RU95806U1 - ELECTRIC CONVECTOR WITH AIR HUMIDIFIER - Google Patents

Abstract

 1. An electric convector comprising a housing and at least one heating element, characterized in that it further comprises an air humidifier. ! 2. The electric convector according to claim 1, characterized in that it further comprises a device for controlling the convector and controlling the temperature and / or power of the heating element. ! 3. An electric convector according to any one of claims 1 and 2, characterized in that the humidifier has autonomous control. ! 4. Electric convector according to any one of claims 1 and 2, characterized in that the humidifier is built into the convector body. ! 5. The electric convector according to claim 3, characterized in that the humidifier is built into the convector body. ! 6. An electric convector according to any one of claims 1 and 2, characterized in that it further comprises a fan or fan heater integrated in the housing. ! 7. The electric convector according to claim 3, characterized in that it further comprises a fan or fan heater integrated in the housing. ! 8. The electric convector according to claim 4, characterized in that it further comprises a fan or fan heater integrated in the housing. ! 9. An electric convector according to any one of claims 1 and 2, characterized in that it further comprises an ionizer integrated in the housing. ! 10. The electric convector according to claim 3, characterized in that it further comprises an air ionizer integrated in the housing. ! 11. The electric convector according to claim 4, characterized in that it further comprises an air ionizer. ! 12. The electric convector according to claim 5, characterized in that it further comprises an air ionizer. ! 13. The electric convector according to claim 6, characterized in that it is additional

Description

The utility model relates to household appliances, namely to household heating appliances - electric convectors.

The work of a domestic electric heater - convector - is based on the natural circulation of air in the room: the downward movement of cold air flows and the movement of warm, heated masses in the upper layers.

There are many household electric convectors (see the article “Where does the warm wind come from”, “New House” magazine No. 11, 2008), which differ in case design, type of heating element, and the presence of a power and / or temperature control and regulation system.

A known design of an electric convector (RU N 2059167 C1) with tubular heating elements installed inside the housing.

Known electric convector "COMFORT-3U" (RU No. 6605 U1), comprising a housing, a heating element located in the housing, and a power control device.

The main advantages of electric convectors:

• Security

Due to the low temperature of the heating element, turned on at the highest power, the convector does not heat up too much. The maximum temperature of the surface of the body is usually in the range from 60 to 90 degrees C. The convector does not deplete the air with oxygen.

• Ease of installation and use: the installation does not require intervention in existing utilities.

The disadvantage of all electric convectors is their ability to create convective air flows that circulate around the room, which entrain dust, polluting and drying the indoor air. Undergoing heating, the air becomes warm and dry, resulting in a sharp decrease in its relative humidity. When such air is inhaled, the mucous membranes dry out, which leads to a decrease in the protective functions of the body and an increase in the risk of respiratory and infectious diseases. Therefore, in winter, when people use heating appliances in conditions of dry air, fatigue and susceptibility to pathogenic microbes and viruses increase in people. Drying the room with air also leads to cracking of wood and materials, an increase in static electricity. Furniture and indoor plants also suffer from a lack of moisture. A dry climate is especially bad for children. The optimal relative humidity for humans is 40-60%, for plants in conservatories and greenhouses - 55-75%.

The objective of this utility model is to improve the ecology of domestic and office premises for preventive and therapeutic purposes by creating an effective air humidification system.

The technical result, which is achieved as a result of the implementation of this utility model, is to expand the functionality of the electric convector.

The specified technical result is achieved due to the fact that the electric convector containing the housing and at least one heating element further comprises an air humidifier.

The most economical models of electric convectors are equipped with open incandescent spirals, which increases the rate of air heating, but as a result of intense heating of the spiral, the dust deposited on it oxidizes, unpleasant odor, dry air, etc. More comfortable models are equipped with low-temperature tubular heating elements - heating elements, consisting of a steel or aluminum tube in which the glow plug is placed, and a steel or aluminum diffuser (radiator).

The humidifier, which is equipped with a convector, restores the required level of humidity in the room and ensures a healthy and comfortable microclimate.

An air humidifier with any principle of operation can be used with an electric convector. According to the principle of operation, air humidifiers are of three types: traditional, steam and ultrasonic.

Traditional (classic) humidifiers work on the principle of “cold” evaporation, are characterized by economical energy consumption, low noise and safety, have a humidity limit of not more than 60%. Water is poured into the tank of the device, from where it enters special evaporation elements, the built-in fan draws in dry air from the room and drives it through the evaporator. Thus, natural air humidification occurs. The warm air circulating from the convector increases the evaporation rate.

Steam humidifiers operate on the principle of "hot" evaporation. Water is heated using electrodes and, reaching maximum temperature, is converted to steam. Steam humidifiers allow you to increase the humidity of the room up to 60% and higher, have the highest performance. The disadvantage is the high power consumption.

As a special case of a combination of a traditional and steam humidifier, a humidifier using the heat of the heating element of a heating device. At the same time, a container with water is built into the heater’s body (as an example, an oil-filled radiator, maybe also an electric convector), which is heated during the operation of the heater by the hot / warm (heated) air flows passing by the tank. In the process of heating the tank and water in it, an increase in the intensity of water evaporation occurs. The steam is mixed with heated air and dispersed in the room.

Ultrasonic humidifiers work on the principle of converting water into a "water cloud" through high-frequency oscillations. Dry air is sucked in by the fan from the room, passes through a "cloud" consisting of microscopic particles of water and air, and is supplied to the room in the form of cold and wet fog. Ultrasonic humidifiers are safe during operation, as a rule, they have a replaceable filter - a cartridge for purifying water from minerals and impurities, have a wide humidity range, are characterized by compactness, low power consumption and high performance.

An electric convector with a humidifier, as a rule, contains a device for controlling the convector and regulating the temperature and / or power of the heating element. There are many varieties of temperature controllers, including: bimetallic (mechanical thermostat) and an electronic device. Thermostats can be improved by timers that allow you to program the time the device is turned on and / or off. The electronic version of the control and regulation device can have additional functions - an on and off timer, hours, programming different temperature levels for different times of the day and different days of the week, built-in program options, etc. In addition, the control and regulation device may contain additional elements in the form of sensors - thermal limiters, rollover sensors, etc. Control can be carried out directly from the instrument panel or using a remote control; it is possible to combine electronic control with visual or sound control of the convector. In some models, a convector control device and temperature and / or power control of the heating element may not be available, i.e. the convector can only work on and off (turning on is the beginning of heating and, in fact, the process of heating the air; turning off is the only way to stop heating).

The humidifier can have its own (autonomous) control (in this case, the humidifier is turned on / off using its own separate handle / switch button) or not at all. In general, regardless of the location (inside or outside the convector case) and the installation method, the humidifier has an autonomous or convector-dependent control, but according to a predetermined scheme or algorithm, for example:

• the humidifier works both when the heating element is on (working) and autonomously (the heating element of the convector is “off” and does not heat);

• the humidifier does not have its own autonomous control: the humidifier works during convector operation (it is turned on and the POWER button is pressed), the humidifier automatically stops its operation when the convector is turned off;

• the humidifier turns on and off at the same time as the heating element (heating element) is turned on or off.

The air humidifier can be autonomous and / or included in the delivery package together with a convector, i.e. can be located as a separate unit in one package with an electric convector.

The electric convector can be supplemented by a forced ventilation or forced thermal ventilation function: it has a fan or fan heater built into the housing. The installation location of the fan heater and / or fan can be any.

An electric convector can have any device for additional thermal radiation, which can be either stand-alone or built into the device’s case, as well as an additional number of functions and / or devices used in any combination with an electric convector, including: air ionizer, flavor, a freshener, a dehumidifier, an air cooler, any watch devices, including a timer and an alarm clock, music devices, any light devices.

Figure 1 shows the structural diagram of an electric convector with a humidifier, in which: in which mechanical connections are indicated by a solid line, mechanical optional (possible) connections are by a dash with a dot line, electrical by a dotted line, electrical optional (possible) by a dotted line lines.

Figure 2 - circuit diagram of an electric convector with a humidifier having an autonomous inclusion: the inclusion of the humidifier depends on the general switch of the electric convector

Figure 3 is a circuit diagram of an electric convector with an air humidifier having a fully autonomous inclusion (inclusion of a humidifier regardless of the inclusion of a convector).

Figure 4 is a circuit diagram of an electric convector with a humidifier having a fully dependent switch-on (the humidifier is turned on and only works when the convector is on).

Below, with specific examples, information is provided that confirms the possibility of implementing the claimed utility model to obtain the above technical result.

Example 1

Electric convector with traditional (classic) humidifier

A household electric convector with a combined type humidifier (a combination of a traditional and a steam humidifier) contains a housing 1, a heating element (heat radiation source) 2, a convector control device and an air temperature control unit (thermostat) 3, and an air humidifier 4 installed outside the convector housing, which It does not have a device for controlling and regulating the intensity of the humidification process, as well as turning on and / or turning off the power.

By means of a temperature control and regulation device - a temperature controller (thermostat) - climate control is carried out in the room. The temperature controller allows you to program the temperature in a fairly wide range. The device operates in the mode of short-term switching on: the convection panel automatically turns on and off when the air temperature reaches the set values.

The box-shaped suspended casing has a front and rear panels; on the rear panel of the casing from the outside there are elements for attaching the convector to the wall. With the floor-mounted version, hinged or stationary supports are located in the lower part of the housing.

An aluminum tube-type heating element with fins is placed in the convector body and is its main component.

Penetrating into the openings of the convective heating panel of the case, cold air contacts the heating element, rises and exits, as a rule, through special ventilation grilles, usually located on the front or upper panel of the case, which can be equipped with shutters designed for the directed release of heated air. In place of heated air comes a new portion of cooled air, and so on. Depending on the readings of the temperature sensor (in the mechanical system - the thermostat, in the electronic - the electric sensor) and the temperature set by the user, the temperature control and regulation device (in the mechanical system - the thermostat, in electronic - the electronic circuit board) switches the heating on or off item. That is, at an ambient temperature lower than that set by the user, it turns on heating; at a temperature above, it turns off.

The process of air humidification is as follows: an air humidifier, which is a container with water installed in the upper part of the rear panel of the convector, is heated during the operation of the heating element by hot / warm (heated) air flows passing by the container, during the heating of the container and water, the evaporation rate increases . The steam is mixed with heated air and dispersed in the room. The process of evaporation of water from the humidifier tank occurs continuously (even when the convector is not working), but, during heating of the heating element of the convector, the evaporation rate increases due to an increase in the temperature of the water inside the humidifier.

Example 2

The principle of operation of an ultrasonic type air humidifier installed in an electric convector

An ultrasonic-type humidifier is installed outside the body of the electric convector (on the side of the case) using special brackets. In the place where the humidifier is installed, a special connector is provided for supplying power to the humidifier. The humidifier itself has a mating part for this connector. The humidifier works only if the connector is connected; The humidifier has its own on / off switch, allowing the humidifier to work even when the convector is off - fully autonomous control of the humidifier. The only condition for the operation of the humidifier is the connection of an electric convector to the electrical network.

Claims (16)

1. An electric convector comprising a housing and at least one heating element, characterized in that it further comprises an air humidifier. 2. The electric convector according to claim 1, characterized in that it further comprises a device for controlling the convector and controlling the temperature and / or power of the heating element. 3. An electric convector according to any one of claims 1 and 2, characterized in that the humidifier has autonomous control. 4. Electric convector according to any one of claims 1 and 2, characterized in that the humidifier is built into the convector body. 5. The electric convector according to claim 3, characterized in that the humidifier is built into the convector body. 6. An electric convector according to any one of claims 1 and 2, characterized in that it further comprises a fan or fan heater integrated in the housing. 7. The electric convector according to claim 3, characterized in that it further comprises a fan or fan heater integrated in the housing. 8. The electric convector according to claim 4, characterized in that it further comprises a fan or fan heater integrated in the housing. 9. An electric convector according to any one of claims 1 and 2, characterized in that it further comprises an ionizer integrated in the housing. 10. The electric convector according to claim 3, characterized in that it further comprises an air ionizer integrated in the housing. 11. The electric convector according to claim 4, characterized in that it further comprises an air ionizer. 12. The electric convector according to claim 5, characterized in that it further comprises an air ionizer. 13. The electric convector according to claim 6, characterized in that it further comprises an air ionizer. 14. The electric convector according to claim 7, characterized in that it further comprises an air ionizer. 15. The electric convector according to claim 8, characterized in that it further comprises an air ionizer. 16. An electric convector according to any one of claims 1 to 8, characterized in that it further comprises a device for additional thermal radiation.