RU2017109447A - The method of monitoring soil compaction - Google Patents

Claims (1)

A method of controlling soil compaction, involving the preparation of a test site, the soil type of which corresponds to the type of soil in the desired compaction site, performing several passes of the vibratory roller with the vibration turned on for the test site, recording vertical accelerations of the vibration roller using a vibration acceleration sensor mounted on the vibration roller of the vibration roller so as to fix the acceleration of the vibrating roller along an axis perpendicular to the sealing surface and through the longitudinal axis of the vibration roller, converting the signal from the vibration acceleration sensor from an analog type (type of output signal from a vibration acceleration sensor) using a signal converter to a digital type for further processing in a controller (microprocessor, computer, analog-to-digital converter, etc. ), compiling the spectrum of vertical accelerations of the vibration roller of the vibration roller based on the data obtained from the vibration acceleration sensor, highlighting the amplitudes in the spectrum of harmonics and subharmonics vertical accelerations of the vibratory roller of the vibratory roller at the frequencies indicated in the calculation formula of the soil compaction indicator, calculation of the compaction index, determination of the calibration coefficient, the movement of the vibratory roller at a constant speed and vibration enabled on the desired compaction section, registration of vertical accelerations of the vibratory roller using a vibration acceleration sensor installed on vibration roller of the vibration roller in such a way as to fix the acceleration of the vibration roller along si, perpendicular to the sealing surface and passing through the longitudinal axis of the vibration roller, converting the signal from the vibration acceleration sensor from an analog type (output signal type from a vibration acceleration sensor) using a signal converter to digital type for its further processing in the controller (microprocessor, computer, analog-to-digital converter, etc.), compiling a spectrum of vertical accelerations of the vibration roller of the vibration roller in the controller (microprocessor, computer, analog-digital ohm transducer, etc.) based on the data obtained from the vibration acceleration sensor, highlighting on the spectrum of harmonics and subharmonics the amplitudes of the vertical accelerations of the vibration roller of the vibration roller at the frequencies indicated in the calculation formula of the soil compaction indicator, calculating the soil compaction index, deriving the soil compaction index on the indicator (operator panel, monitor, screen, etc.), which displays the optimal and negative zones of the vibratory roller during soil compaction, the operator decides on the basis After receiving the data displayed on the indicator (operator panel, monitor, screen, etc.), continue the movement of the vibratory roller with the vibration turned on, turn off the vibration, change the vibration mode or end the soil compaction process, characterized in that when making several passes of the vibration the roller with vibration enabled on the test site determine the values of the dynamic modulus of soil deformation using the installation of dynamic loading and the values of the coefficient of compaction of the soil using cutting rings at several points of the compacted soil surface after each pass, record the vertical acceleration of the vibration roller using a vibration acceleration sensor mounted on the vibration roller of the vibration roller in such a way as to record the acceleration of the vibration roller along an axis perpendicular to the compacted surface and passing through the longitudinal axis of the vibration roller, signal from an acceleration sensor from an analog type (type of output signal from a vibration acceleration sensor) is converted using m signal to digital type converter for further processing in the controller (microprocessor, computer, analog-to-digital converter, etc.), in the controller (microprocessor, computer, analog-to-digital converter, etc.) a spectrum of vertical accelerations of vibration drum of the vibration roller based on the data obtained from the vibration acceleration sensor, the harmonics and subharmonics of the amplitudes of the vertical accelerations of the vibration roller of the vibration roller at the frequencies specified in the calculation the exact formula of the soil compaction index, then using the regression equations determine the values of the significance coefficients of the harmonics and subharmonics of the amplitudes of the vertical accelerations of the vibratory roller of the vibratory roller and the general calibration coefficient, taking the values of the obtained module of dynamic deformation of the soil as the values of the compaction value “CV”, produce data recording with the values of the obtained coefficients of the significance of harmonics and subharmonics of the amplitudes of accelerations and the general calibration coefficient into the controller’s memory (microprocessor, computer, analog-to-digital converter, etc.) as constant input parameters corresponding to a certain type of soil (compacted by a vibrating roller in the test section) under certain compaction conditions, and when the CV indicator is displayed on the indicator (panel operator, monitor, screen, etc.) also display information with the values of the soil compaction coefficient and the module of dynamic soil deformation.