SU37384A1 - Instrument for determining the viscosity of a fluid (viscometer) - Google Patents

Description

The invention relates to instruments for determining the viscosity of substances. The proposed device is based on the dependence of the path traveled by the ball, which has a reserve of kinetic energy, on the viscosity of the medium. The advantage of the device over the existing viscometers is its simplicity and divisibility, resulting from the fact that the viscometer does not require the use of a chronometer and the whole measurement is reduced to measuring the length of the path traveled by the ball inside the liquid before it stops. According to the author, a viscometer can be used in the paint and varnish, viscose oil and oil processing industries.

In FIG. 1 is a side view of the device; FIG. 2 is a front view; FIG. 3-position of the ball at the beginning of the determination; FIG. 4-way rays.

The glass tube is bent at an angle of 45 ° / is provided with a stopper 4 at one end and is installed so that its left part 3, filled with the test liquid, is positioned with three screws and two mutually perpendicular levels horizontally, and the whole tube occupies a certain position relative to the staples 12, for which purpose the tube is labeled from the place where it rests on the left, extreme staple. Before using the device, remove the tube from the / 2 brackets and attach it

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left side upright position. A funnel with a long neck is inserted into the open part of the tube and the liquid is carefully poured through it to a certain point. This feature is applied in such a way that when the tube is placed on a tripod in the operating position, the liquid takes up the position shown in the drawing and that there is no air in the horizontal part of the tube. When installing the tube, it should be ensured that the left bracket 12 coincides with the mark on the pipe, and the right extreme bracket 12 ensures the correct installation of the inclined part of the tube.

To determine viscosity, the partially open end of the tube is covered with thick paper B. A steel ball is placed on the remaining gap, as shown in FIG. 3 of the drawing, and slowly move the paper to the left along the arrow until the ball starts moving along the inclined part and then, in a liquid, along the horizontal part of the tube /. The paths traveled by the ball in liquids of different viscosities will, ceteris paribus, be different and the more, the smaller the viscosity. In transparent liquids, registration of the ball stop is performed directly on the horizontal viscosity scale placed below.