RU92942U1 - ELECTRIC CONVECTOR - Google Patents

Abstract

 1. An electric convector comprising a housing and a heating element, characterized in that it further comprises an air ionizer. ! 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 power of the heating element. ! 3. An electric convector according to any one of claims 1 and 2, characterized in that the air ionizer has autonomous control. ! 4. An electric convector according to any one of claims 1 and 2, characterized in that the air ionizer is built into the convector body. ! 5. 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. ! 6. An electric convector according to any one of claims 1 and 2, characterized in that it further comprises a device for additional thermal radiation. ! 7. The electric convector according to claim 3, characterized in that it comprises an air ionizer integrated in the housing, a humidifier, a fan or a fan heater, as well as an additional thermal radiation device.

Description

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

The 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 into the upper layers.

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

Also known is the design of an electric convector (RU No. 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, the convector switched on at the highest power 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 the ability to create convective air currents that circulate around the room, which entrain dust and can cause inconvenience and discomfort for people with asthma and inflammation of the mucous membranes. For example, if dust accumulates, then subsequently, when convector heating is turned on at full power, dust particles rising into the air along with convection flow can adversely affect health.

Operating electrical equipment virtually eliminates the presence of light ions in the room. Light ions, as more mobile, move along the field lines of force, tending to oppositely charged surfaces, where they are neutralized. Any heating of the air leads to its drying. Being in suspension, dust represents a huge number of condensation nuclei for the formation of heavy ions. The use of heating devices contributes to the very rapid destruction of light ions, turning them into heavy ones.

Lack of ionization leads to oxygen starvation, poor health, poor performance, loss of attention, fatigue, weakening of general immunity and provokes the development of diseases.

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

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 the heating element further comprises an air ionizer.

The air ionizer, which is equipped with a convector, restores and maintains an optimal ion balance (a given concentration of ions of a certain polarity) in rooms heated by an electric convector. The process of artificial air ionization using air ionizers is carried out to compensate for the deficiency or absence of negatively charged ions that are beneficial to lung health.

Figure 1 presents the structural diagram of an electric convector.

Figure 2 is a circuit diagram (option 1) of an electric convector with an air ionizer having an autonomous inclusion.

Figure 3 is a circuit diagram (option 2) of an electric convector with an air ionizer having an autonomous inclusion (inclusion of an ionizer regardless of the inclusion of a heating element (TENA) of the convector).

The following is information confirming the possibility of implementing the claimed utility model to obtain the above technical result.

The main structural elements of a household electric heater-convector: a housing, a heating element (source of thermal radiation), a convector control device and temperature and power control of the heating element and an ionizer. In some models, a convector control device and temperature and 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 itself; turning off is the only way to stop heating.

The case, as a rule, is box-shaped and has a front and a back panel; it can be a supporting or suspended one. When the suspension version is implemented, on the rear panel of the housing from the outside there are elements for fixing the convector to the wall. With the floor-mounted version, hinged or stationary supports are located in the lower part of the housing.

The heating element is placed in the convector body and is its main component. The most economical models are equipped with open incandescent spirals, which increases the speed of heating the air, but as a result of intense heating of the spiral, the dust settling on it oxidizes, unpleasant odor, dry air, etc. More comfortable models are equipped with low-temperature heating elements - heating elements, consisting of a steel tube into which an incandescent spiral is placed, and an aluminum diffuser (radiator). In order to prevent wear of the heater elements, unique RX Silence heaters have been developed: the nichrome filament is pressed into a one-piece silumin body and surrounded by a dense backfill, which is based on magnesia. There is also a design of a heating element of a similar shape in which the filament is placed in a quartz bed. Materials have a close coefficient of thermal expansion, so the wear of the structure is minimal. To prevent dust from settling on the heater and increase the heat transfer area, use its finning.

Climate control is carried out by means of a temperature control and regulation device - a temperature controller (thermostat). 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. There are many varieties of temperature controllers, including: bimetallic (mechanical rheostat) and an electronic device. Thermostats can be improved with timers that allow you to select any temperature mode.

The ionizer is installed inside or outside the convector body. Depending on the design, the ionizer may have its own (separate) control or not at all. In the first version, the ionizer is turned on / off using its own separate handle / switch button. In the second embodiment, the ionizer and convector share a common control and regulation device.

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 to that, 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.

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. Those. when the ambient temperature is lower than the one set by the user, it turns on heating;

In general, regardless of the location and installation method, the ionizer has an autonomous or convector-dependent control, but according to a predetermined scheme or algorithm, for example:

- both when the heating element is on (working), and autonomously (the convector heating element is “off” and does not heat);

- the ionizer does not have its own autonomous control: the ionizer works when the convector is working (it is turned on and the POWER button is pressed), the ionizer automatically stops its work when the convector is turned off;

- the ionizer turns on and off at the same time as the heating element (TENA) is turned off or on.

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

The electric convector can be supplemented with 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 series of functions and / or devices used in any combination with an electric convector, including: an air humidifier, a fragrance, a freshener, a dehumidifier, an air cooler, any watch devices, including a timer and an alarm clock, music devices, any light devices.

Examples 1 and 2 give the characteristics of models of electric convectors with the ionization function — special cases of the utility model execution.

Example 1

General description of the series:

- 100% safety of the structure, absence of sharp corners, heating of the front panel no higher than 85-90 ° С

- External room temperature sensor (interval 5 sec.)

- The special closed finned heating element (Life Comfort) of the increased area with thermal protection and isolation

- Maximum heat distribution efficiency (85% - convection effect + 15% - thermal radiation effect)

- Air ionization function

- rollover sensor

- Protection class IP24 + can be installed in bathrooms

- Absolutely silent operation (UltraSilence standards)

- Lack of smells, does not dry air, does not accumulate dust

- Power cord included

- The warranty period for the device is 36 months, the service life is more than 10 years!

- 99% efficiency

- Ability to install on the legs (optional).

Specifications:

- The control panel like "Wheel" (wheel) in the protected case

- Thermostat with high precision adjustment

- TEC series. OM IN mechanical thermostat

- TEC series. O E IN electric thermostat

- Moisture resistant switch

- Extended thermostat life.

Example 2

Technical characteristics of a series:

- 100% safety of the structure, absence of sharp corners, heating of the front panel no higher than 85-90 ° С

- Special enclosed finned heating element (Solid System) of extended length with thermal protection and insulation

- Maximum heat distribution efficiency (85% - convection effect + 15% - thermal radiation effect)

- The liquid crystal control panel with intuitive control (standards of the CleverHouse technology)

- 13 work programs (12 built-in + 1 customizable) such as “Office”, “Bedroom”, “Children's room”, “Kitchen”, etc.

- A battery that saves the latest user program settings in the event of a power outage (for example, due to power surges)

- Setting the weekly program of the device by days and hours with the ability to copy the program

- Air ionization function

- rollover sensor

- Economic mode of operation

- 24 hour timer

- Indication of time and day of the week

- Function “Child lock / Lock”.

The above examples confirm the feasibility of the claimed utility model to obtain the specified technical result.

Claims (7)

1. An electric convector comprising a housing and a heating element, characterized in that it further comprises an air ionizer. 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 power of the heating element. 3. An electric convector according to any one of claims 1 and 2, characterized in that the air ionizer has autonomous control. 4. An electric convector according to any one of claims 1 and 2, characterized in that the air ionizer is built into the convector body. 5. 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. 6. An electric convector according to any one of claims 1 and 2, characterized in that it further comprises a device for additional thermal radiation. 7. The electric convector according to claim 3, characterized in that it comprises an air ionizer integrated in the housing, a humidifier, a fan or a fan heater, as well as an additional thermal radiation device.