EP0752558A2 - Ignition control for a vaporization burner - Google Patents

Abstract

The control operates on the blower (3) supplying combustion air to the chamber (1) into which fuel is pumped (2) via a radial chamber (1') containing the glow plug (1"). Combustion products leaving the flue (9) heat the water which flows helically from the inlet (11) to the outlet (12) of a surrounding jacket (6). When the glow plug is switched on and before the fuel pump is started, the blower is driven at minimum power. After ignition the draught is built up during the delayed increase in pumping. The glow plug operates always at its full rating for a duration dependent upon the ambient temperature.

Description

The invention relates to a control of the ignition of an evaporation burner of a heater, in particular for the interior heating of a motor vehicle, with a regulatable or controllable fan for combustion air and a glow plug for preheating the evaporator, which is ventilated by the fan during preheating to remove any fuel residues or vapors .

With currently conventional evaporation burners, the blower is initially controlled for high output in the ignition phase. At the same time, the glow plug heats up the evaporator. After a longer heating-up phase, fuel is then introduced into the evaporator with the blower still running at high power and ignited there due to the high temperature of the evaporator which has now been reached. The glow plug can then be switched off, since the ignited flames continue to burn as long as sufficient fuel and air are supplied.

From DE 40 30 384 C2 it is known to operate the glow plug first in a first phase with high power and then in a second and third phase with increasingly reduced power during the ignition phase of the vaporization burner. In the first phase, fuel is briefly introduced into the evaporator. Then the fuel supply is first interrupted and only switched on again in the third phase. In the first phase, a strong air flow is briefly directed through the evaporator during the fuel introduction or delivery. During the second phase short bursts of air with weaker output, and in the third phase the air supply for continuous operation is switched on and continuously increased.

The object of the invention is now to provide a new control for the ignition of an evaporative burner of a heating device, in particular a low energy consumption during operation of the glow plug to be achieved.

This object is achieved in that the fan initially starts with only a minimal output during the preheating phase with the glow plug switched on and the fuel pump still stationary, in that the fuel pump then runs with minimal or very low blower output with low delivery capacity begins, and that after ignition of a flame, the blower output is delayed, with a subsequent increase in the delivery capacity of the pump, preferably several times.

It is provided in a particularly preferred manner to let the glow plug work with high power or to use a glow plug with high electrical power.

The invention is based on the general idea of restricting the air supply to the evaporation burner as far as possible or completely refraining it during the preheating phase, in order to avoid undesired cooling of the glow plug in this phase. The nonetheless, even if with minimal power, the running fan should only ensure, if necessary, that the evaporation burner is freed of fuel residues and vapors which, under unfavorable operating conditions - for example if the heater is switched on and off several times in quick succession was - could possibly occur. Uncontrolled ignition is avoided by removing these residues and vapors. At the same time, the invention makes use of the surprising discovery that minimal operation of the blower is sufficient to blow the evaporation burner free.

Since the glow plug in the preheating phase in the invention is not significantly impaired in its heating effect either by an excessively cooling air flow or by fuel cooling or vapors which also have a cooling effect, the glow plug and the ignition zone of the evaporation burner can be heated up quickly. If the glow plug works at high power, the heat supply through the glow plug takes place significantly faster than the heat transport within the evaporation burner, with the result that sufficient temperatures are quickly reached in the vicinity of the glow plug to ignite fuel, while the evaporation burner otherwise stays cooler. This can achieve the desired effect that a smaller flame is ignited in the subsequent supply of a small amount of fuel with initially minimal fan power in the vicinity of the glow plug, which then in turn increasingly heats the evaporation burner without the need for further operation of the glow plug would.

In this way, the total energy consumption of the glow plug required during the ignition phase can be significantly reduced. It only has to be ensured that an energy supply is available for the glow plug, which enables a high power supply for a short time.

Such is easily possible with today's batteries.

gemäßigten" Wintertemperaturen erheblich elektrische Energie während des Starts eines Heizgerätes gespart werden.In an expedient embodiment of the invention, a shorter or - at low ambient temperatures - a longer period of time is provided for the preheating phase, depending on the ambient temperature. That way, at

moderate "winter temperatures can significantly save electrical energy during the start of a heater.

normale" Dieselkraftstoffe regelmäßig Komponenten enthalten, die schon bei relativ geringer Temperatur verdampfen, haben Ersatzbrennstoffe auf pflanzlicher Basis - typischerweise handelt es sich dabei um Pflanzenmethylester - höhere Verdampfungstemperaturen, so daß eine etwas längere Vorheizphase notwendig wird. Durch eine Umschaltbarkeit des Heizgerätes auf unterschiedliche Brennstoffqualitäten läßt sich dann gewährleisten, daß in der Vorheizphase mit dem jeweils geringst möglichen Energiebedarf gearbeitet wird.Furthermore, it is advisable to take into account the type of fuel used in the length of the preheating phase. While

Normal "diesel fuels regularly contain components that evaporate even at a relatively low temperature, substitute fuels based on plants - typically plant methyl esters - have higher evaporation temperatures, so that a somewhat longer preheating phase is necessary. By switching the heater to different fuel qualities then ensure that the lowest possible energy consumption is used in the preheating phase.

As far as a vehicle engine is switched to different fuel qualities by operating a switch If necessary, this switch can also be used to switch the heater accordingly.

Below we explain the invention with reference to the drawing.

Fig. 1

ein schematisiertes Schnittbild eines Heizgerätes mit Verdampfungsbrenner und

Fig. 2

ein Diagramm, welches die erfindungsgemäße Steuerung bei der Zündung des Heizgerätes wiedergibt.

It shows

Fig. 1

a schematic sectional view of a heater with evaporation burner and

Fig. 2

a diagram showing the control according to the invention when the heater is ignited.

1 has, in a generally known manner, a combustion chamber 1 which can be supplied with fuel via a metering pump 2 and combustion air via a blower 3 in a controllable manner. The walls of the combustion chamber 1 or wall areas thereof are covered by a wire fleece or formed from such a material which receives the fuel supplied in the manner of a wick, the fuel evaporating from this wire fleece then burning off automatically with the supply of air.

At the side of the combustion chamber 1 there is a radial sack space 1 'in which a glow plug 1''is housed which, in the manner shown below, serves to ignite the fuel, which is preferably conducted to the combustion chamber 1 via the bag space 1 'or the surroundings of the glow plug 1''.

Connected to the combustion chamber 1 is a heat exchanger 4, which has a gas space 5 through which the combustion gases emerging from the combustion chamber 1 flow, and a hydraulic space 6 which is penetrated by a hydraulic heat transfer medium, usually water, and which is opposite the gas space 5 by a gas jacket 7 and is completed to the outside by a water jacket 8. The combustion gases enter the gas space 5 via a flame tube 9 arranged on the output side of the combustion chamber 1 and are deflected at the closed end of the gas space 5 facing away from the combustion chamber 1, so that they can be discharged to the outside via an exhaust gas line 10 and an exhaust gas silencer (not shown) after they have flowed along the wall of the gas jacket 7 with the transfer of heat to the hydraulic heat transfer medium.

The hydraulic space 6 is helical from the hydraulic heat transfer medium, which is guided through corresponding guide webs on the outside of the gas jacket 7, from an inlet 11 to an outlet 12 in one Flows through a circuit that leads via one or more radiators (not shown) and / or via the cooling circuit of a motor vehicle engine.

If necessary, air can also be heated directly instead of the hydraulic heat transfer medium, which air is guided for this purpose by means of a separate fan over the outside of the gas jacket 7.

2 now shows the control during the ignition phase of the evaporative burner.

In diagram A, the power P of the blower 3 is plotted as a function of the time t.

Diagram B shows the delivery rate Q of the metering pump 2 as a function of the time t.

Diagram C shows the occurrence of a signal S for flame detection as a function of time t.

Diagram D shows the electrical power W applied to the glow plug as a function of time t.

The heater should now be switched on at a time t ₀ .

Thus, the control of the heater switches the fan 3 to a very low power P ₁ , which is essentially just sufficient to keep the combustion chamber 1 free of any fuel residues or fumes.

Simultaneously or with a slight time delay, the glow plug 1 ″ is switched on to a high power W _h .

According to an alternative, only the glow plug 1 ″ can also be switched on at the time t ₀ , the blower 3 is then started up with a delay at the time t ₀₁ .

The metering pump 2 initially remains switched off. The combustion chamber 1 or the bag space 1 'is now preheated by the glow plug 1''. At a time t ₁ , which is selected depending on the ambient temperature such that the glow plug 1 ″ is able to bring at least a small area of the bag space 1 ′ or the combustion chamber 1 to a sufficiently high temperature, the metering pump 2 is switched on and brought to a low delivery rate Q ₁ . The fuel now flowing in through the bag space 1 'ignites again short time, so that at a time t ₂ an output signal S _{1 is} generated by a flame detection sensor, not shown.

For safety reasons, the glow plug remains on for a short time. After a time t ₃ , glow plug 1 ″ then remains switched off.

Approximately starting at time t ₁ , the power of the fan 3 is ramped up continuously in such a way that a slightly increased fan power P _{4 is} achieved at a time t ₄ . Shortly thereafter at a time t ₅ , the metering pump 2 is then raised to a slightly increased delivery rate Q ₅ , which then initially remains unchanged, while the power of the blower 3 is ramped up again and reaches an average power P ₆ at a time t ₆ .

Thereafter, the delivery rate of the metering pump 2 is increased again at a time t ₇ , namely to a value Q ₇ . At the same time, the power of the blower 3 is ramped up until the large blower power P _{8 is available} for normal heating operation by the time t ₈ . This concludes the heater start-up phase. Now there is basically a conventional - regulated - heating operation.

Claims (6)

Control of the ignition of an evaporation burner of a heater serving in particular for the interior heating of a motor vehicle with a regulatable or controllable fan for combustion air and glow plug for preheating the evaporator, which is ventilated by the fan during the preheating to remove any fuel residues or vapors,
characterized,
that the fan (3) starts during the preheating phase with the glow plug (1 '') switched on and the fuel pump (2) or fuel supply switched off with minimum output (P ₁ ), that the fuel pump (2) or fuel supply with minimum or very low blower power (P ₁ ) with low flow rate (Q ₁ ) begins to run and that after ignition of a flame the blower power is delayed with subsequent Increasing the delivery rate of the fuel pump (2) or fuel supply - preferably several times - is increased. Control according to claim 1,
characterized,
that the glow plug (1 '') always works with high power (W _h ). Control according to claim 1 or 2,
characterized,
that the operating time (t ₃ - t ₀ ) of the glow plug (1 '') can be controlled depending on the ambient temperature. Control according to one of claims 1 to 3,
characterized,
that the operating time (t ₃ - t ₀ ) of the glow plug (1 '') can be controlled as a function of the evaporation temperature of the fuel or a fuel component. Control according to one of claims 1 to 4,
characterized,
that the fan (3) starts when the glow plug (1 '') is switched on. Control according to one of claims 1 to 4,
characterized,
that the fan (3) starts with a delay (t ₀₁ - t ₀ ) compared to the switch-on point (t ₀ ) of the glow plug (1 '').

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