DE1102369B - Automatic electrical control device for collective heating systems - Google Patents

Description

Automatic electrical control device for collective heating systems The invention relates to an automatic, electrical control device for Collective heating systems with one outside temperature sensor and one connected in parallel Flow temperature sensor, via potentiometer resistors and one from a room temperature sensor controlled balancing resistor determine the current flowing through the coils of a Differential relay flows, and the fire control of the boiler, a valve in the Flow line od. The like. Influence. What is new is that between the potentates the sensor for the outside temperature and for the flow temperature on both sides of the Power connection each have a balancing resistor and each parallel to this one The bypass line is switched by a room temperature sensor in the event of deviations can be switched off from the setpoint. If the actual value of the room temperature drops by one certain amount, e.g. B. 0.3 ° C, below the setpoint, the room temperature sensor switches a bypass line in such a way that between the power line and the outside temperature sensor the associated balancing resistance comes into effect and thus in the line the potentiometer of the flow temperature sensor a suddenly increased resistance acts so that z. B. a heating valve in the heat transfer line to heat the Room is opened by the differential relay until the flow temperature sensor the equilibrium of the total resistances of its line with the resistances of the has restored the parallel line belonging to the outside temperature sensor. Through this the setpoint of the room temperature is restored and the setpoint sensor of the Switched balancing resistor out of effect. The other way round switches Setpoint sensor the other compensation resistor in the line of the outside temperature sensor on when the actual value of the room temperature exceeds a certain amount, e.g. B. 0.3 ° C, increases, so that in this case too, e.g. B. by closing the heating valve, the The setpoint is restored and the actual value fluctuations become small as a result.

The balancing resistances preferably have a value of about 10% the associated potentiometer resistors and can be done by hand in a known manner be controllable. This allows the actual value to be influenced quickly and the speed the influencing of the actual value can also be set.

It is particularly advantageous to be parallel to each bypass line switched a line containing a timer. This makes it possible gradually bring the associated balancing resistance to effect and thereby if necessary, to open or close the heating valve step by step. The drawing shows a circuit diagram as an embodiment of the invention.

An outside temperature sensor 2 and a flow temperature sensor connected in parallel 3 of a heating system feed the coils 6 via sensor potentiometers 4 and 5 and 7 of a differential relay 8 with power from a power line 9 via equalizing potentiometers 41, 42 or bridging lines 43, 44 connected in parallel with switches 45, 46, 47 or other shunt lines 48, 49, in the periodically opening and closing timer drives 50, 51 are switched on are, and sliding contacts 30, 31 and lines 13 and 14 and lines 15 and 16 and power line 17.

In the line 9, 43 or 44 there is a switch 45, 47 or 46, 47 each switched on, which are closed during normal operation, so that the current from the Power line 9 via these bridging lines to potentiometers 4 and 5 and via the coils 6, 7 of the differential relay 8, which the actuator, z. B. a Heating steam valve, influenced, after the mains line 17 flows.

The switch 47 is controlled by a sensor for the automatic maintenance of the setpoint value 23, e.g. B. a room temperature controller, adjusted so that when the actual value falls the temperature of the contacts 46, 47 and when the contacts 45, 47 rise, they are interrupted so that the current must then flow through the balancing resistors 42 or 41, if not the shunt lines 48, 49 through the timer drives 50, 51 are temporarily closed.

The resistors 41, 42 correspond to about a tenth of the resistances the potentiometers 4 and 5 and can be used as manually adjustable potentiometers be designed to increase or increase the balancing resistances as required zoom out and thereby accelerating or increasing the control process slow it down.

The contacts 45, 46 are in the middle state with low and such Distance from fixed stops 52, 53 movable that the associated contacts 46, 45 only when the actual value temperature rises or falls by about 0.3 ° C above the Normal value are interrupted.

If the actual value of the room temperature falls by more than 0.3 ° C, it swivels the sensor 23. the contact 47 to the left, whereby the contact 46 rests against the stop 52, the contact 46, 47 is interrupted, so that the current from the power line 9 over the balancing resistor 42 must flow after the potentiometer 5 and the coil 7, if not the line 48 is temporarily closed by the timer drive 50 is. As a result, the resistance in the power line 9, 31, 13 suddenly increases than in the power line 9, 30, 14, and the differential relay closes to the left the contact 18 and opens z. B. a heating valve, until the room temperature as a result has risen far so that the sensor 23 closes the contact 46, 47 again, with at the same time the flow temperature rises and sensor 3 increases the resistance 5 reduced on potentiometer 5. By reclosing the contact 46, 47 the resistance in the power line 9, 44, 31, 13 is suddenly less than again the resistance in the power line 9, 43, 30, 14 so that the differential relay 8 the contact 8, 19 closes so that the heating valve moves to close again until the flow temperature at sensor 3 has fallen so far and tap 31 is adjusted so far on the potentiometer 5 that in the power lines 9, 44, 31, 13 and 9, 43, 30, 14 again equilibrium prevails.

The control device works in a corresponding manner when the room temperature at sensor 23 rises above the setpoint by more than 0.3 ° C and thus the contact 47, 45 is opened and the resistor 41 comes into effect, which then the differential relay 8 switched to closing the contact 8, 19 and closing the heating valve and after reaching the setpoint the heating valve by closing the contact again 45, 47 and the contact 8, 18 of the differential relay is opened again. Within the limits caused by the opening and closing of the contacts 45, 47 and 46, 47 sensors 2 and 3 regulate the setpoint temperature alone until the through the taps of sliding contacts 30 and 31 set resistances of potentiometers 4 and 5 are in balance.

Outside the opening and closing of the contacts 45, 47 and 46, 47, the activation of the balancing resistors 41 takes effect and 42 strongly accelerating to the control speed. That speed can be increased or decreased by adjusting the resistors 41 and 42, while the timer drives 50 and 51, insofar as they switch on the bypass line, reduce the control speed

Claims (2)

PATENT CLAIMS: 1. Automatic, electrical control device for Collective heating systems with one outside temperature sensor and one connected in parallel Flow temperature sensor, via potentiometer resistors and one from a room temperature sensor controlled balancing resistor determine the current flowing through the coils of a Differential relay flows, and the fire control of the boiler, a valve in the Flow line od. The like. Influence, characterized in that between the potentiometer the sensor for the outside temperature (2) and for the flow temperature (3) on both sides of the power connection (9) each have a balancing resistor (41, 42) and each in parallel to this a bridging line (43, 44) is connected, which is through a room temperature sensor (23) can be switched off in the event of deviations from the nominal value (using switches 45, 47; 46, 47) is. 2. Control device according to claim 1, characterized in that a line (49, 48) containing a time switch (51, 50) is connected in parallel with each bridging line (43, 44). Publications considered: Swiss Patent No. 321553.