Conceptual Design of Dosing System for Liquids on the Basis of a Robotic Injection Installation Using Interchangeable Capillaries
-
2018-12-09 https://doi.org/10.14419/ijet.v7i4.36.25378 -
. -
Abstract
. -
References
[1] Patent RU 6892 U1, V. Vlasov (RU) and collaborators. A device for microdosing of liquids. The priority date is 10.06.1997.
[2] RU 14663 U1, Zhavner V.L. (RU). Dosing device for liquid and viscous products. Priority date 07/19/1999.
[3] RU 123516 U 1, Chashechkin Yu.D. (RU). A device for forming one-dimensional droplets of liquid or gas bubbles. The priority date is 27.08.2012.
[4] Danilov S.A., Yezhov E.A., Moroz V.V., Gladyshev P.P. Capillary control system with no mutual contamination of samples. The 24th scientific and practical conference of students, graduate students and young professionals (with international participation). Sat materials. - Dubna, 2017. - 545-546 p.
[5] Application 081770 Russian Federation, MPK11 A G01F 11/00. Device for microdosing of dangerous biological fluids, excluding contamination of dangerous infections [Text] / PPGladyshev, V.V. Frost. - # 2015153077: Appl. 12/10/2015; publ. 06/16/17. Byul. â„–17. - 1 s.
[6] Angela M. Caliendo, David N. Gilbert, Christine C. Ginocchio, E. Kimberly, E. Hanson, Marissa, Thomas, C. Quinn, Fred C. Tenover, David Alland, J. Anne J. Better Tests, Clinical Infectious Diseases, Volume 57, Issue suppl_3, 1 December 2013, Pages S139 – S170, https: //doi.org/10.1093/cid/cit578
[7] Tille P.M. Bailey & Scott's Diagnostic Microbiology, 14th Edition, Elsevier, St. Louies, Missouri: Elsevier.2017, 1136
[8] Frost V.V., Baulina L.V., Ibragimova S.A., Gorshkova R.M., Gladyshev P.P. Fluorescent reader for immunochromatography. Proceedings of the scientific seminar in memory of Professor, Doctor of Chemical Sciences Igor L. Khodakovsky: Sat. mater / under the total ed. P.P. Gladysheva. - Dubna: State. Univ. “Dubnaâ€, 2017. - 150-155 p.
[9] Moroz V.V. Fluorescent reader for quantitative immunochromatographic analysis [Text] / V.V. Moroz, S.A. Ibragimova, V.A. Vinogradov, L.V. Baulina, R.M. Gorshkova, P.P. Gladyshev // Analytical Chromatography and Capillary electrophoresis: sat. articles. - Krasnodar, 2017. - p.24.
[10] Kazachkova, O.A., Zyabneva, O.A., Mamedova, I.Y., Kulishova, E.A. 3D technologies in the production of jewelry with elements of complicated design. International Journal of Engineering and Technology(UAE), 7 (3), pp. 155-157.
[11] Reich, Y. and Paz, A. 2008. Managing product quality, risk, and resources through resource quality function deployment. Journal of Engineering Design, 19(3): 249–267.
[12] Ruder, J. A. and Sobek, D. K. 2007. Experiment on a system-level design tool. Journal of Engineering Design, 18(4): 327-342.
[13] Stepanova E.A., Kazachkova O.A. Design Expanding Opportunities. / International Scientific and Practical Conference: Universal Design: Different Opportunities - Comfortable Environment, November 30-December 2, Moscow, p. 121-122.
[14] Glaser, B. G. (2001). The grounded theory perspective: Conceptualization contrasted with description. San Francisco, CA: Sociology Press
[15] Baulina L.V., Sobolev I.A., Moroz V.V., Gladyshev P.P.Robotic system of immunochromatographic analysis. The 24th scientific and practical conference of students, graduate students and young professionals (with international participation). Sat materials. - Dubna, 2017. - 536-537 p.
[16] Danilov S.A., Yezhov E.A., Moroz V.V., Gladyshev P.P. Disposable cassette-rotor for microcentrifugation. The 24th scientific and practical conference of students, graduate students and young professionals (with international participation). Sat materials. - Dubna, 2017. - 547 p.
[17] Sokolova M.L., Modern Problems of the “Technology of Artistic Materials Processing†direction, Russian Technological Journal, 2017, Volume 5 No. 1, C 50-56.
[18] Thomas J.L. Van Rompay, Geke D.S. (2015) Ludden Types of Embodiment of Product Design. International Journal of Design, 9 (1), 1-11.
[19] Moroz V.V., Vinogradov V.A., Baulina L.V., Vertlina O. Microdispenser system for precise dosing of reagents. The 24th scientific and practical conference of students, graduate students and young professionals (with international participation). Sat materials. - Dubna, 2017. - 540-541 p.
[20] Buchanan, R. (2000). Good design in the digital age. AIGA Journal of Design for the Network Economy, 1 (1). 1-5
[21] Fiksel, J. R. (2009). Design for environment: A guide to sustainable product development. New York, NY: McGraw-Hill.
[22] Kushnir A.P. VISUALIZATION OF THE GEOMETRICAL PROBLEM OF CNC “VESTNIK MGTU MIREA†No. 4 2015 Volume II
[23] Ibragimova S.A., Dezhurov S.V., Moroz V.V., Gladyshev P.P. A new analytical platform for immunochromatographic diagnosis of diseases IDORI: physical and chemical bases for the implementation of the analytical system and new principles for processing and storing data. Proceedings of the scientific seminar in memory of Professor, Doctor of Chemical Sciences Igor L. Khodakovsky: Sat. mater / under the total ed. P.P. Gladysheva. - Dubna: State. Univ. “Dubnaâ€, 2017. - 82-88 p.
[24] Lapan, S. D., & Quartaroli, M. T. (2009). Research essentials: An introduction to design and practices. San Francisco, CA: Jossey-Bass.
[25] Shaofeng Liu, Iain M. Boyle 2009. Engineering design: perspectives, challenges, and recent advances. Journal of Engineering Design 20 (1), 7-19.
-
Downloads
-
How to Cite
V.V, M., O.A, A., & L.V, B. (2018). Conceptual Design of Dosing System for Liquids on the Basis of a Robotic Injection Installation Using Interchangeable Capillaries. International Journal of Engineering & Technology, 7(4.36), 1168-1171. https://doi.org/10.14419/ijet.v7i4.36.25378Received date: 2019-01-04
Accepted date: 2019-01-04
Published date: 2018-12-09