DE2219319A1 - ELECTRIC HEATER - Google Patents

Description

DIPL.-CHEM. JOACHIM DRESSLER PATENTANWALT 5202 HENNEF / SIEG 1 ■ ALLNER, ZUM WEINGARTEN 11

219319

April 14, 1972 835/72 Dr / gr

EOS - Elektrogerätewerk · W. Günther KG, Driedorf

"Electric heater"

Electric heating devices, in particular electric radiators, which are embedded in a heating element in a heating fluid, preferably contain several heating elements, can be switched on or off with regard to the heat emission individual or all heating elements can be regulated. The easiest way to do this is to enter or. Switch off can be effected by means of a manually operated switch. However, this type of regulation requires a constant observation and operation of the electric radiator "

It is also already known the heat dissipation from electrical heaters to regulate automatically by the fact that the supply line, which the heating elements of the Elektrohexzgerätes connects to the power source, was led via a bimetal regulator as a thermostat. This bimetal regulator could be designed as a wall thermostat, which is usually located near the socket serving as a power source and was directly connected to it. The lead of the electric heater was then connected to the output terminals of the bimetal regulator connected. However, this way of attaching the bimetal regulator was everywhere disadvantageous where the socket is in places in the room.

was brought, which was unfavorable for the intended control effect insofar as temperature conditions at these points prevailed or could occur with the temperature conditions existing in the rest of the room did not match. These conditions are, for example, on outside walls as well as in the vicinity often given by windows or doors. In particular in these places there can be cold walls, drafts or direct sunlight the switch-on and switch-off values of the bimetal regulator very strongly influence, so that in the too large temperature fluctuations can occur in the heating room.

These disadvantages should be eliminated in a further development in that the bimetal regulator in eiv.-a with the electric heater, in particular electric radiator, connected or installed on this cover became. In this, preferably in the front area of the electric radiator, in which also the power supply and the heating elements are arranged, attached cover, steel sheets were installed, which is the bimetal regulator shield against the heat emitted by the radiator and acting directly on the bimetal regulator. The cover was shaped in such a way that the room air could enter the lower part of the cover in a circulation duct, was heated there and in the Circulation shaft past the bimetal regulator upwards streamed. At the upper end of the cover, the air flow left through a correspondingly arranged outlet opening. The temperature value of the room air was set by setting a preselected temperature accordingly held in a predetermined temperature range by the preselected temperature.

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The effect of the known bimetal regulator is essentially based on one of two metals with different ones Coefficient of thermal expansion lamellar assembled strips, which are due to heating the different linear expansion of the two metals bends and straightens again when it cools down. In the latter state, the bimetal strip closes the power supply to the electrical heating elements of the electric radiator. The line leading from the bimetallic regulator to the heating elements can also be mechanically be switched to be operated switch, with which the maximum heating power of the heating elements is determined can be.

However, this type of control of the power supply to the heating elements of an electric heater has the significant Disadvantage that switching contacts of the bimetal regulator are subject to high wear when there is a high current load and thereby greatly shorten the service life of such bimetal regulators.

Ways to avoid this disadvantage have therefore been sought.

There was an electric heater, in particular an electric radiator with thermostatic control of the power supply found the heating elements, which act as a controller depending on the room air temperature controlled by semiconductors electronic circuit arrangement with heat sensor, This invention will be described below by way of example of a Electric radiator described.

As a controller for the electric radiator according to the invention any known switching arrangement can be used in which the

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Current flow is controlled by semiconductors. These switching arrangements must, however, be able to use the actual value of the room air temperature transmitted from the room air to be compared with a setpoint value for the temperature that is regulated by a resistor and is therefore specified. Results This comparison, that the actual temperature value is below the setpoint value, the switching arrangement must match the heating current clear the way to the heating elements. In the other cases or when the actual temperature value is above the setpoint lies or coincides with this, the switching arrangement should interrupt the flow of current to the heating elements. These switching operations are brought about by the fact that control voltage is applied to the conductor supplying the heating current Semiconductor is given and this for the heating current the flow to the heating elements of the electric radiator according to the invention releases. In the control circuit there is also a heat sensor that measures the temperature of the surrounding Indoor air recorded. An NTC thermistor is particularly suitable for this. To enter the actual temperature value, an in The control circuit is provided with a switched rheostat that can be operated manually.

As a switching arrangement for the radiator according to the invention have proven particularly useful under the designation "Triac" known semiconductor switching arrangements, which are preferred as so-called semiconductor alternating current switches for regulation of the current flow to the heating elements of the electric radiator according to the invention can be used. Here it is possible, in an electric radiator according to the invention, the power supply to all heating elements via such To regulate semiconductor switching arrangement. However, other semiconductor switching arrangements can also be provided,

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each of which provides power to a part the total number of heating elements .regulates. In addition, in addition to the heating elements, their current supply by means of Semiconductor switching arrangement is regulated, nor heating elements in an electric radiator according to the invention be provided, the power supply in another way, such as by a manually operated Switch to regulate.

For the electric radiator according to the invention, any electric heating device with electric heating elements suitable, which in gaseous or liquid. Project heating medium, which is advantageously located in a closed heating system. These electric radiators can be permanently installed or transportable.

On the radiator, preferably on one of its vertical closed areas, a box-shaped cover is attached, which is made of a material lesser Thermal conductivity, such as plastic, molding compounds and the like, exists. Very cheap this box-shaped cover is attached to the vertical narrow side of the radiator, on the inside of the radiator in this protruding the heating elements are attached. This box-shaped cover encloses a circulation shaft from three sides, its fourth Side of a, preferably vertical, flat surface Radiators is limited. The dimensions of the cross-section of this circulation shaft have proven to be beneficial and thus also the corresponding dimensions of the box-shaped. Choose cover so, that the width is about twice as big. is as the depth, the width being the box-shaped Coverage roughly corresponds to the depth of the radiator

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chert- should. The box-shaped cover has at its lower End air inlets and at their upper end Air outlets on. The one from below in the thereby Air entering the circulation shaft formed is heated by heat that is emitted by the radiator surface, which forms the fourth wall of the circulation shaft. This heated air rises in the circulation shaft above and leaves it through the air outlet opening. In this way, an air flow is created when the radiator is in operation generated, which constantly flows through the circulation shaft. In the lower third and advantageous in the Radiator surface opposite surface of the cover are also provided through the air inlet openings from the air flow rising in the circulation shaft Outside air is also sucked into the circulation shaft.

The semiconductor switching arrangement is preferably also arranged in the circulation duct, as is de'r if necessary necessary switches for the non-thermostatically controlled heating elements and the rheostat for preselection the desired target temperature. Also a control lamp interposed in the load circuit and on Complete switches can find their place here. These controls should be arranged in .der cover and be attached so that they are easy to use or observe.

The heat sensor of the semiconductor circuit is advantageously attached to a baffle, which at one end, without touching the radiator, protrudes into the circulation shaft and with its other end on the material less Thermal conductivity as large as possible from

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attached to the radiator surface. This baffle should be dimensioned in its dimensions and also be shaped so that it is through air inlet openings in the lower third of the cover sucked in air flow from the air flow rising in the circulation duct initially still separates. For this purpose, the width of the guide plate should be approximately equal to the width of the ZirkulatxonsSchachtes be. The guide plate protruding into the middle of the Zirkulatxons shaft is at the lower edge or in in the lower third of the cover attached. In the middle of the circulation shaft, the baffle is parallel to that of the circulation The shaft delimiting the radiator surface runs upwards bent and ends approximately at the level of the upper edge of the air inlet openings without further fastenings. The heat sensor is advantageously to be attached to this baffle in such a way that it passes through the air inlet openings air flow sucked into the circulation shaft so that its temperature reading corresponds to the temperature corresponds to the room air.

In order to obtain as unadulterated temperature values as possible on the heat sensor, it can also be advantageous if at a distance from the one facing the circulation duct Surface of the radiator a radiant panel is attached, which extends over the entire length and width of the circulation shaft extends. This radiant plate holds a large part of the radiated from the covered radiator surface Heat from that rising in the circulation shaft Airflow. The heat given off by the radiant panel to this air flow is sufficient to generate this air flow maintain.

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The baffle also provides the entire semiconductor circuitry Protection against the warm air flow rising in the circulation duct when the semiconductor switching arrangement is attached to the air inlet opening facing side of the baffle. Definitely is it is advantageous to fasten the semiconductor on the baffle, since the baffle penetrates into the semiconductor The heat generated by the passage of current is distributed over a large surface and emitted via this to the air currents. The baffle thus cools the semiconductor.

An embodiment of the electric radiator according to the invention is shown in Figure 1 as an example. The rollers are on the radiator 1, which is designed as a sectional heating element 2 and attached to its end face the cover 3, the air inlet openings 4 and the air outlet openings 5 has. In an indentation of the cover 3 are the rotary knobs for a manually operated Switch 6 and for the control resistor 7, with which the desired target temperature is set, arranged. The signal lamp 8 is also located in this indentation.

FIG. 2 shows a plan view of the front side of the cover 3 in a schematic representation. The above Explanations and reference numbers given for FIG. 1 apply also for this figure. In this figure, the air inlet opening arranged at the lower end of the cover 3 is also shown 9 shown.

FIG. 3 is the schematic representation of a section through the cover 3, seen from the side. Here too Identical parts are provided with the reference numerals that

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these parts are also assigned in FIGS. 1 and 2. In this figure is on the inside of the cover 3 Fixed guide plate 10, on which the electronic switch assembly 11 and the heat sensor 12 are attached, the regulate the power supply to the contacts of the heating elements 13. At a distance from the surface of the radiator, which forms a wall of the circulation shaft 14, asb that Radiant plate 15 attached.

Room air enters the circulation duct 14 through the air inlet opening 9 and heats up on the radiant panel 15 and rises in the circulation duct 14 to leave it through the air outlet openings 5. This air flow rising in the circulation duct 14 sucks in room air through the air inlet openings 4 past the heat sensor 12 and the semiconductor switching device 11 into the circulation duct 14. If the room temperature falls below the temperature value set on the control resistor 7, the heat sensor Control voltage released to the semiconductor, which in turn releases the flow of the load current, whereby the heating elements in the electric radiator are heated up.

The principle of the invention has been described using the example of the electric radiator. However, it is also applicable to other electrical heating devices, such as electric convectors, night storage heaters and air conditioners.

Compared to the state of the art switching arrangements for electric heaters, in particular electric radiators, the electric heaters according to the invention, in particular electric radiators, have the advantage of contact

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loose electronic circuit that is almost unlimited is switchable and enables high switching frequencies. In addition, the electric heaters according to the invention, especially electric radiators, completely maintenance-free. Since the switching process always occurs in the zero crossing of the alternating voltage takes place, 'there are disturbances due to the switching process caused by radio and television broadcasting. Due to the precise temperature control, when using the inven- electrical heating devices according to the invention, in particular electric radiators, temporary overheating of the heated room avoided.

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Claims (6)

Claims Electric heater, in particular electric radiator with thermostatic control of the power supply to the heating elements, characterized in that the radiator has, as a controller, an electronic switching arrangement with a heat sensor which is controlled by a semiconductor ^{as a function of the room air 1 temperature.} 2. Electric heater according to claim 1, characterized in that that a box-shaped cover is attached to the radiator, which is made of a material less There is thermal conductivity, 3. Electric heater according to claim 2, characterized in that that the box-shaped cover encloses a circulation shaft from three sides, its fourth side is bounded by a surface of the radiator. 4. Electric heater according to claim 3, characterized in that the semiconductor switching arrangement in the Zxrkulationsschacht is arranged. 5. Electric heater according to claims 3 to 4, characterized in that the heat sensor of the semiconductor circuit is attached to a baffle, which with one end without touching the radiator, in the circulation shaft protrudes and with its other end on the material of low thermal conductivity is attached as far as possible from the heater surface. 309834/0744 6. Electric heater according to claim 5, characterized in that the cover at its lower end
Air inlet openings and at their upper end air outlet openings as well as in the lower third of their surface opposite the heater surface air inlet openings, on the lower edges of which the baffle which protrudes into the circulation duct to about its center is attached, which is approximately in the
Center of the circulation duct is bent upwards running parallel to the heater surface and ends approximately at the level of the upper edge of the air inlet openings. 7, electric heater according to claims 2 to 6, characterized in that at a distance from the surface of the heater facing the circulation duct
a radiant panel is attached, which extends over the entire length and width of the circulation shaft. 309834/0744 Blank page