CS241412B1 - Device for continuous measurement of precipitation and icing weight - Google Patents

Abstract

The device is used for continuous measurement of precipitation or ice mass, especially for meteorological purposes. It replaces the previous gauges, which either did not allow continuous measurement or were expensive and capable of measuring only ice of small mass. The device is rotatably mounted on a pin and equipped with a rudder, which rotates the base plate, to the upper side of which a measuring cell with strain gauges is attached in the opposite direction to the rudder. A holder with a measuring element is attached to the measuring cell, either a horizontal rod rotating around the longitudinal axis, or a sump for collecting precipitation. The weight of the ice on the rod or rainwater in the sump acts on the measuring cell through the holder and the weight is continuously determined and recorded using strain gauges. Selected points of the device are heated. It can be used in fields that monitor the formation of ice and the amount of precipitation, e.g. in the energy industry.

Description

The device is used for continuous measurement of the amount of precipitation or weight of icing, especially for meteorological purposes. It replaces existing gauges that either did not allow continuous measurement or were costly and only able to measure low weight frost. The device is rotatably mounted on a pin and provided with a rudder, which rotates the base plate, to whose upper side a measuring cell with strain gauges is mounted in the opposite direction to the rudder. A holder with a measuring element is attached to the measuring cell, either by a horizontal bar rotatable about a longitudinal axis, or by a collecting trap. The weight of the icing on the rod or the rainwater in the sump acts through the holder on the measuring cell and the mass is continuously measured and recorded using strain gauges. Selected device locations are heated. It can be used in fields that monitor the formation of ice and precipitation, eg in the energy sector.

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BACKGROUND OF THE INVENTION The invention relates to a device for the continuous measurement of precipitation size and icing weight.

Until now, a system of horizontal measuring rods that are fixed perpendicular to each other has been used to measure the weight of icing. These bars are removed and the removed icing is weighed. However, this does not result in a continuous measurement of the icing weight. This drawback is overcome by a gigligraph, which is a substantially vertical bar whose weight is continuously determined by weighing. These devices are up to 5kg in weight and are quite expensive.

The principle of the device for continuous measurement of precipitation and icing weight according to the invention is that the bearing of the horizontally rotatable base plate is equipped with rudder beams, a fixed measuring cell with strain gauges, a holder with a horizontal measuring element perpendicular to the longitudinal axis of the measuring cell with strain gauges. . The bearing, bracket and windward side of the rudder are equipped with heating. The measuring element is either a sump for collecting rainfall or a rod for determining the weight of icing rotatable about a longitudinal axis.

The advantage of the device according to the invention is its versatility, because both the precipitation size and the weight of icing can be measured with one device, and in particular it detects a smooth change in the measured values in a relatively simple manner and is able to record the results. *

An example of a device for continuously measuring the amount of rainfall and the weight of icing is shown in an axonometric view in the icing weight adjustment on the attached drawing.

The base plate 6 is horizontally rotatably mounted on the heated bearing 6 on the stand 6, to the upper side of which the measuring cell J with strain gauges is fixed. Beams 8 with a rudder 2, the windward side of which is heated, are horizontally attached to the base plate 4. In the opposite direction to the beams 8 of the rudder 8, a heated holder 2 with a horizontal measuring element 1, in this case with a rod rotatable about a longitudinal axis, is attached to the measuring cell. For contact with the electrical part of the device, it is for heating the places where it would

- 3 241 412 icing distorted the results of the measurement and to convert the signal from the strain gauges, the device is equipped with a collector 2 ·

The direction of the wind affects the rudder 2, which rotates over its beams 8 by the base plate 4 as well as the holder 2 and the measuring element 1, that is to say it buzzes the bar so as to form maximum icing on it. The weight of icing or precipitation affects the strain gauges. The electrical signal is then passed through a signal amplifier to a recording apparatus for further processing.

The device according to the invention is particularly useful in meteorology, but also in a number of other fields that need to continuously monitor the formation of icing or precipitation in order to operate. These fields also include power engineering in electricity distribution.

Claims (3)

OBJECT OF THE INVENTION 1. An apparatus for the continuous measurement of precipitation and icing weight deposited on the bearing and comprising a rudder, beams and strain gauges, characterized in that the bearing (6) of the horizontally rotatable base plate (4) is provided with beams (8) of the rudder (5). (a) on the opposite side, with an end closer to the bearing (6), with a fixed measuring cell (3) with strain gauges, with its other end firmly connected to a holder (2) with a horizontal measuring element (1) perpendicular to the longitudinal axis of the measuring cell (3) with strain gauges when the bearing (6), the bracket (2) and the windward side of the rudder (3) are equipped with a heater. Device according to claim 1, characterized in that its measuring element (1) is a collecting trap. Apparatus according to claim 1, characterized in that its measuring element (1) is a rod for detecting the weight of icing which is rotatable about a longitudinal axis.