SU1679223A1 - Device for measuring heat-carrier consumption - Google Patents

Abstract

The invention relates to the measurement and metering of heat flow to the consumer in the flow of coolant, including turbulent. The purpose of the invention is to simplify the measurement process, increasing its accuracy and reliability by eliminating spurious output signals. The device consists of a housing, an impeller and a secondary frequency converter for rotating the impeller into an output signal. A stream was installed in front of the impeller. The impeller and the pulverizer are mounted coaxially with the casing and have straight blades parallel to the casing axis, while the blades and the impeller and the discharger are bimetallic and have movement restraints. 1 il.

Description

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The invention relates to the measurement and metering of heat flow to the consumer and spent on heating and hot water supply,

The aim of the invention is to simplify the design and increase the accuracy by eliminating spurious output signals in the absence of the transfer of consumer heat fluids, including turbulent.

The drawing shows the proposed device. It consists of a cylindrical body 1 installed in it coaxially with the impeller 2 and a jet 3 of the engine 3 having straight, parallel to the axis of the body of the blade, and a secondary converter 4. The blades of the turbine are mounted on the hub 5, which rotates on bearings mounted on a fixed axis 6, on which is installed and jet stream. The fixed axis is fixed on the spacer ribs 7. The blades of the 8 strands and the blades of the 9 blades are made of bimetallic, and the impeller is equipped with restrictions on the displacement of the bimetallic blades that are fixed to the console on its hub. The blades of the 8 strays are also equipped with travel restrictions. The choice of bimetallic material for the manufacture of blades is determined by ensuring the variation of the angles of the blades from 90 to 80 °, which corresponds to a change in the temperature of the coolant from 25 to 90 ° C.

When a cooled coolant is passed through, the bimetallic blades of the streamers and impellers tend to be bent towards the stops 10, which

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interfere with the movement of the loose ends of the blades. Because The jet and the impeller are fixed coaxially with respect to the hull, their rotation does not occur, which indicates the absence of heat consumption. As the temperature of the coolant increases, the force acting from the bimetallic blades on the limiters weakens and, starting from a certain temperature conditionally defining the lower limit (25 ° C), the bimetallic blades move away from the limiters, thereby changing the angle of their installation relative to the fixed axis in proportion to the temperature of the coolant, the turbine starts to rotate. The rotation of the impeller, whose frequency is proportional to the heat consumption, is recorded by a secondary transducer, for which any type of tachometer can be used.

The invention allows to simplify the constructive implementation of a heat meter and to improve the accuracy of measuring heat consumption, since spurious signals are excluded if there is no transfer of heat by the coolant to the consumer of heat.

Claims (2)

1. A device for measuring heat consumption of a heat transfer medium comprising a housing and a turbine installed therein with bimetallic blades and a frequency converter of rotation of the turbine into an output signal, characterized in that, in order to simplify the design and improve accuracy by eliminating spurious output signals in the absence of transmission to the consumer of heat by the coolant flow, including the turbulent one, it is supplied with a straining fluid installed in the casing before the turbine, the blades of which are bimetallic and fixed s on the fixed axis and the impeller is provided with movement limiters bimetallic blades mounted solo concentration at its hub. 2. A device for measuring the heat consumption of a heat transfer medium according to claim 1, from l and th and the fact that the surfaces of the blades of the impeller and the streams facing the same direction are made of dissimilar metals.