DE19527443A1 - Plants protective spray device using water-plant-spray mixture - has spray jet opening ensuring droplets of given min. dia. with magnetic valve controlling spray medium supply. - Google Patents

Abstract

The spray device has a flat spray jet (1) with an outlet opening for providing spray droplets with a dia. of greater than 190 microns, with regulated feed of the aqueous spray medium to the spray jet via a magnetic valve (2). The valve has an operating frequency of at least 10 Hz and is coupled to a control device (4). for controlled periodic opening and closing of the valve. Pref. the control device uses a pulse generator providing rectangular control pulses for operation of the valve.

Description

The invention relates to a spray device for discharge of pesticides with a spray nozzle, in particular a flat jet nozzle with an outlet opening with which the Sauter diameter of the droplets generated is greater than 190 µ and with a device for regulating the supply of water Plant protection agent mixture to the spray nozzle.

It is known that pesticides, after being included in What are dissolved by spray nozzles in finely divided trop fenform be carried out. Spray nozzles with un Different outlet openings are used, each on the amount of pesticide required in individual cases are voted. Is therefore only a little crop protection per m² tel needed, so you put - assuming that the driving speed of the trak provided with the spray device is approximately the same size - smaller nozzles for which also the amount of water necessary for the discharge is small. For larger amounts of pesticides correspondingly provided nozzles with a larger outlet, the Water consumption is also correspondingly higher.

In these known spray devices are dependent drops from the spray nozzles used,  the smaller the amount of crop protection agent to be sprayed. These fine spray drops lead to environmental pollution because they tend to drift and settle in places where they are not wanted. This could help be that more water is added to the plant protection product and can therefore use larger nozzles, which are also coarser Generate drops. The constraint to economy always works yet to the fact that smaller amounts of water in smaller tanks are desired.

The invention has for its object a sprayer tion of the type mentioned in such a way that the Ab drifting fine drops is avoided, but without the amount of water required for the spraying process to be increased needs.

To solve this problem it is provided that the supply of Water / pesticide mixture through a spray nozzle immediately upstream solenoid valve with a working frequency of at least 10 Hertz and that the magnet valve is actuated via a control device, the one controllable periodic opening and closing of the magnetic valve tils causes.

With this configuration, the work area can be a Spray nozzle, which was previously only used to discharge large Water / pesticide quantities was provided, essential expanded, d. H. can be varied in small quantities without that the drop size changes noticeably. this in turn leads to the fact that the resulting spray jets do not lead to They tend to drift and affect the area can be restricted on which the plant protection product to be worn. The amount of plants to be carried out protective agent depends on a spray device according to the Er only depends on how often and for how long the solenoid valve the spray nozzle is open.

It is known in principle in other areas that one operates spraying devices pulsating (DE 43 15 385 A1). However, there are procedures and facilities for the reduction of nitrogen oxides in flue gases, whereby two-substance nozzles are provided in which a liquid, nitrogen term reducing agent is atomized with the aid of compressed air. Spray cones with relatively coarse are produced in alternating cycles Drops and spray cones with relatively fine drops, being one exploits the size of the range of the coarse drops evaporation also in that further away from the spray lances to reach distant zones of the flue gas duct.

One also has combustion devices (DE 31 02 835 A1) Swirl nozzles and dosing pumps coupled to each other and the Dosage via an intermittently promoting metering pump taken, the pulse frequency and delivery time was adjustable to enable even small heating outputs in this way. With the problem of spray drifting with small However, drops in crop protection have these known solutions Nothing to do.

In a development of the invention can be used as a control device Pulse generator with adjustable rectangular pulse is provided with which both the pulse rate and the pulse duration it can be set to open the solenoid valve can, so that the desired adjustment of the menu to be carried out ge can be achieved.

The invention is schematic using an exemplary embodiment shown table and is explained below. Show it

Fig. 1 shows the schematic structure of a spray device according to the invention for discharging crop protection agents in a block diagram and

Fig. 2 shows the diagrammatic representation of the achievement of different throughputs with different nozzle sizes according to the prior art in a comparison with a pulsating spray nozzle according to the invention.

Fig. 1 shows schematically a spray nozzle ( 1 ) for discharging pesticides, which is designed so that a spray is generated with it, the drops of which do not fall below a mean Sau terdiameter of 190 microns. It is known that for the drop size to be achieved essentially only the shape of the nozzle and here the outlet opening is decisive and that the drop diameter can be influenced only insignificantly by the change in the operating pressure. The water spray nozzle ( 1 ) is connected upstream of a solenoid valve ( 2 ) which is connected to the water supply ( 3 ). In this case, the supply of water is understood to be the supply of a mixture of water and plant protection products. In practice, the volume fraction of water in relation to the plant protection product is kept as low as possible. This switched into the water supply ( 3 ) to the spray nozzle ( 2 ) Mag netventil is now excited via a pulse generator ( 4 ) with which both the pulse duration (a) and the period (b) can be changed. The pulse generator ( 4 ) is designed as a known rectangular generator, the rectangular pulse is adjustable.

The solenoid valve ( 2 ) therefore periodically opens the water supply ( 3 ) and causes the spray nozzle ( 1 ) to emit pulsed spray jets. The drop size dispensed during each spraying process remains approximately the same size. The quantity discharged, however, depends exclusively on how the pulse duration (a) and the period duration (b) of the rectangular generator ( 4 ) are specified. In this way it is possible to dispense very small quantities without the need for smaller spray nozzles.

Fig. 2 shows a representation in which the droplet diameter in μ (Sauter mean diameter) in response to the sprayed flow rate in liters / min. is applied. The line (A) rising from the bottom left to the top right denotes the use of spray devices according to the prior art. Various spray nozzles, which are provided with the reference numbers 347 , 367 , 407 , 447 , 487 , 517 and 567 , have been provided for use in a volume range of approximately 0.8 to 4 liters / minute. The outlet cross section of the nozzles increases from the nozzle 347 to the nozzle 567 , so that the nozzle 347 , as shown, also has the smallest Sauter diameter of the droplets generated, and the nozzle 567 has the largest Sauter diameter of the droplets generated during the spraying process.

The substantially flatter line B now shows the inventive pulsating nozzle 567 in pulsating operation, with different spray quantities, which ranges from about 0.5 to just over 3 liters / minute. It can be seen that the Sauter diameter of the drops of this nozzle 567 decreases only insignificantly over the entire working range, so that the objective on which the invention is based, to have large drops in the spray jet which do not tend to drift, can be achieved even with small discharge amounts.

Claims (2)

1. Spraying device for discharging crop protection agents with a spray nozzle, in particular a flat jet nozzle with an outlet opening with which the diameter of the droplets generated is greater than 190 μ and with a device for regulating the supply of the water / crop protection agent mixture to the spray nozzle, thereby characterized in that the supply of the water / crop protection mixture via a Sprühdü se ( 1 ) immediately upstream solenoid valve ( 2 ) with a working frequency of at least 10 Hertz and that the solenoid valve ( 2 ) via a Steuereinrich device ( 4 ) is actuated controllable periodic opening and closing of the solenoid valve. 2. Spray device according to claim 1, characterized in that the control device is designed as a pulse generator ( 4 ) with adjustable rectangular pulse.