UA146270U - DEVICE FOR DETERMINATION OF HEAT RELEASE OF HEATING RADIATORS - Google Patents

Abstract

The device for determining the heat transfer of heating radiators includes a heat generator, an automatic temperature controller at the inlet, a circulating pump and a flow meter. The device is made of a heater chamber, closed from the ends by flanges and connected to the radiator by means of rubber couplings. A heater is inserted through the lower flange. The heater chamber is insulated with internal and external thermal insulation, between which a shielding heater is introduced, to which a thermocouple is connected.

Description

The useful model belongs to the field of utilities, in particular, the field of energy saving, determination of the thermal power of heating radiators.

The well-known device for determining the heat output of heating devices consists of a heat generator, an automatic heat carrier temperature regulator at the entrance, a circulation pump and a heat carrier flow meter. |1, 2):

The disadvantages are that such a device has a complex structure, high cost and a significant error due to errors in determining the temperature and consumption of the coolant.

The basis of a useful model is the task of developing a design of the device, which would differ in simplicity, have a significantly lower cost and ensure high accuracy in determining the heat transfer of heating radiators.

The task is solved by the fact that the device for determining the heat output of heating radiators, which contains a heat generator, an automatic heat carrier temperature regulator at the entrance, a circulation pump and a heat carrier flow meter, according to a useful model, is made of a heater chamber, closed from the ends with flanges and connected to the radiator by using rubber couplings; a heater is introduced through the lower flange; the heater chamber is insulated with internal and external thermal insulation; between which a shielding heater is inserted, to which a thermocouple is connected.

To explain the design of the device, a drawing is attached - Scheme of the device for determining the heat output of heating radiators, which shows: 1. Heater chamber 2. Heater 3. Internal thermal insulation 4. Shielding heater 5. External thermal insulation 6. Thermocouple 7. Rubber couplings 8. Radiator.

The device is made as follows

The device is made of a heater chamber (1), which is made of a pipe with a diameter of 80 mm and

Zo is closed from the ends with flanges (not shown in the drawing). A heater (2) is inserted through the lower flange, which is a heating element with a power of 1--1.5 kW. Two lengths of 1/2" pipe are welded to the body of the heater chamber (1), through which the radiator (8) is connected with the help of rubber couplings (7). The heater chamber (1) is thermally insulated with a layer of internal thermal insulation (3).

The cylindrical surface of the chamber on top of the layer of internal thermal insulation (3) is covered with a shielding heater (4), (as such, an electric heater can be used). A layer of external thermal insulation (5) is installed on top of the shielding heater (4). The temperature of the shielding heater (4) is controlled using a thermocouple (b), the junction of which is attached to the shielding heater (4). The heater chamber is suspended on nylon cords. The radiator (8) is installed in accordance with the requirements for the installation of heating systems. The radiator (8) and the heater chamber (1) are filled with water. The power of the heater (2) is determined by a wattmeter (not shown) and regulated using an autotransformer (not shown).

The device works as follows

With the help of an autotransformer, a certain power of the heater (2) is set. The water in the heater chamber (1) will begin to heat up and circulate in a circle through the rubber couplings (7) from the heater chamber (1) to the radiator (8). As a result of the thermal insulation of the heater chamber (1) and the installation of the shielding heater (4) placed between the internal thermal insulation (3) and the external thermal insulation (5), the loss of thermal energy in the chamber can be neglected and it can be assumed that in a stationary process the power of the heater (2) is equal to the heat output radiator (8). By changing the power of the heater (2), you can change the temperature and heat output of the radiator (8).

To exclude heat loss from the heater chamber (1) through its side surface with the help of a thermocouple (b), the temperature of the shielding heater (4) is determined, which, by adjusting the voltage on the shielding heater (4) using an autotransformer (not shown), is set equal to the temperature of the radiator ( 8).

Calibration of the heating radiator is performed in stationary mode, which is evidenced by the constancy of the temperature of the radiator surface (8), based on the measured power of the heater (2), the equal heat output of the radiator, and the determination of the temperature pressure or the average temperature of the radiator surface.

The proposed device for determining the heat output of heating radiators and their calibration is easy to manufacture and operate and makes it possible to more accurately and economically obtain the value of the heat output of a heating radiator depending on its temperature.

Sources of information: 1. Amageld'i A.G., Akhmetov A.A. Ermolenko M.V. Research on the efficiency of heat transfer of heating devices // Young student - 2019. - Mo 21. - P. 89-92. 2. V.A. Krasnov, I.Yu. Aleksanyan, V.V. Ermolaev, P.N. Laryn, S.A. Tereshonkov, I.V.

Balibyn Installation for comparison of enthalpy and thermometric methods of determining thermal energy in heating devices // Herald of AGTU. 2011. - Vol. 51. - Mo. 1. - P.51-55.

Claims (1)

USEFUL MODEL FORMULA A device for determining the heat output of heating radiators, which contains a heat generator, an automatic heat carrier temperature regulator at the entrance, a circulation pump and a heat carrier flow meter, which is characterized by the fact that the device is made of a heater chamber, closed from the ends with flanges and connected to the radiator by means of rubber clutch; a heater is introduced through the lower flange; the heater chamber is insulated with internal and external thermal insulation; between which a shielding heater is inserted, to which a thermocouple is connected. E ko i what i Z i t Ege I I I 3 N IZ i i i 1 NI KZ All I UK le Z ! ; I 1 Z Z Z M I TU no 1 IZ I g y I N ri W X Z N | Those! E | o b o o U Z E ! BE! and TE Vlo re Y and ZHOJE I.: them. ME Zh TI