DE3623191C2 - - Google Patents

Description

The invention relates to a self-igniting Reciprocating internal combustion engine with in a combustion chamber rotating charge and one protruding into the combustion chamber Glow plug. Such reciprocating internal combustion engines are for example installed in motor vehicles and are well known.

Self-igniting reciprocating internal combustion engines need a glow plug so that it is still cold can be started. This glow plug is usually like this arranged that the air and the atomized power fabric in the combustion chamber on the highly heated glow plug can flow past and ignite the mixture formed det. In order to achieve a good mixture formation, you usually design the inlet channels so that the incoming air rotates in the combustion chamber. This current is ge through the glow plug protruding into the combustion chamber disturbs what adversely affects engine performance Consumption and pollutant emissions affects.

DE-OS 29 07 184 is already a self-igniting Reciprocating internal combustion engine known, the glow plug protrudes into the combustion chamber when the engine is cold to allow easy ignition of the mixture when warm However, engine in the longitudinal direction of the glow plug from the Combustion chamber is led out to the flow ratio favorable influences in the combustion chamber.  

A disadvantage of the known reciprocating internal combustion engine Schine is that the axial travel of the glow candle requires great design effort and too leads to a considerable size. It continues through the on every switch-on and switch-off process stepping, rapid displacement of the glow plug in axial Direction to wear which seals the glow plug tendency seal and the glow plug itself.

The invention has for its object a construct tiv simple solution for a reciprocating piston internal combustion engine to find schine of the type mentioned, so that the Glow plug the flow in the combustion chamber as little as possible influenced.

This object is achieved in that the glow plug at an angle to the cylinder axis and around its length axis is rotatably arranged in the cylinder head and that their combustion chamber end one with respect to the longitudinal axis of the glow plug has one-sided projection, which in a first, which can be achieved by its rotatability Position in the combustion chamber and in a second order Position rotated 180 degrees outside the contour of the combustion chamber.  

Through this design according to the invention one can warm reciprocating internal combustion engine such as the glow plug twist so that it no longer protrudes into the combustion chamber. This disturbs the rotational movement of the Charge from the glow plug excluded. That leads to a reduction in pollutants in the exhaust gas and a ver reduction in consumption. Especially the soot emission and the Particle emissions in general are reduced. Farther the soot limit is shifted to higher full-load pressures pushed, causing the liter output of such an engine is raised. Because the glow plug to get in and out move from or into the combustion chamber only rotated must be constructive is only a little effort required to implement the invention. That's why you can easily design an internal combustion engine that the glow plug automatically changes depending on the temperature turns into the right position.

The one-sided projection is particularly easy to ver real if the one-sided projection by a oblique to the longitudinal axis, the combustion chamber turned bevel is formed.

Completely undisturbed flow conditions in the combustion chamber is obtained when the face is in a position of Glow plug flush with the inner wall of the burner space runs. In such an embodiment the glow plug is also particularly well suited to one Part of the charge delivered to the cylinder walls Absorb heat so that even at very low temperatures good ignition conditions can be created.  

The invention allows numerous embodiments. A of which is shown schematically in the drawing and is described below. Show in it

Figure 1 is an upper portion position. Of a cylinder with the glow plug according to the invention in cold start,

Fig. 2 shows the arrangement shown in Fig. 1 with the glow plug according to the invention in a position not projecting into the combustion chamber.

In Fig. 1, a cylinder 1 is shown with a cylinder head 2 through which a glow plug 3 designed as a glow plug is guided diagonally therethrough. This protrudes with a projection 5 formed by a bevel 4 into a combustion chamber 6 , which is delimited by a piston 7 and the cylinder head 2 . The cylinder axis is positioned at 10 . It is important for the invention that the glow plug 3 in the cylinder head 2 is rotatably arranged about its longitudinal axis 9 and the bevel 4 is designed so that after a rotation of the glow plug 3 by 180 degrees with respect to the position shown in Fig. 1 flush the inner wall 8 of the Zylin derkopfes 2 runs. The Stel shown in Fig. Development of the glow plug 3 corresponds to the position during a cold start.

In FIG. 2, the glow plug 3 with respect to the Fig. 1 is rotated by 180 degrees. Therefore, the bevel 4 runs flush with the inner wall 8 of the cylinder head 2 . As a result, the rotating charge flow in the combustion chamber 6 is not hindered by the glow plug 3 . The position shown in Fig. 2 is the position of the glow plug 3 when the engine is warm, in which the glow plug 3 is not required.

Claims (3)

1. Self-igniting reciprocating internal combustion engine with a rotating charge in a combustion chamber and a glow plug projecting into the combustion chamber, characterized in that the glow plug ( 3 ) is arranged at an angle to the cylinder axis ( 10 ) and about its longitudinal axis ( 9 ) rotatably in the cylinder head ( 2 ) and that its combustion chamber end has a one-sided projection ( 5 ) with respect to the longitudinal axis ( 9 ) of the glow plug ( 3 ), which protrudes into the combustion chamber ( 6 ) in a first position which can be reached by its rotatability and in a second order 180 degree rotated position is outside the contour of the combustion chamber ( 6 ). 2. Reciprocating internal combustion engine according to claim 1, characterized in that the one-sided projection ( 5 ) by an inclined to the longitudinal axis ( 9 ), the combustion chamber ( 6 ) facing bevel ( 4 ) is formed. 3. Reciprocating internal combustion engine according to claim 1, characterized in that the bevel ( 4 ) in a set ting of the glow plug ( 3 ) flush with the Innenwan extension ( 8 ) of the combustion chamber ( 4 ).