SU1364872A1 - Apparatus for measuring linear displacements - Google Patents

Abstract

The invention relates to geodetic instrument making and L. b. used in the control of deformation structures. The purpose of the invention is to improve the accuracy of the device. The reservoir I is divided by a piston 2 placed in it into two chambers. With the appearance of beatings, the rod 10 acts on the piston 2, by moving which the working fluid is pushed through the connecting pipe 4, made in the form of a spiral wound on the outer surface of the reservoir, from one chamber to another. This leads to a change in the resistance in the electrical circuit formed by the conductor 11, one ends of which are bridged by a jumper 14 of a conductive liquid, and the opposite ends through an ohmmeter 12 are connected to the power source 13. In the pipe 4 is made calibrated channel. I il. S (L 00 about 4; C tc

Description

The invention relates to geodetic instrumentation, in particular to hydrostatic systems, and is intended to monitor the deformations of structures.

The purpose of the invention is to improve the measurement accuracy.

The drawing shows a diagram of the device.

The device consists of a cylindrical reservoir I, which is divided by piston 2 with a sealing ring 3 into two chambers connected by a spiral pipe 4 with a calibrated channel. On one side, the tank 1 with the plugs 5 is closed tightly with the cap 6, with which the support rod 7 is rigidly connected. 7. On the opposite side of the tank 1, the cap 8 has a hole with an epiploon 9, where the rod 10, rigidly connected with the piston 2, moves. The walls of the pipeline 4 are fixed two conductors I1. The two free ends of the conductors 11 are connected via an ohmmeter 12 to the power supply 13. The two opposite ends of the conductors 1 are bridged by a jumper 14 of conductive liquid KOCTJH (10% NaCl solution), which in the capillary section 4 does not mix with working fluid-dielectric I5 (engine oil).

This condition is perfect for capillary tubes with a height of a column of electrically conductive liquid of at least three tube diameters, i.e. when pressure builds up and it is balanced by the surface tension of liquid films of different components: liquids.

The device works as follows.

The measuring device is installed, for example, between the foundation and the shaft of the generator or turbine. An ohmmeter 12 connected to the power source 13 is read. When turning the turbine shaft with the appearance of a beating, the rod acts on the piston 2, which, moving from the reservoir 1, pushes the working fluid 15 (engine oil) through the connecting pipe 4 from one chamber to the second. This leads to the VNIIPI Order 6578/3

the movement of the conductive fluid 14 through conduit 4 and the change in resistance in the electrical circuit. On ohmmeter 12 take the second count. The linear resistance of conductors 1I is known ((}), therefore the change in the distance between the shaft and the foundation, and hence the magnitude of the beating, is easily determined by the relation

Pj

Q

where KG

0

five

L

TO

K - conversion factor;

Q - linear resistance of conductors; P ,, - counts on ohmmeters.

The use of the proposed device for controlling microdisplacements provides a high accuracy of measurements, since a change in the relative position of objects, for example, by 1 mm, causes a conductive fluid to move in the hydraulic system by 1 / Kmm, which we can measure by known methods with less error mm The simplicity of the device makes it possible to determine micromovements with high accuracy in areas that are dangerous to human life at any time of the day, which is the main advantage under the conditions of the operating enterprise.

Claims (1)

g Formula of invention A device for measuring linear displacements, comprising a reservoir with two side openings and a working 0 liquid, connecting pipe with internal channel, invar core and measuring unit, characterized in that, in order to improve accuracy, it is equipped with 5 the piston, rigidly connected with the spindle and located between the holes, the connecting pipeline is made in the form of a spiral, located on the outer side of the tank reserve filled with dielectric fluid, the channel of the pipeline is tightly calibrated, two conductors are fixed on its inner wall , one ends of which are connected to the measuring node, others are open, and an inserted jumper from a conducting fluid is placed inside the channel. Circulation 680 Subscription