CS234076B1 - Equipment for static calibration and verification of extensometer dynamic properties - Google Patents

Abstract

The purpose of the device for static calibration and verification of dynamic properties of extensometers is to increase the reliability and expand the range of monitoring of measured values. Two rods are coaxially placed in the annular frame, of which the fixed one has a spring inside, on which a pin protruding towards the second, sliding rod rests, on the outer end of which an apparatus is attached, e.g. a micrometric screw, which controls the desired stroke of this sliding rod. The extensometer is attached to both rods and the stroke of the movable rod is measured. For measurements at low or elevated temperatures, a cooling or heating chamber is inserted into the frame.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a static calibration device for verifying the dynamic properties of extensometers and is intended to increase reliability and extend the range of measurement values.

A device for static verification of extensometers at normal temperatures is known in which the movement of the movable part is caused by a micrometer screw against which two springs act, which return the movable part. The extensometer is attached between the movable and fixed parts. This device is only capable of measuring basic characteristics.

Furthermore, devices operating on the principle of a parallelogram with conductors and a measuring rod to which the extensometer is clamped are known. This kinematic and mechanically demanding device with a plurality of moving parts is also only capable of measuring the basic characteristic.

This gap is bridged by the device according to the invention, which consists of an annular frame in which two rods are aligned facing each other inside the frame. The first one is fixed, provided with a spring inside which is supported by a pin terminated by a spherical cap and projecting towards a second rod which is slidable and provided with a fixed ball at the outer end adjacent to the stroke-inducing member of the sliding rod.

If it is necessary to calibrate or verify the dynamic characteristics of the extensometers at low or elevated temperatures, the air conditioning chamber shall be placed inside the frame by fitting it to the rod pins.

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The device according to the invention is of a modular type with easy interchangeability of individual members and allows extended monitoring of measured values.

An exemplary embodiment of the device according to the invention will be explained by means of the attached figure, which shows a front view of the device with the cooling chamber open and some parts broken off.

In the frame 1, which forms a continuous ring, two bars, a fixed bar 2 and a sliding bar 2, are positioned coaxially in the openings on both sides, a fixed bar 2 and a sliding bar 2. The sliding bar 2 is mounted in the second fixed pin 2 ^{in the} ball guide 8 and its position is determined in the static measurement by positioning the micrometer screw 2 during dynamic verification by means of a cam (not shown). The slide bar 2 J ^e terminates at firmly seated ball 10 for providing point contact micrometer 2 · For the accurate measurement stroke is determined by dial úchylkometr 11 whose tip 12 is supported by micrometer screw 2 · Place the dial gauge 11 may be used meter lengths with electric output and the possibility of automatic evaluation.

In the embodiment shown, an additional cooling chamber 13 mounted on the pins of the bars 2 and 2 is inserted in the frame 1.

The extensometer to be tested is mounted in a conventional manner, as is the case with a material sample, on a fixed rod 2 and a sliding rod 2 which simulate the sample to be measured. Location of the slide rod 2 ^e J In static measurements determined using a micrometer screw 2 »which develops the desired stroke measured by a dial gauge 11. In the stroke of the slide rod ^{2, the} pressure spring extends or retracts against the force of 2 tons which is much as with the sliding shaft 2 ^{in a} permanent contact.

For static calibration of extensometers at low temperatures, additional cooling chambers 13 are used. For mounting, remove the fixed pin 4 with the fixed rod 2, slide the slide bar Ja, slide the air conditioning chamber onto the second fixed pin 2 of the slide bar 2. 2 and the fixed rod pin 2 is fixed in the desired position.

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Liquid nitrogen is used as the cooling medium.

For the static calibration of the extensometers at elevated temperature, a heating chamber (not shown) also mounted on the pins of the rods 2 and 1 is used in a similar manner. Hot air is blown into the heating chamber.

To verify the dynamic properties of the extensometers, the same procedure is followed except that the micrometer screw 6 is removed and replaced by a plate for dynamic loading. An electric motor is attached to the plate on the shaft of which a replaceable cam is mounted. The magnitude and course of the load amplitude can be varied by the shape of the cam according to the type of test. The procedure is similar for working at low and elevated temperatures. These measures are not shown in the drawings, since they can be carried out in any suitable known manner.

Claims (2)

An apparatus for static calibration and verification of the dynamic properties of an extensometer characterized by an annular frame (1) in which two rods (2,3) are aligned facing each other inside the frame (1), the first of which is fixed, provided inside a spring supported by a pin (5) terminated by a spherical cap (6) and projecting towards a second rod (3) which is slidable and provided with a fixed ball (10) at an outer end adjacent to the stroke-inducing member of said sliding rod (3) /. 2. Apparatus according to claim 1, characterized in that an air conditioning chamber (13) mounted on pins (4.7 bars) is located inside the frame (1).