SU734552A1 - Device for determining physical characteristics of specimens - Google Patents

Description

The invention relates to an ultrasound control technique and is intended for use in determining the physical characteristics of samples, for example, cores of rocks.

A device for determining the physical characteristics of samples is known, comprising a base with guides, two carriages mounted on them, two holders with piezoelectric transducers, one of which is fixedly mounted on the base and the other on one of the carriages, a rotary table placed on the second carriage, intended for sample placement, and sample thickness gauge 1.

However, in such a device, the turntable with the test sample is set manually; the thickness of the test sample is measured visually by the meter; The clamping of the converter to the sample is not mechanized. These disadvantages reduce the performance of the control.

The aim of the invention is to increase the productivity of the control.

For this, the device is provided with a drum, the axis of which is perpendicular to the base guide, a spring element connecting the axis and the inner surface of the drum, with a flexible CONNECTION; the connecting drum with the rotary table carriage, the block closed with it, the second flexible connection with the holder carriage, and a 10 potentiometer, the engine of which is similar to the axis of the drum, is used as a displacement meter.

FIG. 1 shows a general view of the proposed device; in Fig.2 a section aa in Fig.1; in fig. 3 15 section bb in Fig.1.

The device contains a base 1 with guides 2, two carriages 3,4 mounted on them, two 1; a holder 5.6 with piezoelectric transducers 7.8 (holder 5 is fixed on base 1, and holder 6 on carriage 4) . The device also contains a rotary table 9 placed on the carriage 3, a sample thickness gauge in the form of a potentiometer 10, a drum 11, the axis 12 of which is perpendicular to the guides 2, a spring element 13 connecting the axis 12 and the inner; gibkhyu 14,

connecting drum 11 with a rotary table carriage 3, a block 15 fixed on it, connected by a second flexible coupling 16 with a carriage 4 of the holder 6. The potentiometer motor 10 is connected to the axis 12 of the drum 11.

The device works as follows.

When the holder b is moved by a certain distance, connected through the flexible link 16 and the block 15, the table 9 is moved two times smaller than the holder b, i.e. self-aligning in the middle of the distance between the transducers 7 and 8. On the rotary table 9, the sample under test is set in the desired position (not shown in the figures) and the holder 6 smoothly lowers under the action of the spring element 13. The force from the spring element 13, which connects the axis 12 with the inner surface of the drum 11, is transferred from the drum 11 through the flexible coupling 14 to the carriage 3 of the table 9 and then through the block 15 fixed on the carriage 3, and the flexible coupling 16 to the carriage 4 of the holder 6. The potentiometer slider 10 is connected to the axis 12 drum 11, poe to this, when the drum rotates, its resistance changes in proportion to the distance between the transducer 7 and 8 and is set into an electronic measuring unit (not shown in the figures),

Self-alignment of the rotary table, automatic measurement of the sample base and semi-automating of the clamping of sensors to the sample increase the performance of the device.

Claims (1)

1. Copyright certificate USSR № 123748, cl. G 01 N 29/00, 1959 (prototype). ff