CZ29703U1 - Electric convector heater of invertor type - Google Patents

Abstract

The invention relates to electrical technology, and specifically to heaters of domestic and office accommodation such as living accommodation, offices, summer cottages and locker cabins of construction and installation organizations. The electric convector heater of the inverter type consists of a body frame 1 with air-inlet holes 2 located at the bottom and with air-outlet holes 3 located in the upper part of the body frame 1, and consists of a front heat-radiating panel 4 and a heating element 5, made from a tubular electric heater. On the body frame 1 is installed a control block, located in the body frame of a control block 6 with a switch-on button 7 and display 8, mounting elements 9 on the outer side of the back part for fixing to a wall, a temperature transducer 10 and a current supply. Inside the body frame of the control block 6 is located an electric circuit board containing an actuating element 11 and a control element 12, connected to each other, wherein the actuating element 11 is electrically connected to the heating element 5 while the control element 12 is electrically connected to the temperature transducer 10. The technical result is elimination of the appearance of burnt deposits on the electric contacts and elimination of the negative effect of strong voltage jumps in the electric circuit as a result of the absence of starting currents. <Figure 1>

Description

In the registration procedure, the Industrial Property Office does not determine whether the subject of the utility model meets the conditions for eligibility for protection pursuant to Section 1 of Act no. No. 478/1992 Coll.

CZ 29703 UI

Electric convector heater of inverter type

Field of technology

The solution concerns electrical engineering, specifically heaters for households and office buildings, such as apartments, offices, cottages, cells of construction and assembly organizations.

Prior art

A convector air heater is known which is used as a thermal medium consisting of a housing body, inside which at least one electric resistance heating element is located in the lower part, and which has openings for air supply in the lower part and openings for air outlet in the upper part. parts as well as thermostats and devices for protection against overheating, wherein at least one thermal memory element is located in the upper part of the electric resistance heating element, which is used as a material composed of fireclay or a mixture of fireclay-containing materials (RU 136138,2013 and priority application DE 202012005137 U).

According to the inventors, the generally known electric convector heater ensures a uniform room temperature at a lower switching frequency and can be manufactured at a lower cost. However, no generally known convector allows power control.

Devices for heating hot water for water heaters, showers, washing machines, dishwashers or kettle with power control are known, which consist of a vessel for heating liquids and an electric heater for heating a part of the vessel. The heating element consists of a layered resistance heating circuit with a fuse located in a thick membrane. Furthermore, a triac-type power regulator is described, which is mounted directly on the heating element and acts as a heat sink for this triac. Also described is a thermistor, a temperature sensor formed in a thick membrane, a fuse, a flow control valve for continuously regulating the flow through the heater, a method of controlling the consumption, and a method of controlling the temperature. These electrical components are connected to a control unit, which can be remote or formed as part of a dielectric layer of a thick membrane at a location next to the inlet where the metal substrate of the heater is kept cool at the expense of cold water (EP 0485211, DE 10322034 , DE 19732414 and DE 19737694).

Known heating devices cannot be used as convectors and do not ensure continuous power control. A thermal panel is known which includes a temperature sensor and an electric heater. The temperature sensor and heater are connected to a printed circuit board with the controller; electrical energy flows into the heater via a triac located on the printed circuit board, which is controlled by a controller (FR 2799630). The known thermal panel is intended for use in espresso machines.

There is also known an electric room heating device in the form of an electric heater, comprising a body with air inlets and outlets located at opposite ends of the body, a fan and electric heating elements located inside the body and electrically connected to a control unit mounted on the outside. corpus.

The technical result, which consists in automatically maintaining the set temperature and humidity inside the device, is achieved by the fact that the electric heater additionally contains a device for humidity and temperature control mounted on the body and electrically connected to the electric heater control unit (RU 124773, 2013).

The possibility of automatic temperature control does not solve the problem of continuous power regulation. Closest to the present solution is an electrical convector comprising a body made of thin sheet steel with air inlet openings located at the bottom and horizontal air outlet openings located at the top of the cabinet, front heat radiating plate, electric heater heater, electronic thermostat, holder from the outside rear parts for wall mounting, power conductor, thermal switch and connecting material, electronic temperature controller consisting of body, protective cover, clamping plate with labyrinth holes for air passage, electronic printed circuit board, plastic thermostat body with hermetic transparent screen and airtight buttons on the front. The control unit of the device is designed so that the operation of the convector and its use is as comfortable and easy as possible (RU 133 594, 2013).

- 1 CZ 29703 UI

The known electric convector does not allow the setting of continuous power. If the temperature in a known device is lower than the temperature set by the user, the heating element is supplied with full electrical power (or partial), and the heating element begins to heat up and transfers heat to the air passing through it. When the required temperature is reached, the heater switches off completely. Existing convectors use a device for continuously adjustable output or this device is completely missing. This principle does not allow the electrical output of the heater to be regulated automatically depending on the size of the space and the ambient temperature.

Frequent switching on and off of the heater leads to economic inefficiency in energy consumption (presence of starting currents); inaccurate maintenance of the required room temperature; permanently switching the heater on and off; to reduce the life of the heater compared to the possible time; to the negative effects of strong voltage fluctuations in the electrical network of the apartment (house) during switching on and off; to the formation of burns on electrical contacts, which is all undesirable.

The essence of the technical solution

The aim of the technical solution is to ensure automatic continuous power regulation.

The technical result is the elimination of burns on electrical contacts and the negative impact of strong electrical voltage surges due to the absence of starting currents.

This object is achieved in that the inverter-type electric convector heater comprises a body having air inlet openings located at the bottom and air outlet openings located at the top of the body, a front heat radiating plate, a control unit with an on / off button, power supply, the control unit consisting of a body, inside which is placed an electronic printed circuit board, according to the technical solution, the essence of which consists in that a temperature sensor is installed on the heater body and a powerful printed circuit board is placed on the electronic printed circuit board. an element and an actuating element which are interconnected, the executive element being electrically connected to the heater and the actuating element being electrically connected to the temperature sensor.

The thyristor is mainly used as a powerful element; for example, but not limited to, the BTA24-600BW or other analogous models.

A processor, microprocessor, microcontroller, controller may be used as the control, for example, but not limited to, the MC80F7708 microprocessor or the MC80F77080 processor or other analogous models.

For example, a WE50220TB638 temperature sensor or temperature sensors of analogous models can be used as the temperature sensor, but is not limited thereto.

A display with controls is located on the body of the control unit.

Fastening elements can be arranged on the convector heater body from the outside of the rear part for fastening on a vertical surface (wall) or the body can be provided with legs for placement on a horizontal surface.

The stated task of automatically controlling the continuous power is achieved by continuously supplying electrical energy to the heater, which is effected by means of a power element, for example in the form of a thyristor connected to the control element, for example in the form of a microprocessor or processor. and which changes the ambient air temperature. This arrangement provides automatic continuous adjustment of the electrical power supplied to the heater depending on the ambient temperature.

Continuous regulation of the output in said electric convector takes place automatically and allows a wide range of options for setting the output of the heater, and therefore the thermal output of the convector.

-2CZ 29703 UI

Explanation of drawings

The electric convector according to the technical solution is explained by the following pictures:

Fig. 1 shows an overall view of said convector;

Fig. 2 is a side view;

Fig. 3 is a top view;

Fig. 4 shows a circuit diagram of the heater, the temperature sensor, the power element and the control element;

Fig. 5 shows a block diagram of the connection of a control unit, comprising an electronic printed circuit board, a control element and a power element, with a heater, a switch button and a display.

Examples of technical solution

The electric convector heater of the inverter type according to the technical solution consists of a heater body 1 with air supply openings 2 located at the bottom and air outlet openings 3 located in the upper part of the heater body 1, front heat radiating plate 4, heater 5 formed of electric heater. Mounted on the heater body 1 is a control unit located in the housing 6, which is provided with a switch button 7 and a display 8. Furthermore, on the outside of the rear part of the heater body 1 there are fastening elements 9 shown). Inside the housing 6 of the control unit there is an electronic printed circuit board which contains an interconnected power element 11 and an actuator 12, the power element 11 being electrically connected to the heater 5 and the control element 12 being electrically connected to the temperature sensor 10.

Said inverter-type convector works as follows. After connecting said convector, the user sets the desired room temperature, for example 25 ° C, via the display 8. The temperature sensor 10 measures the ambient temperature. After reaching an ambient temperature of 25 ° C, the signal goes to the control element 12, where data collection and analysis is performed, the signal is fed to the power element 11, which changes the amount of electric current passing through the heater 5.

After reaching the desired room temperature, the executive element 11 gradually reduces the voltage supplied to the heater 5. When the room temperature drops, the executive element 11 increases the voltage supplied to the heater 5. Reading data from the temperature sensor 10 by the control element 12 takes place at regular intervals. . If the temperature measured by the temperature sensor 10 remains at 25 ° C, there is no further reduction in power. After a certain time, the temperature sensor 10 remeasures whether the room temperature has fallen below 25 ° C, then there is an automatic increase in electrical power, the value of which is determined by the control element 12. Thus, the voltage decreases or increases on the heater 5 continuously. ambient air temperature and the difference between the user-set temperature and the ambient temperature. The temperature sensor 10 sends a signal to the control element 12, which after processing the input signal supplies a corresponding signal to the power element 11. Finally, the signal is transmitted to the heater 5, which changes the amount of electric current and consequently the power of the heater 5 changes continuously.

Industrial applicability

Thanks to its design, the new electric convector becomes more energy efficient compared to existing models; provides much more flexible and accurate temperature control in a heated room; allows efficient use of the convector in rooms with different areas; there is no frequent switching on and off of the heating element, which increases the service life of the heating element; the required room temperature is maintained as accurately as possible, i.e. temperature differences are eliminated and the air conditioning is kept constant; strong voltage fluctuations in the electrical network are eliminated and the occurrence of burns on the electrical contacts is excluded due to the fact that there are no inrush currents.

Claims (5)

An inverter-type electric convector heater comprising a body having air inlet openings located at the bottom and air outlet openings located at the top of the body, a front heat radiating plate, a control unit with an on / off button, and a power supply. , wherein the control unit consists of a body inside which an electronic printed circuit board is located, characterized in that a temperature sensor (10) is installed on the body (1) of the heater and an executive element (11) is placed on the electronic printed circuit board. ) and an actuating element (12) which are interconnected, the executive element (11) being electrically connected to the heating element (5) and the actuating element (12) being electrically connected to the temperature sensor (10). Electric convector heater according to Claim 1, characterized in that the power element (11) is formed by a thyristor. Electric convector heater according to Claim 1, characterized in that the control element (12) is formed by a processor. 15 Electric convector heater according to Claim 1, characterized in that the control element (12) is formed by a microprocessor. Electric convector heater according to claim 1, characterized in that the control unit housing comprises a display (8).