RU2585305C1 - Impeller of hot water meter - Google Patents

Abstract

FIELD: control and measuring devices.

SUBSTANCE: invention is intended for use in devices for measuring flow rate of hot water. Hot water counter impeller comprises bimetal rods by one end attached to impeller, and other ends to magnetic elements of drive magnetic semi-clutch.

EFFECT: technical result is directly proportional dependence of rotation speed of driven magnetic semi-clutch from temperature of water passing through counter.

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Description

The invention relates to measuring equipment and can be used in devices for measuring the flow of hot water both for industrial enterprises, where there is a need for accurate accounting of the flow of hot water to the consumer, and for individual consumers, for example apartment buildings.

An analogue of the invention is a method of forming a hot water meter and a device for its implementation (see RF patent No. 2512101). In this invention, the counting mechanism is turned on and off by turning on and off the interaction of the leading and driven magnetic coupling halves with a part made of nitinol - a memory metal, which turns on the magnetic interaction of the driving and driven magnetic coupling halves when hot water flows through the meter and turns off the magnetic interaction of the master and driven magnetic coupling halves when flowing through a cold water meter. When water passes below 50 ° C through the meter body, the impeller with magnetic elements rotates, but they do not interact with magnetic elements, because deformation of nitinol rods disrupted their interaction. With the passage of water of 50 ° C and higher, the nitinol rods return to their original (undeformed) position and the interaction of the magnetic elements of the magnetic coupling halves is turned on, and the driven coupling half of the shaft drives the counting mechanism.

The disadvantage of this invention is that the meter with nitinol rods is not proportional to the temperature of the water, i.e. such a meter records water having a temperature of, for example, 75 ° C in the same way as having a temperature of 50 ° C.

The objective of the present invention is to provide a directly proportional dependence of the rotation speed of the driven magnetic coupling half on the temperature of the water passing through the meter.

The problem is solved in that in the impeller of a hot water meter containing rods, one ends attached to the impeller, and the other ends to the magnetic elements of the leading magnetic coupling half, the rods are made of thermal bimetal.

Thermobimetals are materials consisting of two (or more) layers of metals or alloys with different temperature coefficients of linear expansion, the difference of which ensures its elastic deformation when the temperature changes (see, for example, the Great Encyclopedia of Gas Oil, http: //www.ngpedia. com / id510062pl.html). When heated, the bimetal bends in such a way that the convex side of the arc is formed by a metal with a large expansion coefficient, and the concave side is formed by a metal with a lower expansion coefficient; when cooling, bimetal bends in the opposite direction.

The work of the proposed impeller is quite simple:

When the temperature of the water flowing through the meter changes, the thermo-bimetallic rods bend at an angle proportional to the temperature — the lower the water temperature, the farther away the magnetic elements of the leading magnetic coupling diverge from the driven magnetic coupling, the lower the magnetic coupling between them and the speed of rotation of the driven magnetic coupling. the higher the water temperature, the closer to the driven magnetic coupling half the magnetic elements of the leading magnetic coupling converge, the higher the magnetic coupling between them - the rotation speed The distance of the driven magnetic coupling half increases. Moreover, the bending speed of the magnetic elements is also proportional to the rate of change of water temperature. The dependence of the rotation speed of the driven magnetic half coupling on the magnitude of its magnetic coupling with the magnetic elements of the leading magnetic half coupling exists due to the fact that the friction force of the parts of the counting mechanism of the water meter, subject to the rules of its operation according to the technical conditions, is unchanged.

The experiments to determine the dependence of the rotation speed of the driven magnetic coupling half on the strength of its interaction with the leading magnetic coupling in the WFK2 - ITELMA water meter, conducted by the author of the invention in private, confirmed the idea embodied in the invention.

The use of the proposed impeller in hot water meters will allow avoiding litigation with management companies related to the payment of hot water supply services. Since the water passing through the hot water pipes does not always have the required temperature, as a result of accurate, and therefore fair accounting of its temperature, significant consumer savings can be achieved.

Claims (1)

The impeller of a hot water meter containing rods attached at one end to the impeller, and at the other ends to the magnetic elements of the drive magnetic coupling half, characterized in that the rods are made of thermal bimetal.