RU93943U1 - CONVECTIVE ELECTRIC HEATER - Google Patents

Abstract

 1. A convective electric heater comprising a housing with vertically oriented front and rear panels, air intake grilles located in the lower part of the housing and air exhaust grilles located in the upper part of the housing, a heating element arranged to interact with the air flow in the lower part of the housing above the air intake grilles, and electro-effluvial type air ionizer located above the heating element, as well as a control device, safety thermostat, thermal pre Fusing and normally closed sensor falls, wherein the ionizer is connected directly to the electric circuit control unit, another circuit which includes a series connection of the heating element, the drop sensor, thermal fuse and thermostat. ! 2. The electric heater according to claim 1, characterized in that the heating element is made in the form of a tubular electric heater (TEN) with fins and a double heating coil, the thermostat is made in the form of a bimetallic disk thermostat, the drop sensor is made with a push switch and a rolling element, and the ionizer - in the form of a carbon brush and a voltage-boosting discharge transformer. ! 3. An electric heater according to any one of claims 1 and 2, characterized in that the control device is designed as an automatic controller with a temperature sensor. ! 4. An electric heater according to any one of claims 1 and 2, characterized in that the control device is made in the form of a three-position switch, and an adjustment thermostat is connected in series with the safety thermostat. ! 5. An electric heater according to any one of claims 1 and 2, from

Description

The utility model relates to electrical engineering, namely to heaters of domestic premises such as residential premises, offices, country houses, change houses of construction organizations. Currently, electric heating of residential, public and industrial premises is becoming more widespread, which opens up new opportunities for a qualitative improvement in the microclimate of the room, the aeration composition of the breathing zone and the increase in the level of comfort of the human environment.

Known convective electric heaters RU No. 61494, 67373, 76192, 84513, 2062621,2074523,2247905, 2003124969, JP No. 2002-191426.

The heater is known as an electric convector equipped with finned heating elements, the finning of each heating element provides the best contact with the air, the mutual action of 16 heating elements provides direct contact with a large amount of air, air heating is most effective due to the mutual action of the heating elements of the heating elements located in the middle of the metal body of the open above and below, where the greatest outlet of hot air is formed during direct-flow and natural circulation (RU No. 61494).

The disadvantage of this electric heater is the narrowness of functionality in terms of a qualitative improvement in the microclimate of the room, aeration composition. No protection of the electric circuit against overload or falling is provided, which reduces the safety of use of the product.

A hair dryer (electric heater) is known in which a negative ion generator is installed that generates negative ions for a fan heater. A hair dryer can moisturize hair by spraying a fog with nanometer-sized particles that are attracted to negative ions and hair. The direction of flow changes depending on the electrostatic charge of the environment and air flow (JP No. 2002-191426).

The disadvantage of this electric heater is the narrow functionality due to the impossibility of heating the room as a whole, the danger of electric shock when moisture gets on the current-carrying parts of the electric heater and the room, and inefficiency with respect to the composition of the inhaled air. No protection in the electric circuit of the product against overload or falling is provided, which also reduces the safety of use of the product.

The closest in technical essence and the achieved effect is an electric heater containing an insulating casing, an electric circuit board with ionizing electrodes located in it, and a resistive heat heater. This electric heater, in addition to ionizing electrodes, has a water bath, a vertical insulating screen that separates the air stream leaving the chamber from the surface on which the device is installed, and a heat heater that heats the air in the upper part of the chamber, which complicates the design of the device. (RU No. 2062621 prototype).

The disadvantages of this electric heater are the danger of electric shock when moisture enters the current-carrying parts of the electric heater and electrodes that are practically not protected by the body, the risk of electric shock when the electrodes touch, and a high fire hazard when dropped, especially when the vessel is overturned with water. No protection of the electric circuit against overload or falling is provided, which also reduces the safety of use of the product. In addition, when placing the device on a vertical wall, negatively charged air particles rush toward the wall under the influence of electrostatic forces of attraction, despite the placement of a special insulating screen and forced convection due to the effect of the electric heating element on the air flow, which leads to the withdrawal of the breathing zone from the sphere of influence devices.

The technical task of the utility model is to create an effective convective electric heater and expand the arsenal of convective electric heaters.

The technical result that provides the solution of the problem lies in the fact that high operational safety is ensured, since protection against electric shock is provided, since moisture penetration to the current-carrying parts of the electric heater and the ionizer, which are protected by the housing as much as possible, practically eliminates the risk of electric shock when touched so as the ionizer is optimally positioned and reliably protected by the housing, there is no fire hazard in the event of a fall, the electric circuit is electric heating element is reliably protected against an overload.

The essence of the utility model is that a convective electric heater comprises a housing with vertically oriented front and rear panels, air intake grilles located in the lower part of the housing and air exhaust grilles located in the upper part of the housing, a heating element arranged to interact with the air flow in the lower part of the housing above the intake grilles, and an electro-effluvial type air ionizer located above the heating element, as well as a control device phenomena, safety thermostat, thermal fuse and a normally closed drop sensor, while the ionizer is connected directly to the electrical circuit of the control device, the other circuit of which includes a heating element, a drop sensor, a thermal fuse and a thermostat.

Preferably, the heating element is made in the form of a tubular electric heater (TEN) with fins, with a double heating coil, the thermostat is made in the form of a bimetallic disk thermostat, the drop sensor is made with a push switch and a rolling element, and the ionizer is in the form of a carbon brush and increases the voltage of the discharge transformer .

The control device can be made in the form of an automatic controller with a temperature sensor, or can be made in the form of a three-position switch, and a control thermostat is connected in series with the safety thermostat.

In particular cases of implementation, the electric heater is equipped with a removable cartridge with at least one air filter placed above the intake grilles in the lower part of the housing.

In the drawing, Fig. 1 shows a structural diagram of a convective electric heater, Fig. 2 is a structural diagram of a drop sensor, Fig. 3 is an electrical diagram of a product when a control device is in the form of a three-position switch, and Fig. 4 is a circuit diagram of a product when a control device is implemented in the form of an automatic regulator.

A convective electric heater comprises a housing with vertically oriented front and rear panels 1, 2, respectively, air intake grilles 3 located in the lower part of the housing and air exhaust grilles located in the upper part of the housing 4. The heating (electric heating) element 5 is arranged to interact with the air flow in the lower parts of the casing above the intake grilles 3. An electro-effluvial type ionizer 6 is located above the heating element 5. The ionizer 6 is not connected directly to the electric circuit of the control device, the other circuit of which includes a heating element 5 in series, a drop (tilt) sensor 7, a thermal fuse 8 (fuse) and a self-resetting safety thermostat 9. The drop sensor 7 is made with a normally closed push-button switch 10 (touch microswitch) and a rolling element 11 (e.g., a ball).

The heating element 5 is made in the form of a tubular electric heater (TEN) with external fins and with a double heating spiral of nichrome filament in an aluminum casing filled with dielectric filler (quartz sand). Protective self-resetting thermostat 9 is made in the form of a KSD-type bimetallic disk thermostat, which is a bimetallic disk made of metals (alloys) of different thermal conductivity. The ionizer 6 is made in the form of a carbon brush and increases the voltage of the discharge transformer (not shown). The pointed parts of the carbon brush are enclosed in a metal casing to ensure the necessary safety (not shown).

A convective electric heater can be equipped with a removable cartridge with at least one air filter (not shown) located above the intake grilles 3 in the lower part of the housing.

The control device is made according to the scheme of figure 3 in the form of a three-position switch 12, i.e. with manual switching of the operating modes of one or two heating spirals of element 5 and with an adjusting (manually) thermostat 16, connected in series to the thermostat 9.

The control device is made according to the scheme of figure 4 in the form of an automatic controller 13 - for example, an electronic board with a control controller (not shown), i.e. with switching modes of engaging one or two heating spirals of element 5 (manually) and turning the device off / on by the signal of temperature sensor 14.

The electric heater has a power switch 15 and a cord with a plug (not shown) for supplying power from the network.

Convective electric heater (equivalently - convector, heater) can be installed on the floor with the help of rollers.

Convective electric heater operates as follows.

The assembled finished electric heater (convector, heater) is installed in the working position in a place convenient for heating. Plug the cord into an electrical outlet. Using the regulator 13 or using the switch 12 and thermostat 16, the user sets the necessary mode to achieve the desired room temperature. When choosing the half power mode, only one of the two heating spirals, the heating element 5, works. Then the switch 15 closes.

When connected to the mains, the heating element 5 heats up. The principle of operation of the device is based on the natural circulation of air in the room (convection). Air enters the housing through the intake grilles 3 at the bottom, then is heated by the heating element 5 and exits through the air outlet grilles 4 in the upper part of the convector housing. The case with panels 1, 2, convector at the same time performs the function of a convection chamber. The movement of air is due to the fact that the air heats up below, its volume increases, excessive pressure is created, and air is pushed out with force through the air exhaust grilles 4, i.e. air draft is realized.

The basis of the operation of the electroeffluvial type ionizer 6 is the principle of coronary discharge, which is formed by applying high voltage voltage with a low current strength to the pointed ends of the carbon brush, resulting in an electric (coronary) discharge. For this, the transformer of the ionizer 6 simultaneously reduces the current strength and transfers the voltage to the carbon brush, which is the source of ionization due to high-voltage discharges flowing between the rods (threads) of the carbon brush. Under the action of the electrified ends of the rods of the carbon brush, there is a swelling of electrons - electrical effusions. Oxygen molecules passing through the carbon brush due to the convective flow created by the heating element 5 capture free electrons, forming negatively charged AEPO ions, which, together with the hot air stream, exit through the air outlet grilles 4 and enter the room heated by the convector. Ions have a general beneficial effect both on cleanliness in the room and on the human body.

When the limit temperature inside the housing is reached, the bimetallic disk of the thermostat 9 begins to deform (bend), as a result of which the electric circuit opens and the heater turns off. After lowering the temperature inside the case, the disk acquires its original shape and the electrical circuit closes.

In the process of operation of the product according to the scheme of figure 3, the thermostat 16, if necessary, automatically changes the mode of operation of the heater.

In the process of operation of the product according to the diagram of Fig. 4, the controller 13 measures the temperature of the incoming air by means of the temperature sensor 14 and correlates the result with the user setting of the controller 13, if necessary, automatically changing the operation mode of the heater.

The drop sensor 7 is used to turn on / off the circuit depending on the position of the electric heater and is designed to increase the safety of operation of the device, in particular, to exclude the possibility of a fire of the device when it is tipped over. The microswitch 10 is normally closed under the influence of the gravity of the element 11 in the conditions when the device is located (operated) correctly, vertically. When the housing deviates from the vertical position (for example, in case of accidental rollover), the rolling element 11 rolls under the action of gravity and releases the microswitch 10, which switches to the open position, thereby preventing the risk of a fire hazard. When the heater body (electric heater) returns to the vertical position, the sensor 7 again closes the electric circuit and the product can continue to be used in normal mode.

Thermal fuse 8 disables the electrical circuit in an emergency in case of failure of the thermostat 9 (redundancy).

When the heater is working, ionized particles of dust and suspended particles settle on the walls, floor, furniture much more intensively than dust in a room without an ionizer. This allows you to remove dust, and to prevent the ingress of this amount of dust into the lungs of a person. The filter, if present, also significantly reduces the amount of dust in the room.

Ionizer 6 - an ion generator is an effective means of preventing diseases of the cardiovascular system. Ionized oxygen positively affects the metabolism in the blood, strengthening the walls of blood vessels and reducing the formation of blood clots. The positive effect of ions in the air: strengthening immunity, tone, reducing fatigue; better course of some diseases; improvement of psychological state, healthy sleep; a significant reduction in the number of bacteria and fungi in the room; neutralization of electrostatic fields.

This convective electric heater (equivalently - a convector, heater) has high functionality due to:

- the possibility of including half the power of the heating element due to the use of a double helix to save energy consumption and reduce the load on the power grid;

- creating a climate favorable for humans in the room by means of a built-in air ionizer;

- increased electrical and fire safety due to the fact that it contains a safely located ionizer that does not require the presence of moisture, as well as a group of safety devices that are included in the general electrical circuit and open it in a dangerous situation - when exceeding the permissible temperature indicators, blocking the air outlets 4 overturning.

Thus, an effective convective electric heater was created and the arsenal of convective electric heaters was expanded.

At the same time, high operational safety is ensured, since protection against electric shock is provided, since moisture penetration to the current-carrying parts of the electric heater and the ionizer, which are protected by the housing, is almost eliminated, the danger of electric shock when touched is practically eliminated, since the ionizer is optimally located and reliably protected by the housing, fire hazard is excluded in the event of a fall, the electric circuit of the electric heating element is protected against overload.

Claims (5)

1. A convective electric heater comprising a housing with vertically oriented front and rear panels, air intake grilles located in the lower part of the housing and air exhaust grilles located in the upper part of the housing, a heating element arranged to interact with the air flow in the lower part of the housing above the air intake grilles, and electro-effluvial type air ionizer located above the heating element, as well as a control device, safety thermostat, thermal pre Fusing and normally closed sensor falls, wherein the ionizer is connected directly to the electric circuit control unit, another circuit which includes a series connection of the heating element, the drop sensor, thermal fuse and thermostat. 2. The electric heater according to claim 1, characterized in that the heating element is made in the form of a tubular electric heater (TEN) with fins and a double heating coil, the thermostat is made in the form of a bimetallic disk thermostat, the drop sensor is made with a push switch and a rolling element, and the ionizer - in the form of a carbon brush and a voltage-boosting discharge transformer. 3. An electric heater according to any one of claims 1 and 2, characterized in that the control device is designed as an automatic controller with a temperature sensor. 4. An electric heater according to any one of claims 1 and 2, characterized in that the control device is made in the form of a three-position switch, and an adjustment thermostat is connected in series with the safety thermostat. 5. An electric heater according to any one of claims 1 and 2, characterized in that it is equipped with a removable cartridge with at least one air filter placed above the intake grilles in the lower part of the housing.