Experimental studies of duration of air pumping out from the "TEAT CUP - PULSATOR" system

Adamchuk, V.; Dmytriv, V.; Dmytriv, I.

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Tytuł artykułu

Experimental studies of duration of air pumping out from the "TEAT CUP - PULSATOR" system

Autorzy

Adamchuk V. , Dmytriv V. , Dmytriv I.

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The article analyzes the results of experimental studies of duration of air pumping out from chambers of the variable vacuum-gauge pressure in the "teat cup - pulsator"system. The study of impact of structurally-technological parameters of milking units on the process of milk ejection and time characteristics of the operating mode was analyzed. The methods of conducting experimental studies of transitive time characteristics of pulsator operating modes based on differentiated study of transitive processes by high-frequency scanning of vacuum-gauge pressure changes while pumping air out from the "teat cup-pulsator" system are given. Results of the study of impact of vacuum pressure and the overflow hole diameter on the duration of air pumping out from chambers of the variable vacuum-gauge pressure system are provided. Results of experimental data are compared with theoretical ones. The analysis of results of experimental studies showed that the pulsator overflow hole diameter has the greatest effect on the duration of air pumping. By reducing the diameter, the duration of air pumping increases nonlinearly. Due to results of comparison of theoretical and experimental studies it was found the deviation of experimental data from the theoretical modeling of the duration of air pumping out from chambers of the variable vacuum-gauge pressure in the"teat cup - pulsator"system. The coefficient of coordination of theoretical dependencies on experimental data to calculate the duration of air pumping was calculated. The analysis of the obtained dependencies of the duration of air pumping out from the system "teat cup - pulsator"system allowed to recommend the most rational options of the pneumatic and electromagnetic pulsator, provided that it will be provision of the mode of smooth shockless opening of milking cup teat rubber at 48 kPa vacuum pressure and the volume of variable vacuum-gauge pressure chambers of the system "teat cup - pulsator" 10-4 m3.

Słowa kluczowe

milking unit pulsator vacuum-gauge pressure pumping duration isolines

Wydawca

Polish Academy of Sciences, Branch in Lublin

Czasopismo

ECONTECHMOD : An International Quarterly Journal on Economics of Technology and Modelling Processes

Rocznik

2015

Tom

Vol. 4, No 4

Strony

3--6

Opis fizyczny

Bibliogr. 21 poz., rys., wz.

Twórcy

autor

Adamchuk V.

National Scientific Centre "IAEE"

autor

Dmytriv V.

Lviv National Agrarian University

autor

Dmytriv I.

dmytriv_ihor@ukr.net

Lviv National Agrarian University

Bibliografia

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3. Dmytriv V., Dmytriv I. 2013. Design of time of expiration of air from a limit space // Motrol. Commission of Motorization and Energetics in Agriculure - Lublin - Rzeszow, Vol. 15, № 4, 193-197. (in Poland).
4. Dmytriv V., Dmytriv I. 2013. Model of pumping out air from the chambers of vacuum-gauge pressure of a milking unit. // Herald of Kharkiv national techn. University. – Kharkiv, 207-212. (in Ukrainian).
5. Milking installation with the milk lead. 1997 - 12 - 1. // Protocol of state acceptance trials. №01 - 117 - 87 (1180197). – Research: UkrNDIPTV. (in Ukrainian).
6. Fenenko A. I., Moskalenko S. P. 2001. Research of executing milking units mechanisms // Mechanization and electrification of agriculture. Vol. 85. Glevaha, 155-160. (in Ukrainian).
7. Kiryavtsev L.A. 2007. Milking unit // Herald of Kharkiv national techn. University. – Vol. 62. Improving technologies and equipment livestock production. – Kharkov: KNTUA, 57-64. (in Ukrainian).
8. Revenko I., Zabolotko O., Lishchynsky C., Kostenko V. 2005. Improving credit process and machine milking cows // offer. №11, 116-119. (in Ukrainian).
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10. Dmitriv V. T. 2005. The system of parameters of automated information and analytic system of machine milking // Bulletin of Kharkiv national techn. university. - Vol. 42 Improving technologies and equipment livestock production and poultry farming. – Kharkov: HNTN them P. Vasilenko, 126-131. (in Ukrainian).
11. Dmitriv V. T. 2006. Milking unit with chip control // New tendencies of development of technologies and technical means in the dairy animal husbandry: materials of the 13th Internat. symp. On the issue of machine milking of farm animals - Gomel, Republic of Belarus, 161-165. (in Belarus).
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13. Dmytriv V. T. 2006. Model of air expenditure caused by a milking unit // Visnyk Lvivskoho derzhavhoho ahrarnoho universytetu: Ahroinzhenerni doslidzhennia, – № 10, 483-488. (in Ukrainian).
14. Dmytriv V. 2007. Dynamic characteristics of hydropneumatic milking systems. // Zbornik radova: proceedings. Opatija, Croatia.- February 13-16, 332-335. (in Croatia).
15. Belokobylskyy A. A. 2008. Milking unit with controlled mode of milking // Youth and agricultural technics in the XXI century. - Materials of the IV Internat. Forum of youth. – Kharkiv, 58. (in Ukrainian)
16. Belokobylskyy A. A. 2007. Theoratical grounding of constructive-regime parameters of the milking unit with controlled milking mode// Mechanization and electrification of agriculture. – № 11, 9-12. (in Ukrainian)
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19. Dmytriv I. 2014. Development of mathematical model of duration of filling the finite-dimensional space with air at vacuum-gauge pressure // An International quarterly journal on economics in technology new technologies and modeling processes- Lublin - Rzeszow. – Vol. 3. № 4, 45-48. (in Poland).
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Bibliografia

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