EP0445100A1 - Atomisation turbine - Google Patents

Abstract

The atomisation turbine for the spraying of active material has the form of a squirrel-cage fan turbine. Inside the turbine (1) are annularly distributed about the axis of the turbine and symmetrically with respect to the base of the blades (2,2'), one or more stationary perforated injection conduits (4,4') which are solid or soft. (The blades (2,2') of curved or straight shape are provided on the internal and/or external faces with a fine grooving (16) which terminates at the end of the blade in fine toothing. <IMAGE>

Description

The present invention relates to spraying devices and relates to a rotary atomizer system.

The spraying of active material, such as insecticides, fungicides, anti-weeds, etc., uses pressure atomization, that is to say by tearing a liquid stream through an orifice. The spectrum of the diameter of the drops created by this system is very wide and is a function of all the parameters of the system, pressure, flow rate, diameter of the orifice, etc., which complicates its regulation.

In order to be able to reduce the ecological pressure that these sprays involve as well as to reduce costs, it is necessary to improve their effectiveness by increasing for the same volume the number of impacts of active material on the goal to be treated. This can only be done with a very narrow spectrum of drop diameter because the relationship between the diameter and the volume is cubic.

In view of the importance of the drop diameter parameter in the yield of a spray, it is therefore necessary try to separate its regulation from other parameters such as pressure, flow, etc.

It therefore appeared advantageous to create according to the invention a rotary atomizer system capable of reducing and controlling, independently of the usual parameters, the spectrum of the diameter of the drops of the sprayed products.

Various methods of rotary atomization are known, comprising for example a disc provided with teeth, a perforated drum or even a cylindrical sieve. In these methods the injection system is complicated and must necessarily be central in the case of a disc or pass through the axis of rotation in the case of a perforated drum or a cylindrical sieve.

To overcome these drawbacks and achieve the desired goal, an atomization turbine according to the invention is characterized in that it is in the form of a squirrel cage fan turbine, in that the blades are curved or straight, and in that inside the turbine are annularly distributed around the axis of the turbine and in a symmetrical manner at the base of the blades one or more fixed, solid, perforated injection pipes or soft.

According to the invention, the internal and / or external faces of the blades are provided with fine grooving and / or end in fine toothing.

According to the invention also the stationary injector pipe (s), the orifices of which are placed perpendicular to the blades of the turbine, are distributed either parallel or helically to the axis of the turbine.

In the case of a motor drive, the atomizing turbine is fixed at the end of the motor shaft and the injectors are integral with the body of said motor.

According to a variant, in the case of a drive by air current produced by a machine or in aerial spraying, the atomization turbine is mounted on a bearing placed on an axis fixed to said machine or to the wing of the plane, either using an appropriate flange, or screwed directly onto the nozzle of the jet holder.

Still according to the invention, the atomizing turbine is associated with a means producing around it a current of air.

According to yet another variant of the invention, the atomizing turbine is included inside a casing, so as to allow the air charged with droplets produced by the turbine to be directed laterally.

• Figure 1 une vue en élévation d'un appareil pulvérisateur de liquide pourvu d'une turbine d'atomisation suivant l'invention à entraînement par courant d'air;
• Figure 2 une coupe par 2-2 de la figure 1 ;
• Figure 3 une coupe par 3-3 de la figure 2 ;
• Figure 4 une vue latérale d'une tête de pulvérisation de liquide pourvue d'une turbine d'atomisation suivant l'invention à commande par moteur, à placer entre les bras porteurs d'une rampe de pulvérisateur agricole;
• Figure 5 une coupe par 5-5 de la figure 4 ;
• Figure 6 une coupe par 6-6 de la figure 4 ;
• Figure 7 une coupe en deux plans par 7-7 de la figure 6.
• Figure 8 une coupe partielle dans une turbine d'atomisation suivant l'invention montrant la répartition des conduits d'injection répartis de manière hélicoïdale, et
• Figure 9 une coupe d'une turbine d'atomisation suivant l'invention incluse à l'intérieur d'un carter.

To better understand the invention, it is now described in more detail on the basis of the appended drawings, by way of examples only, showing in:

• Figure 1 an elevational view of a liquid spraying apparatus provided with an atomizing turbine according to the invention with air current drive;
• Figure 2 a section through 2-2 of Figure 1;
• Figure 3 a section through 3-3 of Figure 2;
• Figure 4 a side view of a spray head liquid provided with a motorized atomizing turbine according to the invention, to be placed between the carrying arms of an agricultural sprayer boom;
• Figure 5 a section through 5-5 of Figure 4;
• Figure 6 a section through 6-6 of Figure 4;
• Figure 7 a section in two planes by 7-7 of Figure 6.
• FIG. 8 a partial section in an atomization turbine according to the invention showing the distribution of the injection conduits distributed in a helical manner, and
• Figure 9 a section of an atomization turbine according to the invention included inside a housing.

As can be seen in the drawings, in FIGS. 1 to 3, the atomization turbine 1 is similar to a squirrel cage fan turbine and it has a fine toothing at the end of its blades 2.

Injector pipes 4, comprising orifices 5 which are advantageously placed in the direction opposite to the flow of the liquid to be sprayed, are distributed symmetrically inside the turbine, at the base of the blades and parallel to the axis of the turbine.

These injectors 4 are fixed, they do not rotate. Their number depends on the desired flow range.

The atomization turbine 1 is driven by the air stream, in which it is placed.

In the case of a spraying machine producing an air current or in the case of aerial spraying, the turbine is mounted on two bearings 6, themselves placed on an axis fixed to the machine or to the wing of the aircraft. using a profile upright 7. The speed of rotation is regulated by a system regulating the air flow entering the turbine. This air passes through the blades, drives the atomizer and increases the atomization of the product to be sprayed injected at the base of the blades by the injector pipes 4, which are fixed annularly around the fixed axis and / or to the upright connecting l machine axis.

As can be seen in the drawings in FIGS. 4 to 7, the atomization turbine 1 is mounted directly on the axes of the hydraulic drive motor 8. Injector pipes 4 having injection orifices 5 are distributed symmetrically with the interior of the turbine, at the base of the blades 2, having a fine toothing 3 at their end, and parallel to the axis of the turbine and are integral with the body of the engine 8.

In many cases the drops produced are of a very small diameter. This is sought to increase the effectiveness of the spraying but, to avoid their dispersion by the wind before they reach their goal, a current of air is produced which forces the drops produced by the atomizer 1 ′ towards their goal.

To produce this air flow, on the other side of the drive motor 8 provided with a through shaft is disposed an axial fan 12 with two or more orientable blades 13. Between this fan 12 and the atomization turbine 1 ′, that is to say over the thickness of the drive motor 8, is placed a system making it possible to orient or laminate the air flow (fixed blades 14 are shown in the drawings) so as to increase the working width and the efficiency of penetration into the vegetation.

An aerodynamically shaped cap 15 serving as protection covers the whole, motor 8 - fan 12.

In the figures described above there is shown a single injector pipe 4 disposed inside the turbine 1 parallel to the axis of rotation of the latter but, of course, there may be several, as indicated below. above depending on the desired flow range. Instead of being parallel to the axis, the injector pipes 4 ′ can advantageously be distributed helically to said axis of rotation (FIG. 8).

In this representation also the blades 2 ′ of the turbine 1 ′ are of curved shape and provided on their face with a fine grooving 16 ending at the end of the blade in fine toothing 3.

The injection conduits 4 ′ are here provided with a distribution and transfer strip 17 optionally provided with a fine toothing 3.

Atomization turbines according to the invention, as described above, are intended to be mounted on existing spraying apparatus, carried, towed by agricultural tractors or mounted on aircraft. In each case an existing pressurization system brings the product to be sprayed to each turbine, which has a calibrated orifice placed upstream of the injection system 16.

By changing the calibration of the orifice, the flow rates of the product to be sprayed are varied, independently of the speed of rotation of the turbine.

The invention makes it possible to disperse extremely small volumes of liquid per unit area with increased treatment efficiency, while providing substantial savings on the cost of the products used and reducing pollution of the soil and the atmosphere. The pollution of the soil is reduced, because the atomization turbine does not produce large diameter drops, which do not cling to the goal but fall to the ground and which represent a loss of large volume. Air pollution is reduced thanks to the induced air current, which forces the fine drops towards their goal instead of leaving with the wind.

According to the invention, regulation of the spraying parameters is provided by a computer system, which regulates the pressure of the liquid upstream of the calibration orifice as a function of the speed of advance of the sprayer and of the desired flow rates.

The drop size spectrum, which is the new independently adjustable parameter, is also electronically controlled and regulated. To do this, in the case of atomization turbines driven by a hydraulic motor (as shown in Figures 4 to 7), a hydraulic pump with variable flow and electronic control is mounted on the sprayer or the tractor.

Thanks to a device for speed sensors on one or more atomization turbines connected to a control panel placed in the operator's position, the flow rate of the hydraulic pump is automatically regulated according to the drop size requested. In addition, the system automatically maintains the desired drop size by keeping the rotation speed of the atomization turbines constant, whatever the speed of the hydraulic pump drive, by regulating the flow rate of this pump.

In the case where it is desired to direct the jet towards a given direction, an atomizing turbine 1 according to the invention is advantageously included in a suitable casing 18, as shown in FIG. 9. This casing 18 makes it possible to direct laterally (arrow x) air charged with droplets produced by the turbine. A system for recycling the slurry entering 19 is provided at 20 and 20 ′, so as to recycle contamination of the internal faces of the casing 18, so that this contamination does not disturb the drop spectrum.

The invention applies to various fields, such as the protection of crops and forests, the application of fertilizers, the fight against invasion (grasshoppers, tsetse flies, mosquitoes, etc.) and all other fields where a liquid should be sprayed.

Claims (14)

Atomizing turbine for spraying active material, characterized in that it is in the form of a squirrel cage fan turbine (1.1 ′), in that the blades (2.2 ′ ) are curved or straight, and in that inside the turbine (1) are distributed annularly around the axis of the turbine and in a symmetrical manner at the base of the blades (2,2 ′) one or more fixed, solid or soft perforated injection pipes (4,4 ′). Atomization turbine according to claim 1, characterized in that the faces of the blades (2,2 ′) end in fine teeth (3). Atomization turbine according to claim 1, characterized in that the blades (2,2 ′) are provided on the internal and / or external faces with a fine groove (16). Atomization turbine according to claim 1, characterized in that the injection pipes (4) are distributed parallel to the axis of the turbine (1). Atomization turbine according to claim 1, characterized in that the injection pipes (4 ′) are distributed helically to the axis of the turbine (1). Atomization turbine according to claim 1, characterized in that the injection pipes (4 ′) are provided with a distribution and transfer strip (17), possibly having a fine toothing (3). Atomization turbine according to claim 1, characterized in that, in the case of a drive by air current produced by a machine or by aerial spraying, it is mounted on bearings (6) placed on an axis fixed to said machine or on the wing of the plane. Atomization turbine according to claim 7, characterized in that a device mounted in front of the turbine (1 ′) regulates the quantity of air entering said turbine and consequently the speed of rotation thereof. Atomization turbine according to claim 1, characterized in that, in the case of motor drive (8), it is fixed at the end of the motor shaft and in that the injectors (4 ′) are integral with the body of the motor (8). Atomizing turbine according to claim 9, characterized in that the motor (8) has a second drive shaft at the other end, to which is fixed a means (12) producing around said turbine (1) a current d air, and in that between this means (12) and the turbine (1), either on the thickness of the motor (8), is mounted a system (14) making it possible to orient or laminate this air stream , so as to increase the working width and the efficiency of penetration into the vegetation. Atomization turbine according to claims 9 and 10 characterized in that the means (12) producing around it a current of air consists of an axial fan with two or more adjustable blades (13) and in that between the fan (12) and the turbine (1), on the thickness of the drive motor (8), are placed fixed vanes (14). Feed turbine according to Claim 10, characterized in that, when driven by a hydraulic motor (8), the latter is suspended by its feed pipes (10) passing through the produced air stream , so that the hydraulic oil is cooled and the amount of oil required to drive it is reduced. Feed turbine according to claim 12, characterized in that the hydraulic motor (8) is supplied by a hydraulic pump adjusted to the speed of rotation of said motor, so as to keep the speed of rotation of the turbine constant, or of the vary from a distance, and thus regulate the size of the drop independently of other parameters. Atomization turbine according to any one of claims 1 to 6, characterized in that it is included inside a casing (18) shaped to laterally direct the air charged with droplets produced by the turbine (1 ) and comprising a recycling system (20,20 ′) for the slurry, so as to recycle contamination of the internal faces of said casing (18), so that this contamination does not disturb the drop spectrum.

Images