SU905369A1 - Unit for static probing of soil - Google Patents

Description

(54) INSTALLATION FOR STATIC SENSING

one

The invention relates to engineering surveys in construction, in particular, to devices for static soil sounding with automatic recording of the parameters of the physical and mechanical characteristics of the soil.

The closest to the proposed technical solution is an installation for static soil sounding, including a probe, an indentation mechanism, pressure and displacement sensors, a pulse generator, a displacement corrector, a digital-analog converter, a switch, a trigger, a comparison circuit, a meter counter 1.

A disadvantage of the known device is that at a high speed of the probe movement, due to the inertia of the operation of the tape mechanism of the recording unit, there is a loss of pulses controlling the movement of the paper. If the control pulse of the synchronous motor has not yet completed the processing of the movement of the diagram tape and a new impulse has been received, the pulse is not taken into account. During the full cycle of operation, the pulses accumulate and this leads to an error.

SOIL

in operation of the tape mechanism, which in turn leads to a decrease in the accuracy of recording the depth of the probe. The installation limits the speed of movement of the probe, and

5 of this mode, independent of the operator, it works with errors that cannot be fixed later.

The purpose of the invention is to increase the speed of sounding and the accuracy of recording

, Q immersion depth of the probe.

Claims (1)

The goal is achieved by the fact that in an installation for static sounding of soil, including a probe, a pressing mechanism, pressure sensors 5) and displacements, a pulse generator, a displacement corrector, a digital-analog converter, a switch, a trigger, a comparison circuit, a meter counter, and the counter input meters connected to the output of a pulse generator, the input of which is co20 with the key through a trigger connected in turn to the displacement corrector through a comparison circuit that is connected to a pulse counter, and the key connected to a power converter and a synchronous motor, and the switch is connected to a pulse generator and a digital-to-analog converter whose input is connected to the meter counter output, an additional counter connected in series is connected, and an adder whose input is connected to the meter counter output and the totalizer output is connected to the key input and an input of a pulse counter, the input of which is connected to the output of a comparison element also connected to the input of a meter counter. These new elements and the connections between them exclude the possibility of the pulses coming in from moving the meter of the chart tape to be lost. This makes it possible to increase the speed of sounding and the accuracy of recording the depth of the probe. The drawing shows a block diagram of an installation for static soil sounding. The installation consists of a probe 1, a depressing mechanism 2, pressure sensors 3 and 4, which determine the friction resistance of the soil along the lateral surface of the probe and, accordingly, the soil resistance of the immersed cone of the probe, displacement sensor 5, pulse generator 6, pulse counter 7, power supply 8, converter 9, a recording unit 10, with a synchronous motor I, and a switch 12, a digital-to-analog converter 13, a counter 14 meters of a movement corrector 15, a reference element 16, a key 17, an additional counter 18, an adder and 19. Installation works as follows. When moving B, probe 1 soil due to friction transmission rotates the rollers of sensor 5, transmitting a movement signal to pulse generator 6, where a short pulse is sent to an additional counter 8, and the duration of this pulse does not depend on the duration of the pulse formed at the output of sensor 5. At the time of registration of the pulse counter 18 and in the 14 meter counter, a zero signal is set. Therefore, at the output of the transfer of the adder 19, a signal appears by adding the forward code of the additional counter 18 and the return code of the counter 14 meters. The signal from the output "transfer adder 19 opens the key 17 begins to count the counter 7. pulses. In this case, pulses from converter 9 are transmitted to its input synchronously with alternating voltage of converter 9. The number that counts counter 1 is determined by the displacement corrector 15 and when the counter counter 7 pulses coincides with the offset corrector 15 at the output of the comparison element 16 the impulse which is fixed in the counter of 14 meters and at the same time this impulse resets the counter of 7 impulses to zero. The state of the counter is 14 meters through the digital-to-analog converter 13 is recorded in the registering unit 10. At the same time, the transfer signal from the adder 19 enters the key 17 and the synchronous motor 11 of the registering unit 10 turns on. If during the operation of the synchronous motor 11 one more or more pulses from the pulse generator are received 6 to the additional counter 18, then the additional counter 18 will record these pulses and at the output “the transfer of the adder 19 will be a signal until the counter of the 7 pulses runs out a whole number pulses received from the pulse generator b multiplied by the number specified by the offset 15 displacements. Thus, the fixation of pulses in an additional counter 18 and a comparison of the state of this counter with a counter of 14 meters ensures a clear fixation by the synchronous motor 11 of any number of pulses, regardless of the rate of input to the installation. Thus, the proposed installation provides synchronous movement of chart paper, even at a limited speed of its movement due to the inertia of the synchronous motor and gearbox of movement of chart paper. The proposed installation allows the recording of sounding parameters at the maximum probe / decree speed in another GOST 2006974, the accuracy of the recording of the depth of the probe is increased by introducing an additional counter that records all pulses from the sensor. The process of recording the results of the sensing is performed automatically by the operator freeing itself from the visual removal of the reading and logging. Claim set up {a for static soil sounding, comprising a probe, a pushing mechanism, pressure and displacement sensors, a pulse generator, a displacement corrector, a digital-to-analog converter, a key, a trigger, a comparison circuit, a meter counter, and the meter counter input is connected to the output of a pulse generator, the input of which is connected to the key via a trigger, connected in turn to the equalizer, moving through the comparison circuit, which is connected to the pulse counter, the key being connected to the power supply generator and synchronous motor, and the switch is connected to the pulse generator and digital-to-analogue converter, the input of which is connected to the meter meter output, characterized in that, in order to increase the probe speed and accuracy of recording the immersion depth of the probe, serially connected additional the counter and adder, the input of which is connected to the output of the meter counter, and the output of the adder is connected to the key input and the input of the pulse counter, the input of which is connected to the output of the element is compared and also connected to the meter input. Sources of information taken into account in the examination of 1- USSR Copyright Certificate № 708009, cl. E 02 D 1/00, 1977. - g Yu