Methodology of explanation of tactical and technical requirements for means of evacuation of weapons and military equipment
Abstract
The main impact force of ground troops is the hard weapons and military equipment, that is why the loss of one of them is always painful for any army in the world The basic combat weapons and military equipment (high-precision samples of weapons and military equipment) are too expensive to destroy damaged vehicles or leave them on the battlefield. Realizing this, the special vehicles were created for the evacuation of this type of weapons and military equipment – armored repair and evacuation vehicle, which are designed to evacuate from the battlefield damaged and stuck tanks, infantry fighting vehicles, armored personnel carriers, self-propelled artillery system and other units of equipment, even out of the probable enemy fire.
Taking into account the analysis of the development of evacuation means which are in the service of the Armed Forces of Ukraine and the armed forces of the leading countries of the world, in this work the method of substantiation of tactical and technical requirements for means of evacuation of damaged weapons and military equipment is proposed. The essence of this method is to distribute the means of evacuation by mass and size, by type of mover, by the method of moving the damaged sample, by the level of application.
The formation of requirements is aimed at the transition of evacuation means and basic models of weapons and military equipment to unified basic platforms of the modular type. The implementation of these platforms will make it possible to install various types of special modules of evacuation means (material-handling, load-lifting, etc.) and modules of samples of weapons and special equipment.
The application of this metodology will provide an opportunity to obtain technical outlines of evacuation tools for different levels of the hierarchy, taking into account the scope of tasks assigned to them.
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Hryb D.A., Kamaltynov H.H., Klymchenko V.Y., Tyutyunnik V.O. Analysis of scientific and technical support for the development of armaments and military equipment RTV., Collection of scientific works of Kharkiv National University of the Air Force, 2017, № 5 (54) p.33-37.
Tarasenko PN Promising repair and evacuation equipment. 4th International Scientific Conference on Military-Technical Problems, Defense and Security Problems, Use of Dual-Use Technologies. May 20-21, 2009. Minsk. Pp. 174-176.
Lytvynenko V.V., Uriupin V.N., Soldatov A.N. Methodological aspects of modernization of armaments, military and special equipment. Technology for solving problems of modernization of weapons, military and special equipment. Military-technical magazine "Viyskova dumka". 2018. № 12. pp.30-39
Deulgaonkar, V.R. Finite element analysis and experimental simulation of chassis mounted platform for off-road wheeled combat and transport utility vehicles. International Journal of Vehicle Structures and Systems. №10(1) April 2018 р. 66-72. DOI: 10.4273/ijvss.10.1.14
Nikolaev Yu.I. Creation of new and modernized models of military automobile equipment MZKT. The main directions of development. 4th International Scientific Conference on Military-Technical Problems, Defense and Security Problems, Use of Dual-Use Technologies. May 20-21, 2009. Minsk. 21-22.
Middleton A., Bowns S., Hartley K., Reid J. The Effect of Defence R&D on Military Equipment Quality, Defence and Peace Economics, Taylor & Francis Journals, 2006. vol. 17(2), p. 117-139. DOI: 10.1080/10242690600636869
M. Brzoska Trends in Global Military and Civilian Research and Development (R&D) and their Changing Interface. [Electronic source]: Access mode: http://ifsh.de/pdf/aktuelles/india_brzoska.pdf
Jung, M.C., Haight, J.M., Freivalds, A. Pushing and pulling carts and two-wheeled hand trucks. International Journal of Industrial Ergonomics, (2005). №35(1), р. 79-89. https://doi.org/10.1016/j.ergon.2004.08.006
Kaegen Seow Ee Hung, Tan Teck Chuan, Ang Liang Ann Reducing Vibration in Armored Tracked Vehicles. [Electronic source]: Access mode: https://www.dsta.gov.sg/docs/default-source/dsta-about/reducing-vibration-in-armoured-tracked-vehicles.pdf?sfvrsn=2
Jean M. Dasch and David J. Gorsich Survey of Modular Military Vehicles: benefits аnd burdens. Defense Acquisition research journal. A Publication of the Defense Acquisition University. 2016. Vol. 23 No. 1. p. 2-27.
Shevchenko A. A. Military vehicles are an important component of the defense industry of the Russian Federation. [Electronic source]: Access mode: http://federalbook.ru/files/OPK/Soderjanie/OPK-11/III/Shevchenko.pdf
Demidov B.A. Velichko A.F. Khmelevskaya O.A. Elements of the methodology of substantiation of directions of development and formation of appearance of perspective system of armament of a kind of armed forces of the state. Control, navigation and communication systems. 2010. Vip. 3 (15). with. 187-194.
Dachkovskyi, V. (2019). Methodology of justification of tactical and technical requirements for movable means of repairing arms and military equipment. Journal of Scientific Papers ʽʽSocial Development and Security’’, 9(6), 86 - 101. https://doi.org/10.33445/sds.2019.9.6.7
Rudianov N. A. Khrushchev V.S. Substantiation of the appearance of combat and supporting robotic systems of the Ground Forces. Electronic Resource [Access Mode] http://engjournal.ru/articles/937/937.pdf
Chepkov, I.B. Dovhopolyi, A.S. Husliakov, О.М. Conceptual bases of creation of domestic shock-reconnaissance ground robotic complexes of a heavy class. Weapons and military equipment. 2019. №3 (23). pp. 16-25.
Grib, D.A. Demidov, B.А. Khmelevskaya O.A. Principles and aspects of the methodological approach to the formation of operational-strategic and operational-tactical requirements for the promising armament system of the armed forces of the state and its structural components. Science and technology of the Air Force of the Armed Forces of Ukraine. 2013. № 2 (11). pp. 29-34.
Grib, D.A. Demidov, B.А. Naumenko, M.V. System-conceptual bases and elements of methodology of formation of operative-tactical and tactical-technical requirements shown to perspective samples of armament and military equipment and models which are modernized. Weapons systems and military equipment. 2009. №2 (18). pp. 65-73.
Armored recovery vehicle BREM-1. Technical description. Moscow: Military Publishing. 1984. p. 132.
Lepeshinsky, I.Yu. Kostin, K.V. Anufriev, E.V. Pogodaev, V.P. Varlakov, P.M. Munin, V.A. Chikirev, O.I. Kryukov, K.S. Kolobov A.A. Repair of armored vehicles. Omsk Publishing house OmGTU. 2011. p. 320.
Armored repair and evacuation vehicle BREM “Athlete”. [Electronic source]: Access mode: https://morozov.com.ua/ua/bronetankovaya-tehnika-i-vooruzhenie/boevye-bronirovannye-mashiny/razrabotki/atlet/
Armored repair and evacuation vehicle BREM -7К. [Electronic source]: Access mode: https://uk.wikipedia.org/wiki/%D0%91%D0%A0%D0%95%D0%9C-7%D0%9A
Armored repair and evacuation vehicle BTR-3BR. [Electronic source]: Access mode: https://zhbtz.com/produkc-ja-ta-poslugi/produkc-ja-v-iskovogo-priznachennja/kol-sna-bronetehn-ka/btr-3br.html
Armored repair and evacuation vehicle BREM-4. [Electronic source]: Access mode: https://morozov.com.ua/ua/bronetankovaya-tehnika-i-vooruzhenie/boevye-bronirovannyemashiny/razrabotki/btr-4/
Kuznetsov, I.B. Yaroshenko A.V. Ovcharenko, I.V. Dachkovskyi V.O. Application of units and military formations of technical support. Part II: Repair and restoration military unit: textbook. way. Kyiv: NUOU them. Ivan Chernyakhovsky, 2018. 80 p.
Tow trucks of damaged cars. Textbook. Minsk. BNTU. 2010. p. 128
Evacuation of motor vehicles. Guidance. Part 1. Technical bases and means of evacuation of cars. The order of evacuation works. Moscow: Military Publishing House. 1985. p. 240.
Dachkovskyi, V. O. Ovcharenko, I. V. Yaroshenko O.V. Fundamentals of evacuation of weapons and military equipment. Kyiv: NUOU, 2017. 180 p.
Gubin S.G. Mobile means of maintenance and repair. Novosibirsk SGGA. 2009. 100.
Armored repair and evacuation vehicle M88A2 Hercules. HERCULES (Heavy Equipment Recovery Combat Utility Lift and Evacuation System). [Electronic source]: Access mode: http://www.army-guide.com/rus/product2036.html
Armored repair and evacuation vehicle WZT-3 and WZT-4. [Electronic source]: Access mode: https://warriors.fandom.com/ru/wiki/WZT-3M
Armored repair and evacuation vehicle БРЕМ Buffalo, Bergepanzer 3 Büffel. [Electronic source]: Access mode: http://factmil.com/stuff/armija/inzhenernaja_tekhnika/bpz_3_buffel_buffalo/57-1-0-180
Armored repair and evacuation vehicle CARRV – Challenger Armoured Repair and Recovery Vehicle. [Electronic source]: Access mode: http://parm.mybb.ru/viewtopic.php?id=835
Armored repair and evacuation vehicle AB1 Monjed P2 [Electronic source]: Access mode: http://bodyguards.com.ua/watchman/3949-brem-ab1-monjed-p2-yordanya.html.
Dachkovskyi V.О. Ovcharenko I.V. Analysis of armoured combat vehicles. Modern Information Technologies in the Sphere of Security and Defence, 2016. № 2(26) С. 127 – 132.
On approval of the instruction on formation of operative-strategic, operative-tactical and general requirements to armament and military equipment of the Armed Forces of Ukraine. Order of the General Staff of the Armed Forces of Ukraine from 24.05.2016 № 213
Research of the state and prospects of development of mobile means of maintenance, repair and evacuation of weapons and military equipment of the Land Forces: Report on NDR code "Repair"; dir. S.A. Kopashinsky Kyiv: 2017. 217 p.
Patent. 133641 Ukraine, MPK (2009) F41 H 7/00. Basic caterpillar platform of modular type / Dachkovskyi V. O., Ovcharenko I. V., Yaroshenko O. V., Sampir O. M., Kurovskaya T. Yu. – applicant and patent holder Dachkovskyi V.O. – № u201812482; application. 12/17/2018; publ. 04/10/2019; Bull. № 7.
Patent. 134972 Ukraine, MPK (2009)) F41 H 7/00. Basic wheel platform of modular type / Dachkovskyi V.O. – applicant and patent holder Dachkovskyi VO – № u2019 00225; application. 09/01/2019; publ. 06/10/2019; Bull. № 11/2019.
Patent. 128878 Ukraine, MPK (2017) B60D 1/00. Lifting and transport device / Dachkovskyi V.O. Ovcharenko I.V., Yaroshenko O.V.; – applicant and patent holder National University of Defense of Ukraine. Ivan Chernyakhovsky – № u201804262; application. 04/18/2018; publ. 10/10/2018; Bull. № 19.
Patent. 98552 Ukraine, MPK (2009) F42 B 23/00, 39/26. Complex of detection and defeat of the purposes / Dachkovskyi V.O.; – applicant and patent holder Dachkovskyi V.O. – № u201413542; application. 16.12.2014; publ. 27.04.2015; Bull. № 8.
Dachkovskyi , V. (2020). Method of determination of survival characteristics of weapons and military equipment. Journal of Scientific Papers ʽʽSocial Development and Security’’, 10(1), 18-24. https://doi.org/10.33445/sds.2020.10.1.3
Dachkovskyi V.O. Vorobyov O.M., Grozovsky R.I. Methodical approach to determining the quality indicators of weapons and military equipment repair. Problems of quality of defense products: organizational, technical and financial and economic aspects. II All-Ukrainian scientific-practical conference. May 26, 2020. Kyiv, 2020 p. 32-48.
Kurtseitov, T. Dachkovskyi,V. Kizyak, Y. Uhrynovych, O. Experimental study of stability of base wheel platforms to the influence of explosive objects. Natural, Mathematical and Technical science NaMaTech – 2018, Held in Budapest on 16th of December 2018. https://doi.org/10.31174/SEND-NT2018-186VI22-15
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