RU177802U1 - RADIATOR - Google Patents

Abstract

The utility model (PM) relates to heating devices, namely, air heaters operating on the basis of electric heating of the coolant, and can be used for primary or secondary heating of residential premises, garages, and also other rooms in regions in which negative temperatures prevail. An electric radiator consists of a body filled with a coolant, a heating element, selected from the total volume of the coolant and made in the form of a block of heaters with the possibility of their inclusion in various combinations for stepwise changing the power consumed by the device and the heating medium heating rate. The power circuit of the heating element also contains an activator switch and a thermal relay with an external temperature sensor. A timer located in the circuit of one of the block tenes allows you to turn it on for a given period of time at a given time of the day. The technical result is the expansion of the arsenal of technical means for economical and efficient heating of various residential and technical premises. 6 c.p. f-ly, 1 ill.

Description

The utility model relates to heating devices, namely, air heaters operating on the basis of electric heating of the coolant, and can be used for primary or secondary heating of residential premises, garages, and other rooms in regions in which negative temperatures prevail.

A self-contained electric radiator is known (patent RU No. 121906, F24H 3/00, publ. 10.11.2012), which includes a hollow heater filled with a liquid heat carrier, to which a separate heating chamber with an electric heating element installed, and an expansion tank located above the hollow heater is connected equipped with a relief valve and connected by a support pipe to the inner cavity of the hollow heater in its upper part, characterized in that the hollow heater is made in the form of a tubular arc, to the ends of which is connected about separate heating chamber, and an additional pipe connected to the expansion tank is attached to this chamber or to the upper end part of the tubular arc, wherein the additional pipe, expansion tank and support pipe form an additional circulation circuit of the heat-transfer fluid.

Common essential features with the proposed utility model is the presence of a liquid coolant, a hollow heater, a separate heating chamber with an electric heating element installed in it.

From the patent for an independently working mobile radiator (RU No. 2188363, F24H 3/04, published on 08.27.2002), a liquid electric radiator with additional heating elements is known. An independently operating movable radiator includes a radiator casing consisting of a plurality of radiating elements formed by a connected first metal plate and a second metal plate, and a central part in which a fluid heated by heating means circulates at a given temperature, said radiating elements being interconnected through bushings for the passage of the specified heated fluid for circulation inside the specified body, which is at least one area on top of the radiating elements is external with respect to the central part, where the heated fluid circulates, has additional heating means, at least for heating the ambient air. A radiator with additional heating elements allows you to accelerate the convection motion of the medium and the heating process.

Common essential features with the proposed utility model is the presence of a housing, a fluid, an additional heating element.

Closest to the claimed electric radiator is an electric radiator (pRU No. 11308, F24D 13/04, published September 16, 1999), made in the form of a housing filled with a coolant, with a heating element installed in its lower part, in which 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 inlet and outlet pipes, moreover, the housing and tubes are thermally insulated.

Common essential features with the proposed utility model is the presence of a casing, a heating element installed in a separate small-volume casing connected to the radiator by the inlet and outlet pipes.

The advantage of this device is the ability to quickly replace PETN, the disadvantage is the lack of the possibility of saving electricity.

A common disadvantage of known liquid radiators operating on the basis of electric heating of the coolant is the inability to control the temperature maintained in the room depending on the ambient temperature and time of day.

The task that this utility model is aimed at is the development of an efficient electric radiator, which allows to economically consume electric energy and flexibly adapt to environmental conditions.

The technical result is the expansion of the arsenal of technical means for economical and efficient heating of various residential and technical premises.

The technical result is achieved by the fact that in an electric radiator consisting of a housing filled with coolant, a heating element isolated from the total volume of the coolant, and installed in a separate housing of small volume, hermetically connected to the radiator body by the supply and exhaust pipes, the heating element is made in the form of PETN and installed in the lower part of the polypropylene pipe connected by means of polypropylene fittings to the inlet and outlet polypropylene pipes, and to the heating circuit a switch element further includes an activator and a thermostat with remote temperature sensor, adapted to open and the alarm circuit of the heating element power supply circuit with remote temperature sensor with a given value of the ambient temperature.

It is optimal to perform a heating element in the form of a block of heaters with the possibility of their inclusion in various combinations for stepwise changing the power consumed by the device and the heating medium heating rate.

It is recommended that the electric radiator be supplemented with a timer configured to turn on or off one of the unit's heaters for a specified period of time at a given time of the day.

It is optimum to use non-freezing liquid as a heat carrier.

It is recommended to supplement the electric radiator with an operation indicator.

It is advisable to supplement the remote temperature sensor with a digital temperature indicator.

It is recommended to supplement the electric radiator with legs for installing it on the floor.

The inventive utility model is illustrated by examples of a specific implementation of the device and the following drawings.

Figure 1 shows a block diagram of an electric radiator. The electric radiator consists of a housing 1, an activator switch 2 (embodiment), a function indicator 3 (in one embodiment), a heater block 4 (embodiment) located in a polypropylene pipe 5 connected by fittings 6, 7 to a supply 8 and outlet 9 pipes, and then with the housing 1, thermal relay 10, remote temperature sensor 11, timer 12 (version).

The electric radiator works as follows. The device is located indoors on a cold wall, then through a stationary outlet it is connected to an electrical network of alternating voltage 220 V and activated using a switch. Depending on the version (legs), the device can also be located in any area of the heated room next to an electrical outlet. If an indicator is installed in the device, the indicator lamp lights up when connected to the network. After turning on the functioning device, the user programs the thermal relay of the heater, setting the ambient temperature at which it switches off. When performing an electric radiator in the version with a timer located in the circuit of one of the unit's Ten - the user also sets the timer on the timer at which an additional heater heater is connected or disconnected. The liquid coolant is quickly heated by a heating element in a polypropylene pipe and, due to the lower density of the heated coolant, rises, it circulates through the tubular elements into the body of the electric radiator. Due to the heat transfer by the heat-transfer fluid to all elements of the electric radiator through which it circulates, the air surrounding the electric radiator is heated, then, as a result of natural convection, the air heat flow enters the heated room. When the room warms up to a predetermined temperature or the time specified by the timer occurs, the heater is turned off.

Consider a specific example of the operation of the device. Let the temperature in the working room be maintained at 24 ° C during working hours from 8 to 18 hours, and the plus temperature at other times. The user sets the ambient temperature of 10 C on the thermal relay of the first heating element of the 100 W unit, the 24 C temperature of the second heating element of 300 W is set and the operating time is set using the timer from 7 to 18 hours. When the temperature in the room is less than 10 ° C and in the “active” hours of the timer, both heating elements turn on and begin to warm the room. Having reached 10 ° C in 30 minutes of the first temperature threshold, one heater is switched off, the second continues to work. After 40 minutes, the second thermostat will turn off the second heater according to a signal from the temperature sensor that the room has reached a temperature of 24 ° C. After the temperature drops by 1-2 ° due to the heat loss of the room, the second heater will turn on again and return the room temperature to 24 ° C. At 18-00, the timer will work and disconnect the second ten circuit, the room temperature will begin to fall. Upon reaching the second threshold value of 10 ° C, the first ten will turn on and will maintain this temperature during non-working hours.

Thus, the inventive electric heater quickly warms up the room to a comfortable temperature during business hours and maintains a predetermined temperature minimum during non-working hours, allowing you to economically consume electricity flexibly adjusting to environmental conditions.

Claims (7)

1. An electric radiator consisting of a housing filled with a coolant, a heating element isolated from the total volume of the coolant, and installed in a separate housing of small volume, hermetically connected to the radiator body by supply and discharge tubes, characterized in that the heating element is made in the form of PETN, installed in the lower part of the polypropylene pipe connected by polypropylene fittings to the inlet and outlet polypropylene pipes, and in the power supply circuit of the heating element the activator switch and the thermal relay with an external temperature sensor are included, made with the possibility of opening and closing the power supply circuit of the heating element by a signal from the external temperature sensor at a given value of the ambient temperature. 2. An electric radiator according to claim 1, characterized in that the heating element is made in the form of a block of heaters with the possibility of their inclusion in various combinations for stepwise changing the power consumed by the device and the heating medium heating rate. 3. An electric radiator according to claim 1, characterized in that it further comprises a timer configured to turn on or off one of the unit's heaters for a specified period of time at a given time of the day. 4. An electric radiator according to any one of paragraphs. 1-3, characterized in that a non-freezing liquid is used as a heat carrier. 5. An electric radiator according to any one of paragraphs. 1-3, characterized in that it further comprises an indicator of functioning. 6. An electric radiator according to any one of paragraphs. 1-3, characterized in that the remote temperature sensor further comprises a digital indicator. 7. An electric radiator according to any one of paragraphs. 1-3, characterized in that it is additionally equipped with legs for installation on the floor.

Images