SU481044A2 - Device for simulating an explosion - Google Patents

Description

4, connected through a switch 5 with an RL-grid 6 and measuring unit 7, the outputs of which are connected to block 8 of transverse elements. Another output of the switch 5 through block 9 determine the degree of fragmentation is connected to another input of the measuring unit of block 7.

Pa figs. 2 shows a diagram of block 9 for determining the degree of fragmentation.

Unit 9 consists of a high-impedance divider 10, a switch 11, an inverter 12, an amplifier limiter 13, an electronic switch 14, a multivibrator 15, and a pulse counter 16.

The operation of the plant is as follows.

The electrical signal comes from the switch to the divider 10, where it is reduced if necessary; then, via switch 11, it is fed to limiting amplifier 13 and electronic switch 14. This signal comes either directly to amplifier limiting amplifier 13 (when analyzing the compression phase), or through inverter 12, changing the signal phase, when analyzing the tensile failure. When the voltage level corresponding to the strength of the defect is reached in the signal, the support element opens and the pulses of the multivibrator 15 of a fixed frequency enter the pulse counter 16. This continues until the voltage in the signal under study decreases below the tensile strength. The trigger threshold corresponding to the strength of the defect is set by an adjustable resistor with a scale, calibrated in terms of voltage, included in block 13.

When the pulse frequency of a multivibrator is 1 mGp, the number of pulses recorded by the counting device when one signal is fed from the analog grid is equal to the time (in microseconds) during which the voltage in the sigal is higher than the normal value corresponding to the strength of the defect in the hydrogen. Determining the degree of fragmentation on the proposed device is as follows. On the basis of information on the distribution of the strength of defects in explosive rock and on the scale by voltage, the distribution of threshold values of electrical voltages is calculated, for which the limiter and the time required for closing each class of defects should operate. The obtained values of electrical voltages are sequentially set in block 13. Then, bypassing the switch, various grid points of the analog device determine where the signal load exceeds the critical voltage required to develop a particular medium defect, and the lifetime of the excess sufficient for closure of defects of one class. This information is sufficient to determine the crushing size, which in this place will be equal to the distance between defects that meet the two previously specified conditions.

Subject invention

Device for simulating an explosion but auth. St. No. 303439, characterized in that, with the crushing size determination panel, it contains a multivibrator, a pulse counter and a series-connected voltage divider, a switch, an amplifier-limiter and an electronic key, to the second input of which the output of the multivibrator is connected, and the output of the electronic key is connected the input of the pulse counter, the input of the voltage divider is connected to the output of the switch, and the output of the pulse counter is connected to the input of the measuring unit.

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FIG. 2