SU605105A1 - Level gauge - Google Patents

Description

one

The invention relates to the field of instrumentation and is intended to measure the level of liquids and solids, for example additives, which are (under continuous mixing conditions.

Known level gauges with floating short-circuited windings are displaced relative to the transducer made in the form of exciting and output windings distributed over the height of the vessel, the last of which is discrete I. The disadvantage of this sensor is the low accuracy and complexity of the structure due to the presence discrete output winding.

Of the known level gauges, the level gauge closest to what is described is a level gauge containing a magnetic float, located in a controlled capacitance, and a triangular shaped guide and output windings 2.

The disadvantage of the prototype is the low accuracy and reliability of measuring the shifted Media. This is due to the fact that when measuring the level of the medium being shifted, vibrations arise, skews and torques acting on the light source approx.

The aim of the invention is to improve the accuracy and reliability of measuring the level of mixed media.

This goal is achieved by the fact that the magnets of the Lollaw are located at an equal distance from its meter and are installed by the same name of the poles to the center of the float, with the guide mounted through the center of symmetry of the float and the center of rotation of the stirred device.

On the display, the attached device is shown.

The level gauge contains a float 1, placed in the vessel 2 with a mixed substance. In the case of the blade, at equal distance from each other, permanent matnits 3 are located, directed by the same poles to the center of the blade. For better adhesion to the substance being mixed, the blades 1 are provided with protrusions 4. The direction of the vertical movement of the float I is set by the guide 5, which

passes through the center of symmetry of the blade and the center of rotation of the mixing substance. On the side surface surface of the vessel 2 there is placed a winding 6 of a triangular shape, which provides linear linear continuous learning.

scales. If vessel 2 is made of a non-magnetic material, then winding 6 can be placed both on the inside and on the outside of the lateral surface of vessel 2. If vessel 2 is made of ferromagnetic material, then the winding is placed on its other side. If the center of mixing coincides with the center of the vessel 2, and its diameter reaches a large size, then it is POSSIBLE. Another design embodiment of the level gauge. In this case, the permanent magnets are mounted on the inner surface of the float 1, and in the thirst -.- direction, a non-magnetic tube is used, on the inner surface — which is — an output triangular winding is located.

Level gauge works as follows ..

Float 1 is inserted (for example, in the direction indicated by the arrow in the drawing) due to the energy of the substance being mixed. In this case, the guide is placed in the vessel so that the axes of rotation of the substance and the float 1 are the same, and the size of the float is chosen so that the magnet 3 magnets pass directly from the coils of the winding 6. When the magnet adheres to the linear conductors of one side the triangular winding 6. impulses an emf of one polarity, and when this voltage is coupled with the linear conductors of the other side, an impulse of an electromotive force of opposite polarity is induced. At the same time, the time interval between adjacent pulses of different polarity is partive to the current divergence of the sides of the triangular winding, i.e. the level of the substance, and is inversely proportional to the speed of rotation of the float. In order to eliminate the effect on the level gauge of the rotational speed of the float 1, the ratio of the time interval between opposite-wave pulses to the time interval between single-pole should be taken. impulses, which appear when passing for each other. of permanent magnets 3 past one of the sides of the triangular winding 6. A level value proportional to this ratio of time intervals can be obtained from well-known / electronic devices in both analog and digital form.

In the case of air (the ability of a float to hurt together with a controlled substance, the absence, influence of the level of the sipnal and the speed of rotation of the float, on the measurement accuracy, the level described has an increased accuracy and reliability of determining the level of the circulating agitated: media.

Claims (2)

1. USSR author's certificate No. 339799, cl. G 01F 23/10, 1970., 2. USSR author's certificate No. 222833, cl. Q 01F 23/10, 1965..