RU80928U1 - HEAT HEATER - Google Patents

Abstract

A heat heater can be used to heat residential, public and office buildings. The utility model is aimed at reducing energy consumption, increasing the amount of thermal energy obtained when using it, and, as a result, increasing the heating area. The tasks are solved in that the heater contains a protective heat-emitting casing, in which at least one heating element is located, connected through a static converter to a 220 volt 50 Hz network, providing the use of a half-wave voltage and setting the contour of the heating element to resonant frequencies of environmental energy. In addition, the utility model contains a temperature regulator, which ensures the maintenance of the temperature regime of thermal heating of the radiated surface and the flow of thermal air according to the convector principle. The use of a heating element that provides the use of half-wave voltage and the output of the heater device to the required temperature mode, as well as a thermostat, which ensures the subsequent maintenance of the radiated heat energy in a given mode, allows you to reduce energy consumption and obtain maximum thermal energy, which, in turn, leads to an increase in area heating. This technical solution will reduce the energy consumption of the heater and increase its heat transfer, which will make it possible to use it for heating residential and industrial premises both in conjunction with central heating, and separately from it.

Description

The utility model relates to means for generating thermal energy for heating premises using an electrical network. A heat heater can be used to heat residential, public and office buildings.

Known designs of electric heaters using various sources and types of heat radiation (heater, infrared radiator zone heating, heat "gun", etc.).

The closest analogue is an electric heater designed for temporary or permanent heating of residential, office, retail and other premises (see products of the Noirot company (France) - model Spot E-II 500 - www.rusklimat.ru/catalog/ convector-heaters / convective / noirot-spot / 6540.html). This heater is powered by an electric network, it consists of a protective heat-radiating casing, inside which there is a heating element.

Power consumption from the electric network is from 0.5 kW; the area of the heated room is 12-15 square meters. meters.

The disadvantages of this heater include a large power consumption and a limited heating area.

Technical tasks that this technical solution is aimed at: reducing energy consumption and improving the quality of work due to an increase in the heated area. The technical result achieved by using the proposed solution is to reduce energy consumption, increase the amount of thermal energy obtained when using it, and, as a result, increase the heating area.

The tasks are solved in that the heater contains a protective heat-emitting casing, in which at least one heating element is located, connected via a static

the converter to the network 220 volts 50 Hz, providing the use of half-wave voltage and setting the circuit of the heating element to the resonant frequencies of environmental energy. In addition, the utility model contains a temperature regulator, which ensures the maintenance of the temperature regime of thermal heating of the radiated surface and the flow of thermal air according to the convector principle.

The use of a heating element that provides the use of half-wave voltage and the output of the heater device to the required temperature mode, as well as a thermostat, which ensures the subsequent maintenance of the radiated heat energy in a given mode, allows you to reduce energy consumption and obtain maximum thermal energy, which, in turn, leads to an increase in area heating.

A utility model is presented in Fig. 1 - diagram of the device of a thermal heater.

The heat heater is a protective casing 1, inside of which there is a static converter 2 and a heating element 3. A temperature regulator with a contact breaker 4, used to automatically set and maintain the temperature, and an on-off indicator are also integrated in the casing 6. The heater is powered by electric the network is made through the power cord 5.

Thermal heater operates as follows.

When the heater is connected through the cord 5 to the electric network 220 volts 50 Hz, the thermostat 4 is manually set to the temperature required by the user, while indicator 6 lights up, indicating a power supply. Static converter 2 provides a half-wave supply voltage of 110 volts to the heating element 3, which is tuned to the resonant frequencies of environmental energy.

The power consumed by the heater from the electric network is 120-130 W, the recommended area of the heated room is 30 sq. meters, the maximum heating area - 90 square meters. m

This technical solution allows to reduce the amount of energy consumed from the AC network in comparison with existing analogues at least 4-5 times. In this case, the heat transfer of the heater, and, as a result, the area of the heated room, increases. The heater is safe to operate, easy to maintain, compact and mobile.

Claims (1)

A heat heater, consisting of a protective casing, a temperature regulator for automatically setting and maintaining the temperature, powered by an electric network, inside of which at least one heating element is located, characterized in that the heating element is fed by a half-wave of the supply voltage through a static voltage converter tuned to resonant the frequency of the heating element and the frequency of environmental energy, and incorporates a thermal energy storage device.