RU11308U1 - RADIATOR - Google Patents

Abstract

An electric radiator made in the form of a housing filled with a coolant, with a heating element installed in its lower part, characterized in that the heating element is isolated from the total volume of the coolant and installed in a separate detachable housing of small volume, hermetically connected to the radiator by supply and exhaust tubes, the housing and tubes are thermally insulated.

Description

Electric radiator

The utility model relates to electric heaters designed for autonomous heating of various rooms, and can also be used to work with other types of heat exchangers.

A large number of electric radiators produced by domestic and foreign industry are known, having the same device, differing only in their external design. The well-known FORA electric radiator (see the brochure of the Experimental Design Bureau "Torch in Kaliningrad).

The device of the electric radiator "Electrotherm ERMB of the manufacturer" JSC "Pskov TESO Plant" is known (see Operating Instructions for the electric radiator "Electrotherm, release date September 28, 1998). We accept this device as a prototype.

The electric radiator consists of a housing filled with coolant. A heating element is installed in the lower part of the radiator, the power of which is regulated by a temperature regulator. When voltage is applied to the heating element, it is heated, followed by heating of the coolant and then the radiator casing. The operating mode is automatic.

The disadvantage of this device and a number of other similar radiators is that during operation, the radiator consumes a lot of power, the design does not provide for the replacement of a heating element installed in the total volume.

Heating the coolant from the heating element and the subsequent transfer of heat through the metal wall of the radiator to the environment is slow. Due to the thermal conductivity of the metal wall of the radiator with the environment, the temperature difference between the heating element and the outer part of the coolant in contact with the inner metal wall of the radiator decreases. This slows down the movement of the heat flux and slows down the heat transfer of the device. To accelerate the movement of the heat flux, a high-power heating element is used, which leads to an increase in electricity consumption.

The purpose of the proposed utility model is to increase heat transfer while reducing energy consumption, ease of operation and repair.

To achieve this goal, an electric radiator is proposed, made in the form of a housing filled with a coolant with a heating element installed in its lower part, characterized in that the heating element is isolated from the total volume of the coolant and is installed in a separate detachable small volume housing, hermetically connected to the radiator of the inlet and outlet tubes, and the body and tubes are thermally insulated.

In the proposed utility model, an increase in the heat transfer rate occurs due to the maintenance of the temperature difference within the specified limits. At the same time, the flow rate of the coolant increases, as a result of which accelerated mixing of the hot and cold fronts of the coolant occurs. When mixing, a greater amount of heat generated has a large contact area with the walls of the radiator and is more released in the form of usable heat into the surrounding space at a lower power of the heating element, bringing the consumer significant energy savings.

Installing the heater in a separate detachable housing allows its replacement and repair.

To clarify the described electric radiator, the drawing shows its General view.

The electric radiator comprises a separate small-volume casing 1, a heating element 2, the casing 1 is provided with a detachable connection 3, the supply 4 and the exhaust 5 tubes, which tightly connect the casing 1 and the radiator 6, the tube 7 for refueling the radiator with a coolant, an air valve 8 for venting air when refueling, heat-insulating coating 9 and power regulator 10 of the heating element.

The electric radiator works as follows.

When power is supplied through the power regulator 10 to the heating element 2, the coolant in a separate small volume housing 1 quickly heats up to a predetermined temperature. The action of hydrostatic pressure, which arises due to the different densities of the cooled and hot heat carrier, causes a quick movement of the heat carrier along the discharge tube 5 to the radiator 6. Having given part of the heat through the radiator 6 to the environment, the coolant through the supply pipe 4 returns to the housing 1, and since the rapid heating of a small volume of the coolant increases the speed and mixing speed of the hot and cold fronts of the coolant, the transfer of heat flux from the coolant through the metal wall of the radiator is intensified into the environment.

Thus, in the proposed radiator, the selection of the heating element in a separate, detachable housing of small volume, hermetically connected to the main volume of the radiator, can significantly reduce energy consumption with more efficient heat transfer, and also increases convenience during operation and repair.

Claims (1)

An electric radiator made in the form of a housing filled with a coolant with a heating element installed in its lower part, characterized in that the heating element is isolated from the total volume of the coolant and installed in a separate detachable housing of a small volume, hermetically connected to the radiator by supply and exhaust tubes, the housing and tubes are thermally insulated.