SU1328660A1 - Meter of spring parameters - Google Patents

Abstract

The invention relates to a process measurement. The aim of the invention is to increase the productivity in determining the compressive force of standard cylindrical springs of the steam pipelines. The goal is achieved by supplying the meter with additional scales and a nomogram, which, after carrying out consecutive interrelated measurements, determine the compressive force of the spring. The meter contains a bar 1 with scales 2, 10, 11, 12, 13 and four jaws located perpendicular to the bar, with one jaw 3 rigidly connected to the jig 1, jaws 6 and 7 located on the carriage 4, and jaw 9 - on the slider 8. First, by stirring the carriage 4, the diameter of the spring wire is measured and on a scale of 2 and on a scale of 10 the number of the standard spring is determined, after which the slider 8 is set on a scale of 11 to the mark corresponding to the number of the spring The gap between the sponge 9 and the zero positioned sponge 7 is equal to the length of the spring. in a free state. After that, stirring, and the carriage 4, are measured with sponges 7 and 9 on a scale of 12 or 13, the spring draft corresponding to the number in percent and according to the nomogram 14, which the gauge is equipped with, determine the spring compressive force. 2 Il. b O) with 1C CX) o O5

Description

This invention relates to technical measurements.

The purpose of the invention is to increase the productivity in measuring the deformation and in determining the force of compression of standard cylindrical springs of the suspensions of steam pipelines of thermal power plants by supplying the meter, besides millimeter, by a number of scales and a nomogram.

FIG. 1 shows a structural diagram of the meter; in fig. 2 - nomogram effort.

The meter contains a bar 1 with a millimeter scale 2 and a sponge 3 rigidly fixed on one end of the bar 1, a carriage 4 with a vernier 5, a sponge 6 and 7 mounted on opposite sides of the carriage 4, a slider 8 with a sponge 9. On the bar 1 there are scales: 10 numbers of springs, P-heights of springs in a free state, and 12 and 13 percent scales. All scales are applied to the rod, and for convenience of use they can be located either on one or both sides of the rod 1. The meter also contains a nomogram of compressive forces, which can be located anywhere on the meter and structurally designed as a scale 15 of compressive forces and a number of percentage scales 16, corresponding to the springs with certain numbers. The scales 15 and 16 have a single reference point and, for ease of reading, are equipped with a slider 17 with a sight 18.

The meter works as follows.

First, by moving the carriage 4, the spring wire diameter is measured on a millimeter scale 2 with sponges 6 and 7, while simultaneously displacing the carriage 4, the spring number is determined on a scale of 10, then the slider 8 is moved to the risks with the spring number on a scale 11. The index in this case is the edge of the sponge 9. In this case, the size between the jaws 9 and 7 in the zero position is equal to

the length of the spring of the corresponding number in a free state. Next, by moving the carriage 4, the spring draft is measured on a scale of 2, and the percentage of the draft for a spring of the corresponding number is measured on a scale of 12 (or 13). By knowing the percentage of spring deposition, its compressive force is determined by the nomogram 14, for this it is necessary to install the slider 18

17 against the corresponding division of precipitation on the percentage scale 16 corresponding to the given spring number, and on the scale 15 to carry out the counting force of compression.

Claims (1)

Invention Formula A spring parameter meter containing a bar with a millimetric pin and perpendicular to it with a sponge rigidly mounted on one end of the bar mounted on the bar with the possibility of carriage with a nonius applied on it, a second sponge mounted on the carriage from the side of the first sponge and perpendicular to the rod, a third sponge mounted on the carriage from the side, opposite the first two jaws and perpendicular to the bar, a slider mounted on the bar with the ability to move along it, a fourth sponge mounted on the slider on the side of the third sponge perpendicular to the bar, and the index of measurement results located on the carriage and the slider, differing from that, in order to increase productivity in measuring the deformation and determining the compressive force of the cylindrical springs of the suspensions of steam pipelines of thermal power plants, it is equipped with a scale of spring numbers printed on the rod, second spring elevation in the free state and two percentage scale, the origin of which coincides with the origin millimeter scale, and the compression effort nomogram. / /five / /four 2