DE19963974A1 - Gas burner - Google Patents

Abstract

The invention relates to a gas burner with a control device (ST) and an actuator (A) controlled by it for supplying a fuel gas quantity or regulating a gas / air ratio, which is assigned to a combustion air quantity, and with a lambda sensor (lambda). Favorable burning operation is ensured for a long time that the control device (ST) has a timer (ZG) and / or a sensor (S) for an abnormal state, with which or which control phases for operating the lambda probe (lambda) are predetermined or can be triggered and that the lambda probe (lambda) is switched into a waiting state or is completely switched off during its breaks in operation, which are many times longer than the operating times (FIG.).

Description

State of the art

The invention relates to a gas burner with a control device and an actuator controlled by this for supplying a quantity of fuel gas or Regulate a gas-air ratio that corresponds to an amount of combustion air is arranged, and with a lambda probe.

In currently known burners, for. B. via a pneumatic compound tax tion a quantity of fuel gas assigned to a quantity of combustion air. The mass Change in air volume due to temperature changes is caused by tempe compensation compensated air flow detection devices. A ver Change in gas quality compared to the quality of the device setting not recognized. Changes in gas quality occur e.g. B. between different the supply areas and in the case of peak load feeds within a coverage area. There are deviations in the device the control device over the life z. B. by aging or pollution  tongue not recognized. The gas burner can reach the limit of its permissible 4- Operating bandwidth, the z. B. is between 1, 2 and 1.3, and occasionally beyond that. To ensure a sufficiently safe operation high demands on the accuracy and consistency of production are necessary.

There are also gas burners with a lambda probe for control similar to that in probes used in a motor vehicle are known. It is during the ge Entire burner operation senses the exhaust gas and a gas actuator accordingly controlled. The service life of lambda sensors is sufficient for the operating time by far from burners in gas appliances.

DE 195 02 901 A1 describes a lambda control based on Schwan kung a detected ionization current proposed. 1.

The invention has for its object a gas burner of the beginning ge to provide the type mentioned, in the long run with little effort reliable burning operation is guaranteed.

This object is achieved with the features of claim 1. After that is provided that the control device has a timing element and / or a sensor for has an abnormal condition with which control phases to Operation of the lambda probe are predetermined or can be triggered, and that the lambda probe during their breaks, which are many times longer than the Be driving times, switched to a waiting state or completely switched off.  

With these measures, the lambda sensor is only used occasionally during a Burning operation, e.g. B. activated once a day at the specified time, which Timer can be programmable to take under different conditions to be able to choose different times and durations. By evaluating the Event-dependent control is also made possible for sensor signals, whereby the event z. B. is a disorder. Are put into operation by the Lambda probe deviations from a target value, z. B. a Existing pneumatic compound controller via an actuator attached there be readjusted. The control of the lambda probe is preferred designed so that if the burning phase is too short, the lambda sensor remains in operation (active) until the adjustment has been made.

Furthermore, the control device is preferably designed such that if the gas quality is so great during an unsupervised period has changed that the burner fails to ignite, the control logic does not pneumatic compound controller adjusted in the direction of "rich mixture", one Repeat start and adjust the gas burner so that it is at works at its optimum. Operation of the gas burner in a convenient narrow In this way, λ operating bandwidth is reliably ge in the long term ensures that the lambda probe also has a long service life is. Appropriate control properties can be easily programmed if the control device has a microcontroller.

The control can z. B. be designed so that with the timer A maximum of four control phases per day, each shorter than  are an hour, z. B. In many cases, one activation phase per day is cheap is. The timing of the control phase is of course chosen so that it is with coincides with the operation of the burner. This is through appropriate programs mation of the control device easy to implement.

The controller is advantageously designed so that the lambda sensor is in the control room State (stand-by state) at a temperature of e.g. B. kept about 100 ° C. and the operating temperature of a few hundred degrees C only during their Operating times is activated. From the waiting state, the lambda sensor are brought into their operating state relatively quickly while they are especially during long breaks in operation or when the burner is switched off is partially completely switched off. With the control one can favorable time distribution of the complete shutdown of the lambda sensor, the waiting state and the operating state can be programmed.

Another advantageous design is that the operating distances and Operating times of the lambda probe are matched so that their service life statistically corresponds to the life of the gas burner.

Since the lambda probe with the associated control device is relatively large Intervals and short periods of time activated during burner operation it achieves a long service life up to the life of the device. It is ensures that the burners work in the most favorable λ range, thereby lowest pollutant emissions, long service life and robust operation of the Brenner can be reached.  

The invention is illustrated below with the aid of one in the drawing Exemplary embodiment explained.

The figure shows a gas burner with a heat exchanger WT, over which one Lambda probe λ is arranged. The gas burner is supplied with a fuel gas G pneumatic compound controller supplied with an actuator A, the fuel gas quantity is assigned to a quantity of combustion air. The actuator A is by means of a control device ST advantageously with execution of a rain development process controlled RV. Signals from the lambda probe λ are from the Control device ST for controlling or readjusting the compound controller evaluated. The lambda probe λ only becomes active during a relatively short activation phases put into operation by means of a in the control device ST given timer ZG or event-driven on the basis of signals of a sensor S can be determined. The control device ST is to this The purpose is preferably programmable and has a suitable micro controller on.

Claims (4)

1. Gas burner with a control device (ST) and an actuator (A) controlled by this for supplying a quantity of fuel gas or regulating a gas-air ratio, which is assigned to a quantity of combustion air, and with a lambda probe (λ), characterized in that
that the control device (ST) has a timing element (ZG) and / or a sensor (S) for an abnormal state, with which control phases for operating the lambda probe (λ) are predetermined or can be triggered, and
that the lambda probe (λ) is switched to a waiting state or is switched off completely during its breaks in operation, which are many times longer than the operating times. 2. Gas burner according to claim 1, characterized, that with the timer (ZG) a maximum of four activation phases per day given that are each shorter than an hour.   3. Gas burner according to claim 1 or 2, characterized, that the lambda probe (λ) waits at a temperature of about 100 ° C and the operating temperature of several hundred Degree C is only activated during the operating hours. 4. Gas burner according to one of the preceding claims, characterized, that the operating distances and operating times of the lambda probe (λ) so are matched that their lifespan is statistically the lifespan of the Corresponds to the gas burner.