DE423425C - Spark plug - Google Patents

Description

Spark plug. The effort to keep the internal combustion engines as high as possible To let compressions and correspondingly high temperatures work in order to cheap propellants .ver-. to be able to turn and small dimensions of the machines To achieve relatively-large achievements, the demands on a flawless electrical insulation of the ignition pins and the spark plug pins for internal combustion engines extraordinarily increased compared to before.

The previously known insulations fail as a result of the increased Claims often because they either cannot withstand the high temperatures or are mechanically destroyed or leaky as a result of thermal expansion. The firing pin is usually used to achieve a good seal, or to put the insulation in in their position, by means of screw threads and nuts or in some other way dressed. For example, this tensile stress of the firing pin is used in the known Execution of candles with mica insulation, with mica discs over a mica tube are pushed to hold the mica discs firmly together in their position and for sealing. The conditions are similar if instead of the mica washers ceramic insulating nozzles are pushed over the mica tubes. The with help Parts held by the tension of the firing pin have different coefficients of expansion and other thermal conductivity than the firing pin itself. The consequence is that ever after heating the individual parts d *, e voltage in the ignition pin changes. Will If the tension in the pen is too great, the clamped parts are pressed together more strongly or the pen itself stretched. Then leaves the tension in the pen as a result of change Depending on the temperature of the individual parts, the clamped parts are loosened Divide up. This creates leaks with the known disadvantageous consequences As a result of the tension in the firing pin, it can even happen that the head of the firing pin is torn off or the clamped parts are damaged. When using ceramic Insulators are also added to these either by special sealants have to be sealed and yet not always tight at the high temperatures hold or. if they sit directly in the metal, they shatter easily. All of these difficulties and disadvantages are avoided by the invention. It consists in that the firing pin in contrast to the well-known versions of spark plugs and ignition pin shapes with Mica insulation, where it is used to hold or clamp insulation parts is used, is completely relieved and both the insulation of the firing pin opposite the metal bodies as well as the surface insulation of the firing pin on his the attachment point outstanding parts only by a thin mica flakes wound mica tube is effected.

Although there are known spark plugs in which the igniter pin with the help a mica tube is so tight that it is not necessary to pull on exercise the detonator pin, thereby eliminating the need for softer metal parts for the To enable detonator pin. In these known spark plugs, however, besides that Mica tubes and other parts of the insulation held by the detonator pin so that thereby tensile effects are exerted on the firing pin. Spark plugs are also known in which the insulation is only effected by a mica tube, in which but the detonator pin is not relieved.

The relief of the firing pin is essential, otherwise the thermal expansion, as mentioned, can gain negative influence.

When the insulation is implemented according to the invention, the linear expansions are of the firing pin unhindered and the changes in cross-section as a result of temperature changes too low to be sufficient for proper installation of the insulation Seat of isolation could be of adverse influence.

In the drawing the invention is illustrated in a number of embodiments. Fig. I shows the simplest form of attachment of the mica tube a . The pin b and the hole in part c are cylindrical. The parts are held in their mutual position by the pressure with which they are pressed together.

As can be seen from the figures, the free ends are preserved d and e of the tubes, in a known manner with or without the use of a binder first made or wrapped around the firing pin, expediently one conical taper. As a result, the individual glow layers of the Tubes stepped in steps, so that only a short piece of each layer of mica is exposed. In this way it is avoided that the thin mica flakes from the free ends of the tubes could peel off, as every layer of mica would pass through the next following cash is held.

In Fig. Z an arrangement is shown in which the conical points d and e at both ends of the tube also provide a special safeguard against Forcible displacement of the insulation are used by replacing both cones with mating cones be held in the metal parts.

Fig. 3 shows an embodiment in which the mica tube a at its end d in the detonator housing by a protective body f made of porcelain, soapstone; Quartz or the like is protected. This protective body can lie quite loosely so that it does not crack or be damaged, since the electrical insulation and the sealing of the ignition pin is effected by the mica tube. In contrast to known embodiments, it is therefore held in a loosely movable manner between the detonator pin and the mica insulation which it surrounds on the one hand and the detonator housing surrounding it on the other.

Fig. 4. to 6 show embodiments with conical pins that are isolated by conical coiled tubes. The direction of the conical taper the pins are different in the pictures.

In Fig. ¢ the conical tube a sits in part c, while the Counter cone d worked on the other side of the tube into the inner cone the sleeve g is pressed.

In Fig. 5 the conical tube is inserted into the inner cone of the liner g pressed while the sleeve h is cylindrical on the inside and on that at this point cylindrically machined tube is pressed. Due to the cylindrical machining the conically wound tube is a similar stepped gradation of the individual layers of mica achieved through as with cylindrically wound # tubes the aforementioned conical taper.

In Fig. 6 the tube a is only attached in part c. It is particularly secured in its position by the fact that the part c at the point i something is pressed into the tube. If the slope of the cone is small, this particular backup can also be missing.

The embodiments of the invention can easily be multiplied. The embodiments shown in the figures are only intended to be shown that the formation of the insulation is possible in the most varied of forms.

Claims (5)

PATENT-AxSPRÜCHF: i. Electrical insulation of ignition pins and spark plug pins for internal combustion engines by means of mica, characterized in that the ignition pin (b) is relieved and both the insulation of the ignition pin (b) from the metal bodies (c, g, h) and the surface insulation of the ignition pin (b ) at its protruding parts (d, e) from the attachment point is effected only by a mica tube wound from thin mica flakes. 2. Ignition pin insulation according to claim i, characterized in that a detonator pin which is cylindrical on its insulated part is pressed into place in a cylindrical bore of a metal part of the detonator solely by means of a cylindrically wound mica tube. , 3. Ignition pin insulation according to claim i, in which a detonator pin which is cylindrical on its isolated part by means of a cylindrical wound mica tube is insulated, characterized in that the only one Hold for the igniter pin and the mica tube through the inner conical metal body is effected on the outside correspondingly conically machined mica tube are pressed. 4 .. ignition pin insulation according to claim i, in which a conical igniter pin is insulated from a conically wound mica tube, characterized in that that the only hold for the detonator pin and for the mica tube pressed through Metal body is effected, which either corresponds to the inside of the mica tube cone are conical or for their pressing, if they are cylindrical, the conical Mica tube is machined cylindrically. 5. Ignition pin insulation according to claim i, in which the mica tube (a) at its end (d) in the detonator housing by a Protective body (f) made of porcelain, soapstone, quartz or the like. Is protected thereby characterized that this protective body between. the detonator pin and the mica insulation, which it surrounds, on the one hand, and the detonator housing surrounding it, on the other hand, loosely movable is held.