SU30763A1 - Electrical measuring instrument - Google Patents

Description

The invention relates to electrical measuring instruments in which the mobile system is provided with a vertical axis rotating on two supports. In the proposed electrical measuring instrument, the lower support is almost identical to the center of gravity of the system, in order to reduce the error from changing the amount of friction in the upper bearing during its distortion.

In FIG. 1 shows a schematic view of an electrical measuring instrument on two cores with a vertical axis; FIG. 2 cores on an enlarged scale; FIG. 3-device with core, placed close to the center of gravity of the system; FIG. 4-like system as applied to an electrostatic device; FIG. 5 is the same as applied to an electromagnetic device; FIG. 6- single-ring system, the so-called “Unipivo; FIG. 7-ordinary compass suspension.

The existing type of electrical measuring instruments on two cores with a vertical axis has a significant drawback — great friction in the upper support, due to the presence of some inevitable gap between the point and the support. On an enlarged scale, the point of the axis is shown in FIG. 2, where the points of contact are clearly visible

axes and support stones, resulting in a vertical axis of the instrument. The point of contact / O below is at the same time the point of rotation of the system, and therefore the friction shoulder is very close to zero here. In the upper bolster, the point of contact between the stone and the K axis can never coincide with the axis of rotation, which leads to significant friction.

Due to this, friction in the upper support is approximately 10–12 times greater than at the lower support, which is extremely reflected in the magnitude of the instrument error.

By eliminating this lateral load of the upper core and reducing the friction in it to values close to zero, you can safely increase the sensitivity of the device by 10–15 times, without introducing any error from the friction into it.

Until now, radical methods for eliminating friction in the upper core have not been known; therefore, in many cases, the designers tried to resort to the complete elimination of the upper core. As an example of attempts of this kind, it is possible to point to the design of a compass suspension (Fig. 7) or the so-called single-support system (Fig. B), where the upper support is replaced by a spring suspension of the moving system.

However, these single-core systems easily swing around a fulcrum. To reduce this drawback, the frame has a heavy copper cushioning ring, which, by reducing the wobble (but not eliminating them), gives an excessive relief to the frame. The proposed system with two supports retains all the advantages of both systems — the absence of lateral friction in the upper core, the full stability of the axis — and can be applied to the design of the device of any system: electrostatic (Fig. 4), electromagnetic (Fig. 5), magnetoelectric (Fig 3), etc.

The advantages of such a device are as follows. By placing the lower core close to the center of the body of the system (Fig. 3), the lateral pressure at the point K of the upper core (Fig. 2) is reduced to zero, thereby destroying those huge friction exercises in the upper core that exist in conventional systems.

This makes it possible to significantly increase the sensitivity of the instrument up to 10-12 times, while at the same time reducing the friction error. Thus, due to the similar arrangement of the supports in the usual type of measuring devices, there is no need to use single-support systems (so-called „Gnipivot”) that have a number of disadvantages, such as: swinging the system, its increased weight, etc.

The limiting sensitivity for this system, at which friction errors, in fractions of a millimeter, will begin to appear with a meter beam, can be considered.

The above reasoning and the application of this method of eliminating the three, NIN in the upper support may also apply to other types of devices.

The subject matter of the invention.

An electrical measuring device in which the mobile system is provided with a vertical axis rotating on two supports, characterized in that the lower support practically coincides with the center of gravity of the moving system, in order to reduce errors from the change in the amount of friction in the upper bearing during its warping. / to the author's testimony of Yu. D. L 230768 Sokolov-Vishnevsky

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Fig 5

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