DE420502C - Arrangement for the regulation of several superheaters in a furnace - Google Patents

Description

Arrangement for the regulation of several one behind the other in a furnace Overheating. It is known in the train of the heating gases from steam boiler systems Superheater to be arranged in such a way that it 7 temporarily completely or partially the heating gas flow can be withdrawn, whereby the overheating is regulated. This scheme is easy to carry out as long as only one superheater is provided in the heating gas flue. However, the scheme presents particular difficulties when arranging two or more Overheating in a fire train, as required in modern systems with which occasional reheating of various working steam quantities of different voltage must be carried out. The present invention achieves now a perfect regulation when arranging several superheaters one behind the other in a gas chamber by placing an empty draft on the superheaters, that is either separates both superheaters by partition walls that act as empty sections and in this provides openings that can be closed at the top and bottom by sliders, flaps or the like, or an empty line forms in front of the first or behind the last superheater, so that depending on the requirement, the heating gases completely or partially through only one or the other or through both superheaters or both are switched off.

The following are examples of this in the drawing trained Steam boiler systems shown in longitudinal section, namely Fig. I shows the empty line between the superheaters, Fig. 2 and 3, the empty line behind the superheaters and Fig. 4 the empty line in front of the superheaters.

In all figures, the same parts have the same reference symbols Mistake.

In the gas chamber given by the smoke baffles and in the The direction in which the combustion gases are drawn in accordance with Fig. i, indicated by arrows, are two Superheaters 3 and 4 are arranged, the walls 5, 6 separated by an empty line are. The partitions are at the top and bottom with sliders, flaps or the like 7, 8, 9, i o provided closable openings that connect the individual Allow superheater with the heating gas flow. Depending on the position of the slide 7 to io results in the following path of the heating gases: When slide 8 and io are open and 7 and 9 are closed, both superheaters are flushed by the heating gases in the Reversal but both turned off. If slide 7 _ and i o are opened and 8 and 9 is closed, only the superheater 4. is flushed and when reversing only the Superheater 3 heated. By not completely locking the flaps to be closed, the heating gas flow can be divided completely arbitrarily as required and thereby also bring about a completely independent control of both superheating temperatures.

In Fig. 2 both superheaters are only separated by a partition 5, while the wall 6 is provided behind the last superheater .4, so that here the empty line for the heating gases between this wall 6 and the smoke baffle 2 is formed will. The slide io is arranged here at the upper end of the wall 6 and holds the Empty space usually locked; when reversing he works with the slide 9 together to the upper end of the wall 6. By opening and closing the slide Here, too, the flue of the hot gases is guided as in Fig. i, as it is Overheating is conditional.

Fig. 3 shows the solution to the same problem with a minimum number of regulating bodies. In this arrangement, only the flaps 8 and io are provided. If flap 8 - is swiveled to the left and flap io upwards, the gases flow through both superheater groups. If flap 8 is turned vertically downwards, then superheater 3 lies in the dead gas space, while superheater q. receives all gases. If you finally turn flap io to the left and leave flap 8 in the previous position, the gases no longer pass through the superheater flues, and both superheater groups are only exposed to the heat radiating from above, whereby a minimum level of overheating is achieved.

Fig.q. there is an arrangement in which the empty draft in front of both superheater chambers is arranged. When flaps 7 and 9 are closed and 8 and io are open, the superheater 3 is heated, and when flaps 7 and io are closed, flaps 8 and 9 but are open, the superheater q. washed down. Is 7 closed and 8, 9, io open, both superheaters are swept by the heating gases, while both Superheaters are switched off from the train of hot gases when the flaps 8 and 9 closed and 7 and io open.

The superheaters can also be arranged horizontally, around their upper ones and to keep the lower parts so far away from the slides or flaps that they are not hit there by the passing hot gases.

Claims (3)

PATENT CLAIMS: i. Arrangement for the regulation of several in one furnace superheaters lying one behind the other, characterized in that in and of themselves known, for the control of the heating gases provided with adjustable openings walls in such a way are arranged so that they result in a void which enables that depending on Requirement of the heating gases completely or partially only by one or the other draw another or through several superheaters or all are switched off. 2. Arrangement according to claim i, characterized in that the idle line through between the superheaters arranged walls (5, 6) is formed. 3. Arrangement according to claim i, characterized in that that the empty draft through a arranged behind the last superheater wall (6) and the smoke baffle (2) is formed. Arrangement according to claim i, characterized in that that the empty train through a wall arranged in front of the first superheater (5) and the Smoke baffle (i) is formed.