DE673366C - Spark plug insulator and process for its manufacture - Google Patents

Description

Spark plug insulator and process for its manufacture The invention relates to a spark plug isolator and its manufacture.

One of the main difficulties encountered with modern Spark plug insulators encountered is that they are relatively poor conductors of heat and therefore easily become hot when the engine is used heavily and cause pre-ignition cause. In contrast, insulators according to the invention have a high thermal conductivity, therefore stay at a relatively low temperature, and there is no preignition. The improved insulators are also characterized by good mechanical strength, great resistance to thermal jump and high electrical insulation for both high and low frequencies, as well as other properties, which are essential for the satisfactory operation of modern motor vehicle engines are.

The invention uses the second metals on ax known per se Group of the periodic table of the elements as an addition to the clay to achieve a dense one. low-pore spark plug insulator made of recrystallized alumina and one or more oxides of the elements of that group. The invention characterizes in that the oxidic additive in the burned spark plug isolator as Aluminate of barium, strontium, calcium, cadmium or zinc ior as a mixture several of these AlumInate is available.

The bodies can be produced in a conventional manner in that the substances are first finely ground and completely mixed and she then by one of those known processes which are used for primordial masses. applies. For example, the insulators can be shaped using a binder be brought ior by pressing in rubber molds mold by casting or also in another way. The first-mentioned method has proven to be advantageous because the resulting insulator has a smooth, shiny surface that nobody can -Glaze needs.

The shaped bodies are fired to a temperature that - causes recrystallization; this is usually of considerable shrinkage accompanied. The firing time and temperature must, as in normal kiln practice, be regulated in such a way that complete recrystallization is achieved with certainty will, but without excessive burning, cause warping or other damage of the product. Firing temperatures from Segerkegel3ö to 37 (1675 up to 183o ° C) see; the exact temperature depends on the composition of the body ..

As the oxides of barium, strontium and calcium in water are soluble; it may be necessary for processes in which one works with water, to take an insoluble compound containing the oxide, e.g. B. a carbonic acid Salt. This salt is already in an earlier stage when the body burns the oxide transferred.

Since the oxides of cadmium and zinc are insoluble in water, @ as well as the connections that they can go in when burning with clay, earth larger proportions are taken of these oxides. However, isolators have off these substances have somewhat less favorable electrical and thermal properties.

Particularly good bodies are obtained with barium oxide, which is in the form of carbonic acid Salt is added. These bodies are characterized by very high thermal conductivity, good mechanical strength, excellent resistance to thermal jump and the like .due to high electrical resistance from> bodies with oxides of calcium and des Strontiums have high electrical resistance and the other necessary properties To a degree that makes them highly suitable as spark plugs.

It is to be expected that the firing temperature will go down a little further can, if you have small amounts of flux according to the practice in the ceramic clogs.

Claims (1)

PATENT CLAIM: i. Sealed, low-porosity spark plug insulator from recrystallized alumina and one or more oxides of the elements .the second group of the periodic table of elements, thereby. marked, that the oxidic additive in the fired spark plug insulator as aluminate of barium, Strontium, calcium, cadmium or zinc or as a mixture of several of these aluminates is present. z. Process for the production of spark plug insulators according to claim i, characterized in that the oxidic additives in the form of their carbonate salts mixed with the clay before firing.