Development of a parametric model of the spatially oriented knife on the bulldozer blade

Authors

DOI:

https://doi.org/10.32347/2410-2547.2023.111.263-275

Keywords:

oblique cutting, spatially oriented, bulldozer, cutting resistance, cutting force, blade

Abstract

The paper considers the results of the study of resistances arising during the operation of a bulldozer in the soil environment and processes in the drawing prism. What affects the stability and productivity of the bulldozer during excavation works. The geological map of the "Ukrainian crystalline shield" was studied, where the most common soils on the territory of Ukraine were found. Using the proposed hypothesis of the movement of spatially oriented knives on a bulldozer blade, it was shown that when excavating soil at different speed ratios, there is a deviation of the cutting force application vector by an angle (α), which in turn affects the geometric interaction of the spatially oriented knife with the working environment. Changing the geometric interaction of the spatially oriented knife with the soil affects the cutting force, which led to the creation of a parametric model of the interaction of spatially oriented knives with the working environment. The model was developed for different knife configurations and different ratios of the bulldozer speed to the spatially oriented knife movement speed. The total, normal, and orthogonal cutting forces for the working, subcritical, and critical depths of soil cutting were calculated, according to changes in the parametric model of the spatially oriented knife. A comparative calculation of the cutting force by a bulldozer without and with spatially oriented knives was carried out.

Author Biographies

Volodymyr Rashkivskyi, Kyiv National University of Construction and Architecture

candidate of technical sciences, associate professor of the Department of Construction Machinery

Bohdan Fedyshyn, Kyiv National University of Construction and Architecture

graduate student, assistant of the Department of Construction Machinery

References

Vetrov Yu.A. Rezanye hruntov zemleroinymy mashynamy. (Soil cutting with earthmoving machines). – M.: Mashynostroenye, 1971 – 357 s.

Baladins`kyi V. L. Budivel`na tehnika: navchal`nyi posibnyk. (Construction machinery: a study guide). Kyiv: Lybid`, 2001. 368 c.

Smirnov V. M. Osnovy teorii rizannia gruntiv prostorovo orietovanymy nozhamy zemleryinyh mashyn. (Fundamentals of the theory of soil cutting by spatially oriented earthmoving machine blades). / K.: "MP Lesya", 2009 - 260 p.

Pat. Ukraine № 53190, class. E02F 3/04. V. L. Baladinsky, E. L. Pelevin, V.P. Rashkivsky, V. M. Smirnov, R. M. Solonko. Published 15.01.03 Bull. № 1.

Khmara L.A., Balonev V.Y. Povysheniie proizvoditielnosti mashyn dlia zemlianykh rabot. (Increased productivity of earthmoving machines). – K: Budivelnyk, 1988. – 152 s.

Khmara L. A., Kravets S. V., Nichke V. V., Nazarov L. V., Skobliuk M. P., Nikitin V. H. (2010). Mashyny dlia zemlianykh robit: navchalnyi posibnyk. (Earthmoving machines: a study guide). Rivne–Dnipropetrovsk– Kharkiv, 557 (in Ukrainian)

Vetrov Y. A., Karkhov A. A., Kondra A. S., Stanevsky V. P. (1965). Mashyny dlia zemlianykh robit. (Machines for earthworks). K: Higher school, 462.

Baladinsky V., Harkavenko O., Kravets V., Rusan I., Fomin A. (2000). Mashyny dlia zemlianykh robit. (Machines for earthworks). Rivne, RDTU, 288.

Mikhailenko V.M., Fedorenko N.D., Demchenko V.V. Dyskretna matematyka. (Discrete Maths). – K.: Vyd-vo Yevrop. un-tu, 2003. –319 s.

Kapitonova Yu.V., Kryvyi S.L., Letychevskyi O.A. Osnovy dyskretnoi matematyky. (Fundamentals of discrete mathematics). – K.:Naukova dumka, 2002. – 578 s.

Naziiev M.I. Liniina alhebra ta analitychna heometriia. (Linear algebra and analytical geometry). -K., Lybid, 1994

https://geomap.land.kiev.ua/geology.html

http://www.geograf.com.ua/geoinfocentre/21-physical-geography-ukraine-world/282-natural-resourses-dniepropetrovsk

Rashkivskyi, V., & Fedyshyn, B. (2022). Analiz zasobiv rizannia gruntiv prostorovo-oriientovanymy nozhamy dynamichnoi dii zemleryi-nykh mashyn. Hirnychi, budivelni, dorozhni ta melioratyvni mashyny, (Mining, construction, road and land reclamation machines). (96), 28–34. https://doi.org/10.32347/gbdmm2020.96.0401

Rashkivskyi, V., & Fedyshyn, B. (2021). Analiz kharakteru struzhkoutvorennia pry roboti prostorovo-oriientovanymy nozhamy dynamichnoi dii. Hirnychi, budivelni, dorozhni ta melioratyvni mashyny, (Mining, construction, road and land reclamation machines). (97), 57–61. https://doi.org/10.32347/gbdmm2021.97.0402

Goberman L. A. (1988). Fundamentals of theory, calculation and design of construction and road machines: Manual for technical schools, Mechanical engineering, 464.

Goriachkin V.P. Sobranie sochinenij. (Collected Works): t. I – IV. – M.: Sel`hozizdat, 1939 – 1948.

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Published

2023-11-24

Issue

No. 111 (2023)

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