Justification the Number of Spray Tips of the Universal Fan Sprayer

The authors noted the disadvantages of fan sprayers such as OVH-600 and VP-1, associated with uneven application of pesticides due to the oscillatory motion of the working parts, especially in the junction of adjacent passages. (Research purpose) To increase the uniformity of the pesticide solution application over the entire width of the fan sprayer. (Materials and methods) The JV «Agriхim» developed a universal fan sprayer designed for the treatment of field crops, orchards and vineyards controlled by air-droplet flow. It was shown that the number of nozzles depends on the technological scheme of operation and the width of the sprayer. (Results and discussion) The authors determined the optimal number of injectors – 25 pieces. Depending on the flow rate of the working solution, three groups of tips were distinguished. (Conclusions) The authors revealed that the new design eliminates oscillatory movements of the working parts of the sprayer, a significant width (24 meters vs. 16 meters in production models) allows to increase dramatically the productivity of work, and the number of changeovers is minimized. They simplified and cheapened the design of the sprayer due to the rejection of a number of kinematic pairs and drives. They increased reliability of the unit, eliminating rubbing and moving parts and components. They presented the layout of 25 nozzles for high-quality pesticide treatment: 5 rear central nozzles were installed on the air ducts at an angle relative to the soil surface, and on the opposite direction of the air ducts placed 3 and 7 nozzles in each side of the axis of symmetry of the sprayer. It was calculated that the rate of flow of the working fluid in the range of 100-500 liters per hectare can be adjusted by changing the pressure in the system from 2 to 8 bar and the working speed from 3 to 7 kilometers per hour.

1. Drincha V.M., Rufai I. Prospective areas in Agricultural Engineering Research for Sustainable Agriculture and Rual development. Moscow: VIM. 2005. 168.

2. Nikitin N.V., Spiridonov Yu.Ya., Shestakov V.G. Nauchno-prakticheskie aspekty tekhnologii primeneniya sovremennyh gerbicidov v rastenievodstve [Scientific and practical aspects of the technology of using modern herbicides in crop production]. Moscow: RAAS. VNIIF. 2010. 189.

3. Sadduth K.A., Borgelt S.C., Hou J. Performance of chemical injection sprayer system. Transactions of the ASAE. 1995. Vol. 11(3). 343-348.

4. Pearson S.L., Reed T., Gobel B. New Developments in Spray Tips to Reduce Drift. ASAE Paper № 931081. 1996. 15.

5. Matchanov R.D. Zashchita rasteniy v sisteme kul’tura-vreditel’-preparat-mashina [Plant protection in the culture-pest-drugmachine system]. Tashkent: Fan, 2016. 360.

6. Popov S.Ya., Dorozhkina L.A., Kalinin V.A. Osnovy himicheskoy zashchity rasteniy [Fundamentals of chemical plant protection]. Ed. Professor S.Ya. Popov. Moscow: Art-Lion. 2003. 208.

7. Volovik A.S., Glez V.M., Zamotaev A.I., et al. Zashchita kartofelya ot bolezney, vrediteley i sornyakov [Protecting Potatoes from Diseases, Pests, and Weeds]. Moscow: Agropromizdat. 1989. 205.

8. Аkhmetov А.А., Мirzaev B.S. Tekhnicheskie sredstva dlya himicheskoy zashchity rasteniy [Technical means of chemistrical plant protection]. Тashkent: ТIIAME. 2018. 116.

9. Matchanov R., Yuldashev A., Voinov S., Sherimova G. Eksperimental’nye issledovaniya ventilyatornogo opryskivatelya s dvoynym soplom [Experimental studies of a double-nozzle fan sprayer]. Agrotexnika dunyosi. Tashkent: 2018. N6. 26-28.

10. Zinchenko V.A. Himicheskaya zashchita rasteniy: sredstva, tekhnologiya i ekologicheskaya bezopasnost’ [Chemical protection of plants: means, technology and environmental safety] Moscow: Kolos. 2012. 247.

11. Rufai I., Drincha V. Ecological aspects of agricultural mechanization. Published by ABU Press Ltd. 2009. 262.

12. Grisso R.B.,Dickey E.C., Schulze L.D. The cost of misapplication of herbicides. Applied Engineering in Agriculture. 1989. 5(3). 344-347.

13. Derksen R.C. Hydraulic nozzles for boom sprayers. NRAES. 1994. 6.

14. Jobnson M.P., Swetnam L.D. Sprayer nozzles: selection and calibration. University of Kentucky. Pat 3. 2000. 1-6.