SU486272A1 - Galvanometer Magnetoelectric System for Light Oscilloscopes - Google Patents

Description

one

The invention relates to the field of electrical measuring equipment.

The galvanometers of the magnetoelectric system for light-beam oscilloscopes are known, which contain a moving system, placed inside a sealed enclosure filled with a damping fluid, and made in the form of a frame and a mirror mounted on straps, and a thermal compensation element.

A disadvantage of the known galvanometers is low reliability.

The aim of the invention is to eliminate this drawback.

This goal is achieved by the fact that in a galvanometer the temperature-compensating element is made in the form of a bulk elastic element made of a material with a compression ratio equal to or greater than the product of the damping fluid spreading coefficient and the ratio of the volumes occupied by the damping fluid and the elastic element and fixed in the recess on the inside of the case .

The invention is illustrated in the drawing, where in FIG. 1 shows a general view of the galvanometer in section; in fig. 2-the appearance of the galvanometer.

The galvanometer has a movable system, which is a frame 1, fixed on extensions 2 and 3, and a mirror 4, fixed in an extension loop 2.

The movable galvanometer system is placed inside a sealed housing 5 filled with a damping fluid through a hole in the cap 6, which is then sealed. Opposite the mirror 4 in the recess of the housing 5 an elastic element 7 is placed. Such an arrangement of the elastic element made it possible to move it away from the moving system for a guaranteed distance (to avoid grazing), and placing it opposite the opening in the housing for the lens 8 facilitates the assembly of the galvanometer.

The dimensions of the elastic element are limited by the dimensions of the galvanometer and are 3 mm in diameter and 2 mm in height; therefore, the compression ratio of an elastic element having a small volume compared with the volume of the liquid must be relatively large (about 0.3).

For galvanometers filled with polysiloxane damping fluid, foam plastic, sponge rubber (chemically neutral to polysiloxane liquid), and foam rubber can be used as the material of the elastic element.

Galvanometer works as follows.

Electric current is applied to the galvanometer. Under the action of this current, the frame 1 of the galvanometer is rotated together with a mirror 4 rigidly connected with it, onto which a beam of light is incident from a light source located in the oscilloscope. The light beam reflected from the mirror is directed onto the photo paper as a light point. A change in the position of the mirror, caused by turning the frame of the galvanometer, moves the light point in the direction perpendicular to the direction of movement of the photo paper. On moving photographic paper, a recording of changes in the measured parameter is obtained.

The galvanometer is designed to operate under the following conditions: when the ambient temperature changes from -60 ° C to + 80 ° C and the action of linear and vibro-shock overloads. As the ambient temperature increases, the damping fluid expands, its volume increases, but due to the compression of the elastic element 7, the pressure on the walls of the housing 5 in the enclosed volume increases slightly, as a result of which the integrity of the housing is maintained. The compression ratio of the elastic element must be greater than or equal to the product of the expansion coefficient of the damping fluid and the volume of the volumes originally occupied by the damping fluid and the elastic element.

Subject invention

A galvanometer of a magnetoelectric system for light-beam oscilloscopes containing a moving system placed inside a sealed enclosure filled with a damping fluid, and made in the form of a frame and a mirror mounted on extensions, and a thermal compensation element, characterized in that, in order to increase reliability, there is a thermal compensation element the element is made in the form of a bulk elastic element from a material with a compression ratio equal to or greater than the product of the expansion coefficient of the damping fluid and relative schenie volumes occupied by the damping fluid and the elastic member, and is fixedly mounted in the recess on the inner storon.e housing.