DE1949449A1 - Atomising nozzle producing solid or hollow - cone "jet" - Google Patents

Abstract

Atomising nozzle producing solid or hollow cone 'jet' Cylindrical or frusto-conical turbulence unit housed in the nozzle contains preferably 2-4 ducts inclined to axis of rotation. At one circular face of the unit, ducts terminate as radial slots, at the other end as secantal slots. Throughout their length they are bounded by planes passing through their axis of rotation. Change from solid cone to hollow cone jet is achieved by reversing the turbulence unit inside the nozzle.

Description

Swirl nozzle with swirl body for full cone and hollow cone atomization The invention relates to a swirl nozzle for liquid atomization with a swirl body in the form of a cylinder or truncated cone with swirl channels that are inclined in planes are arranged to the axis of rotation of the swirl body.

In the past, nozzles of this type had to be used for hollow or Yoll cone atomization different swirl bodies, mostly also in different nozzle housings, are used will. In contrast to hollow cone atomization, the production is a satisfactory one Full cone atomization is relatively difficult, especially with regard to uniformity Surface exposure of the atomization cone.

Various designs have become known for solving this problem. For example, you have swirl bodies like they are for the Hollow cone atomization used are provided with a central hole in order to make the hollow cone more or less to be filled out. A uniform distribution can only be achieved over a limited one Reach pressure range.

In another version, a so-called X-swirl body is used. This essentially consists of two inclined guide surfaces, which are cut out are interrupted. This swirl body has the disadvantage that it is divided into two parts in the admission. To keep this unevenness within tolerable limits to hold, is therefore a proportionate between the nozzle orifice and swirl body large swirl space required.

The design of the swirl body according to the invention is simple Way not only a uniform application of the atomization cone over one large pressure area, but also all desired scattering angles from 15 to over 120 °. This is caused by the fact that the oblique to the axis of rotation of the swirl body arranged swirl channels the swirl body on one end face penetrate essentially on a radius at the other end face on a secant, and that the depth of the swirl channels along the entire length is essentially in the axis of rotation of the swirl body lying planes is limited.

The swirl insert according to the invention has the further advantage that it in unchanged form only by appropriate installation in the nozzle depending on Direction of flow for both full-cone and hollow-cone atomization used can be.

Since the swirl body according to the invention with two to four swirl channels can be provided, if necessary, a very even distribution of exposure can be achieved of the atomization cone.

Figures 1 to 4 show the principle of the invention using the example a swirl nozzle with four swirl channels in the swirl body.

Figure 1 shows a nozzle with a nozzle body 3 and an inserted swirl body 1 in section, the swirl body being installed in such a way that full cone atomization occurs results.

Figure 2 shows a swirl body 1 with one of the four channels 2 in side view.

Figure 3 shows the end face 1 of a swirl body, which on four Radii is penetrated by the swirl channels 2.

Figure 4 shows the opposite end face 3 of a swirl body, which is penetrated by the swirl channels 2 on four secants.

The mode of operation of the swirl nozzle shown in Figure 1 is as follows: The liquid flowing in from direction A of the nozzle under pressure flows with an increase their flow rate in the lying on the circumference of the swirl body 1 Channels 2 on.

Due to the inclined position of the swirl channels 2 to the axis of rotation of the swirl body the liquid particles are deflected from their axial inflow direction and arrive with an inclined flow direction as concentrically directed partial flows of preferably rectangular cross-section in the swirl space. The one caused there by the distraction The swirl is greater, the further the flowing particles are from the central axis of the Swirl body are removed. The swirl components that develop in the swirl space Flow therefore decrease continuously to zero in the direction of the center, so that a uniform full cone application from this resulting speed distribution when the atomizing jet emerges from the nozzle orifice 4.

The application can be different within the scope of the invention Constructive measures on the swirl body can be influenced, so that optionally the inner or outer zones of the nozzle jet are acted upon more or less.

This can be important, for example, if there are several nozzles in a group spray, as with crop protection, and the individual jet jets overlap.

The parameters for influencing the application distribution through the swirl body are: The depth of the swirl channels by moving them in parallel the boundary plane in front of or behind the axis of rotation of the swirl body, lateral Displacement of the penetration of the swirl channels on the face of the swirl body compared to the radius, the width of the swirl channels, the height of the swirl body.

Due to the different penetration of the swirl channels on the two The end faces of the swirl bodies result in different inlet and outlet cross-sections for the liquid. These differences can be compensated by that the depth of the swirl channels from the radial to the opposite penetration side is continuously enlarged.

The cross-section compensation can also be achieved by conical design of the Swirl body take place. However, this restricts the unchanged usability of the Swirl body for full cone and hollow cone atomization. The surcharge distribution can also be influenced by appropriate design of the nozzle swirl space.

The different penetration of the swirl channels on the end faces of the swirl body gives the possibility of generating a hollow cone atomization by that the end face of the swirl body with radial penetration of the swirl channels the liquid inlet is installed facing into the nozzle body. This multipurpose option means above all with regard to the performance series required for nozzles a significant improvement in the cost situation.

Claims (4)

Claims 1. Swirl nozzle for liquid atomization with swirl body in the form of a Cylinder or truncated cone with swirl channels in planes inclined to the axis of rotation of the swirl body are arranged, characterized in that the swirl channels the Swirl body on one end face essentially on a radius on the other Penetrate face on a secant and that the depth of the swirl channels the entire length by lying essentially in the axis of rotation of the swirl body Levels is limited. 2. swirl nozzle according to claim 1, characterized in that the swirl body is provided with two to four swirl channels. 3. swirl nozzle according to claims 1 to 2, characterized in that that the end face of the swirl body nit radial penetration of the swirl channels the nozzle mouth is facing, whereby a full cone exposure is achieved. 4. swirl nozzle according to claims 1 to 2, characterized in that that the end face of the swirl body with radial penetration of the swirl channels is facing the liquid inlet, whereby a hollow cone is applied will. L e r s e i t e