SU737559A1 - Unit for investigating soil by vibration-percussion probing - Google Patents

Description

(54) INSTALLATION FOR STUDY OF A GROUND BY VIBRATION SINGLE

Claims (2)

The invention relates to the field of construction, in particular to installations for. determine the physical and mechanical properties of the soil by vibro-impact sounding. Known installation, including; base machine, rods with base plate and tip, load device with recorder connected to an electrical circuit with electrical resistance in the form of a wire spring loaded from one end and attached by free cable to the terminal located on the base plate. The disadvantage is the limited limits of immersion depth measurements n & several centimeters of a finisher, moreover, the soil carrying capacity and the amount of deformation are judged visually depending on the change in the length of the electrical resistance according to the manometer and ammeter readings. The closest technical solution is an installation for investigating the construction properties of a soil by dynamic sounding, including a basic machine with a generator, a mast and vibrating hammer on which a probe is fixed, a measuring device in the form of a rod with electrical resistance, an associated brush, which is rigidly connected to the probe, a current source as well as indicator 2. Its disadvantage is insufficient measurement accuracy, as well as the inability to automate the process of recording probing. .. The aim of the invention is to improve the accuracy of research and automation of recording the results of the probing process. The goal is achieved by the fact that in the installation containing; base bus & bus with generator, mast and vibratory hammer, on which the probe is fixed, measuring device in the form of a rail with electrical resistance, interacting brushes rigidly connected to the probe, current source, rail is made in series with two rows of contacts with constant pitch . 373 each of which is interconnected and a trigger, an emitter follower, amplifiers, a diode, a stabilizer, a capacitor, and an electric motor are inserted into the measuring device, with two rows of rail contacts connected to the trigger inputs whose output is connected to the emitter follower and ECODOM the first amplifier, the output of which is connected to the anode of the diode, the cathode of which is connected to one of the capacitor plates, to the output of the second amplifier and stabilizer, and the emitter follower is connected to the input of the third amplifier, which is connected to the motor, wherein the output of the second amplifier is connected to the indicator. Fig. 1 shows an installation for exploring the ground by vibro-impact sounding, the general WRC in Fig. 2 is a block diagram of the installation. Installation of a base machine 1 with generator, mast 2, on which measuring rail 3 is fixed with contacts of constant pitch 4, vibrohammer 5 with contact brush 6 and probe 7 rigidly attached to it with conical tip 8. Contacts 4 rails 3 and contact on the brush 6 with an electric cable 9 connected with a U unit block, an electric motor 11 of the tape drive mechanism, a capacitor 12, an output current regulator 13, a self-recording indicator 14, a trigger 15, an emitter follower 16, amplifiers and a diode 20. The installation works as follows it. When the probe 7 with a conical tip 8 is immersed with vibrating hammer 5 contact to brush 6, passage through contacts 4 of rail 3, applies voltage to one of the terminals of trigger 13. Before starting operation, vibrating hammer 5 is set to the upper position, and the working screen drops to a point zopshfanov. In this case, the co-brushing brush 6 is located on any right (according to the scheme) contact 4 of the slats 3 or in the immediate vicinity of it. The switch starts the motor of the vibro-hammer, and then when the switch is pressed on the switch, the electric block 10 is disconnected. At the same time, when a positive impulse is given, one trigger transistor 15 is off, and the ary is closed, and the emitter follower transistor 16 receives a pulse through a capacitor, opening at 9 THIS the transistor of the third amplifier 19. The electromagnet of the pulsed motor 11 of the tape mechanism and the signal lamp are turned on; at the same time, the transistor of the first amplifier 17 opens and charges the capacitor 12 to the supply voltage and through the second amplifier 18 is applied to the self-recording indicator 14. At the moment of switching on the electromagnet, the percussion indicator of the indicator 14 makes a cross dash on the tape; which means the starting time of the immersion probe B is the ground and occupies the right side of the diagram tape. As the probe 7 dips into the ground, the pen of the recorder draws a straight line on the chart tape until the brush 6 of the vibratory hammer 5 touches the next, left (according to the diagram) pin 4 pefrki 3. When the brush 6 is closed with the left (according to the diagram) contact 4, the second output of the trigger 15, the trigger overturns, the capacitor 12 begins to discharge through the transistor — the discharge current regulator 13, the arrow 14a of the indicator 14 deflects, makes a transverse stroke on the lecte, and its pen takes a position on the left side of the diagram. The dash indicates the end of the first interval and the beginning of the next. When the vibrating hammer 5 is closed by the brush 6 of the next right contact 4 (according to the scheme), the operation of the block 10 is repeated. . By varying the resistance in the base circuit of the transistor, a switch can be used to obtain different resolutions of changes in the speed of the probe 7 into the ground. When the probe is fully immersed in the ground, the brush 6 closes with the last, bottom, contact, the thyristor disconnects the power from the electrical unit 10. The subsequent probe rod 7 is expanded, after which the process is repeated. The use of the proposed ground test device by vibro-sounding sensing provides the following advantages in comparison with existing devices and installations: it improves the accuracy of the conducted research; . substantially automates the process of recording soil soundings; reduces & m research and office processing of the obtained diagrams; allows to significantly improve the process of airborne sounding for the correct interpretation of the data of the probes in order to obtain more complete information about the properties of the soil. The invention The installation for the study of soil by vibro-sounding sensing, which includes a basic machine with a generator, a mast and a vibrating hammer, on which a probe is fixed, a measuring device in the form of a resistor with electrical resistance, interacting brushes with it, a current source, and an indicator so that, in order to improve the accuracy of research and automate the recording of the results of the sounding process, the rail was made in series with two rows of contacts with a constant A coma, each of which is connected between a fault, and a trigger, an emitter follower, amplification, a diode, a stabilizer, a capacitor, and an electric motor are inserted into the measuring device, and two rows of rail contacts are connected to the trigger inputs, whose output is connected to the first input an amplifier whose output is connected to the diode anode, the cathode of which is connected to one of the capacitor plates, to the second amplifier code and the stabilizer, and the emitter output is connected to the input of the third amplifier, the output of which is connected with electric motor, priets. the output of the second amplifier is connected to the indicator. Sources of information taken into account during the examination 1. USSR author's work No. 246141, cl. G 01 M 3/42, 04/13/68. 2. USSR author's certificate number 394695, cl. GOl N 3/48, 03/29/71. (prototype).. “B sc | go 3 -6