Abstract
An algorithm is described and a program is introduced for traction calculation of band conveyors using the ''Nairi-2'' computer. The calculation system of the conveyor is derived by means of dividing the closed loop of the band into straight sections, which are separated by drums. The number of sections depends on the number of drums, the bypass system of them by the band, the shape of the conveyor route and in each specific case, a specific number is chosen. The initial information for the computer is assigned by a matrix, each row of which consists of parameters of the corresponding section. As a result, the forces of the beginning and end of the sections are found, and the required output of the drive motors with observance of the conditions of non-slippage of the drive drums and limiting of the maximum slack of the band between rollers are also found. The program allows one to make traction calculations of band conveyors with any routing shape for any number and position of the drive drums.
Citation Formats
Kutlunin, V A, Livshis, A V, and Pod'yemshchikov, A N.
Traction calculation of band conveyors using the ''Nairi-2'' computer.
USSR: N. p.,
1982.
Web.
Kutlunin, V A, Livshis, A V, & Pod'yemshchikov, A N.
Traction calculation of band conveyors using the ''Nairi-2'' computer.
USSR.
Kutlunin, V A, Livshis, A V, and Pod'yemshchikov, A N.
1982.
"Traction calculation of band conveyors using the ''Nairi-2'' computer."
USSR.
@misc{etde_5084988,
title = {Traction calculation of band conveyors using the ''Nairi-2'' computer}
author = {Kutlunin, V A, Livshis, A V, and Pod'yemshchikov, A N}
abstractNote = {An algorithm is described and a program is introduced for traction calculation of band conveyors using the ''Nairi-2'' computer. The calculation system of the conveyor is derived by means of dividing the closed loop of the band into straight sections, which are separated by drums. The number of sections depends on the number of drums, the bypass system of them by the band, the shape of the conveyor route and in each specific case, a specific number is chosen. The initial information for the computer is assigned by a matrix, each row of which consists of parameters of the corresponding section. As a result, the forces of the beginning and end of the sections are found, and the required output of the drive motors with observance of the conditions of non-slippage of the drive drums and limiting of the maximum slack of the band between rollers are also found. The program allows one to make traction calculations of band conveyors with any routing shape for any number and position of the drive drums.}
place = {USSR}
year = {1982}
month = {Jan}
}
title = {Traction calculation of band conveyors using the ''Nairi-2'' computer}
author = {Kutlunin, V A, Livshis, A V, and Pod'yemshchikov, A N}
abstractNote = {An algorithm is described and a program is introduced for traction calculation of band conveyors using the ''Nairi-2'' computer. The calculation system of the conveyor is derived by means of dividing the closed loop of the band into straight sections, which are separated by drums. The number of sections depends on the number of drums, the bypass system of them by the band, the shape of the conveyor route and in each specific case, a specific number is chosen. The initial information for the computer is assigned by a matrix, each row of which consists of parameters of the corresponding section. As a result, the forces of the beginning and end of the sections are found, and the required output of the drive motors with observance of the conditions of non-slippage of the drive drums and limiting of the maximum slack of the band between rollers are also found. The program allows one to make traction calculations of band conveyors with any routing shape for any number and position of the drive drums.}
place = {USSR}
year = {1982}
month = {Jan}
}