SU1719931A1 - Calorimeter - Google Patents

Abstract

The invention relates to heat metering and allows to increase the reliability of a heat meter when measuring heat consumption in pipelines of small diameter. In the cylindrical pocket of the housing there is an impeller pinwheel, the blades of which are made in the form of bimetallic spirals and are a temperature meter. When the temperature of the coolant increases, the bimetallic spirals unfold and the effective area of the blades of the vane grows, which begins to rotate. The frequency of rotation of the turntable depends both on the flow rate of the coolant and on its temperature and is proportional to the heat consumption; 2 Il.

Description

The invention relates to thermometry, namely to counters of heat consumption transferred by a coolant, mainly in pipelines of small diameter.

The purpose of the invention is to increase the reliability of the heat meter.

FIG. 1 shows the heat meter in the initial state, when the temperature of the coolant is below the sensitivity threshold of the device and is equal to T0; . 2 - heat meter in operating condition, when the temperature of the coolant is equal to the maximum value Tmax.

The heat meter includes a housing 1, a wing turntable 2 placed in a cylindrical housing pocket, the blades 3 of which are made in the form of spirals (for example, bimetallic plates) and are a temperature meter. The housing 1 has an inlet 4 and outlet 5 nozzles located along one axis. .

Heat meter works as follows.

In the cold state of the fluid (coolant), when the temperature is equal to To (Fig. 1), the blades 3 in the form of spirals are cylinders of the minimum diameter. The flow of fluid flowing from the inlet nozzle 4 into the outlet nozzle 5. imparts a circular motion of the fluid in the housing 1, which does not cause the rotation of the turntable 2, since this is associated with a counting mechanism (not shown) and frictional forces, and the minimum area of the blades 3 does not provide enough development effort.

When the flow temperature changes (the speed is provided by a small mass and a relatively large surface area of the blades), the bimetallic spirals unfold. Thus, there is an increase in the diameters of the blades 3 or the growth of their effective area. This increases the effect of fluid on the blade, resulting in the turntable 2 starts

with

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with

shchats When the temperature of the liquid reaches its maximum value Tmax (Fig. 2), the maximum area of the blades 3 provides the most complete selection of the movement of the liquid circulating in the housing and also directly from the flow.

The frequency of rotation of the impeller 2, fixed by a counting mechanism, depends on both the flow rate of the coolant and its temperature and is proportional to the heat consumption.

Formula of the invention Heat meter, comprising a housing with inlet and outlet nozzles along one axis, and placed

In the cylindrical pocket of the housing, the temperature meter and the wing turntable, which is characterized by the fact that, in order to increase reliability, the distance between the axes of the inlet and outlet nozzles and the cylindrical pocket exceeds the diameter of the wing turntable, whose blades, made in the form of bimetallic spirals, temperature gauge.

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FI.1

Claims (1)

Claim A heat meter comprising a housing with inlet and outlet nozzles located along one axis and a temperature meter and an impeller located in a cylindrical pocket of the housing, characterized in that, in order to increase reliability, the distance between the axes of the inlet and outlet nozzles and a cylindrical pocket exceeds a diameter vane spinner, the blades of which are made in the form of bimetallic spiral Tehred M. Morgenthal