DE328235C - Air supply device for oil firing - Google Patents

Description

Ventilation feed device for oil firing. With oil boilers, which in pressurized spaces, such as B. on warships and more recently even on merchant ships, one has gone over to the oil firing to blow in preheated air in addition to the fresh air in the boiler room. This preheating air is taken from the fresh air in the boiler room and between: the exterior and. Inner lining of the boiler housing or by special in the Chimney built-in air preheater led in front of the oil nozzles. In this way learns the preheating air as a result of the resistances in the housing ducts or in the air preheaters a pressure reduction, so that it becomes necessary, special pressure increasing devices to meet in order to introduce fresh air and preheating air together into the oil furnace to be able to.

The present invention uses that of fresh air for this purpose inherent energy, which it receives due to the pressure in the boiler room by the oil nozzle air supply and closure elements receive a special training, at the same time a good air introduction into the oil jet cone and thus an intimate one Mixing of air and oil particles can be achieved.

The invention is laid down schematically in FIGS. R to 5: The Oil nozzle A located in front of the furnace is from an air inlet chamber surrounded, in which the fresh air from the boiler room enters at B and an in the longitudinal direction of the nozzle adjustable annular piston z happens, which on the Inside of two funnel-shaped in a regular shape, against the Tip of the oil jet cone to surfaces, on the outside q. against it is cylindrically limited.

The part of the air chamber around the oil nozzle A is designed in such a way that that he with the inner funnel surface of the annular piston one against the oil nozzle tip tapering annular channel a forms so that on the fresh air supply side up to Funnel tip converts part of the pressure of the fresh air into speed.

This speed is used to track the front of the entry point C in the air inlet chamber with negative pressure preheating air in the oil jet path suck in.

The outer funnel surface facing the preheating air supply side of the annular piston forms in conjunction with the opposite wall of the air inlet chamber a likewise tapered annular channel 3, which the ejector-like suction the preheating air in the fresh air jet is guaranteed.

The high speed of the incoming air serves to keep the To mix air particles intimately with the oil jet particles.

The annular piston r is in operation by the flow pressure of the fresh air in the ring channel -a on the one hand and the suction pressure in the ring channel 3 on the other hand kept open.

To regulate the amount of air supply is a spindle 6 screwed into the air chamber housing on which the annular piston i is moved loosely to a stop 13 on the spindle. By turning the one on the The handwheel 14 attached to the spindle 6 can position the stop 13 as deep as desired in the air chamber set and thus the stroke of the annular piston in the opening direction can be limited. If an explosion occurs in the furnace, then on the preheating air side of the ring piston an instantaneous overpressure is generated and the annular piston, as shown in Fig. 2, overcoming the flow pressure of the fresh air, if necessary until completion of the ring channel 2 thrown back. A counterweight 15 (FIG. 4) can here; balance the weight of the piston and the frictional resistance.

The counterweight 15, which is by a spring or other mechanical, pneumatic or hydraulic compensating device can be replaced can also cause the ring piston to close when the boiler system is shut down, when the flow pressure of the fresh air on the annular piston ceases.

To conclude and open the preheating air and the fresh air at the same time is the annular piston i by means of a gear mounted in the air chamber housing 8, in which a toothed rack 7 attached to the ring piston i engages, with the preheating air ring slide 5, which also engages with a toothed rack 17 in the gear 8, inevitably tied together.

The ring slide 5 is mounted telescopically over the opening when it is opened Ring piston i, which achieves a short overall length of the entire air supply device will. The ring slide 5 disappears here in an annular pit 18 of the air chamber housing.

When the system is put into operation, the one-sided overpressure causes the fresh air on the annular piston i in the annular channel 2 possibly supported by the pressure of the preheating air on a piston edge 12 (Fig. 4) at the conclusion of the . Preheating air serving ring slide 5, the opening of the ring piston i.

The opposite movement of the ring slide 5 and this ring piston i can also be done mechanically in other ways, such as by using an older cable drive. a lever mechanism Fig. 5.

When using a lever mechanism, the control device for Make piston and slide faster operable than when using the in the Fig. I to 4 shown screw spindle drive 6, 13, 14.

In the example of a lever mechanism shown in FIG. 5, an eyelet 2o is attached to the annular piston i, into which the angle lever 22 engages, which rotates about the fixed point 32. The angle lever 22 acts by means of a push rod: 24 on a sleeve 26 which is displaceable on the threaded bolt 27, 28, 30 guided in the support bearing 31 and threaded bearing 29. In the same way, the ring slide 5 for the preheated air is connected to the sleeve 26 by means of the eyelet 21 of the angle lever 23 rotatable about the fixed point 32 and the push rod 25. By turning the handle 30 , the threaded bolt 27, 28, 30 is displaced longitudinally in the fixed threaded bushing 29. Here, the stop 28 of the threaded bolt sets the threaded bushing 26 to a higher and lower position and thus the opening of the annular piston i for the fresh air and the annular slide 5 for the preheated air. The closure of the fresh air and the preheated air takes place again 'automatically' by the pneumatic counteraction - from the combustion chamber or by counteracting the weight 15.

Instead of the screw adjustment device 27, 28, 29; 30, 31 for the sleeve 26, a simple adjusting lever acting on the sleeve 26 can also be attached.

Ring slides and ring pistons can be opened for easy mobility Rollers or balls 9 (Fig.3) are stored in the side guides of the air chamber housing to run.

.For further regulation of the fresh air and preheating air supply, movable in the preheating air supply channel in front of C, one-sided under the influence overpressure from the outside or inside opening and closing flaps i9 are used that allow the direct passage of fresh air into the preheating air duct. These openings can be used at the same time for inserting rovings through which the oil jet is ignited.

Viewing openings 16 can also be provided in a convenient manner prior to need (Fig. I), which allows a good observation of the combustion of the oil and thus enables a corresponding setting of the air inlet organs.

The device can also be used for systems in which the preheating pen from special blowers directly or through air preheaters in the The preheating duct is pressed and there is a lower pressure in the fresh air room, than in the preheating air duct. It will then; vice versa as in the case described above, the preheating air is used to entrain the fresh air into the furnace like an ejectary.

Claims (1)

PATENT CLAIMS: i. Air supply device for oil firings that work with fresh air and preheating air, with an air guide funnel surrounding the oil nozzle, characterized in that the fresh air 'along the inner side of the annular piston (i) surrounding the oil nozzle, adjustable in the longitudinal direction of the nozzle, to the tip of the Oil funnel and the preheating air along the outer side of the annular piston (i) are guided in such a way that the fresh air, while converting its pressure into speed, sucks in the preheating air, or vice versa. z. Air supply device according to claim r, characterized in that the movement of the annular piston (i) to close off the fresh air and a counter-rotating annular slide (5) pushed telescopically over the annular piston to close off the preheating air are dependent on one another. 3. Air supply device .nach claims i and z, characterized in that the initiation of the opening movement of the annular piston (i) takes place or is supported by the pressure of the preheating air on the ring slide (5) provided with a piston rim (1z).