DE1112793B - Circuit arrangement for an air heater, the air heater of which is equipped with Heizstaeben or other electrical heating elements with a large heat capacity - Google Patents

Description

Circuit arrangement for an air heater, its air heater with heating rods or other electrical heating elements with a large heat capacity In the newer electrically operated air heating systems, the electrical ones exist Heating elements from easily exchangeable, rod-shaped units that are in their Together form the air heater. Relatively flows through the air heater the hot air conveyed by a special fan and at high speed is heated according to the heat demand of the rooms to be heated. The electric Electric power supplied to the heating rods is so great that if the the heating rods cooling the heating air flow immediately thermally overloaded the heating rods and would be destroyed.

It has therefore already been ensured that when the fan is switched off the energy supply to the heating elements is always switched off at the same time. About that In addition, safety devices (temperature monitors, fuses, wind vane relays od. Like.) built in, which in the event of an unintentional standstill - for example in the event of failure - the fan motor respond with the heating switched on and the Switch off the heating elements from the supply voltage source.

However, it has now been shown that switching off the The fan and the energy supply to the heating rods are not sufficient to prevent that after switching off the temperature in the air heater room due to the large heat capacity the heating element assumes an impermissibly high value, d. H. a value well above which is the temperature <prevailing during heating operation. This has the disadvantage that possibly the safety devices every time the air heating system is switched off (and possibly through the controlled alarm devices) and switched off again by a supervisor or: again m-their initial state must be brought; furthermore, inside or near the air heater room arranged air filter or - other devices, which the with circulated The temperatures that occur in the heating air can be easily withstood, damaged or destroyed will. The disadvantages described are particularly significant in the case of electrical operated air heaters in vehicles for the purpose of temperature control in the to heating rooms by a two-point control circuit in more or less large Be switched on and off again and again at intervals.

To eliminate this disadvantage is in cooling devices of As is known in the art, the fan motor is not simultaneously with the X-ray tubes Heating resistors, but switched off with a delay via a time relay, namely The invention relates to a particularly advantageous circuit arrangement for a Air heating, its air heater with heating rods or other electrical heating elements is equipped with a large heat capacity and in which the heating air by means of a by a motor driven blower through - conveyed through the air heater room becomes and with which through the same. Switching process via a common main switch both via a fan contactor the fan motor and via a heating contactor the Energy supply to the heating elements is switched on, - with the - Off; circuit of the blower motor is delayed with the indicator; däß to the 'from the fan contactor controlled motor switch in the motor circuit directly connected to the power source an auxiliary switch is connected in parallel, the auxiliary contactor of which is in a further, circuit directly connected to the power source in parallel to one with its excitation delayed responding Ihermo relay lies, which is a when switched on of the fan contactor opening contact is connected upstream, with the parallel switched excitation windings of the auxiliary contactor and the thermal relay with the upstream Contact in series connection is a closed thermal relay when not energized, when it is excited, contact opens with a time delay and one in a known manner upstream of the closing wind vane relay contact due to the blower air flow are. Such a circuit arrangement has the advantage that when using relays that switch off with a time delay when excited, a safe Guaranteed mode of operation and, in particular, also blower motors in a simple manner can be used with series resistor. In the latter case it will be expedient a bridging contact is connected in parallel to the starting resistor; of the auxiliary contactor is closed.

The figure shows an embodiment of the invention.

Here, l means the main switch operated manually or by a control element. When it engages, contacts 2 and 3 are closed and thus the heating contactor 4 and the fan contactor 5 are connected to voltage. The heating contactor 4 closes its contact 41, whereby the heating elements 6 located in the air heater space are switched on. The fan contactor 5 closes the contact 51, whereby the fan motor 7 is connected to voltage via the starting resistor 8. The blower contactor 5 also opens the contact 52. When the blower air flow has reached a certain strength, a wind vane relay arranged in the air shaft closes its contact 9. As a result, the auxiliary contactor 10 is connected to voltage. This bridges the contact 51 with its contact 11, it also closes its contact 12 and thus bridges the starting resistor 8 of the fan motor. The auxiliary contactor 10 is thus advantageously used at the same time both to bypass the contact 51, which applies voltage to the fan motor when the main switch is closed, and to bypass the starting resistor 8 of the fan motor. After the starting resistor 8 has been bridged, the fan motor 7 assumes its nominal speed and the air heater is in the operating state. If the main switch 1 is now disengaged, i.e. the contacts 2 and 3 are opened, the heating elements 6 are switched off, the contact 51 is opened and the contact 52 is closed. Since the fan motor is still connected to voltage via contacts 11 and 12 and maintains the flow of fan air, contact 9 operated by the wind vane relay also remains closed and auxiliary contactor 10 remains connected to voltage. By closing the contact 52, however, the thermal relay 13 has been connected to voltage. After the delay time has elapsed, it opens its contact 14, whereby the auxiliary contactor 10 and thus also the fan motor 7 (as a result of the opening of the contacts 11 and 12) are switched off. By opening the contact 14 , the thermal relay 13 is also de-energized. If the thermal relay closes contact 14 again after a certain time has elapsed, neither the auxiliary contactor 10 nor the thermal relay 13 are energized again, since the wind vane relay has opened its contact 9 in the meantime due to the absence of the blower air flow. When the main switch 1 is reinserted, the processes described are repeated.

Claims (2)

PATENT CLAIMS: 1. Circuit arrangement for an air heater, the air heater of which is equipped with heating rods or other electrical heating elements with a large heat capacity and in which the heating air is conveyed through the air heater chamber by means of a fan driven by a motor and in which the same switching process is carried out via a common main switch via a fan contactor of the fan motor as the power supply is also a heating contactor switched to the heating elements, is carried out with the elimination of the fan motor with a time delay, characterized in that to the controlled from the fan contactor (5) motor switch (51) lying directly on the power supply motor circuit a Auxiliary switch (11) is connected in parallel, the auxiliary contactor (10) of which lies in a further circuit directly connected to the power source in parallel to an Ihermo relay (13) which responds with a delay when it is energized laser contactor (5) opening contact (52) is connected upstream, whereby the parallel-connected excitation windings of the auxiliary contactor (10) and the thermal relay (13) with the upstream contact (52) in series connection is a closed thermal relay (13) when not energized, when this is excited, a contact (14) that opens with a time delay and a wind vane relay contact (9) that closes in a known manner by the blower air flow are connected upstream. 2. Circuit arrangement according to claim 1, wherein the fan motor has a starting resistor thereby characterized in that the starting resistor (8) has a bridging contact (12) in parallel is switched, which is closed when the contactor relay (10) responds. In Documents considered: German Patent No. 886 638.