Experimental research on vibrational digging-up of sugar beet

Adamchuk, V.; Булгаков, Володимир Михайлович; Holovach, Ivan; Ignatiev, Ye.

doi:10.15407/agrisp5.01.030

Cited by 2 publications

(5 citation statements)

References 1 publication

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In [8] studies of the influence of the speed of the movement upon the drive power of a machine with vibrating digging tools were carried out, but this was done without changing the parameters of the vibration process and disclosing the reasons for changing the traction resistance. Also, much attention is paid to determination of the loss of the root crops after the passage of the beet-digging machine, depending on the speed of its movement; but at a constant frequency and amplitude of oscillations of the working tool with increasing speed we will get a decrease in the time and number of interactions of the working tool with the body of the root crop, which is not desired.…”

Section: Resultsmentioning

confidence: 99%

“…However, as practice has shown, the use of exactly the direction of vibration of the digging tools in a transverse-horizontal plane does not provide the necessary conditions for productivity and quality, which made it necessary to completely eliminate such oscillations. The following numerous theoretical and experimental investigations and design developments have shown that only the creation of oscillatory impacts upon the beet root bodies, which are in the soil exactly in a longitudinal-vertical plane, is the only possible way to further improvement of this technological process [8][9][10][11].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Mathematical model of interaction between share working body and beet root during vibrational digging

Bulgakov

Ivanovs

Holovach

et al. 2021

20th International Scientific Conference Engineering for Rural Development Proceedings

View full text Add to dashboard Cite

Increasing the yield and quality of harvesting sugar beet by a vibrational digging tool is an urgent problem in the field of beet growing. As a result of the performed research an equivalent diagram of the force interaction of the beet root with the working surfaces of the vibrational digging tool was drawn up, and a new computational mathematical model of vibrational extraction of the beet root from the soil was built. The solution of the obtained system of differential equations on a PC made it possible to construct the main graphic dependencies between the design and the kinematic parameters of a particular technological process. As a result, new analytical dependences of the motion of the root crop in time in the direction of the forward movement of the vibrational digging tool were obtained, taking into account its design and kinematic parameters. With the help of the PC, the dependences of the movement of the root crop in time were constructed, when it moves vertically upwards during the process of complete extraction from the soil, also taking into account the specified parameters of the digging tool. Calculations showed that the time for complete extraction of the beet roots from the soil is 0.032 s, which is essential for compliance with the conditions for the high-quality implementation of this process and high efficiency. The subsequent experimental investigations confirmed the achievement of the taken research goal.

show abstract

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Mathematical model of interaction between share working body and beet root during vibrational digging

Bulgakov

Ivanovs

Holovach

et al. 2021

20th International Scientific Conference Engineering for Rural Development Proceedings

View full text Add to dashboard Cite

show abstract

“…where φ(x) -the proper form of the main vibrations; p -the proper frequency of the main vibrations. By substituting expression (12) into functional (11), we obtain:…”

Section: Mathematical Descriptionmentioning

confidence: 99%

“…The existing digging bodies for root crops, operating in a wide variety of conditions (different hardness moisture of the soil surrounding the root crops, non-straightness of the crop rows, etc. ), are not always able to fulfil the specified requirements, which leads to significant losses of the grown crop [11].…”

Section: Introductionmentioning

confidence: 99%

“…The theory of vibrational digging of root crops from the soil with the application of disturbing forces in the longitudinal-vertical plane in a fundamentally new formulation was published in [18,19]. The case of transverse free forced vibrations of a root crop as an elastic body with the coinciding directions of the disturbing forces with the direction of the forward movement of the vibrating digging working body was published in [11,20], it is of interest from both theoretical practical points of view. Therefore, there is a need to consider the general problem of longitudinal vibrations of a root crop as a solid elastic cone-shaped body, fixed in the soil, taking into account its elastic damping properties.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Mathematical Model of Root Crop Digging with Longitudinal Vibrations

Bulgakov¹,

Aboltins²,

Beloev³

et al. 2021

ENGMATH

View full text Add to dashboard Cite

The problem how to reduce damage to tubers when they are dug up is urgent. For the new design of a vibrating digging working body for root crops the mathematical model of longitudinal vibrations of a root crop in the soil is developed as an elastic body in an elastically damped medium. The Ostrogradsky-Hamilton variational principle is applied for the analytical description of the process. The Ritz method was applied to find the frequencies of natural vibrations, the amplitudes of forced vibrations of a root crop as a solid elastic body when it is captured by a vibrating digging body. The frequency equation for the discussed vibrational process was obtained. The values of the first proper frequency of longitudinal vibrations of the considered elastic body of the root crop with specific geometric physical parameters are found. Graphs of the dependence of the first natural frequency upon the elastic deformation coefficient, the damping coefficient of the soil as an elastic damping medium are obtained. When the soil damping coefficient changes within 0 to 10 N•s 2 •m -3 , the first proper frequency changes within 500 to 750 s -1 (80 to 119 Hz) at soil elastic deformation coefficient 2•10 5 N•m -3 . Dependence of the elastic body forced vibration amplitude upon the change in the amplitude of the disturbing force have been obtained. When the amplitude of the disturbing force changes within 100 to 600 N, the amplitude of forced vibrations of the root crop body changes within 0.30 to 0.68 mm.

show abstract

Experimental research on vibrational digging-up of sugar beet

Cited by 2 publications

References 1 publication

Mathematical model of interaction between share working body and beet root during vibrational digging

Mathematical model of interaction between share working body and beet root during vibrational digging

Mathematical Model of Root Crop Digging with Longitudinal Vibrations

Contact Info

Product

Resources

About