US2293381A - Sparking plug - Google Patents

Sparking plug Download PDF

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Publication number
US2293381A
US2293381A US363421A US36342140A US2293381A US 2293381 A US2293381 A US 2293381A US 363421 A US363421 A US 363421A US 36342140 A US36342140 A US 36342140A US 2293381 A US2293381 A US 2293381A
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Prior art keywords
insulator
bore
glass
powdered
electrode
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Expired - Lifetime
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US363421A
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Carington Charles Molyneux
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K L G SPARKING PLUGS Ltd
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K L G SPARKING PLUGS Ltd
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01TSPARK GAPS; OVERVOLTAGE ARRESTERS USING SPARK GAPS; SPARKING PLUGS; CORONA DEVICES; GENERATING IONS TO BE INTRODUCED INTO NON-ENCLOSED GASES
    • H01T13/00Sparking plugs
    • H01T13/20Sparking plugs characterised by features of the electrodes or insulation
    • H01T13/38Selection of materials for insulation

Definitions

  • This invention relates to sparking plugs, for internal-combustion engines, of the type comprising an insulator of ceramic material, such as fused alumina, through which a central conductor passes to a firing p int.
  • the object of the invention is to provide a gas-tight seal between the central conductor and the insulator.
  • the invention therefore, comprises, in one aspect, a method of sealing the terminal end of a central conductor in a bore of a ceramic insulator of a sparking plug, which method includes the steps of inserting a mixture of glass and a powdered or granulated material whichis infusibleat the fusion temperature of glass, into the bore so as to surround the central electrode and then heating the assembly to a temperature at which the glass fuses.
  • the invention comprises a sealing material for use in the method described in the next preceding paragraph, which sealing material comprises a, mixture of powdered glass and powdered or granulated material the same as that of which the insulator is made.
  • the glass and powdered or granulated material are chosen to have substantially equal coemcients of thermal expansion
  • the invention comprises thecgmbintion with a ceramic insulator and a sealing mixture as set forth above, of a conductor to; be surrounded by the sealing mixture w conductor is selected to have substantially the co-eflicientof thermal expansion as the sealingmaterial.
  • the insulator is made of fused alumina
  • the sealing mixture conveniently comprises a boro-silicate glass and powdered or granulated "Corundite material, and the metal of the conductor which is to be surrounded by the sealing mixture is conveniently of molybdenum.
  • Tungsten may also be used for the con-- ductor,
  • sparking plug according to the invention will be described .by way of example, reference being had to the accompanying drawing which is an elevation of the sparking plug partly in longitudinal section.
  • the sparking plug comprises a two-part plug body III, II in which is held an insulator l2 formed of ceramic material, such as that sold under the registered trade-mark Corundite, through which passes a central conductor.
  • the central conductor comprises a core It of steel surrounded by a sheath of copper H, the core I3 and sheath I both terminating well below the top or terminal end of the bore through the insulator I2, and a molybdenum wire ll engaged in the top end of the core I! and extending upwardly through a hole drilled in a terminal stud it with which the molybdenum wire has a good electrical contact.
  • the core of the insulator above the end of the core I; is widened and provided with a coarse thread it which is engaged by an external thread on the stud terminal l8.
  • a gas-seal l8 formed of a sealing material comprising a mixture of glass, for example boro-silicate glass, and powdered or granulated fused alumina, such as that sold under the registered trade-mark Ccrundite.”
  • the core I3 is drilled at one end to receive the end of the molybdenum wire I1, and the core together with the molybdenum wire then positioned in the bore of the insulator.
  • the sealing material is next packed in the bore of the insulator around the molybdenum wire ll, the sealing material being tamped into the bore and the stud l8 screwed in thereby compressing the sealing material tightly in the space between the stud l6 and core It.
  • the top end of the wire ll passes into the hole drilled in the stud l6 and is secured in good electrical contact with it.
  • the assembly is next passed into a furnace and hated to a temperature suflicient to cause the glass to fuse, but not to fuse the "Corundite material. Consequently the glass, when cooled, forms a hard vitreous matrix in intimate contact with the insulator I! on the one hand and with the other hand, having the Corund'ite particles forming a disperse Phase therein.
  • the particles of the infusible material have the eflect of preventing the formation of large bubbles which would otherwise result from gassing in the glass; on the contrary, the granules produce a very large number of small bubbles evenly distributed throughout the seal.
  • the glass, the Corundite particles and the molybdenum have approximately the same coefllcient of thermal expansion as the insulator ii, there is no tendency for the seal to position from the terminal end of into the bore, filling the space within the bore between the electrode and the insulator with a mixture of powdered glass and a powdered or granulated material having a melting point higher than glass, and heating the assembly to a temperature above the melting point of glass but below that of the powdered or granulated material.
  • a cement comprising a mixture of powdered glass and the ceramic material in a powdered or granulated for-m.
  • An electrode-insulator assembly for a sparking plug comprising a ceramic insulator having a central bore, an electrode received in said bore and having a terminal portion which is smaller in cross-section than the part of the bore in which it is situated to provide a space and a seal filling said space and comprising fused glass having dispersed therein powdered material having a melting point higher than the glass.
  • An electrode-insulator assembly for a sparking plug comprising a ceramic insulator having a central bore of which one end is tapped to receive a terminal, an electrode received in the bore and having its part within the tapped .part of the bore of smaller diameter than the bore, a terminal screwed into the bore and in electrical contact with the electrode and a seal filling the space between the electrode and the bore that is not filled by the terminal, said seal comprising fused glass having dispersed therein powdered ceramic material of which the insulator is made.
  • An electrode-insulator assembly for a sparking plug comprising an insulator made of a ceramic material and formed with a bore, an electrode received in the bore and having a terminal portion which is of less diameter than the part ofthe bore in which it lies to provide a space within the bore and a seal filling the said space and consisting of fused glass in intimate contact with the electrode and walls of the bore in the insulator and having dispersed in it particles of the ceramic material, which cause the gas within the seal to be dispersed therein in the form of a large number of small bubbles.

Description

Aug. 18, 1942. c. CARINGTON 2,293,381
SPARKING PLUG Filed Oct. :50, 1940 Patented Aug. 18, 1942 OFFICE SPARRING PLUG Charles Molyneux Carlngton,
London, England,
assignor to K. L. G. Sparking Plugs Limited,
London, England, a
British company Application October 30, 1940, Serial No.
In Great Britain March 1, 1940 claim, (01. 123-169) This invention relates to sparking plugs, for internal-combustion engines, of the type comprising an insulator of ceramic material, such as fused alumina, through which a central conductor passes to a firing p int. The object of the invention is to provide a gas-tight seal between the central conductor and the insulator.
The invention, therefore, comprises, in one aspect, a method of sealing the terminal end of a central conductor in a bore of a ceramic insulator of a sparking plug, which method includes the steps of inserting a mixture of glass and a powdered or granulated material whichis infusibleat the fusion temperature of glass, into the bore so as to surround the central electrode and then heating the assembly to a temperature at which the glass fuses. i
In another aspect, the invention comprises a sealing material for use in the method described in the next preceding paragraph, which sealing material comprises a, mixture of powdered glass and powdered or granulated material the same as that of which the insulator is made. According to a feature of the invention, the glass and powdered or granulated material are chosen to have substantially equal coemcients of thermal expansion,
Inyet another aspect, the invention comprises thecgmbintion with a ceramic insulator and a sealing mixture as set forth above, of a conductor to; be surrounded by the sealing mixture w conductor is selected to have substantially the co-eflicientof thermal expansion as the sealingmaterial.
Where the insulator is made of fused alumina,
containing a flux or binding material, such as that known under the registered trade-mark "Cortmditef the sealing mixture conveniently comprises a boro-silicate glass and powdered or granulated "Corundite material, and the metal of the conductor which is to be surrounded by the sealing mixture is conveniently of molybdenum. Tungsten may also be used for the con-- ductor,
One embodiment of sparking plug according to the invention will be described .by way of example, reference being had to the accompanying drawing which is an elevation of the sparking plug partly in longitudinal section.
The sparking plug comprises a two-part plug body III, II in which is held an insulator l2 formed of ceramic material, such as that sold under the registered trade-mark Corundite, through which passes a central conductor. The central conductor comprises a core It of steel surrounded by a sheath of copper H, the core I3 and sheath I both terminating well below the top or terminal end of the bore through the insulator I2, and a molybdenum wire ll engaged in the top end of the core I! and extending upwardly through a hole drilled in a terminal stud it with which the molybdenum wire has a good electrical contact. The core of the insulator above the end of the core I; is widened and provided with a coarse thread it which is engaged by an external thread on the stud terminal l8. Between the lower end of the stud l6 and the top of the core I3 around the molybdenum wire ll there is a gas-seal l8 formed of a sealing material comprising a mixture of glass, for example boro-silicate glass, and powdered or granulated fused alumina, such as that sold under the registered trade-mark Ccrundite."
In the manufacture of the combined insulator and the central conductor, the core I3 is drilled at one end to receive the end of the molybdenum wire I1, and the core together with the molybdenum wire then positioned in the bore of the insulator. The sealing material is next packed in the bore of the insulator around the molybdenum wire ll, the sealing material being tamped into the bore and the stud l8 screwed in thereby compressing the sealing material tightly in the space between the stud l6 and core It. The top end of the wire ll passes into the hole drilled in the stud l6 and is secured in good electrical contact with it.
The assembly is next passed into a furnace and hated to a temperature suflicient to cause the glass to fuse, but not to fuse the "Corundite material. Consequently the glass, when cooled, forms a hard vitreous matrix in intimate contact with the insulator I! on the one hand and with the other hand, having the Corund'ite particles forming a disperse Phase therein.
It is found that the particles of the infusible material have the eflect of preventing the formation of large bubbles which would otherwise result from gassing in the glass; on the contrary, the granules produce a very large number of small bubbles evenly distributed throughout the seal.
Moreover, since the glass, the Corundite particles and the molybdenum have approximately the same coefllcient of thermal expansion as the insulator ii, there is no tendency for the seal to position from the terminal end of into the bore, filling the space within the bore between the electrode and the insulator with a mixture of powdered glass and a powdered or granulated material having a melting point higher than glass, and heating the assembly to a temperature above the melting point of glass but below that of the powdered or granulated material.
2. For sealing an electrode into a bore in an insulator made of a ceramic material, a cement comprising a mixture of powdered glass and the ceramic material in a powdered or granulated for-m.
3. An electrode-insulator assembly for a sparking plug, comprising a ceramic insulator having a central bore, an electrode received in said bore and having a terminal portion which is smaller in cross-section than the part of the bore in which it is situated to provide a space and a seal filling said space and comprising fused glass having dispersed therein powdered material having a melting point higher than the glass.
4. An electrode-insulator assembly for a sparking plug, comprising a ceramic insulator having a central bore of which one end is tapped to receive a terminal, an electrode received in the bore and having its part within the tapped .part of the bore of smaller diameter than the bore, a terminal screwed into the bore and in electrical contact with the electrode and a seal filling the space between the electrode and the bore that is not filled by the terminal, said seal comprising fused glass having dispersed therein powdered ceramic material of which the insulator is made.
5. An electrode-insulator assembly for a sparking plug, comprising an insulator made of a ceramic material and formed with a bore, an electrode received in the bore and having a terminal portion which is of less diameter than the part ofthe bore in which it lies to provide a space within the bore and a seal filling the said space and consisting of fused glass in intimate contact with the electrode and walls of the bore in the insulator and having dispersed in it particles of the ceramic material, which cause the gas within the seal to be dispersed therein in the form of a large number of small bubbles.
CHARLES MOLYNEUX CARING'ION.
US363421A 1940-03-01 1940-10-30 Sparking plug Expired - Lifetime US2293381A (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2497158A (en) * 1946-07-17 1950-02-14 Hastings Mfg Co Spark plug
US2508354A (en) * 1944-10-21 1950-05-23 Bendix Aviat Corp Spark plug or the like
US2525536A (en) * 1946-09-12 1950-10-10 Bendix Aviat Corp Spark plug construction
US2612151A (en) * 1946-11-27 1952-09-30 Bendix Aviat Corp Spark plug and method of making the same
US2806971A (en) * 1952-05-21 1957-09-17 Twells Robert Glass seal for spark plug electrode assembly
US2867683A (en) * 1954-01-15 1959-01-06 Gen Motors Corp High energy electrical lead-in
US2940221A (en) * 1960-06-14 Manufacture of low-tension sparking
US3031522A (en) * 1958-02-13 1962-04-24 Gen Electric Sheathed electrical conductors and insulation therefor

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2940221A (en) * 1960-06-14 Manufacture of low-tension sparking
US2508354A (en) * 1944-10-21 1950-05-23 Bendix Aviat Corp Spark plug or the like
US2497158A (en) * 1946-07-17 1950-02-14 Hastings Mfg Co Spark plug
US2525536A (en) * 1946-09-12 1950-10-10 Bendix Aviat Corp Spark plug construction
US2612151A (en) * 1946-11-27 1952-09-30 Bendix Aviat Corp Spark plug and method of making the same
US2806971A (en) * 1952-05-21 1957-09-17 Twells Robert Glass seal for spark plug electrode assembly
US2867683A (en) * 1954-01-15 1959-01-06 Gen Motors Corp High energy electrical lead-in
US3031522A (en) * 1958-02-13 1962-04-24 Gen Electric Sheathed electrical conductors and insulation therefor

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