NL9000789A - PROTECTION CIRCUIT FOR A HEATING DEVICE. - Google Patents

Description

PROTECTION CIRCUIT FOR A HEATING DEVICE

With heating devices there is a danger that a potentially unsafe situation is not detected in time, so that the potential danger has the opportunity to develop into a real danger.

An example of this is the development of CO, which can continuously lead to a risk of poisoning.

Another example is too high a temperature of the heating device, which could continuously lead to fire.

The object of the present invention is to prevent such dangers.

This object is achieved by a heating circuit protection circuit comprising at least one sensor that senses a condition of the combustion device indicating a potential hazard and an interrupting device that interrupts the combustion process in the event of potential danger.

These measures detect a potential hazard in time, after which the combustion process is interrupted, so that the hazard cannot occur.

Next, the present invention will be explained with reference to a block diagram of a protection circuit according to the present invention.

The protection circuit of the present invention is applicable, for example, to domestic heaters such as gas or oil fired central heating boilers, gas fired wall heaters or petroleum fired heaters. In principle, however, the invention is suitable for other types of heating devices, for example industrial heating devices.

The device according to the present invention comprises a central monitoring circuit 1, which is connected to an interrupting device 2. This interrupting device 2 can be formed, for example, by a valve incorporated in the fuel supply line, which can be, for example, by a solenoid or by an electric motor operated. This is preferably a valve, which automatically takes up its closed position when the energy supply is cut off.

Furthermore, the central monitoring circuit is connected to an indicator device 3. Furthermore, the security device comprises four sensors 4, 5, 6, 7, the first sensor 4 measuring the temperature of the monitored heating device; the second sensor 5 determines the CO content of the combustion gases; the third sensor 6 senses the value of the supply voltage; and the fourth sensor 7 determines whether there is a wire break in the circuit.

Instead of the above-mentioned sensors, it is also possible to use other types of sensors. It is also possible to add additional sensors that scan other capacities of the heating device. For example, a sensor can be used that measures the oxygen content of the combustion gases or of the supplied air.

Furthermore, the protection circuit is provided with an ignition device 8, which is operated by an ignition operating device 9. This ignition operating device 9 can be in the form of a manually operated ignition button, but it can also be formed by a thermostat switch.

A gate circuit 10 is placed between the ignition actuator and the ignition device 8. Gates 10 are also supplied with signals from the temperature sensor 4 and from the central monitoring circuit 1.

Next, the operation of the circuit of the present invention will be explained.

When the heating device is operating, the temperature sensor 4 continuously detects the temperature of this heating device; if the temperature remains within a predetermined range, no further action is taken; when the temperature exceeds a predetermined maximum value or exceeds a predetermined minimum value, it is passed to the central monitoring circuit 1, which detects the presence of a malfunction and reports this malfunction by means of indicator 3 and cuts off the fuel supply by means of the interrupting device 2.

During normal combustion, the CO content of the combustion gases is also checked by the sensor 5. When the measured value exceeds a predetermined value, the safety circuit 1 also detects a malfunction, cuts off the fuel supply and indicates a malfunction.

When the supply voltage sensor 6 detects a supply voltage that is too low or too high, which can also lead to a dangerous situation, since the protection circuit can then no longer function correctly, the fuel supply is also interrupted and a malfunction is indicated.

The same applies to the wire break sensor 7. When this detects a wire break in the circuit, a fault message is also given and the fuel supply is shut off. Thus, by shutting off the fuel supply, the potentially hazardous situation can no longer last so that actual danger is prevented.

According to a preferred embodiment of the invention, the shutdown command applied to the interrupter is supplied intermittently, until the temperature of the heater has fallen below a limit, so that there is certainty that the flame has been extinguished.

When the combustion device is to be started, the user can attempt to activate the ignition device 8 with which the combustion device is ignited by means of the ignition operating member. However, such an attempt will only succeed if the temperature of the heating device detected by the temperature sensor 4 is below a certain value, and if the central monitoring circuit indicates that there is no malfunction.

Incidentally, the signals from the temperature sensor 4 and from the CO sensor 5 are only taken into account by the central monitoring circuit after a predetermined period of time after ignition (for example 15 minutes), in order not to leave the protection device on the initially not ideal combustion address.

Claims (8)

A protection circuit for a heating device, comprising at least one sensor, which detects a condition of the combustion device indicating a potential danger and an interrupting device, which interrupts the combustion process in the event of potential danger. Protection circuit according to claim 1, characterized in that the circuit comprises at least one of the following set of sensors: - a sensor sensing the temperature of the heating device; - a CO sensor sensing the CO content of the combustion gases; a sensor sensing the value of the supply voltage; a wire-sensing sensor; and - a sensor measuring the oxygen content of the combustion gases or of the supplied air. Protection circuit according to Claim 2, characterized in that the CO sensor is only activated 15 minutes after ignition of the stove. Protection circuit according to claim 3, characterized in that the protection circuit detects a fault when one of the following irregularities is detected: - a temperature of the heating device exceeding a maximum value; - a maximum value exceeding the CO content of the combustion gases; - the supply voltage dropping below a minimum value; a value of the temperature of the heating device exceeding a minimum value; or - a value that exceeds a maximum value of the oxygen content of the combustion gases of the supplied air. Protection circuit according to claim 4, characterized by an indication means for passing on the nature of the detected fault. Protection circuit according to any one of the preceding claims, characterized in that the interrupting device is formed by a fuel supply interrupter. Protection device according to claim 6, characterized in that the fuel supply interrupter is constituted by a valve operated by a solenoid or an engine. Protection device according to any one of the preceding claims, characterized by a blocking circuit for blocking the switching on of the heating device, when the temperature of the heating device is above a predetermined value or when a malfunction has been detected.