RU22328U1 - TENZOKALIBRATOR - Google Patents

Description

The inventive useful node relates to measuring technique, namely, to exemplary measuring instruments intended for testing strain gauges and strain gauges used in testing technique.

Known strain gauges for checking strain gauges containing a housing, a movable measuring rod, a stationary measuring rod and a micrometer head using a micrometer screw to convert the rotational movement of the drum of the reading device into the translational motion of the measuring eraser / I /, / 2 /, / 3 /.

The disadvantage of these strain gauges is the lack of measurement accuracy due to the fact that the movable and stationary measuring rods, as well as the micrometer head, are installed in various elements of the housing (a long power chain through which:;, deformation is transmitted).

g1 closest in technical essence to an analogue is the strain gauge according to AS 1 I580I45, published in 1990. / 4 / containing a base, a micrometer head with a micrometer screw, a fixed measuring rod fixed to the base, a movable measuring rod mounted coaxially with the micrometer screw, and a spring for pressing the movable measuring rod against the micrometer screw, while the movable measuring the rod and spring are mounted inside the stationary measuring rod coaxially with it, and the micrometer head is attached to the stationary measuring rod.

The disadvantage of this analogue is a significant error in the measurement of a given displacement, determined by the low resolution of the reading device (the division of the measuring head of the micrometer is 0.01 mm).

The purpose of the claimed utility model is to increase the accuracy of measuring a given displacement.

This goal is achieved due to the fact that a drum with two millimeter scales carried on it is rigidly seated on the housing of the micrometer head: one for specifying alternating movements, the other for specifying alternating movements, and the micrometric screw of the micrometric top is attached to the outer drum with applied G: on it with a micron dial. The result of measuring a given displacement is determined by adding the readings of the scale printed on a stationary drum, mounted on the housing of the micrometer head, and on the outer drum with a dial.

The proposed utility model is illustrated in Fig. 1-5. In fig. I shows the design of the strain gauge, in fig. 2 - a device for reproducing movement, in Fig. 3 - displacement transducer, in fig. 4 - reading device, in fig. 5 - calibration of the strain gauge.

The inventive strain gauge consists of a movement reproducing mechanism I (Fig. I) and a strut 2 fixed in the base 17. The movement reproducing mechanism is connected to the landing strut and fixed with a screw 3.

The displacement reproducing device consists of a reading device 4 (Fig. 2) and a displacement transducer 5 connected coaxially and secured with a collet-terminal clip to the bracket 6.

The shaft 7 with the sleeve fixed on it sits movably, without backlash in the sleeve 9 (Fig. 3) and abuts against the heel of the micrometer screw 10. To ensure constant contact between the ball and the heel, np; iTKnHH II and 12 are placed inside the sleeve.

Przhgin made with the same number of turns, from OD1-Yu and the same wire, with the same pitch, but with left and right winding. Int., The springs placed a polished washer 13. Such a device prevents the rotation of the rod 7 in the sleeve during compression.

The scale-ue device (Fig. 4) is a micrometer head 14, on the case of which a press scale Ib with a millimeter fixed scale sits on a press fit, and a drum 16 with a micron scale on a micrometer screw 10. When the drum Xb rotates, the icrometric screw with the drum moves and the magnitude of the movement of the heel of the microscrew 10 is calculated on the millimeter and micron scales.

± 12.5 mm, which is used by the GGC task of alternating movement. A. One scale is offset from the other by 0.5 mm. 3 the result of these two scales is the image; pcs a single scale with a division price of 0.5 mm, which corresponds to one revolution of the drum 16 relative to the stroke L and the movement of the rod

7 on 0.5 mm. A circular dial with 250 divisions is applied on the drum. The division price of the reading device is 2 μm, i.e. the rotation of the drum 16 by one such division relative to the line A causes the movement of the rod 7 by 2 μm.

For metrological verification of the strain gauge using end gauges of length, the clamp 19 (Fig. 5), which is mounted on the sleeve 9 (Fig. 3) and fixed with a screw 16.

8 The opposite mounting hole is mounted indicator head and fixed with screw 20.

The metrological characteristics of the strain gauge are determined by setting the displacements by the null method and taking readings of the reading device of the strain gauge.

Strain gauge works as follows.

Depending on the purpose of the verified sensor of tensile strain or tensile-compression, drum 16 (Fig. 4) is respectively set to O on a millimeter scale with digitization 0-25 mm or to O on a scale with digitization +; 12.5 mm deposited on the drum 15.

The verified sensor is installed and secured with spring-loaded clamps with one prism on the sleeve 9 (Fig. 3), and the other on the sleeve B of the rod 7. To prevent slipping of the sensor prisms on the surfaces of the sleeve 9 and sleeve 8 during the verification process, the aluminum ones are mounted and fixed supports (see Fig. I).

The verified sensor is connected to the measuring equipment.

By rotating the drum 16 (Fig. 4), the displacements corresponding to the points being verified are alternately set, and the readings of the measuring equipment (strain gauge) are recorded.

The error of the sensor is determined according to the corresponding method. USED MCT04iiIli {H

I. Catalog of the company (2Pr)

ml sh / n L / 77eg j g / f / 2eJf / / 7osdi: ff e / / 77er a / Weomf / e / 77er Y / gWHO / rGYa / l

 Z. Company directory (United Kingdom) / w -4 catalog and. M0: {/ oafu

3. The catalog of the company / U / “(SJ) / AvS catalog (F, model GoO.Oa. .Y, p. 4 /

4, Copyright certificate 1580145,. in 1990

Authors: //% SH Rozhentsev B.C.

Prokopenko D. 10,

Claims (2)

1. A strain gauge designed for calibration and calibration of strain gauges and strain gauges, comprising a base, a spring-loaded measuring rod, a stationary measuring rod, a micrometer head, a micrometer screw that is in contact with a movable measuring rod, and a spring, characterized in that it is mounted on the body of the micrometer head a drum with millimeter scales for setting alternating and alternating movements, and a micrometer screw is fixed to the outer drum with the applied and it micron dial. 2. The strain gauge according to claim 1, characterized in that for its metrological verification, a bracket in the form of a U-shaped bracket is fixed on the stationary measuring rod using a collet-clamp terminal, having a hole at the opposite end located coaxially with the movable measuring rod, and a collet - terminal clamp for attaching the measuring head of the indicator.