DE920976C - Oil burner - Google Patents

Description

Oil burner The invention relates to an oil burner in which a adjustable part of the fuel jet emerging from the nozzle by means of a Catcher is withdrawn from the combustion zone. The invention consists in that a shaft influenced by a thermostat has both an axially displaceable one Nozzle as well as a slide dominating the air supply openings in connection stands, so that by rotating the shaft, the nozzle opposite the collecting device axially shifted and the air supply openings depending on the nozzle position more or less opened.

The drawing represents exemplary embodiments of the subject matter of the invention Figure i shows the oil burner partially in a three-dimensional representation, Fig. 2 shows a cross section along the line A-A in Fig. I, Fig. 3 shows a detail, Fig. 4 shows the cup surrounding the nozzle according to a special design; and FIG. 5 shows a view of the air control ring.

The oil burner has a tubular housing i, which at one end opens into a combustion chamber not shown in the drawing, which of the one to be heated Medium is surrounded by a wall separated. In the housing i is equiaxed one Nozzle 2 arranged with a conical bore so that the flowing out under high pressure Fuel is atomized, the scattering angle remaining unchanged. The nozzle 2 is surrounded by a cup 3, which is double-walled and conical. One opens into the space in between Line 4, which is connected to the fuel chamber communicates. The tapered end of the cup has a radially inward direction directed ring 5, which is an adjustable part of the emerging from the nozzle Has to intercept fuel. With the cup 3 is an electrode holder through a bracket 6 7 connected, which is used to accommodate the two electrodes 8. These are enough their ignition points in front of the mouth of the beaker 3. To the formation of a vacuum zone to prevent between the cup mouth and a flame ring 9 upstream of the cup, means are provided that the air flowing around the cup in the direction of the Deflect the axis of the nozzle. On the outer shell of the cup 3 are appropriate for this purpose shaped guide vanes 3 'arranged, which deflect the passing air and set in rotation. This destroys the vacuum zone. The one to hold the flame serving flame ring 9 is with guide vanes distributed on its inner circumference g 'equipped. These are parallel to each other and are inclined to the plane of the Ring 9 arranged. It can be attached to the burner housing by means of screw bolts take place.

The fuel is supplied to the nozzle 2 through a rigid line io and one of these connected flexible line i i, which is directly connected to the Fuel feed pump is connected. The rigid pipe io and the nozzle 2 are axially displaceable. The said line is in one for this purpose cylindrical extension 3 ″ of the cup 3 and against the other end in a ring 12 out, which is connected to the housing i by means of a support 13. With the support an L-shaped bent holder 14 is screwed, the other end Strap 6 carries.

On the side opposite the nozzle, the rigid line is OK provided with a coupling piece 15 directed perpendicular to it, which in turn in connection with a lever arm i7 via a connecting rod 16 forked at both ends stands. The lever arm 17 stands with a shaft 18 rotatably mounted in the housing i in rigid connection, and he remains under the influence of a tension spring 32, the other end is coupled to the support. The shaft 18 penetrates the wall of the housing i and is at its free end by means of a leverage 1g, 2o with a rotatably mounted disc 21 in connection, which is carried by a shaft 22. The shafts 18 and 22 can also be coupled directly to one another. In well-known Way, the shaft 22 is under the influence of a thermostat controlled Controller, so that the temperature fluctuations detected by the thermostat have a corresponding Cause rotational movement of the shaft 22. The connection between the leverage i9, 2o and the disc 21 can be done by means of a cam 23, which is on the free End of the lever arm ig is attached.

The shaft 18 is also connected via an articulated connection 24, 25 to a slide 26, which more or less open the air supply openings 27 of the burner housing part i 'depending on the position. This burner housing part i 'is cylindrical and is attached to the side of the fan housing i ". A fan or blower (not shown) is installed in the housing i", the shaft 28 of which is driven by an electric motor which is used in a known manner to drive a fuel pump . The slide 26 is designed as a rotary slide like a drum, has recesses 26 'and is inserted rotatably into the housing part i'. The size of the recesses 26 'corresponds to the air inlet openings 27. In addition to the openings 27, the housing part i' also has a slot 29 (FIG. 2, indicated by dashed lines) through which a bolt 3o engages, which with your arm 2q. is articulated. The bolt 30 is connected to the rotary valve 26.

In the event of oil loss caused by leaks in the lines the oil that collects in the housing i can be passed into a vessel 33 which passes through an overflow line is connected to a rocker that acts as a toggle switch. The latter can be pivoted by 35 in the directions of the arrows (FIG. 3); an arm is that Container 36, and the other arm is a mercury breaker 37 with contacts 38, which are connected in the circuit of the drive motor.

In the normal position, the rocker remains horizontal or almost horizontal, so that current can flow through the mercury between the two contacts 38. However, if the container fills up with oil, the rocker tips over, and so does the mercury compound between the contacts is interrupted, causing the engine to shut down.

The temperature-related rotation of the disc 21 is about the Lever transmission ig, 20 the shaft 18 rotated more or less. The rotary motion the shaft causes the axial displacement of the nozzle: 2 with respect to the ring 5, which as a result, more or less fuel is wiped off, since the scattering angle of the nozzle remains unchanged remain. The rotation of the shaft 18 also causes the openings to be adjusted 27 through the slide 26, so that the amount of air is also changed. To the To match the amount of air and the amount of fuel to each other, the length of each Lever can be determined, the control range being kept changeable as a result can that the lever ig is connected to the disc at different points. to For this purpose 21 bores 31 can be arranged distributed on the circumference of the disk.

Claims (3)

PATENT CLAIMS: i. Oil burner in which an adjustable part of the fuel jet emerging from the nozzle by means of a collecting device is withdrawn from the combustion zone, characterized in that one of a thermostat influenced shaft both with an axially displaceable nozzle and with one the air supply openings dominating slide in connection stands, so that by rotating the shaft, the nozzle opposite the collecting device axially shifted and the air supply openings depending on the nozzle position can be opened more or less. 2. Oil burner according to claim i, characterized characterized in that this has a shaft (18) which has a at its free end Lever (i9), which with the thermostat-influenced disc (21) in Connection is, while an articulated connection (24, 25) by means of a bolt (30) with which the air supply openings of the burner housing dominant slide (26) coupled through a slot (29) of the housing gripping is, whereby a connecting rod (16) is attached to the shaft (18) by a lever arm (17) and a coupling piece (15) connected to a rigid axially displaceable line the other end carries the atomizing nozzle (2). 3. Oil burner according to claim i and 2, characterized in that a cup surrounding the nozzle and one of the nozzle upstream ring are equipped with guide vanes. q .. oil burner after a the. Claims i to 3, characterized in that the guide vanes (3 ') on the cup are shaped so that the combustion air is deflected in the direction of the nozzle axis and is set in rotation. Oil burner according to one of claims i to q., Characterized characterized in that the guide vanes are parallel to each other and to the plane of the ring are arranged inclined. 6. Oil burner according to one of claims i to 5, characterized characterized in that the guide vanes (3) distributed on the inner circumference of the ring lie in the path of the fuel jet.