 | Spark plug |
Publications (1)
Publication Number | Publication Date |
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US2122571A true US2122571A (en) | 1938-07-05 |
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ID=22395759
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US121296A Expired - Lifetime US2122571A (en) | 1937-01-19 | 1937-01-19 | Spark plug |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2527489A (en) * | 1945-12-14 | 1950-10-24 | Smitz Wytze Beye | Low-tension sparking plug |
DE916137C (en) * | 1944-05-28 | 1954-08-05 | Bosch Gmbh Robert | Floating spark plug |
US2760099A (en) * | 1953-05-04 | 1956-08-21 | Globe Union Inc | Low tension spark plugs |
US2836756A (en) * | 1953-12-30 | 1958-05-27 | Smits Wytze Beye | Surface discharge spark plug |
DE1152849B (en) * | 1956-01-11 | 1963-08-14 | Renault | Method for manufacturing a spark plug for sliding spark plugs |
-
1937
- 1937-01-19 US US121296A patent/US2122571A/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE916137C (en) * | 1944-05-28 | 1954-08-05 | Bosch Gmbh Robert | Floating spark plug |
US2527489A (en) * | 1945-12-14 | 1950-10-24 | Smitz Wytze Beye | Low-tension sparking plug |
US2760099A (en) * | 1953-05-04 | 1956-08-21 | Globe Union Inc | Low tension spark plugs |
US2836756A (en) * | 1953-12-30 | 1958-05-27 | Smits Wytze Beye | Surface discharge spark plug |
DE1152849B (en) * | 1956-01-11 | 1963-08-14 | Renault | Method for manufacturing a spark plug for sliding spark plugs |
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