Effect of constructive and operating parameters of anchor plowshare on the formation of drill furrow

Theoretical bases of soil movement were developed whereby a drill furrow was formed by an anchor plowshare with an acute angle of soil penetration with spaced structural elements. When the seeding working tool penetrates the soil at the depth of 0.06-0.08 m and the radius of its tine 0.2 m, the speed of movement of soil particles by the tine increases almost linearly on average by 11%, with the coefficient of soil friction against steel being from 0.3 up to 0.6 and the speed of the sowing unit movement - from 1 to 3 m/s. At the same time the speed of soil movement by the tine point and the tine of the seeding working tool exceeds the speed of the sowing unit by 1.6-1.8 times depending on the values of the coefficient of soil friction against steel. The height of the real soil tillage by the tine of the seeding working tool given the same speed range of the sowing unit increases by almost 4 times. The dependency was revealed between the value of the soil layer shift by the seeding working tool from the sowing zone into the inter-row space and the sowing unit speed. When the speed increases from 1 to 3 m/s, the shift increases by 15-32%. The maximum soil movement is observed with the angle of inclination of the side edge of the seeding working tool by 75°. Absolute values of soil movement were within the range of 0.35-0.45 m, which is sufficient to move the required amount of soil into the inter- row space when doing furrow sowing.

1. Blednykh V.V., Svechnikov P.G. Mozhet li Rossiya sebya prokormit’? [Can Russia feed itself?]. Chelyabinsk, OOO «Abris print» Publ., 2010, 72 p. (In Russian).

2. Golyshin N.M., Chenkin A.F., Zakharenko V.A., Martynenko V.I. Zashchita. zernovykh kul’turpri intensivnykh tekhnologiyakh [Protection of grain crops by using intensive technologies], Moscow, Agropromizdat, 1986, 160 p. (In Russian).

3. Modelirovanie rosta i produktivnosti sel ’skokhozyaistvennykh kul ’tur [Modelling growth and productivity of agricultural crops], edited by F.V.T. Penninga de Friza i Kh. Kh. Laara, L.: Gidrometeoizdat, 1986. 320 p. (In Russian).

4. Dokin B.D., Elkin O.V. Tekhnologicheskaya i tekhnicheskaya modernizatsiya rastenievodstva Sibiri [Technological and technical upgrade of crop science of Siberia]. Ekonomika sel’skokhozyaistvennykh i pererabatyvayushchikh predpriyatii [Economics of agricultural and processing enterprises], 2015, no. 1, pp. 1822. (In Russian).

5. Dokin B.D., Ivanov N.M., Elkin O.V., Chekusov M.S. Al’ternativnye varianty tekhnologii i tekhnicheskikh sredstv dlya proizvodstva zerna v usloviyakh Sibiri [Alternative options of technologies and technical means for grain production in the conditions of Siberia]. Dostizheniya nauki i tekhniki APK [Achievements of Science and Technology of AlCis], 2015, no. 1, pp. 101-105. (In Russian).

6. Yakovlev N.S., Kolinko P.V. Peremeshchenie pochvy kol’tsom kol’chatogo katka [Soil movement by the ring of the ribbed roller]. Sel ’skokhozyaistvennye mashiny i tekhnologii [Agricultural machines and technologies], 2013, no 3, pp. 32-34. (In Russian).

7. Orlov A.N., Algazin D.N., Krasil’nikov E.V. Vliyanie parametrov grebneobrazovatelya kul’tivatorno-otval’nogo tipa na obrazovanie grebnei [Effect of parameters of ridge former of cultivator moldboard type on ridge formation]. Omskii nauchnyi vestnik [Omsk Scientific Bulletin], 2013, no. 1, pp. 124-127. (In Russian).

8. Bespamyatnova N.M., Bespamyatnov Yu.A., Kolin’ko A.A. Kharakteristika novatsii rabochikh organov dlya poseva v tekhnologii bezotval’noi obrabotki pochvy i poseva [Characteristics of upgrades of seeding units for sowing with the non-moldboard soil tillage technology]. Traktory i sel’khozmashiny [Tractors and agricultural machinery], 2017, no. 9, pp. 31-36. (In Russian).

9. Belinskii O.A., Boyarskii A.V., Nurlygayanov R.B. Vliyanie sposobov poseva na uro-zhainost’ posevov klevera pannonskogo [Effect of sowing method on the yield ofHungarian clover]. Mezhdunarodnyi sel’skokhozyaistvennyi zhurnal [International Agricultural Journal], 2018, no. 1, pp. 27-30. (In Russian).

10. Petukhov D.A., Chaplygin M.E., Nazarov A.N. Analiz ispol’zovaniya posevnykh agregatov dlya pryamogo poseva i poseva s minimal’noi obrabotkoi pochvy [Analysis of the application of seeding rigs for direct sowing and minimum soil tillage sowing]. Tekhnika i oborudovanie dlya sela [Machinery and equipment for the village], 2013, no. 4, pp. 10-13. (In Russian).

11. Igamberdiev A.K. Obosnovanie tekhnologicheskikh i konstruktivnykh parametrov soshnika dlya poseva semyan ozimoi pshenitsy v v mezhduryad’ya khlopchatnika [Substantiation of technological and constructive parameters of plowshare for sowing winter wheat inbetween rows of cotton] Traktory i sel’khozmashiny [Tractors and agricultural machinery], 2017, no. 2, pp. 16-20. (In Russian).

12. Gabaev A.Kh., Khomyakov Kh.A. Teoreticheskie issledovaniya faktorov, vliyayush-chikh na ustoichivost’ khoda po glubine borozdoobrazuyushchego ustroistva [Theoretical study of the factors influencing movement stability by the depth of furrow-forming device] Izvestiya Orenburgskogo gosudarstvennogo agrarnogo universiteta [Journal of Orenburg State Agrarian University], 2016, no. 4, pp. 9597. (In Russian).

13. Gabaev A.Kh., Pazova T.Kh. Sovershenstvovanie borozdoobrazuyushchikh rabochikh organov posevnykh mashin dlya poseva semyan sel’skokhozyaistvennykh kul’tur v usloviyakh povyshennoi vlazhnosti pochvy [Upgrade of furrow-forming working units of the seeder for sowing agricultural crops in the conditions of increased soil moisture] Vestnik Krasnoyarskogo gosudarstvennogo agrarnogo universiteta [The Bulletin of KrasGAU], 2018, no. 1, pp. 109-113. (In Russian).

14. Nazarov N.N., Yakovlev N.S., Myalenko V.I. Posevnoi rabochii organ dlya realizatsii borozd-kovogo lentochnogo poseva zernovykh [A sowing tool to realize furrow band sowing of grain crops]. Sibirskii vestnik sel ’skokhozyaistvennoi nauki [Siberian Herald of Agricultural Science], 2016, no. 5, pp. 56-63. (In Russian).

15. Burchenko P.N. Mekhaniko-tekhnologicheskie osnovy pochvoobrabatyvayushchikh mashin novogo pokoleniya [Mechanical and technological bases of soil tillage machinery of the new generation]. Moscow, VIM Publ., 2002, 212 s. (In Russian).

16. D’yakov V.P. Vliyanie parametrov skorostnykh rabochikh organov na kachestvo obrabotki pochvy [Influence of parameters of fast-moving working units on the soil tillage quality]. Mekhanizatsiya i elektrifikatsiya sel’skogo khozyaistva [Mechanization and electrification of agriculture], 1987, no. 3, pp. 19-21. (In Russian).