An electrode for a spark plug is described in German Patent Application No. DE 10 2014 225402 A1, for example. In addition, a method for its production is described in this related art.
The production of the electrode and the connection of the base body to the wear part according to the related art presuppose the use of strong laser radiation at flat angles to the workpiece surface and are therefore relatively complex.
An electrode according to the present invention is able to be produced in a relatively easy and robust manner with the aid of a method according to the present invention.
According to an example embodiment of the present invention, because a keyed connection also results between the base body and the wear part in addition to a weld between the base body and the wear part, the connection as a whole is stable and the requirements to be satisfied by the welded connection as such are less demanding, yet the electrode is still capable of withstanding all stresses that arise during an operation and in tests in a reliable manner over the long term.
The wear part may have the form of a truncated cone, that is, the form of a body which is created when all points of a flat base area are connected in a straight line to a tip, and the region of the tip is then removed by a cut along a sectional plane which runs parallel to the base area. The base area may be circular, which then produces a circular truncated cone. In addition, the connecting line of the circle center point of the base area may sit with its tip at a right angle to the base area, which thus results in a straight circular truncated cone, which is especially preferred within the scope of the present invention.
According to an example embodiment of the present invention, the base body may have an undercut recess, or in other words, a recess which widens in a direction from the surface toward the interior of the base body.
The keyed connection between the wear part and the base body may come about in particular by the positioning of a section of the wear part which includes the base area of the truncated cone in the undercut recess, and by the protrusion of a section of the truncated cone which includes the sectional area of the truncated cone, the truncated cone completely filling the undercut recess.
For this purpose, in a further refinement, the base body may be welded to the wear part at sections of the edge area of the recess or to the entire edge area of the recess.
According to an example embodiment of the present invention, it may furthermore be provided that the truncated cone starts from a straight circular cone so that it has an axis that is positioned perpendicular to the base area and the sectional area of the truncated cone, and has a base area radius rg and a sectional area radius rs and a height h. It may be provided that the base body has a planar surface laterally next to the recess, which is parallel to the base area and the sectional area of the truncated cone, and the base area is set apart from the surface by a melt-in length lin in the axial direction, that is, lies below this surface by the melt-in length lin. The wear part is then quasi accommodated in the base body or melted into the base body.
The following relations
h<rs, in particular h<½rs, a)
rs<0.9rg, in particular rs<0.85rg, b)
lin<½h, in particular lin<⅓h, c)
may be realized by one, two or all relation(s), in particular the following relations: a; b; c; a and b; a and c; b and c; a, b and c.
With these designations, one half of the cone angle α (opening angle) of the cone on which the truncated cone is based amounts to α=arctan (rg−rs)/h) and may preferably amount to between 10° and 40°, in particular to between 15° and 35°.
For example, 3 mm≥rg≥2 mm may be selected.
For instance, 1 mm≥h≥0.2 mm may be selected.
According to an example embodiment of the present invention, it may be provided that the base body has a circumferential welding bead between the recess and the planar surface, which laterally rests against the surface shell of the wear part; this enlarges the contact area between the wear part and the ground electrode and thereby improves the material connection.
In terms of the weight proportions, the nickel base alloy predominantly contains nickel. It may be NiAlxSiy or NiAlxSiyY, with 4≥x+y≥1 in each case, e.g., NiAl1Si1.
In terms of the weight proportions, the iridium base alloy predominantly contains iridium. For example, it may be made up completely of noble metals. It may be IrRhzReu with 16≥z+u≥3, e.g., IrRh8Re3.
The present invention also relates to a spark plug having at least one such electrode. It can be a center electrode and/or a ground electrode. The ground electrode may be a top electrode, a side electrode and/or a bow-shaped electrode.
According to an example embodiment of the present invention, such electrodes and spark plugs are able to be produced by the following method steps:
The method is able to be carried out in such a way that the electric current induces heating, which is always lower than the melting temperature of the iridium base alloy, for instance always lower than 1600° C. The form of the preform wear part then transitions without change to the form of the wear part and an especially pronounced keyed connection between the ground electrode and the wear part is able to be realized.
If the quotient of the mechanical force and the base area of the preform base body is selected in such a way that it corresponds to a mechanical pressure that amounts to between 40 and 300 N/mm2, then the preform wear part rapidly penetrates the preform base body, and the production method is able to be carried out within a short time.
A ground electrode 6, which forms an ignition gap together with center electrode 5, is situated on the combustion-chamber side of housing 2. Ground electrode 6 may be embodied as a front electrode, a side electrode, or a bow-shaped electrode. The bow-shaped electrode has two sides which are welded to housing 2 by their leg 16 in each case. The sides have an angle of 30° to 180° relative to each other. The bow-shaped electrode may be made up of one part or multiple parts; in a multi-part development, the individual parts are connected to one another by a material connection such as welding.
Electrode 5, 6 has a base body 8 made from a nickel base alloy, and a wear part 10 made from an iridium base alloy. Wear part 10 is situated on base body 8 in such a way that it forms the ignition gap together with the oppositely situated electrode 6, 5 and a second wear part situated on electrode 6, 6 on the opposite side.
In the example, wear part 10 has the form of a straight truncated cone having a height h. The radius of base area g amounts to rg, and the radius of sectional area s amounts to rs.
Ground electrode 8 has an undercut recess 9, that is, recess 9 tapers in the direction of the external surface 13 of ground electrode 8 (in the upward direction in
External surface 13 of base body 8 is developed laterally next to recess 9 in the form of a planar surface which is parallel to base area g and to sectional area s of the truncated cone. Base area g is set apart from the planar surface by a melt-in length lin in an axial direction.
The following applies in the example: rg=1.2 mm; rs=1 mm; h=0.4 mm, lin=0.1 mm, or lin=0.05 mm. In the example, base body 8 is made from the material NiAl1Si1Y, and wear part 10 is made from the material IrRh8Re3.
It may be gathered from
Electrode 5, 6 described in this example is able to be produced in the following manner, for example:
The method steps V1 through V7 are illustrated in
Number | Date | Country | Kind |
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10 2020 211 897.3 | Sep 2020 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2021/075411 | 9/16/2021 | WO |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2022/063660 | 3/31/2022 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
10033163 | Sumoyama | Jul 2018 | B1 |
10270227 | Hasegawa | Apr 2019 | B2 |
20180331508 | Hwang et al. | Nov 2018 | A1 |
Number | Date | Country |
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10224891 | Dec 2003 | DE |
102005052425 | May 2007 | DE |
102014225402 | Jun 2016 | DE |
102015207042 | Oct 2016 | DE |
102016223344 | May 2018 | DE |
112016005813 | Aug 2018 | DE |
102018120985 | Mar 2019 | DE |
102018110571 | Nov 2019 | DE |
2704271 | Mar 2014 | EP |
2000068030 | Mar 2000 | JP |
Entry |
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International Search Report for PCT/EP2021/075411, Issued Jan. 24, 2022. |
Number | Date | Country | |
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20240030688 A1 | Jan 2024 | US |