DE1579696B1 - CIRCUIT TO CONTROL TWO FAN USED TO DISCHARGE A HEAT STOVE - Google Patents

Description

The invention relates to a circuit for controlling two for discharging a heat storage furnace serving fans, whereby through the first Fan of the storage core can be ventilated and cold air into the through the second fan Warm air flow emerging from the storage core can be blown in and the motor one of the fans through a thermostat depending on the temperature of the from the heat storage furnace exiting air is switched.

It is known in a storage heater constructed in this way, the hot air blower to run continuously while discharging. Is the one emerging from the memory core If the air is too hot, a thermostat located in the air outlet duct causes it the cold air fan switched on. If the temperature of the mixed air drops below a different temperature value, then the cold air fan is switched off. This makes it possible to set the air outlet temperature to a permissible level in the normal case limit the highest value. But once the circumstance occurs that in particular if the storage core is very hot, the air outlet opening z. B. by a curled up Carpet is closed, then the cold air blower is switched on in any case, however, the temperature then depends on the air outlet opening and thus on the carpet depends on which fan generates a higher pressure. Is the pressure of the cold air blower bigger, then there is no danger for the carpet, but the one through the storage core Air that is forced back heats the hot air blower and can burn the engine to lead. If, on the other hand, the pressure of the hot air blower is greater, then there is both for the carpet as well as the cold air blower there is a risk of burns. Runs over it In addition, the cold air fan even with a free air outlet opening once out of any Reason not on, then despite the thermostat it is unavoidable that constantly the inadmissibly high-temperature air escapes from the heat storage heater.

The object of the invention is therefore to provide a control circuit of the two fans, through which the aforementioned shortcomings are avoided and heat damage in the room to be heated or on the fans can be prevented.

The solution to this problem is according to the invention that the The motor of the cold air blower is constantly switched on when the storage core is warm and that the thermostat is in the circuit for the motor of the warm air blower. Will in the case of a heat storage heater connected in this way, the air outlet opening accidentally once closed, then the hot air fan is switched off when the top permissible Temperature in the air outlet duct has been reached. A risk to the cold air fan and the object that closes the air outlet opening is thereby excluded. Since the cold air fan continues to run, this could be due to the warm air flowing back Hot air blower are endangered. Because the cold air blower, however, the thermostat cools down quickly, the warm air fan will be switched on again very soon automatically cools and the air in the air outlet duct again to the switch-off temperature heats up. This cycling continues until the air outlet opening is free again is. In order to avoid the hot air blower, even under the most unfavorable circumstances becomes excessively hot due to the hot air flowing back, is in series with the engine of the cold air blower, a temperature switch that activates in the event of an impermissibly high temperature of the warm air fan opens.

According to a further advantageous development of the subject matter of the invention is in series with the motor of the cold air blower at higher storage core temperatures closed contact switched, preferably the contact with an additional Contact spring is supplemented to a switch, and an additional heating element on the contact spring is turned on. This interrupts the motor circuit for the cold air blower, when the temperature of the storage core has dropped so far that the Air no longer assumes too high a temperature. Furthermore, the additional heating element can only switched on when the memory core is already heavily discharged. As the additional heating element is arranged in the warm air duct, the air outlet temperature is in the same Way monitored by the thermostat as with a hot storage core. In addition, it will switched off at the same time with the warm air fan, so that it is destroyed when switched off Warm air fan is excluded due to lack of cooling.

Further advantageous embodiments of the subject matter of the invention emerge from the other subclaims.

The invention is described using a circuit diagram.

A switch 2 is connected to a power supply line 1, to which a room thermostat 3 and a control lamp 4 are articulated. The control lamp 4 is connected with its other connection finitely to a switch 5 which is connected to the second power supply line 6. A parallel circuit of a series resistor 7 and a switch 8 is connected to the room thermostat 3, to which in turn a thermostat 9 for monitoring the air outlet temperature and a motor 10 for a cold air blower is connected. By means of the thermostat 9 , on the one hand, a motor 11 for a hot air blower can be switched, the other connection of which is clamped together with the control lamp 4 to the switch 5, and on the other hand, an additional heating element 12, which is connected via a switch 13 to a contact spring 14 of a changeover switch controlled by the storage core temperature connected. A center contact 15 of the uranium switch is connected to the switch 5, while a contact 16 of the changeover switch is connected in series with a temperature switch 17 controlled by the temperature of the housing of the hot air blower in the second connection line for the motor 10 .

The mode of operation of this circuit is based on that in the circuit diagram state shown, after which the storage heater is heated up, as follows: For unloading of the storage heater, switches 2 and 5 are closed in a first switching stage. This gives the motors 10 and 11 for the cold air and hot air blowers Via the common series resistor 7 current and run at a reduced speed. If the temperature of the mixed air exceeds the response value of the thermostat 9, it switches off the motor 11 of the warm air blower. Then the thermostat can 9 are essentially only blown by cold air, therefore cools very quickly off and switches the Motor 11 on again. Repeated this game until the air conveyed by the hot air fan is no longer so hot, that the thermostat 9 comes into play.

If the fans are to be driven at full power, use a slacker one To achieve heating of a room, then also in a second switching stage the switch 8 is closed. As a result, the series resistor 7 is bridged, and the Motors 10, 11 run at full speed. The function changes compared to this the first switching step nothing. When the storage core has been discharged or cooled down so severely is that the central contact 15 of the changeover switch controlled by the storage core temperature switches to the contact spring 14, then the motor 10 of the cold air blower automatically stopped, and there is a clocking of the motor 11 for the Warmluftaebläse only if the temperature of the conveyed air is still above the desired or permissible value.

If the storage core has cooled down enough that a sufficient Heating a room is no longer possible, then you can use a third switching stage also the switch 13 are closed, which is in series with the additional heating element 12 lies. This additional heating element 12 is exiting from the storage core Blow air, the temperature of which is also monitored by the thermostat 9. If the thermostat 9 responds, in this case, in addition to the motor 11 for the Warm air fan also switched off the auxiliary heating element 12 so that it is during the Switch-off time of the motor 11 does not burn out due to insufficient cooling.

The temperature switch 17 is used to switch off the motor 10 of the cold air blower when, with the air outlet opening on the storage heater closed, the cold air blower pushes air backwards through the storage heater and the warm air blower. In addition, the room thermostat 3, which opens the contact when the desired room temperature is reached, is located in a line common to the two motors 10 and 11 and the additional heating element 12. The switches 2, 5, 8 and 13 are preferably combined to form a switch unit with three switching stages, whereby simple operation is achieved and clear switching states are guaranteed.

Claims (7)

Claims: 1. Circuit for controlling two for discharge a heat storage furnace serving fans, the storage core through the first fan can be ventilated and cold air is passed through the second fan into the one emerging from the storage core warm air flow can be injected and the motor of one of the fans through a thermostat depending on the temperature of the air exiting the heat storage heater is switched, characterized in that the motor (10) of the cold air blower is constantly switched on when the storage core is warm and that the thermostat (9) is in the Circuit for the motor (11) of the warm air blower is on. 2. A circuit according to claim 1, characterized in that a contact (15, 16) which is closed at higher storage core temperatures is connected in series with the motor (10) of the cold air blower. 3. Switch according to claim 2, characterized in that the contact (15, 16) is supplemented with an additional contact spring (14) to a changeover switch and that an additional heating element (12) is connected to the contact spring (14). 4. Circuit according to claim 1 or one of the following, characterized in that with the motor (11) of the hot air blower, an additional heating element (12) is connected to the thermostat (9) is. 5. Circuit according to claim 1 or one of the following, characterized. that in series with the motor (10) of the cold air blower is a temperature switch (17) which opens when the temperature of the hot air blower is unacceptably high. 6th Circuit according to Claim 1 or one of the following, characterized in that a parallel connection in a line common to the two motors (10, 11) a series resistor (7) and a switch (8) is switched on. 7. Circuit according to claim 6, characterized by the use of a four-pole switch unit (2, 5, 8 and 13), through which the two motors (10, 11) via switching means (2, 3, 5, 7, 9 , 15, 16, 17) can be connected to two-pole power supply lines (1, 6), in a second switching stage the series resistor (7) can also be short-circuited by the switch (8) and in a third switching stage also an in the circuit of the additional heating element (12 ) switched on switch (13) can be closed.