SU55812A1 - Device for determining the amount of heat - Google Patents

Description

Significant development of district heating raises the question of the need to accurately account for the amount of heat supplied in units of heat (calories x).

Since the numerical value of this quantity is equal to the product of the water flow in kilograms and the temperature difference in the supply and discharge pipelines in degrees, in the absence of special heat meters, the metering is carried out using a water meter and temperature measurements using thermometers.

However, devices are already known for determining the amount of heat given off by a coolant using a water meter and thermometers installed in heat pipes, and with the help of an eccentric and levers acting on counting mechanisms.

The proposed device differs from the known devices of this kind in that the electric motor is applied to bring the eccentric axis to rotation, the power supply of which is conducted through contact systems that are closed and open by means of cams,

mounted on the axis of the eccentric and water meter.

The drawing shows a diagram of a device for determining the amount of heat according to the invention.

Vertushchka / Voltman installed in the pipeline and serves to measure the flow of water. A disk 2 with a cam 3 is connected to the turntable.

When rotating the jack, the cam 6 alternately closes contacts 4 and 5, then contacts 4 and 6. Contacts 5 and 6 are connected to contacts 7 and c - alternately closing with contact 9 by means of a cam 10, which is sitting on the shaft 11. The latter feeds from a network of 120 volts through contact systems 4-5-6 and 7-8-9.

On one shaft with a cam JO, an eccentric / 2 sits, pushing with rotation a finger J3, fixed on the lever 14.

When the motor jl rotates, the lever J4 comes into oscillatory motion on the axis / 5.

On the lever 14 the doggie 16 is fastened, the ratchet wheel / 7 is gripping and turning it on

a certain angle with each swing of the lever 14. Due to the presence of the pawl / 5, the wheel 17 can be turned only in one direction.

The lever 14 under the action of the load 19 tends to turn counterclockwise, but its extreme position is limited by the mold 20, against which the end of the lever 14 abuts. Thus, the span of the lever 14 is determined by the position of the mold 20, which can swing around the axis 21.

Lead 23 is connected with mold 20 through axis 22, which in turn, through pulls 24 and 25, is connected with multi-turn Bourdon springs helixes 2 | and 27. Helixes are connected with cylinders 28 and 29 absorbed at temperature measurement points by means of capillaries. The helix system is filled with liquid or gas and is a normal gauge thermometer. Helixes 26 V. 27 are associated with the pattern 26. So that the polarization of the pattern 20 is determined by the temperature difference between the cylinders 29 and 28, in other words, the temperature difference between the forward and reverse lines.

The action of the device is as follows. When rotating the turntable 1, contacts 4-5 and 4-6 are alternately closed, so that the electric motor 11 comes into rotation, and one revolution of the disk 2 corresponds to one revolution of the disk 10.

The diagram shows the contact position at which current flows through the motor 11 and rotates. When the cam disc 10 opens contacts 7-9 and closes contacts 8-9, the motor 11 stops. Upon further rotation of the disk 2, contacts 4-6 are closed, and contacts 4-5 are open, and the electric motor // will come into rotation until the contacts 8-9 are open, and contacts 7-9 are not closed. With further rotation of the disk 2 cycle

repeat, and thus to each, the revolution of the disk 2 will correspond to one revolution of the disk 10. It is necessary that the rotational speed of the disk 10 be greater than the rotational speed of the disk 2.

Thus, the number of revolutions of the disk 10, and with it the number of oscillations of the lever 14, will be proportional to the amount of water passing through the gauge / water meter /.

As mentioned above, the position of the pattern 20, and with it the span of the lever M, is determined by the temperature difference between the hot and cold water. The shape of the template 20 is chosen so that the angle through which the disk 17 is rotated with each swing of the lever 14 is proportional to the temperature difference between the hot and cold water.

The disk 17 is connected with the meter 30 through the system of gears, so that the counter reading is proportional to the product of the number of oscillations of the lever J4 and the angle of rotation of the disk 17 with each movement of the lever 14, i.e., proportional to the product of the water consumption by the temperature difference between hot and cold water.

In other words, the meter reading 30 is proportional to the amount of heat that has passed through the device.

The subject matter of the invention.

A device for determining the amount of heat using a water meter and thermometers installed in thermal pipes and using an eccentric and levers acting on the counting mechanism, characterized in that an electric motor is used to bring the eccentric axis into rotation, the power supply circuit of which is conducted through contact systems closable with. using the jaws, mounted on the axis of the eccentric and water meter.

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