JP2923672B2 - Spark plug ground electrode - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a ground electrode of a spark plug used for an internal heat engine.

(Prior Art) Conventionally, as a ground electrode of a spark plug used in an internal combustion engine, a single electrode made of a nickel alloy is generally used, but with the recent high performance of the internal combustion engine, In order to prevent the pre-ignition in the compression process, which is caused by the ground electrode constantly projecting into the combustion chamber, it is required to be made of a good heat conductive material. For the grounding electrode of the layer, the one made of a clad material of a nickel alloy having a multilayer structure in which copper is enclosed inside is used for the grounding electrode (Japanese Patent Application Laid-Open No. 58-140985), and the core material is made of pure nickel. (Japanese Patent Application Laid-Open No. Sho 60-41785) has been proposed in which an outer layer is provided with a nickel alloy containing 10% or more of chromium.

(Problems to be Solved by the Invention) However, in the above-mentioned conventional one,
In the case of No. 140985, the ground electrode is made of a clad material of nickel alloy with a multilayer structure in which copper is enclosed inside, but the mass production is inferior since each forming process is required in the plastic working process Alternatively, the position and shape of copper to be filled are restricted due to the layout of the plastic working, and it is difficult to uniformly fill the entire length in the longitudinal direction which is most advantageous for heat sinking.

Further, there is a problem that a crack is generated in a nickel portion due to a difference in thermal expansion between copper and nickel in a portion where a sealed volume is locally large. Furthermore, since it is formed by plastic working, there is a problem that it is difficult to use a corrosion-resistant nickel alloy such as Inconel 600 or 601 as a nickel alloy.

Further, in the case of JP-A-60-41785, the core material is made of pure nickel, and chromium is applied to the outer layer covering the outer surface.
By providing a nickel alloy containing 10% or more, the difference in the coefficient of linear expansion between the core material and the outer layer is minimized, and thermal stress is generated even if the ground electrode becomes hot. The purpose is to minimize breakage of the ground electrode, etc., but since pure nickel used as the core material has a low thermal conductivity, good thermal conductivity of the ground electrode itself is sufficiently ensured. In this case, preignition caused by the ground electrode is induced, and the internal combustion engine is easily damaged.

In view of the above, the present invention has been made to improve the above-mentioned disadvantages of the related art, and the ground electrode of a spark plug is made of a clad material having a plurality of layers to ensure good thermal conductivity, and the clad material is easily obtained. Is what you can do.

(Means for Solving the Problems) To this end, a substantially rod-shaped core made of copper or a copper alloy is coated with a first layer made of pure nickel or a nickel alloy, and the first layer is made at least. 1
The first layer portion is made of a better heat conductive material than the second layer portion, and the second layer portion is made of the first layer portion. It shall be formed from a material having good corrosion resistance. Further, a substantially cylindrical metal shell, an insulator with a shaft hole fitted into the metal shell, a center electrode fixed to a shaft hole of the insulator, and a center electrode welded to a tip end surface of the metal shell, A spark plug having a ground electrode that forms a discharge gap between the outer electrode and the outer surface of the ground electrode is made of pure nickel or a nickel alloy of a first layer covering a substantially rod-shaped core made of copper or a copper alloy. The second layer portion is formed of a nickel alloy having better corrosion resistance than the first layer portion.

Further, the substantially rod-shaped core portion may be compounded with a powder made of copper or a copper alloy and a material that is difficult to alloy with them. Further, the substantially rod-shaped core portions may be dispersedly arranged in two or more and covered with the first layer portion. Further, the substantially rod-shaped core portion may be continuously wound and covered by the first layer portion, or the discharge-side end face of the ground electrode may be covered with a nickel alloy or a nickel-copper alloy.

(Operation) By enclosing a substantially rod-shaped core portion made of copper or a copper alloy uniformly over the entire length in the wire drawing longitudinal direction of the ground electrode, local concentration of copper expansion can be eliminated. The outer periphery can suppress the occurrence of cracks due to the thermal stress of the two-layer nickel alloy. In addition, since copper is sealed from the tip to the root, heat can be efficiently drawn. And since it manufactures by wire drawing using hot isostatic extrusion, a good corrosion-resistant material, such as Inconel 600,601, can be used for an outer cylinder part. In addition, since the substantially bar-shaped core portion is dispersed and enclosed in a plurality, it is possible to alleviate copper spouting and oxidation that occur when the engine is mounted. Furthermore, by blending copper and a material in which the substantially rod-shaped core portion does not easily alloy with copper, for example, a mixed powder of chromium, it is possible to further reduce oxidation and ejection of copper.

In addition, if the problem of copper oxidation or bleeding occurs more remarkably under more severe conditions of use of this ground electrode, the tip (discharge side) is melted by CO ₂ laser, TIG welding, etc. Or by coating with a nickel alloy in a pointed shape such as fading to suppress blowing or reduce exposure.

In addition, since copper or copper alloy, which is a good heat conductor, is continuously and uniformly arranged, the heat of the ground electrode can be efficiently dissipated through the metal shell, and the nickel-coated portion is less likely to crack. It is possible to obtain a ground electrode for a spark plug having excellent properties with good mass productivity.

(Example) The present invention will be further described with reference to an example shown in the drawings.
(1) is a spark plug for an internal combustion engine according to an embodiment of the present invention. This internal combustion engine spark plug (1) has a center electrode (3) at the tip of a shaft hole (4) and the above-described shaft hole. (4) Insulator (2) enclosing a resistor (6) sandwiched by a terminal electrode (5) and a conductive glass seal (7) inside, and a screw portion to be screwed when mounted on an internal combustion engine According to (9), the metal shell (8) having the ground electrode (10) arranged at a position facing the tip of the center electrode (3).

Embodiment 1 The ground electrode (10) integrally joined to the tip of the screw portion (9) of the metal shell (8) has a substantially rod-shaped core (11) made of copper or a copper alloy made of pure nickel or nickel. The first layer portion is covered by a second layer portion of a nickel alloy comprising at least one or more layers, and the first layer portion is covered by a second layer portion. The second layer portion is formed of a material having better corrosion resistance than the first layer portion. For example, the core portion (11) has a thermal conductivity at room temperature that is good. 300w / m
・ Use copper or copper alloy, which is a good heat conductive material of k or more, and the total amount of added elements in order to secure the thermal conductivity at room temperature of about 60 to 120 w / m · k for the intermediate layer (12). Use nickel alloy or pure nickel of 5% or less,
For 3), a clad material having a multilayer structure composed of a corrosion-resistant nickel alloy (Inconel 600, 601 or the like) having a thermal conductivity of 10 to 30 w / mk at room temperature is used.

Example 2 The outermost periphery of a ground electrode (10) is coated with a nickel alloy layer (13) containing 5% by weight or more of chromium, and an intermediate layer (12) is formed in a cylindrical shape inside the layer, and pure nickel or total nickel is added. It is formed of a nickel alloy having an addition amount of 5 wt% or less. In this internal space, the outer periphery of the good heat conductive metal (18) (for example, copper or copper powder) is coated with a corrosion-resistant metal (19) (Inconel 601, pure nickel). Columnar clad material (1)
4) At least 2 or more (preferably 7 or more) are placed in the internal space, and the remaining space (17) is filled with pure nickel or a nickel alloy (17) having a total added element amount of 5 wt% or less. (Figs. 4 to 5)
Figure).

Since this embodiment has the above configuration, the outer periphery is covered with a nickel alloy layer (13) containing 5 wt% or more of chromium even if the temperature becomes high due to the ground electrode (10) constantly protruding in the combustion chamber. , Sealing middle layer (12),
Pure nickel or a nickel alloy with a total additive element content of 5 wt% or less, and a good heat conductive metal (for example, copper, pure nickel, or a mixture of copper and chromium powder) inside
Since the outer periphery of (18) is covered with a corrosion-resistant metal (Inconel 601, pure nickel, etc.) (19), a cylindrical clad material (14) is included therein. Since the heat can be conducted toward the metal shell (9) by the good heat conductive metal (18) and the intermediate layer (12) inside, the temperature of the ground electrode (10) can be reduced efficiently. is there.

Embodiment 3 The ground electrode (10) is made of pure nickel or the total additive element amount is 5w.
In the inner space of the intermediate layer (12) of a cylinder made of nickel alloy or pure nickel of less than t%, the thermal conductivity at room temperature is 35%.
A powder (eg, copper powder, etc.) of a good heat conductive material of 0 w / m · k or more and a mixed powder (15) with chromium powder are mixed and dispersed and filled, and the outer periphery of the intermediate layer (12) of the cylindrical body is filled. And a coating layer (13) made of at least one kind of nickel alloy containing 5% by weight or more of chromium (FIG. 6).

Since this embodiment has the above configuration, the ground electrode (1
The heat received in (0) is conducted toward the metal shell (9) through the mixed powder (15) and the intermediate layer (12) filled in the inner space of the intermediate layer (12), so that the ground electrode (10) The temperature can be lowered. Further, the powder of the good heat conductive material and the mixed powder (15) of chromium powder filled in the intermediate layer (12) are mixed and dispersed in advance, so that the copper of the good heat conductive material contained in the mixed powder (15) is mixed. The exposed portion can be reduced, oxidation corrosion can be prevented, and a decrease in heat conduction due to alloying of copper and chromium can be prevented.

Example 4 At least two types of plate-like metals (20) made of pure nickel and copper or a copper alloy are provided around a cylindrical core member (16) made of pure nickel with a ground electrode (10). It is continuously wound, and its outer periphery is covered with at least one or more heat-resistant and corrosion-resistant metal layers (13). (FIG. 7).

Since this embodiment has the above configuration, even if the ground electrode (10) always protrudes in the combustion chamber, the plate-like metal (20) of the good heat conductive metal is uniformly applied to the core member (16). Since the wire is wound and the heat received by the ground electrode (10) can be efficiently transmitted to the metal shell (9) and dissipated, the temperature of the ground electrode (10) itself can be lowered.
Since the outer periphery of the plate-shaped metal (20) wound around the core member (16) is covered with the layer of heat-resistant and corrosion-resistant metal (13), the ground electrode (10) is burned in the combustion chamber. ) Is a plate-like metal made of copper, pure nickel, Inconel 600, etc., which have good thermal conductivity even when exposed to combustion gas (20)
However, it is possible to prevent oxidation and corrosion, and to improve the durability as a ground electrode (10) used for the spark plug (1).

Further, at least one of the plate-like metals (20) continuously wound around the outer periphery of the core member (16) is made of any one of pure nickel, copper alloy, and pure copper. The metal layer (13) with excellent heat and corrosion resistance covering the outer periphery is coated with a nickel alloy containing 5 wt% or more of chromium, so that it can be used as a metal shell (9) for the ground electrode (10). Can be further improved in thermal conductivity.

Note that these ground electrodes (10) shown in Examples 1 to 4
It is manufactured as shown in Example 5 below.

Example 5 A clad material constituting a ground electrode (10) is manufactured by hot isostatic extrusion in which extrusion is performed through a pressure medium in a temperature range of 800 to 1000 ° C. as shown in FIG. Fig. B). This hot isostatic extrusion facilitates the molding of nickel alloys, which are difficult-to-work materials, and also enables the core (11), the intermediate layer (12), and the outer shell (metal layer) (1).
At the joint surfaces of the intermediate layer (3) and the intermediate layer (12) and the outer cover material (13), a kind of strong solid-phase bonding occurs, and these are firmly bonded. And this clad material is φ2.6m
After wire drawing to m (b in the same figure), it is formed into a rectangular cross section (1.6 mm x 2.8 mm) by roll processing or a flat die (c in the same figure).

Embodiment 6 In the case where the oxidized corrosion of the exposed copper core (11) at the tip of the ground electrode (10) of Embodiment 5 is remarkable, cut the rectangular wire of FIG. ), Swaging may be performed so that at least one end is tapered (FIG. 3E).
At this time, since the clad material is bonded with a strong solid phase bond between the layers, there is no occurrence of separation or the like due to processing, but when the clad material is swaged, the core (11 ), The copper and copper alloy are easily oxidized.
Must not be exposed.

Example 7 The exposed portion of the good heat conductor of Examples 1 to 6 was sealed with CO.
_{2) When using} laser and argon welding, better sealing can be obtained.

(Effect of the Invention) As described above, by using a ground electrode in which a good heat conductive material is sealed inside and at least two types of nickel alloys having excellent corrosion resistance are arranged on the outer surface layer, the spark plug itself can be used. This has an excellent effect of improving durability and preventing pre-ignition caused by the ground electrode at high temperatures.

[Brief description of the drawings]

FIG. 1 is a partial sectional view of a spark plug for an internal combustion engine according to an embodiment of the present invention, FIG.
FIGS. 5, 5, 6 and 7 are longitudinal sectional views of a ground electrode according to another embodiment, FIG. 4 is an enlarged view of FIG. 5, and FIG. It is the schematic diagram which showed the manufacturing method. 1 ... spark plug for internal combustion engine, 2 ... insulator, 3 ...
... Center electrode, 4 ... Shaft hole 5 ... Terminal electrode, 6 ... Resistor, 7 ... Conductive glass seal, 8 ... Metal shell 9 ... Screw, 10 ... Ground electrode, 11 ... Core Part, 12… middle layer 13… skin material (metal layer), 14… cylindrical clad material

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Tsutomu Okayama 14-18 Takatsuji-cho, Mizuho-ku, Nagoya-shi, Aichi Prefecture Inside Japan Specialty Ceramics Co., Ltd. (72) Masahiro Ishikawa 14-18 Takatsuji-cho, Mizuho-ku, Nagoya-shi, Aichi Prefecture No. Japan Special Ceramics Co., Ltd. (72) Inventor Masataka Noguchi 89-9 Chimura, Hadano-shi, Kanagawa Prefecture JP-138681 (JP, A) JP-A-2-295085 (JP, A) JP-A-61-143974 (JP, A) JP-A-51-55832 (JP, A) JP-A-55-163786 (JP, A) JP-A-58-141355 (JP, A) JP-B-60-43897 (JP, B2) (58) Fields investigated (Int. Cl. ⁶ , DB name) H01T 13/00-13/56

Claims (6)

(57) [Claims] 1. A substantially rod-shaped core made of copper or a copper alloy,
The first layer portion is coated with a first layer portion made of pure nickel or a nickel alloy, and the first layer portion is coated with a second layer portion of a nickel alloy composed of at least one or more layers, and the first layer portion is formed of a first layer portion. A spark plug having a ground electrode made of a better heat conductive material than a two-layer part and a second layer part made of a material having better corrosion resistance than the first layer part. 2. A substantially cylindrical metal shell, an insulator with a shaft hole fitted into the metal shell, a center electrode fixed to the shaft hole of the insulator, and welded to a tip end surface of the metal shell. A spark plug having a ground electrode forming a discharge gap with the center electrode, wherein an outer surface of the ground electrode has a first layer of pure nickel covering a substantially rod-shaped core made of copper or a copper alloy. Alternatively, a spark plug having a ground electrode formed by coating a nickel alloy with a second layer portion made of a nickel alloy having better corrosion resistance than the first layer portion. 3. A spark plug having a ground electrode according to claim 1, wherein said substantially rod-shaped core portion contains a powder made of copper or a copper alloy and a material which is difficult to alloy with them. 4. The substantially bar-shaped core portion is dispersed and arranged in at least two or more rods, and the substantially bar-shaped core portion is covered with the first layer portion. Spark plug having a ground electrode. 5. The method according to claim 1, wherein the substantially rod-shaped core portion is continuously wound and covered by the first layer portion.
A spark plug having the ground electrode according to the above. 6. The method according to claim 1, wherein the discharge-side end face of the ground electrode is coated with a nickel alloy or a nickel-copper alloy.
(5) A spark plug having the ground electrode.