RU156192U1 - INVERTER TYPE ELECTRIC CONVECTOR HEATER - Google Patents

Abstract

1. An inverter-type electric convector heater comprising a housing with air intake holes located at the bottom and air exhaust holes located at the top of the housing, a front heat-emitting panel, a heating element, a control unit with a power button, a current lead, a control unit consists of a housing inside which an electric circuit board is placed, characterized in that a temperature sensor is installed on the housing, and an executive element connected to each other is placed on the electric circuit board ent and control element, the actuating element is electrically connected to the heating element and the control element is electrically connected to the sensor temperatury.2. An inverter-type electric convector heater according to claim 1, characterized in that a thyristor is used as an actuating element. 3. An inverter-type electric convector heater according to claim 1, characterized in that a processor is used as a control element. 4. An inverter-type electric convector heater according to claim 1, characterized in that a microprocessor is used as a control element. An inverter-type electric convector heater according to claim 1, characterized in that the control unit housing comprises a display.

Description

The utility model relates to electrical engineering, namely to heaters of household and office premises such as residential premises, offices, country houses, change houses of construction and installation organizations.

Known convector heater with air as a coolant, consisting of a box-shaped case, inside of which at least one electric resistive heating element is located in the lower part and which has openings for air inlet in the lower part and openings for air outlet in the upper part, and also thermostats and overheating protection devices, and at least one heat-storage element is placed on top of the electric resistive heating element, which I use Materials consisting of chamotte or a mixture of materials containing chamotte (patent RU №136138, 2013 and DE 202012005137.7 priority application).

According to the authors, the well-known electric convector heater with a lower switching frequency provides a uniform temperature in the room and can be manufactured with lower costs. At the same time. the known convector does not provide the ability to adjust power.

Known heating devices for water heaters for a water heater, shower, washing machine, dishwasher or kettle with power control, which include a vessel for heating the liquid and an electric heating element designed to heat the portion of the vessel. The heating element includes a thick film resistive heating circuit with a fusible insert placed in a thick film. The document also describes a power regulator such as a triac mounted directly on a heating element and acting as a heat sink for this triac. A thermistor, a temperature sensor formed in a thick film, a fusible insert, flow control valves for continuously controlling flow through a heater, flow control means and temperature control means are also described. These electrical components are connected to a control unit, which can be remote or formed as part of the dielectric layer of a thick film in a place adjacent to the inlet pipe, where the metal substrate of the heater is kept cold by supplying cold water (EP 0485211, DE 10322034, DE 19732414 and DE 19737694).

Known heating devices cannot be used as convectors and do not provide smooth power control.

Known fuser, which includes a temperature sensor and an electric heater. The temperature sensor and heater are connected to the printed circuit board with the controller: the power passes to the heater through a triac located on the printed circuit board and controlled by the controller (FR 2799630). The well-known thermal block is intended for use in an espresso machine.

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 technical result, which consists in automatically maintaining the indoor temperature and humidity setpoints, is achieved due to the fact that the electric air heater additionally 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).

The ability to automatically control the temperature does not solve the problem of smooth power control.

Closest to the proposed one is an electric convector comprising a case made of thin sheet steel with air intake holes located at the bottom and horizontal air outlet holes located at the top of the body, a front heat-emitting panel, a heating element made of an electric heater (TENA), an electronic thermostat, an arm with the outer side of the rear for wall mounting, a current lead, a thermal switch and fasteners, an electronic temperature controller consists of a housing, shield cover, pressure plate with labyrinth passages for air passage, electronic board; the thermostat housing is plastic, with a sealed transparent inspection screen and sealed buttons on the front side. The control unit of the device is designed so that the operation of the convector is as convenient and simple as possible (patent RU 133594, 2013).

Known electroconvector does not allow for smooth adjustment of power. In the known device, if the temperature turns out to be lower than the temperature set by the user, then the full electric power (or partial) is supplied to the heating element, it begins to heat up and transfers heat to the air passing through it. When the desired temperature is reached, the heating element is completely turned off. In existing convectors, step-wise power adjustment is used or is absent altogether. This principle does not allow you to automatically smoothly adjust the electrical power of the heating element depending on the area of the room and the ambient temperature.

Frequent switching on and off of the heating element leads to inefficiency of energy consumption (the presence of starting currents): inaccurate maintenance of the set temperature in the room; constant turning on and off the heating element; a decrease in the service life of the heating element against a possible period; the negative impact of strong power surges in the entire electrical network of the apartment (house) during switching on and off; the appearance of carbon deposits on electrical contacts.

The objective of the utility model is to provide automatic smooth power adjustment.

The technical result is the elimination of carbon deposits on the electrical contacts and the negative impact of strong power surges due to the absence of inrush currents.

The problem is solved in that the inventive inverter-type electric convector heater, comprises a housing with air intake holes located at the bottom and air exhaust holes located at the top of the housing, a front heat-emitting panel, a heating element made of an electric heater (TENA), a control unit with a button switching on, current supply, control unit consists of a housing inside of which there is an electric board, characterized in that a temperature sensor is installed on the housing tours, and an electric circuit board arranged connected to one another the actuating element and the control element, wherein the actuating element is electrically connected to the heating element and the control element is electrically connected to the temperature sensor.

As an actuating element, a thyristor is mainly used, for example, but not limited to, brands BTA24-600BW or other similar models.

As a control element, a processor, microprocessor, microcontroller, controller, for example, but not limited to, a microprocessor of the brand MC80F7708 or a processor of the brand MC80F7708Q or other similar models can be used.

As a temperature sensor, for example, but not limited to, a temperature sensor of the brand WE50220TB638 or temperature sensors of similar models can be used.

A display with controls is placed on the control unit housing.

Mounting elements can be placed on the housing of the convector heater from the outside of the rear for mounting on a vertical surface (wall) or the housing can be equipped with legs for placement on a horizontal surface.

The task of automatic smooth adjustment of power is achieved by smoothly supplying electric power to the heating element, which is carried out by an actuating element, made, for example, in the form of a thyristor, connected to a control element, made, for example, in the form of a microprocessor or processor, to which a signal from a temperature sensor that measures the temperature of the air. This provides automatic smooth adjustment of the electric power supplied to the heating element depending on ambient temperatures.

Infinitely adjustable power in the inventive electric convector is carried out automatically and allows a wide range to adjust the power of the heating element, and therefore the heat output of the convector.

The inventive electric convector is illustrated by the following drawings.

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

In FIG. 2 - also side view;

In FIG. 3 - also a top view;

In FIG. 4 shows a diagram of the electrical connection of a heating element, a temperature sensor, an actuating element and a control element;

In FIG. 5 shows a block connection diagram of a control unit containing an electric board with a control element and an actuating element, with a heating element, a power button and a display.

The inventive convector consists of a housing 1 with air inlets 2 located below, and air outlets 3. located in the upper part of the housing 1, the front heat-emitting panel 4, the heating element 5, made of an electric heater (TENA). On the housing 1, a control unit is installed, located in the housing of the control unit 6 with a power button 7 and a display 8, fasteners 9 on the outside of the rear for wall mounting, a temperature sensor 10, a current lead (not shown). Inside the control unit housing 6 there is an electric circuit board containing an actuating element 11 and a control element 12 connected to each other, while the actuating element 11 is electrically connected to the heating element 5, and the control element 12 is electrically connected to the temperature sensor 10.

The inventive convector inverter type operates as follows. After turning on the inventive convector, the user through the display 8 sets the desired temperature in the room, for example 25C °. Temperature sensor 10 measures the ambient temperature. Upon reaching an ambient temperature of 25 ° C, the signal enters the control element 12, where data is collected and analyzed, the signal enters the actuator 11, which changes the amount of electric current passing through the heating element 5.

Upon reaching a predetermined room temperature, the actuating element 11 lowers the supplied voltage to the heating element 5 gradually. When lowering the room temperature, the actuating element 11 increases the voltage supplied to the heating element 5. Reading the readings from the temperature sensor 10 by the control element 12 occurs at regular intervals. If the temperature measured by the temperature sensor remains 25 ° C, the next power reduction does not occur. After a certain time, the temperature sensor again measures the temperature, if it has become less than 25 ° C, an automatic increase in electric power occurs, the value of which is determined by the control element 12. Thus, a decrease or increase in voltage on the heating element 5 occurs smoothly depending on the ambient temperature and differences between user-set temperature and ambient temperature. The temperature sensor 10 supplies a signal to a control element 12, which, after processing the input signal, supplies a corresponding signal to the actuator 11. The latter sends a signal to the heating element 5, changing the magnitude of the electric current, and, as a result, smoothly changing the power of the heating element 5.

Thanks to the claimed design, an electric convector, in comparison with existing models, becomes more economical in energy consumption; provides more flexible and accurate temperature maintenance in a heated room; allows you to rationally use the convector in rooms of different sizes; there is no frequent switching on and off of the heating element, which leads to an increase in the service life of the heating element; the set room temperature is maintained as accurately as possible, i.e. temperature differences are eliminated and constant climate control is maintained; strong power surges are eliminated and the appearance of soot on electrical contacts is excluded, as no starting currents, i.e. The claimed technical result is achieved.

Claims (5)

1. An inverter-type electric convector heater comprising a housing with air intake holes located at the bottom and air exhaust holes located at the top of the housing, a front heat-emitting panel, a heating element, a control unit with a power button, a current lead, a control unit consists of a housing inside which an electric circuit board is placed, characterized in that a temperature sensor is installed on the housing, and an executive element connected to each other is placed on the electric circuit board ent and control element, the actuating element is electrically connected to the heating element and the control element is electrically connected to the temperature sensor. 2. An inverter-type electric convector heater according to claim 1, characterized in that a thyristor is used as an actuating element. 3. An inverter-type electric convector heater according to claim 1, characterized in that a processor is used as a control element. 4. An inverter-type electric convector heater according to claim 1, characterized in that a microprocessor is used as an element of control. 5. An inverter-type electric convector heater according to claim 1, characterized in that the control unit housing comprises a display.

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