SU4679A1 - Nozzle for metal atomization of flammable liquid - Google Patents

Description

This invention relates to a nozzle for injecting a flammable liquid into internal combustion engines. mechanical spraying.

FIG. 1 shows a longitudinal section of the proposed nozzle; in fig. 2 - external view; FIG. 3 shows an external view of the nozzle core; FIG. 4 - top view of the core; FIG. 5 represents the outer end of the nozzle in a section along the line V-V of FIG. one.

The nozzle consists of a body b, which is screwed by cutting into the body of the working cylinder.

In the centrally located channel of the body b of the nozzle is placed the core d, equipped with a central channel /, ending: canalicles g and h. The core d at its end facing the working cylinder is tightly attached to the body I) of the nozzle by means of a cone-shaped surface k, on which g t h h branching from the central channel / lateral canals open. Here, grooves i and y, which have the shape of grooves, pass along the outer cone-shaped surface of the core, are located along the cone-forming surfaces. The fuel jets ejecting through these small channels g and // with god-high speeds collide with each other at the top of the cone, which is in the compression chamber, which causes an extremely fine spray; -; Due to the fact that the channels g and i open on the sealing surface L, fuel penetration into the spaces between the core d and the nozzle body b is prevented. It flows at high speed directly to the point of spraying exclusively through the narrow straight channel f, so that it does not appear anywhere — the possibility for air bubbles to settle. At the same time, body b is completely freed from the internal pressure of the fluid.

The cone-shaped surface k of the core d can lie flat on the corresponding opposite surface only near the channels JT, li, i, and y. It cuts | square1., cjiy K; iLii, yiO for tight I sedimenim between bodies, therefore, the specific compacting pressure increases with equal pressure and strength and reliability of tight coupling increases accordingly. The outlet narun {u insert with directly receives at its outer end a pipe supplying fuel, the end of which is pushed into the port; Between the core d and the insert c, a flat copper ring c is placed in order to seal, the hole of which exactly corresponds to the channel / in size, so that the liquid is conducted from the pipeline / straight stream directly to the spray holes. The insert e simultaneously serves to press the core f / to the sealing surfaces of the housing and for this purpose is pressed against the core by means of a cap nut i. In order, when screwing and unscrewing the nut n, i certainly prevent turning of both the core and insert e with a coarse wire, for thickening w insert e Tapo-shgography clCpacmiii Pvchatykpo, Le1schngrad. LeszhuparshdniZ, 7S.

.u

Fkgl - J A projections are provided v, go; This is the axis of the movement, which enters the cuts of the housing 1, also extending axially, and thus, although it allows for permanent parts and axial parts, however, they prevent the two parts from turning each other. Subject pate hi t and. 1. A nozzle for mechanical spraying of a combustible liquid for internal combustion engines, characterized using core d inserted into nozzle body b and equipped with a central channel / ending with tubules g and / g opening into grooves i and J on the conical surface L of the core l, adjacent to the corresponding surface of the housing /. 2. A variation of the nozzle described in claim 1, characterized in that the core d is pressed by an insert e (fig. 1 and 2) provided with protrusions v entering the cuts g of the housing 1 and a cap nut p.