DE3022587C2 - Burner control device for opening a gas valve and an air valve - Google Patents

Description

The invention relates to a burner control device for opening a gas valve and an air valve in Dependence on a control signal.

Switching on a gas burner is known to require the control of the gas valve and the Air valve according to a certain program: After switching on, an ignition time is specified, during which gas valve and air valve are opened. Via an ignition transformer or the like Spark generated. A flame monitor, e.g. B. an ionization flame monitor, checks whether the burner has ignited. If this is not the case after the specified ignition time, the gas valve and air valve are activated closed again and an error message is issued.

Such gas burners are also used to run a preset temperature program that is from a programmer or controller is specified. Such a program can be a temperature increase but also require a temperature reduction. To increase the temperature, the gas burner is in the switched on via the burner control unit. If the program has a temperature feo If a reduction is required, air is used in known systems as a function of a "cooling" trigger signal blown into the furnace chamber at room temperature through a separate air valve.

The invention is based on the object of «temperature increases and temperature reductions existing temperature program with less effort compared to the prior art travel.

According to the invention, this object is achieved in that the device has a further input for a second Contains control signal by means of which the air valve can be controlled open when the gas valve is closed.

According to the invention, the air valve via which the combustion air for is fed to the burner, is used at the same time to bring the cooling air into the furnace chamber during "cooling operation" a This is achieved by appropriately designing the burner control unit a separate air valve for the cooling air can be omitted. The invention is based inter alia. on the Realization that the amount of combustion air supplied to the burner is sufficient to perform this cooling function to take over.

Further refinements of the invention are the subject of the subclaims.

An embodiment of the invention is detailed below with reference to the drawing which shows a block diagram of a burner control device.

The burner control unit contains a supply 10 for a 24 volt control voltage. This supply voltage is on the burner as ground potential related, with which a reference terminal 12 is connected. The 220 volt is at a terminal 14 Mains voltage. With a 24 volt control signal at terminals 16 and 18, the burner control unit can use an on / off control circuit 20 is turned on, i.e. can be put into operation at all. A appears at a terminal 22 in the event of a malfunction Fault message. A voltage of 220 volts is generated at terminals 24 and 26, and a voltage is generated at the sensor electrodes ionization flame monitor are present. On a clamp 28 there is an ignition transformer, which generates a high pulse-like voltage to ground (burner) which is placed on an ignition electrode to generate ignition sparks. This is done via terminal 30 The air valve is opened and the gas valve designed as a solenoid valve via terminal 32. At terminal 34 is the neutral conductor of the network, and a terminal 36 is used to remotely unlock the burner control unit possible if the device has failed.

When applying a 24 volt control signal to the Terminals 16 and 18 bring the on / off control circuit 20 a relay 38 to attract. The relay contact 40 of this relay 38 applies the network to a circuit breaker 42 for the ignition transformer. On the Output 44 of the on / off control circuit 20, which is a first control signal for switching on the burner supplies, a timer 46 is triggered, which specifies an ignition time and the circuit breaker 42 for this Ignition time closes. Via the same timing element 46, a circuit breaker 50 is closed via line 48, which, provided that the circuit 44 responsive to malfunctions does not deliver an interference signal via line 52, one voltage applied to it via line 54 to terminal 32. At the same time, line 56 (and logic elements yet to be described) brought a relay 58 to attract, which has a relay contact 60 closes. The relay contact 40 is already connected to the circuit breaker 42 via this relay contact 60 applied mains voltage to the circuit breaker 50. This is closed and provides the mains voltage on terminal 32 so that the gas valve opens. Via the branching off behind the relay contact 60

Line 62, the mains voltage is also applied to terminal 30 and the air valve is opened

It is then ignited by the ignition electrode of the burner. This ignition is carried out by the electrodes of the ionization flame monitor monitored. One overlying clamps 24 and 26 on the electrodes Amplifier stage 64 sends a signal to circuit 44 which signals the burning of the flame. If the Burner does not ignite, circuit 44 provides a fault signal on line 52, whichever is Circuit breaker 50 for the gas valve is opened and thus the gas valve is closed.

A new ignition attempt can only take place after a safety time, which is determined by a timer 66 is specified, which controls the circuit 44. The fault is indicated by a lamp 68 Das In the event of a fault, the burner control unit can be switched on again using an reset button 70. It can can also be unlocked remotely via terminal 36 and line 72.

This is essentially the familiar function of a burner control device.

In the present embodiment, there are two further terminals 74, 76 on the burner control unit provided, via which a second control signal can be fed. The second control signal is Feed in via an optocoupler 78 potential-free. the Signals for switching on the burner are to be considered with regard to the ignition process on the burner Ground potential related. This cannot be assumed for the second control signal. That's why

30 provided by the optical coupler 78 for Poientialfreiheit The signal of the inversion effecting optical coupler 78 is again inverted by an inverter 80 and is located above line 82 to one input of an OR gate 84. At another input of this OR gate 84 is line 56 . via which the opening of the air valve is commanded when the gas valve is opened. Finally, the fault signal, which is given by the circuit 44 to the line 52, is also present at the OR gate. The output of the OR element 84 is connected via line 86 to an input of an AND element 88. A switch-on signal from the on / off control circuit 20, which signals that the burner control device has been switched on, is connected to the two further inputs of the AND element 88 via a line 90 and via line 92 a signal from the circuit responsive to malfunctions which becomes a logic "0" in the event of a malfunction.
The arrangement described works as follows:
When activated via the output 44 of the on / off control circuit 20, both the gas valve and the air valve are opened. The burner is ignited and heating takes place. When controlled by a second control signal via terminal 76, only the air valve is opened via line 62. The gas valve remains closed because the circuit breaker 50 is not closed. Air at room temperature is then blown into the furnace chamber so that cooling takes place. A separate air valve can be omitted.

1 sheet of drawings

Claims (5)

Patent claims: 1. Burner control device for opening a gas valve and an air valve depending on a control signal, characterized in that that the device contains a further input (76) for a second control signal by which the air valve can only be opened when the gas valve is closed 2. Burner control device according to claim 1, characterized in that the second control signal via an optocoupler (78) is fed in potential-free. 3. Burner control device according to claim 1 or 2, characterized in that the second control signal is applied to an OR gate (84), at the other input of which one of the first Ansteuei-signal There is an air valve control signal triggered by a program control, which indicates the opening of the air valve when activating the gas valve causes. 4. Burner control device according to claim 3, characterized in that the OR gate (84) furthermore a fault signal from a circuit which responds to a malfunction of the burner control device (44) is applied. 5. Burner control device according to claim 4, characterized in that the output signal of the OR gate (84) is applied to an AND element (88), at whose two further inputs a switch-on of the burner control unit signaling the switch-on signal and a signal from the on malfunctions of the burner control unit responding circuit (44) is present, which is logical in the event of a malfunction Becomes "0". J5