DE474685C - Atomizing burner for liquid hydrocarbons - Google Patents

Description

Atomizer burners for liquid hydrocarbons The achievement of a complete combustion of the fuel in atomizer burners with complete Inevitability of movement of the regulating member is in the most varied of ways been strived for.

According to the invention, a high degree of atomization is associated with a simple burner design, achieved in that the conical in a known manner trained atomizer after the 'burner mouth is more tapered than the conical inner surface of the distant surrounding the mandrel, in a known manner ring nozzle displaceable in guides, whereby on the conical surface of the atomizer mandrel the fuel nozzles open. This creates a widening after the burner mouth, Atomizer air and fuel receiving annular channel created in which in In contrast to the known devices, the fuel outlet points of the largest Narrowing in the annular canal approach when the canal is enlarged by regulating legs learns and removes more and more of the largest constriction in the canal when the Ring channel is narrowed by the scheme.

This ensures that the amount of atomizing air entering the annular channel draws in a very specific amount of fuel and the amount of air and fuel Assume constant value.

Through a step-like training that is also known per se of the mandrel cone and the inner jacket of the annular nozzle, such that the steps against each other are offset when the annular canal experiences a narrowing and approach one another, if the ring channel is widened, the desired effect can be increased.

An embodiment of the invention is shown in the drawing. the The illustration shows the new burner partially in section.

In a manner known per se, the annular nozzle a can be displaced in its axial direction by means of the curves c and d between the combustion housing m and the atomizing mandrel b. The shift itself is carried out by the T-shaped key g loosely inserted in the annular groove on the switch head f.

The compressed air introduced at i flows, developing speed, through the annular gap nozzle formed by the surfaces k, L and the staggered n, o and sweeps over the oil nozzles k. The fuel outlet points k can now be moved so that they approach the largest constriction of the ring channel in the area of the surfaces k, L when the ring channel expands and that they move away from the largest constriction more and more, the more the Ring channel narrowed by the opposite displacement of the atomizer mandrel.

In this way, the inflowing at the surfaces k, Z sucks Atomizing air has a constant amount of fuel in relation to the latter at. In order to now do the same in a simpler way with the new burner To achieve the same effect as in the known embodiments, namely the fuel mist before its exit from the burner a little delay to the mixing of fuel and making air more sustainable are the seasons in the ring canal walls n, o incised, gradually stepping the annular channel towards the burner mouth expand.

Due to the peculiar arrangement of the staggering tt, o according to the invention, the delay achieved can be regulated in terms of size by the staggering n, o in Ringdüs.ea and atomizer mandrel are more and more offset from each other when, with axial displacement of the atomizer mandrel b, the annular channel between The ring nozzle and atomizer mandrel are getting closer and closer and by the staggered n, o approaching each other, until they finally face each other, when the ring channel is wider by the control or the burner is set to full power.

The expansion of the ring channel through the stages ta, o increases with the amount of fuel mist to be consumed and decreases in the same proportion when the burner moves away from its full capacity.

This enables the flow energy of the atomizing air in the most suitable way Way to create a variable vacuum that is dependent on the flow rate to use, which in itself again the corresponding amount of fuel from the oil nozzles sucks out.

In order to be able to influence the fuel mixture, it is still up to itself known way made the suction height of the fuel variable.

Claims (1)

PATENT CLAIMS: i. Atomizer burners for liquid hydrocarbons, in which one can be moved in the axial direction between the burner housing and the atomizer mandrel, through outer and inner curves of opposite directions of rotation and of different Incline guided ring nozzle is provided, characterized in that the conical trained atomizer mandrel (b) is more tapered towards the burner mouth as the conical inner surface of the ring nozzle surrounding the mandrel at a distance (a) and has oil outlet points (h) on its conical surface. z. Atomizer burner after Claim i, characterized in that the conical surface of the atomizer dome according to towards the burner axis and the inner jacket of the ring nozzle towards the burner housing is stepped off in such a way that the steps (n, o) are offset from one another if the ring channel formed by the mandrel and ring nozzle experiences a narrowing, and. approach each other when the ring canal is expanded.