SU1345053A1 - Shift transducer - Google Patents

Abstract

The invention relates to a measuring technique and can be used in the construction and mining industry, in particular when observing long-term displacements of soils and rocks. The aim of the invention is to improve the measurement accuracy and simplify the design of the displacement sensor comprising an elastic sensing element and a measuring rod, made in the form of a coaxial sliding pair. For this, the rod is provided with a heater 5, and the gap between the elements 3 and 4 of the sliding pair is filled with low-melting material 9, for example, rosin. By melting and subsequent curing of rosin, the positional switching of the sensitive element 2 is smooth, which eliminates the inertia effect: the forces from the sensor during studies of movements in weak soil rocks. 1 il. sl with 4 cl o sd with

Description

1 I

The invention relates to a measuring technique and can be used in the construction and mining industry, in particular, in the observation of long-term displacements of soils and rocks.

The aim of the invention is to simplify the design of the sensor and increase the accuracy of measurements by ensuring smooth switching and fixing the relative position of the elements of the sliding pair of the measuring rod.

The drawing shows the sensor, a general view.

The linear displacement sensor consists of a housing 1, inside which an elastic, for example strain gauge, element 2, and a stem, made in the form of a coaxial sliding pair of elements 3 and 4, are cantilevered. In the cavity of the internal element of the stem 4, a heater is placed, for example, electric spiral 5. The inner element of the rod 4 is equipped with a cr. Pezhaym ear 6, which is one of the electric contacts of the spiral 5. The second output of the spiral 7 is passed through a heat-resistant insulator 8. The gap between the stem tubes is filled with low-melting material 9, such as rosin. Stock missed in ot-. The version of the housing 1 and associated with the elastic sensor 2,

The displacement sensor works as follows.

The sensor is placed on the object under study: case 1 is fastened on a fixed mark, and the measuring rod with the aid of eye 6 is mounted on a hard mark. The rigid joint of the outer element of the rod 3 and the internal element of the rod 4 is provided with a solid rosin 9p. In the initial position, the resilient sensing element 2 is in an undeformed state. When the distance between the marks is changed, the elastic element 2 is bent, the deformation is from the editor.

Compiled by V.Meluzov Tehred L. Serdyukova

Order 4909/40 Circulation 676 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, F - 35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Project, 4

450532

bending using strain gauges is converted into a recorded electrical signal. After the entire working stroke of the elastic element 2 is used, an electric heater 5 is turned on, which causes the rosin 9 to melt and ensures smooth relative movement of the elements

10 3 and 4 under the action of the elastic sensing element 2. As a result of lengthening (or shortening) the rod by the amount of deflection with /, the initial state of the elastic element is provided

15 2, after which the heater 5 is turned off and the rosin hardens again. This method of returning the elastic element to the zero position is repeated as necessary.

20 Achievable smooth return of the elastic sensing element to its original position and subsequent fixation of sliding elements, a pair of stem, causes an increase in the accuracy of measurement of displacements of weak rocks and soils, excluding disturbances in the attachment of marks under the action of inertial forces.

30 Formula of invention

Claims (2)

1 "displacement sensor, comprising a housing, an elastic sensor, a rod made in the form of a coax" (sial sliding pair, and a system for fixing the relative position of the sliding pair elements, characterized in that, in order to simplify the design and improve accuracy 4Q measurements by ensuring smooth switching and fixing of the elements of the sliding pair, the system for holding out the breath: not in the form of a heater mounted on the rod, and low-melting g of material filling the gap between the elements of the pair. 2. The sensor according to claim 1, wherein the low-melting material is rosin. Proofreader A.Zimokosov