RU163021U1 - ELECTRIC CONVECTOR - Google Patents

Abstract

1. The electric convector contains a housing with air inlets located at the bottom and air outlets located at the top of the housing, a heating element, a control unit, a current lead, a control unit is an electric board located in the box, a temperature sensor electrically connected to the control unit characterized in that the temperature sensor is mounted on the current lead. 2. An electric convector according to claim 1, characterized in that the temperature sensor is fixed to the current lead through the holder. 3. An electric convector according to claim 2, characterized in that the holder is made in the form of a capsule. 4. An electric convector according to claim 2, characterized in that the holder is made of a polymeric material. An electric convector according to claim 2, characterized in that as a heating element in the lower part of the housing are placed heating elements. 6. The electric convector according to claim 2, characterized in that the control unit box is located in the upper part of the housing and is equipped with a power button. An electric convector according to claim 1, characterized in that the control unit box comprises a display. An electric convector according to claim 1, characterized in that the control unit comprises a safety thermostat.

Description

The utility model relates to electrical engineering, namely to electric convective heaters for domestic and office premises.

Electric convectors are widely used due to the fact that they do not deplete the air with oxygen, are safe to use, including due to the low temperature of the heating element, which prevents the convector from being heated too much even at the highest power, the maximum surface temperature of the case is in the range from 60 up to 90 ° C. In addition, electric convective heaters are easy to install and use, as their installations do not require intervention in existing utilities.

Currently, models of electric convective heaters are being manufactured in the world with a temperature sensor installed: in the lower part of the housing on the right or left side under the heating element or in the lower part of the housing near the air inlet nozzle or in the upper part of the housing in the control unit for convectors on the right or left side.

In particular, a heater is known which has a housing, inside of which there is a heating unit, placed in a housing and isolated from the housing, an air supply unit, a direct voltage converter of the on-board electric transport network to an alternating voltage of an asynchronous electric motor, and series-connected thermal sensors of the protection system. The heating block is made in the form of a series of electrically connected heating elements fixed through insulators on the holders. The air supply unit is made in the form of an asynchronous electric motor connected to the impeller and the air flow former. Thermal sensors are installed inside the casing of the heating unit from the side of the air supply unit. In one of the walls of the casing made inputs of high and low supply voltage (patent RU No. 2343364, 2009).

Also known is 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 an air ionizer located above the heating element, as well as a control device, safety thermostat, thermal fuse, sensor IR temperature is located in the control device (patent RU No. 93943, 2010).

It is also known an electric device for heating rooms in the form of an electric heater, which contains a housing with air inlet and outlet openings located at opposite ends of the housing, a fan and electric heating elements placed inside the housing and electrically connected to a control unit mounted on the outside of the housing. The electric air heater contains a humidity and temperature control device mounted on the housing and electrically connected to the electric air heater control unit (patent RU No. 124773, 2013).

All of the above convective electric heaters do not allow the temperature sensor to accurately determine the temperature in the rooms, since the temperature sensor in all of the above options for its placement is located next to the heating element, as well as inside the convection stream, including in the control unit.

At the moment, all temperature sensors of all manufacturers in the electric convectors of domestic type heaters in the world have an error of 5 to 10 ° С. In other words, they show a temperature of 20 ° C, while the actual temperature in the room is 10-15 ° C. In order to hide this defect, manufacturers measure the average error of the temperature sensor, and the processor on the electronic circuit board of the device, when calculating the temperature in the room, automatically adds this average error. In turn, this leads to the fact that the electric convective heater poorly performs its function.

Closest to the proposed one is a convective electric heater containing a convection chamber formed by a front panel and a rear housing having a box-like structure and forming side walls, an air intake grill is placed in the lower part, and outlet openings for air passage are located in the upper part, functional elements are fixed inside convection chamber by means of fastening elements, as functional elements in the lower part of the convection chamber are placed heating an element with a current lead, a control unit with a power button, fasteners are made in the form of left and right plastic mount housings, each of which contains slots for fixing functional elements and latches for engagement with the side walls of the convection chamber. As a functional element, it contains a temperature sensor installed in the hole of the mount housing (patent RU 141837, 2014).

The known convector makes it possible to place the temperature sensor in the place of intake, i.e. to increase the accuracy of measurements of air temperature in the room, as well as protect it from unwanted overheating as a result of temperature exposure. At the same time, depending on the room (type in terms of the location of windows, cold walls, air flows and other features), the heater maintains a room temperature that differs by 2-4 ° C, both up and down, from set by the consumer. In addition, if the room has high ceilings and a narrow space between the walls, then an electric convective heater with a temperature sensor placed below will not heat the air in this room to a predetermined one, since the temperature sensor below will turn off the heating element earlier than necessary.

The objective of the utility model is to increase the efficiency of an electric convector by increasing the accuracy of temperature control.

The technical result is an increase in the accuracy of temperature control.

The problem is solved in that the inventive electric convector comprises a housing with air inlets located at the bottom and air outlets located at the top of the housing, a heating element, a control unit, a current lead, a control unit is an electric board located in the box, a temperature sensor, electrically connected to the control unit, characterized in that the temperature sensor is mounted on the current lead.

The housing may be further provided with fastening elements for wall mounting, which are located on the rear wall of the housing.

The front panel of the housing is preferably heat transfer.

The box with the control unit is made with a cover on which a display with control elements can be placed. The box with the control unit is located in the upper part of the body of the electric convector.

The control unit is equipped with a power button and can optionally be equipped with a safety thermostat.

A processor is preferably used as the electrical board.

As a heating element using TENy.

The air inlets and outlets are preferably in the form of blinds.

A power cable is used as a current lead, one end connected to a control unit, and the other end provided with a plug for connecting to a power source.

As a temperature sensor, for example, but not limited to, a temperature sensor, for example, Ballu BEC / EVE-1500, Electrolux ECH7AG2-1000EF, can be used. The temperature sensor is equipped with a holder for attaching to the power supply and mechanical protection against damage. The holder is made of a polymeric material, preferably polyethylene. The holder can be made in the form of a capsule with perforations.

Placing the temperature sensor on the current lead allows you to determine the temperature in the room with an error of not more than 3 ° C, since:

1. the temperature sensor is more than 40-50 cm away from the housing of the heating element (depending on the model);

2. since the temperature sensor is located outside the convector, and not inside the body, it is outside the active convection process, that is, it measures the temperature in the room, and not the temperature of the heated air that is created and leaves the convector body, due to aerodynamic properties.

This allows the temperature sensor in all cases and in all types of rooms to show the temperature in the room as accurately as possible, which means that an electric convective heater with this arrangement maintains exactly the temperature that was set by the consumer.

The inventive electric convector is illustrated by examples of specific performance. In particular, Example 1 shows an electric convector with a temperature sensor with a metal tip on the current lead and a holder for fixing the temperature sensor and its mechanical protection against damage. Example 2 shows an electric convector with a temperature sensor without a metal tip, where a capsule is used as a holder, in which the temperature sensor is placed, for fixing the temperature sensor to the current lead and its mechanical protection against damage.

Examples of specific performance are illustrated by the following drawings.

In FIG. 1 shows a General view of the inventive convector;

In FIG. 2 too, front view

In FIG. 3 too, side view;

In FIG. 4, too, top view;

In FIG. 5 - shows an electrical diagram of the inventive convector;

In FIG. 6 - shows the box of the control unit with a current lead according to example 1;

In FIG. 7 - shows the box control unit with a current lead in example 2;

In FIG. 8 shows a 3D model of the current supply with a temperature sensor according to example 1;

In FIG. 9 shows a 3D model of the current supply with a temperature sensor according to example 2.

In FIG. 10 shows a 3D model of the inventive convector with a temperature sensor according to example 2.

The inventive electric convector consists of a box-type housing with a front panel 1, air inlets 2 located at the bottom, and air outlets 3 located in the upper part of the body, a rear panel 4, box 5 for housing a control unit with a cover 6, a heating element 7, made from an electric heater (TENA). The control unit is electrically connected to the current lead 8, made in the form of a power cable, equipped with a button 10 on-off mechanical switch (On / Off). The current lead 8 is equipped with a clamp 11 in the upper part, a temperature sensor 12, which is electrically connected to the control unit and mounted on the current lead 8 through the holder 9 (example 1). The temperature sensor 12 is mounted on the current lead 8 through the capsule 17 (example 2). Box 5 of the control unit is equipped with a display 13, which is located on the cover 6. The control unit is equipped with a protective thermostat 14, mounted on the cover 6 of the box 5 on the stand 15. With the convector body, box 5 of the control unit is connected via a fastener 16. Electrical connection of the temperature sensor 12 s the electric board 19 of the control unit is carried out by means of a current lead 18.

The inventive electric convector operates as follows. After turning on the electric convector by connecting the current lead 8 to the household electrical network (the current lead plug is not shown) and turning on the button 10 of the on-off mechanical switch (On / Off), the temperature sensor 12, mounted on the current lead 8 through the holder 9 or capsule 17, determines the ambient temperature indoors and transmits a signal to the processor on the electric board 19, the temperature readings are displayed on the display 13. The user through the controls on the cover 6 of the box 5 of the back control unit is the desired indoor temperature, e.g. 25C °. After that, the processor of the electric board 19 by means of a relay supplies current to the heating element 7 and the air entering through the air inlet openings 2 is heated. The heated air leaving the air outlet 3 heats the air in the room. Heat transfer is also carried out through the heat transfer front panel 1 of the housing. Each time period (different temperature sensors vary from 10 seconds to 5 minutes), the temperature sensor measures the room temperature and transfers data to the processor of the electric board 19. The processor checks the data with the temperature set by the user. When the ambient temperature reaches 25 ° C, the signal from the temperature sensor 12 is supplied to the processor of the electric board 19 of the control unit, which changes the amount of electric current passing through the heating element 7 and turns it off. After that, the temperature sensor 12 continues to measure and send data to the processor of the circuit board 19. If the room temperature readings fall below the temperature indicated by the user, the processor of the circuit board 19 sends a signal to turn on the heating element 7. The protective thermostat 14 is connected in parallel to the current lead 8 and set to the temperature critical for this convector, it works continuously. Accordingly, when the temperature inside the convection chamber of the convector begins to exceed the critical temperature, the protective thermostat 14 opens the electric circuit, then after the temperature inside the case decreases to acceptable, the protective thermostat 14 closes the electric circuit again (Fig. 5) and the convector resumes normal operation .

Thanks to the claimed design, the electric convector, in comparison with existing models, provides more accurate maintenance of the set temperature in the heated room, i.e. allows you to most accurately maintain a given room temperature by eliminating errors in determining temperature readings associated with the passage of convective air flow through a temperature sensor. Using the inventive design of an electric convector will allow you to maintain constant climate control exactly with the temperature that was set by the consumer.

Claims (8)

1. The electric convector comprises a housing with air inlets located at the bottom and air outlets located at the top of the housing, a heating element, a control unit, a current lead, a control unit is an electric board located in the box, a temperature sensor electrically connected to the control unit characterized in that the temperature sensor is installed on the current lead. 2. An electric convector according to claim 1, characterized in that the temperature sensor is fixed to the current lead by means of a holder. 3. The electric convector according to claim 2, characterized in that the holder is made in the form of a capsule. 4. The electric convector according to claim 2, characterized in that the holder is made of a polymeric material. 5. An electric convector according to claim 2, characterized in that as a heating element in the lower part of the housing are heating elements. 6. The electric convector according to claim 2, characterized in that the control unit box is located in the upper part of the housing and is equipped with a power button. 7. The electric convector according to claim 1, characterized in that the control unit box comprises a display. 8. The electric convector according to claim 1, characterized in that the control unit comprises a safety thermostat.

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