FR2543393A1 - Device for correcting drift in electric convectors - Google Patents

Abstract

The invention relates to a device for correcting drift in electric convectors. The subject of the invention is a device for correcting temperature drift, intended to be incorporated in a room thermostat of an electrical heating apparatus of the convector type, which thermostat includes a measurement bridge in which are inserted in particular a resistor with negative temperature coefficient for reading the room temperature and a potentiometer for adjusting the room temperature, the said measuring bridge providing for the switching in and out of the load of the convector, the correction device being characterised in that it comprises a circuit 9 for shifting the set-point displayed by the said adjustment potentiometer 8, the shift circuit applying to the said bridge 8 a correction voltage proportional to the operating factor. Application in particular to electric convectors.

Description

DRIVE CORRECTION DEVICE
ELECTRIC CONVECTORS8
The present invention relates to electric space heating convectors and more specifically relates to a device intended to correct in such devices the seasonal temperature drifts.

 The seasonal drift is the variation of the arithmetic means of the amplitudes of the ambient temperatures of the living room obtained when the operating times of the heating appliance are varied by varying the temperature of the outdoor climate (without affecting the setting of the thermostat) to obtain values between 20 and 80%.

 Experience has shown that the inside temperature of the room increases when the outside temperature also increases. This phenomenon stems from the fact that the ambient temperature reading probe is proportional to the rate of operation of the device. Due to the radiation from the device towards the probe, it "reads" anticipates the actual temperature and prematurely cuts the heating so that the temperature in the room is lower than that displayed. user to force on the display resulting in a risk of waste when the outside temperature becomes warmer again.

The object of the invention is to overcome these drawbacks
by proposing a device incorporated into the room thermostat of the - convector type electric heaters and capable of correcting the temperature drift in order to keep the temperature inside the room as scrupulously as possible. value displayed whatever the temperature variations outside the room.

 To this end, the subject of the invention is a device for correcting temperature drift intended to be incorporated in a room thermostat of an electric heater of the convector type, which thermostat comprises a measuring bridge into which are inserted in particular a resistance with a negative temperature coefficient for reading the ambient temperature and a potentiometer for adjusting the ambient temperature, said measuring bridge ensuring that the convector load is switched on and off, the correction device being characterized in that it comprises a circuit for shifting the set point displayed by said adjustment potentiometer, the shift circuit applying to said bridge a correction voltage proportional to the rate of operation of the convector.

 According to a particular embodiment, the offset circuit comprises a resistance with a negative temperature coefficient associated with a compensation resistance, the resistance with a negative temperature coefficient being interposed between the cursor of said potentiometer and a temperature control comparator amplifier also connected at said measuring bridge, said comparator amplifier controlling a triac inserted in the load circuit, while at said compensation resistance is applied a voltage proportional to the duty cycle ratio via an amplifier and a integrator receiving the control signal from said triac.

 Advantageously, it is also possible to provide means for injecting into the offset circuit an opposition voltage at different values in order to reduce the set temperature displayed by the measuring bridge of the room thermostat at different levels.

 Other characteristics and advantages will emerge from the following description of an embodiment of the device of the invention, description given by way of example only and with reference to the appended drawing in which the single figure represents the diagram of principle of a device according to the invention incorporated in a room thermostat -mable of an electric convector.

 In the single figure, 1 shows the charge of an electric convector connected between phase and neutral and the commissioning of which is controlled by a triac 2. The triac 2 control electrode is connected to an amplifier 3 itself. - even connected to an AND logic gate 4, the two inputs of which are connected, one to a circuit 5 for detecting the zero crossing of the supply voltage and, the other, to an amplifier-comparator 6 of temperature control.

 One of the inputs of the comparator amplifier 6 is connected to a measuring bridge 7 in which is placed the potentiometer 8 for adjusting the ambient temperature of the convector.

 The other input of the comparator amplifier 6 is connected to a circuit 9 called drift compensation circuit itself connected to the cursor of the potentiometer 8.

Circuit 9 includes a CTN drift compensation resistance associated with a compensation resistance connected to terminals AB and to which a voltage is applied proportional to the operating cycle ratio of the convector, according to three so-called operating modes.
normal mode N;
ECO economical operating mode, and
HG frost-free operating mode.

 To this end, the terminal A is connected through an amplifier 10 to the movable contact of a switch il with three positions N, ECO and HG.

 Terminal N is an air terminal. The ECO terminal is connected to a resistance divider bridge 12 connected to the mains. The HG terminal is also connected to this bridge 12 but via a diode 13.

 Terminal B is connected to an amplifier 14, an input of which is connected, on the one hand, to the measurement bridge 7 through an amplifier 15 and, on the other hand, to a voltage integrator proportional to the operating cycle ratio of the convector 16 and the other input of which is also connected to the integrator 16. The latter is connected by an amplifier 17 to the output of the gate ET4.

 Finally, the comparator amplifier 6 is controlled by a circuit 18 for injecting the voltage of the proportional band itself connected to a ramp generator 19.

 All the circuits are supplied from a stabilized power supply symbolized at 20.

 The operation of the device shown and described above is as follows.

 The load 1 is switched on and off according to the temperature threshold displayed using the cursor of the potentiometer 8 for adjusting the environment, the ambient temperature being taken by the NTC resistor of the bridge 7.

 The role of the drift compensation circuit 9 is to correct the temperature "read" by the resistor CTN to take account of the operating rate of the convector which depends on the outside temperature. The lower this is, the higher the operating rate of the device, while conversely, the more the outdoor temperature is hardened, the less often the device will be stressed.

 Experience shows that the drift under load tends to increase with the operating rate of the devices.

 Also, in accordance with the invention, the circuit 9 will tend to correct the reading of the CTN of the bridge 7 in proportion to the operating rate of the device so that the load 1 is not put into service prematurely.

 For this purpose, the amplifier 14 applies to the compensation resistance of the circuit 9 a voltage proportional to the operating cycle ratio of the device.

Whenever the appliance is in use, the door
ET4 sends a signal to the integrator 16 whose output signal is weighted by the amplifier 15 connected to the measurement bridge 7.

 Said compensation resistance acts on the CTN resistance of circuit 9 so as to correct (raise or lower) the potential applied to the comparator 6 and compared to the potential determined by the CTN of bridge 7 (depending on the position of the cursor potentiometer 8 for setting the room temperature).

 The role of the switch 11 is to allow additional adjustment possibilities. In position N of the switch 11 as shown in the figure, it is the totality of the voltage generated by 14 which is applied to the terminals A-B of the drift compensation circuit 9.

 In the ECO position of 11, the room thermostat set point can be lowered (for example by 3 "5C) without touching the potentiometer 8. For this purpose, the amplifier 10 sends an opposition voltage drawn from A the sector (full wave).

 In the HG position of 11, a frost-resistant holding temperature (for example 70C) can be displayed, the amplifier 10 sending at A a reduced opposition voltage taken from the mains (half-wave).

 The switch 11 can be controlled remotely for example by a clock, a programmer, a proximity detector, an open window, etc.

 The device of the invention thus makes it possible to shift the set point displayed by the potentiometer 8 and, consequently, to correct the drift in the ambient temperature due to variations in the outside climate.

 Finally, the invention is obviously not limited to the embodiment shown and described above, but on the contrary covers all variants. This is how the drift compensation circuit 9 could be produced differently without departing from the scope of the invention insofar as it performs the same function, namely to inject a voltage into the thermostat's measurement bridge 7 corrective proportional to the operating rate of the load, i.e. to the triac 2 output signal.

Claims (4)

 1. Temperature drift correction device intended to be incorporated into an ambient thermostat of an electric heater of the convector type, which thermostat comprises a measurement bridge into which are inserted in particular a resistance with negative temperature coefficient of reading of the ambient temperature and a potentiometer for adjusting the ambient temperature, said measuring bridge ensuring that the convector load is turned on and off, the correction device being characterized in that it comprises a circuit (9) for shifting the set point displayed by said adjustment potentiometer (8), the offset circuit applying to said bridge (8) a correction voltage proportional to the operating rate of the convector.  2. Device according to claim 1, characterized in that the offset circuit (9) comprises a resistance with negative temperature coefficient associated with a compensation resistance, the resistance with negative temperature coefficient being interposed between the cursor of said potentiometer (8 ) and a comparator amplifier (6) for temperature control also connected to said measuring bridge (7), said comparator amplifier (6) controlling a triac (2) inserted in the load circuit (1), while at said said compensation resistance is applied a voltage proportional to the operating cycle ratio via an amplifier (14) and an integrator (16) receiving the control signal of said triac (2).  3. Device according to claim 2, characterized in that said compensation resistance is further applied, optionally, an opposition voltage intended to reduce the set temperature displayed on the measuring bridge (7).  4. Device according to claim 3, characterized in that said opposition voltage is applied via a multi-position switch (11) remotely controllable, one of the positions (ECO) reducing the temperature by a few degrees for operation economical, however, another position (HG) makes it possible to display an anti-frost temperature, a third position (N) allowing the removal of said opposition voltage.