DE1501945A1 - Oil burners, especially for water heaters - Google Patents

Description

Oil burners, especially for instantaneous water heaters

The 'invention relates to an oil burner, in particular for water heaters. For those for hot water preparation for service water or for hot water circulation heating The instantaneous water heaters used are mainly oil gasification burners with a non-luminous blue flame, as for example in the German patent application Sch 32 373 Ia / 2 ^ b are described in more detail. One . Such an oil burner is the combustion air via a controllable fresh air flap supplied by a motor-driven fan and the oil supply is effected by means of an oil pump via a controllable solenoid valve. The invention The underlying task is to improve the control of such an oil burner and to make it safer, whereby it is important to use as much as possible few and simple control devices get by. In known oil burners, the solenoid valve releasing the oil supply is electrically operated The pickable bimetal switch is open, so that the oil is supplied with a delay after the air vessel has started up and the fresh air flap has been opened. The switch-on time of the solenoid valve is not exactly defined in such a bimetal switch and is independent of the position of the fresh air flap. If, for whatever reason, the fresh air flap does not open or does not open in time, Cl can still be injected into the oil burner, which of course can lead to great difficulties, even if the burner is equipped with a flame monitor.

The invention consists in that, in order to avoid these difficulties, the solenoid valve releasing the oil supply can be switched on as a function of the position of the Frisehluftkla ^ e. It can be set up so that the oil supply at a certain position of the fresh air flap, e.g. i, when the fresh air flap is about halfway open, which has certain advantages. Ignition can then take place with a certain lack of air, with the result that the flame adheres better to the still cold burner opening.

The invention is expediently implemented in that on the shaft The fresh air flap has a switch cam, which is one in the circuit of the solenoid valve lying microswitch actuated. The shaft of the fresh air flap can thereby by an electric servomotor against a return spring

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be rotatable. For oil burners, in which the burner is provided before starting up an electrically · ¹ heating, the particular opening of the fresh air flap actuating motor of a burner thermostat is appropriately switched, which is also used to turn off the electric heating. When the servomotor is switched on, the burner thermostat can switch on a burner ignition device at the same time. It is advantageous if the burner thermostat is designed and adjusted in such a way that the servomotor is switched on before the burner heating is switched off.

w In many cases, oil burners have a flame monitor that works according to the flame ionization principle. It has been shown that the flame ionization is disturbed when the ignition device is switched on, that is to say that the ignition device must be switched off if the flame monitoring by ionization is to function. On the other hand, after the oil supply has been released, the ignition device must remain switched on long enough to ensure ignition of the burner. In a further embodiment of the invention is therefore provided with a burner with ionisation that the Brennerzündvorrichtung upon reaching the open position is ^p riscnluftklappe switched off automatically. The opening movement of the fresh air flap therefore both marries in the oil supply and switches off the burner ignition device at a time interval, so that an undisturbed flame monitoring can then take place in the operating state. The arrangement is expediently such that the switching cam arranged on the shaft of the fresh air flap has a projection which, when the fresh air flap is open, actuates a microswitch located in the circuit of the burner ignition device.

The following is an embodiment of the invention with reference to FIG the figures explained in more detail.

Fig. 1 shows schematically the structure and the circuit of a working with an oil burner flow heater, wherein in

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La the control organs associated with the fresh air flap are pulled out enlarged.

FIGS. 1b and 1c correspond to FIG. 1a in other operating positions.

Fig. 2 is a side elevation of the fresh air box control device.

Fig. 3 shows schematically the burner thermostat and its Switching device.

In a water heater 1, an oil gasification burner 2 is installed, the oil, etc. by an oil pump 3 through a solenoid valve and a k is connected to an injector oil pressure line 5 is supplied. At the same time, fresh air sucked in via a fresh air connection 7 is blown into the burner 2 by a motor-driven blower 6. In the fresh air connection 7, shown enlarged in FIG. 2, there is a fresh air flap 8 which is fastened on a shaft 9. The shaft 9 is under the influence of a return spring 10 which seeks to bring the fresh air flap 8 into the closed position. The return spring 10 counteracts an electric servomotor 11 on the shaft 9, which opens the fresh air flap 8 and keeps it open when it is refreshed. On the shaft 9 of the fresh air stick 8 sits a cam disk 12 which, together with a switching cam 12 ', actuates a microswitch 13 when the fresh air flap 8, as shown in FIG. 1b, is half open. An approach 1 ¹ * of the cam disk 12 actuates a | when the fresh air flap 6 is fully open further microswitch 15.

In the oil burner 2 is the heat sensor 16 'of a burner thermostat 16 (Fig. 3) installed, which has a shift lever 17. As the temperature in the burner 2 increases, the switch lever 17 moves from switch position I to switch position II moved into the switching position III. The switching lever 17 works together with two contact surfaces 18, 19 and in switching position I only touches the Contact surface 18, in switch position II both contact surfaces 18, 19 and in Switching position III only the contact surface 19. An electrical heating coil 20 housed in the burner 2 is connected to the contact surface 1.8, which is used for

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The burner 2 is used to heat up before it is put into operation. A line 21 leading to a distribution point 22 is connected to the contact surface 19, while the shift lever 17 is connected to a distribution point 23. The distribution point 23 can be connected to a voltage source via a control unit 2U and a main switch 25. The microswitch 13 is connected to the distribution point 23 and the solenoid valve h is connected to it in series. From the distribution point 22, a connecting line leads to the servomotor 11 and to the microswitch 15, which is in series with the control unit 2k in the circuit of an ignition transformer 26. The ignition transformer 26 feeds ignition electrodes 27 which are located in the burner 2. A flame monitor 28 based on the flame ionization principle is connected to the control device 2U. The motor of the blower 6 can be switched on via the main switch 25.

The mode of operation of the described arrangement is as follows:

If the oil burner 2 is put into operation when it is cold, the main switch must be used 25 to be closed. As a result, the fan 6 starts up when the fresh air flap 8 is closed. At the same time there is voltage at distribution point 23, so that the heating coil 20 via the contact lever 17 and the contact surface 18 is switched on and the interior of the burner 2 is heated. The heated air in the burner 2 is circulated by the fan 6 and without fresh air supply creates an even temperature. After a sufficient temperature has been reached, the switch lever comes through the burner thermostat 16 17 in the switching position II, in which the distribution point via the contact surface 19 22 tension is maintained. The heating coil 20 is not yet switched off. The servomotor 11 receives voltage and via the distribution point 22 starts up by slowly opening the fresh air flap 8. As soon as the fresh air flap 8 has reached the position shown in Fig. 1b, the microswitch 13 is actuated by the cam 12 'and thereby the oil supply releasing Solenoid valve U switched on. The pump 3 is now throttled at ncch Fresh air supply oil is injected into the burner 2 and gasified or evaporated and ignited by the ignition electrodes 27. Meanwhile the temperature is up so far increased in burner 2 that the switching lever 17 of the Erennerthernostate 16 has assumed the switching position III and thereby the heating coil 20 with a delay has been turned off. The ignition stays on for that long, bit the fresh air flap 8 is fully open (Fig. 1c) and through the approach 1U

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the cam 12 of the microswitch 15 has been actuated in the disengaging sense. The ignition is therefore in operation for a sufficiently long time to ensure reliable ignition. After the ignition is switched off, which is effected by the microswitch 15 depending on the full opening of the fresh air flap 8, the burner 2 is in operation and is controlled by the control unit 2k or the ionization flame monitor 28 monitored in a known manner.

In summary, the described arrangement results in the following advantages:

The oil supply is only released by the solenoid valve k when the fresh air flap is sufficiently open. Since the fan 6 is switched on before the servomotor 11, there is a guarantee that the fan motor has already reached a full speed before the onset of the oil supply. The burner 2 only remains in full operation when the fresh air flap 8 is fully open, since only then is the ignition stopped and only then does the ionization over-change become effective

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Claims (7)

patent claims y Oil burners, especially for instantaneous water heaters, in which the combustion air via a controllable fresh air flap by a motor driven be supplied by a fan and oil is supplied by means of an oil pump via a controllable solenoid valve is effected, characterized in that the The solenoid valve (U) releasing the oil supply can be switched on depending on the position of the fresh air flap (8). 2. Oil burner according to claim 1, characterized in that on the WelJe (9) the fresh air flap (8) has a switch cam (12) which fc circuit of the solenoid valve (k) located microswitch (13) actuated. 3. Oil burner according to claim 1 or 2, characterized in that the shaft (9) the fresh air flap (8) by an electric servomotor (11) gejen one Return spring (1O) is rotatable. H. Oil burner according to claim 3, in which an electrical Aufheizun ^; of the burner is provided, characterized in that the servomotor (11) intended to open the fresh air flap (8) can be switched on by a burner thermostat (16) which also serves to switch off the electrical heating (20). 5. Oil burner according to claim k _t, characterized in that δ · = ν burner thermostat ) (16) is designed and set so that the activation of the servomotor (11) takes place before the burner heating (20) is switched off. 6. Oil burner according to one of claims 1 to 5 with ionization flame monitor, characterized in that the burner ignition device (26, 27) can be switched off automatically when the fresh air flap (8) is in the open position, 7. Oil burner according to claim 2 and 6, characterized in that the on the Shaft (9) of the fresh air flap (8) arranged switching cam (12) has a projection (1U) which, when the fresh air flap (8) is in the open position, one in the circuit the burner ignition device (26, 27) located microswitch (15) actuated. 909826/0 / »82