DE1883095U - REMOTE CONTROLLED ELECTRIC STORAGE OVEN. - Google Patents

Description

RA-629 277

fm-

Description of the remote-controlled electric storage heater for which registration in the Solle for utility models has been requested.

The invention relates to an electric storage heater at where the temperature rises. which the storage medium is heated up, and so that the charging strength can be controlled remotely. Electric storage stoves are known in which the charging strength is controlled remotely in that the charging power by means of a step switch or the charging time by means of adjustable Timer can be set manually or automatically at a remote point. The charging strength can only be set depending on the average heat demand of a building. Different hems from the Average from, then this cannot be taken into account, unless there is a separate timer for each room set or a separate step switch is set up, which means a lot of effort, disadvantageous in this YerscEK method In particular, it does not take into account how high the temperature of the storage medium is at the start of charging interval, i.e. how much of the amount of heat stored during the previous charging interval in the next Discharge interval was taken from the electric storage heater. But if the temperature of the storage medium is a every electric storage heater when setting the charging strength not taken into account before the start of the charging interval, as is the case with the Jail procedures described, then individual electric storage stoves can be too powerful or too weakly charged.

Electric storage stoves are also known, at ö.enen in each electric storage heater of a heating system a charging thermostat is built-in, which has three switch-off contacts, which -as soon as the storage medium the.at the contacts Temperature has reached - switch off. Sound the three switch-off

-2-

contacts, contact one is set to 1 / i, Eontakt two to 2/3 and Eontakt three to 3/3 of the highest permissible operating temperature of the storage medium. These three switch-off contacts of the charging thermostat are connected by three control lines to a central step switch in such a way that contact 1/3 "in the position 1/3 of the step switch, Eontakt 2/3 in the position 2/3 of the step switch and Eontakt 3/3 A common control line goes from the drsi contacts of the charging thermostat to a contactor.S ¹ A separate contactor must be arranged for each room or each electric storage heater, which feeds the power to the heating elements in the storage medium - or switches off and its contactor coil receives voltage during the charging interval through a timer via the step switch and the charging thermostat with its three contacts. Depending on the switch position of the central step switch, the storage medium is set to 1/3 or 2/3 or 3/3 of the highest permissible operating temperature This method has compared to the aforementioned The advantage that the storage media in the individual electric storage ovens are heated to the temperature set on the step switch, regardless of how high the temperature of the storage medium was at the beginning of the charging interval, but the temperature of the storage medium can only be set in three stages, which allows for precise control the charging strength is too low. Furthermore, a high installation effort is required, since three control lines lead to each electric storage heater and a special contactor must always be arranged for each room. The aforementioned disadvantages are avoided by the electrical storage furnace according to the invention described below.

The drawing illustrates the structure and operation of the electrical Storage furnace according to the invention. The electric storage heater according to the invention consists of the storage core (1), in which the heating resistors are embedded, the casing (8), the thermal insulation layer (3), which form the storage core surrounds, the temperature sensor (4) of the charging thermostat (6), the additional heating resistor (5), the two wire

—3—

ends at connection points (9) and (lo), the lead wires (11) making the connection between the control cable connector (12) and the additional heating resistor, as well as the main supply connection terminal (13).

The heating resistors in the storage core heat the storage core during the daily low tariff period. The temperature sensor (4) lies within the thermal insulation layer (3) at a certain distance from the storage core (1) and thus measures a temperature that it was lower than the temperature of the storage core, but it did so is proportional. The switch-off temperature of the charging thermostat (6) is set on its adjusting device in such a way that the power supply to the heating resistors in the storage core is interrupted as soon as the storage core has reached the highest permissible operating temperature and thus the greatest possible amount of heat is saved. Should the storage medium be heated to a lower temperature because it requires less heat of the heated room is sufficient, if less heat is stored in the storage core, then additional heating resistance is obtained (5), which is attached to the temperature sensor, via the control cable connection terminal (12) tension. The temperature sensor (4-) is additionally heated by this, so that the charging thermostat (6) the power supply to the heating resistors in the storage core is interrupted before the highest permissible temperature in Memory core is reached.

By changing the one on the additional heating resistor (5) The output of the additional heating element (5) can be changed by means of a voltage level transformer or an adjustable resistor will. The temperature of the storage core at which the charging thermostat (6) supplies power to the heating resistors interrupts in the storage core can, by adjusting the power of the additional heating resistor (5) practically continuously between the highest permissible temperature of the storage core and the temperature of the environment in which the electric storage heater is located is set up. By changing the voltage applied to the control cable connector (12), you can thus the charging strength of the electric storage heater according to the invention is continuously controlled from a central point will. If the heating output of the additional heating element is sufficiently high (5) is the power supply to the heating resistors in the storage tank

core is continuously interrupted, i.e. charging is switched off. To achieve this, only a control wire is required, the to the terminal (12) of all electrical storage heaters after the Invention, which are arranged in a heating system, is performed and its voltage through a control transformer or adjustable resistance must be adjustable. The bypass line can be connected through a connection between terminal (12) and your center conductor the main supply connection terminal (15) can be produced in each electric storage furnace according to the invention can also be done on the adjusting device of the charging hermostat (6) the highest permissible switch-off temperature are reduced by hand. This shifts the entire shutdown curve of the Charging thermostat to lower values. Feomit can be used in heated rooms where lower temperatures are required the charging thermostat can be set a little weaker. With the adjustment mechanism of the charging thermostat can be coupled at the same time with a step switch, so that with a weaker When setting the charging thermostat, a lower heating output of the heating resistors is switched on. Will before If the additional heating resistor (5) is connected to a gate resistor, the switch-off temperature of the charging thermostat increases (6).

Claims (4)

RA.608 867 * 2if. 9.63 n: K 45 049/21 h. Gbm. Utility model registration file number protection claims, revised version from 23.9 * 19 & 3 * 1.) Remote controlled electric storage heater with a charging thermostat (6) for limiting the temperature of the storage core (i), the temperature sensor (4) of the charging thermostat (6) in the thermal insulation layer (3) between the heat-storing storage core (1) and the surface (8) of the storage heater is attached, characterized in that on the temperature sensor (4) an additional heating resistor (5) adapted to its shape is attached to both wire ends (9) and (10) each lead wire is clamped, and both lead wires (11) to a special control cable terminal (12) lead to the connection point of the storage heater and are clamped to it « 2.) Remote controlled electric storage heater according to claim one, characterized in that the additional heating resistor (5) tubular, helical, spiral, pot, rod, cube, Is designed in a meander or plate shape. 3.) Remote controlled electric storage heater according to claim one, characterized in that the additional heating resistor (5) is changeable. 4.) Remote controlled electric storage heater according to claim a%, characterized in that the control cable terminal (12) is single-pole, with a connecting wire from the terminal (1O) of the additional heating resistor (5) to the control cable terminal (12) and clamped to it is, while a second connecting wire is connected to terminal (9) of the additional heating resistor (5), which leads to the multi-pole main supply connection terminal (13) and is connected to its terminal for the neutral conductor or an outer conductor.