SU753984A1 - Apparatus for monitoring static probing variables - Google Patents

Description

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The invention relates to the construction, and more specifically to the study of the physicomechanical characteristics of soils, the testing of piles and the ShTS1MPOVY test.

A device for monitoring static sounding parameters is known, comprising a dip sensor, dynamometers and indicators 1.

Another device for monitoring static sounding parameters is known, comprising a immersion sensor connected to one of the amplifier inputs and an indicator 2.

The disadvantage of these devices is the inconvenience of recording information on diagram tapes in the form of continuous curves. Using this information requires translating it into numbers, and then interpreting this information in the form of the physicomechanical characteristics of the soil. In addition, the results obtained are of great error, since the level of information obtained is low.

The purpose of the invention is to improve accuracy.

This goal is achieved by the fact that the device for controlling parameters

a static sounding device containing a immersion sensor connected to one of the amplifier inputs and an indicator provided with a software block, a memory element and a digital printing mechanism, one of the outputs of the software block connected to another amplifier input whose output is connected to one

10 from the memory element inputs and to one of the indicator inputs, the other input of which is connected to one of the memory element outputs, the other output of which is connected to a digital-to-read mechanism, and the other memory element input is connected to another output of the program block.

The drawing shows a block diagram of the device 20.

The diagram contains the object under study with sensor 1, program block 2, amplifier 3, memory element 4, indicator 5, and digital-printing mechanism b.

A device for monitoring the results of soil testing works as follows

From the object under study with the sensor 30 1 the information is fed to the amplifier

3, the operation of the amplifier is controlled by software block 2, which is in the mode of recording information on a time program, a given parameter or a sensor signal. It connects Tejfjb 3 to memory element 4. In addition, program block 2 provides information output from the memory element, to the diffro-printing mechanism mechanism b or directly to its output to the computer according to a given program. Indicator 5 is used to monitor the recording operation, it gives information about the recording operability. The specific implementation of the device for recording static probing parameters is carried out on the system for recording the results of static probing. The object under study is the soil, the strain gauge 1 is used as the sensor. is a logic circuit executed on digital integrated elements, allowing to record information on the signal of the immersion sensor into memory element 4. The same block controls the operation of the memory element when reading information. The amplifier 3 is made on microcircuits in this case using two identical amplification channels - frontal resistance (ground resistance to the probe cone and ground friction along the lateral surface). Amplifier 3 provides the necessary amplification of the analog signal of the sensor and its conversion to binary code. The memory element 4 is a self-contained unit made on digital integrated circuits of information recording. Its capacity is determined by the number and capacity of the chips used in it. When filling

memory element 4, it is placed in the information storage mode. A free is connected to the amplifier 3. memory element. Indicator 5 - dial gauge type milliammeter. The information from the memory element 4 filled with software block 2 is output to the digital-printing mechanism 6. The PL-80 is used as the digital printing mechanism.

Claims (1)

Invention Formula A device for monitoring static sounding parameters, comprising an immersion sensor connected to one of the amplifier inputs and an indicator, characterized in that, in order to increase accuracy, it is equipped with a software block, a memory element and a digital printing mechanism, one of the outputs of the program block is connected with another input of the amplifier, the output of which is connected to one of the inputs of the memory element and to one of the inputs of the indicator, the other input of which is connected to one of the outputs of the memory element, the other output of which is digital-to-one with the printing mechanism, and the other input of the memory element is connected to another output of the program block. Sources of information taken into account in the examination 1, G. Korchagin et al. Pressiometry and rotational slice in engineering geology. M., Nedra, 1976, p. 84-107. 2, Ferronsky V.I. Penetration-folding methods. M., Nedra, 1969, s, 100--127,