DE881330C - Impact nozzle for the atomization of liquids, in particular pest control agents - Google Patents

Description

'Anger- -dusting water for irrigation purposes -is -a @ Prälldüse known whose impact body is attached to the nozzle body by means of a bracket. Of the The bracket has such a projection that it is as far as possible outside of the area emanating from the impact surface Liquid veil lies. When using this nozzle to atomize pesticides: the bracket should be as small as possible so that it: does not move into caught in the treated cultures. However, this requirement is linked to the requirement in contradiction, the formation of pronounced drops instead of a complete mist to avoid; .because pesticides are in the form of .a coherent. Jet or larger droplets usually both for humans and the soil bacteria harmful.

The invention creates a practically drip-free Prarlldüse, whose bracket can have a very small projection. According to the invention, the generated liquid curtain in the area of the bracket, a sector cut out by means of one close to the nozzle axis-elongated, wedge-shaped, with the wedge edge facing the nozzle axis pointing displacement body. Since the liquid particles from the impact surface on all sides fly outwards. the wedge-shaped body results in a sector-shaped one Section from the liquid veil. The wedge-shaped body lies on top of it Radius to the nozzle axis like the bracket. so that the bracket is no longer from the liquid. met . will, so can no longer offer any reason for the formation of droplets.

In the immediate vicinity of the impact surface, the kinetic energy is the Liquid particles. still so large that the particles in spite of the friction on the side surfaces slide along the wedge and fly away from it, d: - h: do not clump into drops. This results in a completely drip-free impact nozzle for the first time.

The cutting edge of the wedge is placed as close as possible to the nozzle axis, around the wedge in the area of high kinetic energy _ of the liquid particles bring to. On the other hand, this cutting edge must be such a distance from the nozzle axis have that they do not affect the jet of liquid between the nozzle opening and the baffle because otherwise this jet would be slowed down and the effect of the impact surface would be changed slightly be: In the drawing is an embodiment of the subject of the invention shown, namely Fig. R shows a central section through .die new impact nozzle and FIG. 2 is a plan view along the section line II-II of FIG.

The nozzle body q which can be screwed to a supply pipe 3. wearing the bracket 5, in which the bolt-shaped impact body 6 is adjustably attached. the The baffle surface is created by the spherical dome-shaped, possibly flat surface 6 ° of the bolt 6 is formed.

The wedge-shaped displacement body 7 is attached near the nozzle axis. As a rule, the angle a of the wedge can be very acute. It must be matched to the distance and strength of the bracket so that the sector cut out by it shields the bracket with security, since the wedge only has the task of cutting out a sector from the liquid curtain created by the baffle surface 6a, which the Strength of the bracket 5 corresponds. If the angle α is too large, there is a risk that the correspondingly large amount of displaced water will lead to undesired droplet formation.

The liquid particles that form the side surfaces 7a, 7b of the wedge-shaped Contact the displacement body, still have a large amount of kinetic at this point -Energy, so that they are not completely due to the friction on the surfaces 7a and 7b be braked, but slide along the wedge surfaces and fly off of them. So there is no agglomeration or liquid particles to droplets. Essential is for "achieving this" effect that the displacement body 7 is fairly close the nozzle axis is arranged, so where the energy content of the liquid particles has not yet been consumed by the air friction. The expansion of the displacement body need only be small in the radial direction; on the other hand, it may only be small in the interest of conserving kinetic energy.

According to the drawing, the displacement body 7 is fixed in the nozzle body d.-. The body 7 can, if desired, also be attached to the impact body 6. It it is also conceivable that the displacement body 7 takes over the function of the bracket: 5, so that the bracket 5 can be completely omitted. The displacement body 7 does not need to be massive, but can be formed by an angular sheet metal.

Claims (1)

PATENT CLAIMS: j. Impact nozzle for atomizing liquids, in particular pesticides, in which the impact body is attached to the nozzle body by means of a bracket, characterized in that a sector is cut out of the liquid curtain generated by the impact of the jet on the pradl surface (6a) in the area of the bracket (5) is by means of a wedge-shaped displacement body (7) which is arranged near the nozzle axis and with the wedge cutting edge pointing towards the nozzle axis. 1?. Impact nozzle according to Claim #i, characterized in that the displacement body. (7) at the same time fulfills the function of the bracket (5) in that it serves to support the impact body (6) on the nozzle body (q.).