DE3734173C1 - Room temperature controller - Google Patents

Abstract

A room temperature controller having thermal feedback for a 2-wire system shall ensure a current supply for the thermal feedback (4) by incorporating a current transducer (transformer) (5) in series with the load (6). At the same time, the current transducer (5) causes only a slight change in the power of the thermal feedback in the case of a change in the load current (6), and it can also be used for supplying current to electrical controllers. <IMAGE>

Description

The invention relates to a room temperature controller according to the preamble of claim 1, in particular to an arrangement to power a feedback resistor or from Similar components for room temperature controllers that are used for connection are provided on a 2-wire system.

Room temperature controller with thermal feedback are known. A thermal return, is also often referred to as acceleration resistance nothing more than a heating resistor that serves to warm up of the temperature sensor in the period in which the Contact of the rear derailleur has a load turned on the supply of heat to the room in which the room temperature Should regulate temperature. This ensures that the Room temperature controller switches off before the room reaches the desired one Temperature has reached, causing the fluctuations in room temperature be kept small, which of course also at Use of thermal feedback should be achieved.

Usually the heating resistor is arranged parallel to the load, so that three supply lines lead to the room temperature controller and the heating resistor has the full operating voltage available stands.

There are also room temperature controllers known for connection are provided on 2-wire systems. So z. B. a typical Room temperature controller for 2-wire connection with regard to its Structure described in DE-AS 11 19 574. With a 2-wire system  load and heating resistor must be connected in series will. In this case, however, the heating power of the heating resistor is depending on the load current and must be used for every application, as can also be seen from DE-AS 11 19 574. Therefore, the heating resistor is an adjustable resistor educated. These 2-wire systems are mainly used as Control circuits designed with operating voltages around 24 V. The load is in this case from a solenoid, e.g. B. from Solenoid valves or automatic firing devices are formed. Furthermore can only load currents in these known designs of about 0.1. . . Set 1.2 A.

The arrangement and is based on the same constructive basis the adjustability of the resistance in a series connection of feedback resistance and load according to DE-AS 11 51 963.

Larger load currents, such as those in control loops for mains voltage e.g. B. in pump and direct heating can be used can not be switched with these known arrangements because the heating resistor then required for room temperature controllers necessarily takes too large dimensions and too large Self-heating would eventually get inevitable lead to undesired cycles of the controller.

It is the object of the invention to provide an arrangement for the power supply a feedback resistor or similar components in devices of the type mentioned to create the connection to a 2-wire system is provided. The arrangement is said to be effective especially with higher load currents than previously possible.

This object is achieved with the features defined in the characterizing part of claim 1. For this purpose, it is provided that a current transformer is connected in series to the load for Stromver supply for thermal feedback, which is designed in particular so that a change in the load current causes only a slight change in the heat output of the thermal feedback.

Embodiments of the invention are based on Circuit diagrams 1 to 3 explained, wherein  

the circuit diagram 1 the inner circuit of a room temperature controller with thermal Repatriation and

the diagram 2 the inner circuit with electronic components instead an electromechanical room temperature controller,

Circuit diagram 3 shows an internal circuit using a bridge rectifier.  

1 with the room temperature controller is indicated by dash-dotted lines, the structure consists of the following elements essentially of:

A main switch 2 , a temperature-dependent mechanical switching element 3 , a thermal feedback 4 , and a current transformer 5 . The reference numerals 6 represent the load on the one hand and 7, 8 the supply lines. The primary winding of the current transformer 5 must be designed for the maximum permissible load current. To limit the secondary voltage, further electronic components are also arranged.

For a trouble-free operation, it is necessary that the secondary winding of the converter is short-circuit proof. So that the circuit can also be used for a larger load current range, a voltage limitation must be arranged on the secondary side in order to keep the heating of the feedback resistor still within limits. For this purpose, a zener diode 14 is arranged, which inevitably requires a further diode 15 .

Finally, an electrolyte capacitor 16 can be arranged in a conventional manner, in particular parallel to the zener diode 14 . It must be prevented by heat insulation that the heat loss of the Zener diode 14 affects the temperature sensor.

Instead of an indicated in the diagram 1 the room temperature controller 1, an electronic control unit 9 is shown in the diagram 2, the electronics 10 may be made of different electronic components. The electronics 10 are supplied with power via the current transformer 5 and via a conventional rectifier and sieve stage. In this case, the control contact 11 will be a relay contact or a semiconductor contact.

When the control contact 11 is open, the current flow through the current transformer 5 is interrupted. Then, as is known per se, a capacitive power supply unit 12, 13 takes over the power supply for the electronics 10 .

In order to make the power supply of the electronics 10 and also the thermal feedback 4 more effective, a bridge rectifier 17 can be used instead of the one-way rectification, as shown in circuit diagram 3, by means of the diode 15 . The output power of the current transformer 5 can thus be reduced accordingly. One of the advantages of this is that the size of the current transformer can be reduced.

Claims (3)

1. Room temperature controller with thermal feedback for a 2-wire system, characterized in that a current transformer ( 5 ) is connected in series to the load ( 6 ) for the power supply for the thermal feedback ( 4 ). 2. Apparatus according to claim 1, characterized in that the current wall ler ( 5 ) can also be used for the power supply of electronic controllers. 3. Apparatus according to claim 1 or 2, characterized in that when the control contact ( 11 ) is open, the electronics ( 10 ) are supplied with power via a capacitive power supply unit ( 12, 13 ).