DE809199C - Device for flushing through individual pipe runs of a forced flow boiler - Google Patents

Description

The invention relates to devices for flushing individual pipe strings of a forced-flow boiler without interrupting operation.

It is known in a forced-flow boiler, each pipe string of the one The part of the heating surface in which the residual evaporation takes place must be rinsed individually. As a result of the existing cross-connections of the pipe coils can only be a small part of the The heating surface must be flushed and it is necessary to use non-return throttles on the steam side to attach.

In contrast, according to the invention on the water inlet side of each pipe string a throttle nozzle is arranged, which during the flushing process is bridged.

The arrangement according to the invention is shown schematically in Figs shown.

The feed water comes out of the distributor i into the parallel-connected Pipe strings 2 a. These each contain an extension 3, in which the bridgeable Throttle nozzle 4 is arranged. The individual pipe strings run parallel through the Steam generator and form the feedwater pre - «- poorer 5 and the one heated by radiation Evaporator heating surface 6. From this, the pipes enter a transverse collector Separator 7 a. The separated steam flows through the tubes 8 and the preheater g in the steam temperature controller io, in which to keep the final steam temperature equal feed water is injected through pipeline i i with nozzle i2. The chilled steam flows through the tubes 13 and the post-superheater 14 to the collector 15, from which it is directed to the consumption points.

As shown in FIGS. 3 and 4, the throttle nozzle 4 consists of a cylindrical one Disc with a nozzle opening 4 'and is in the extension 3 of the tube 2 by means Pin 16 and shaft 17, which is sealed by a stuffing box 18, rotatably mounted. Stops in the drive, which is not shown, limit the rotation of the throttle nozzle to 9o °.

The mode of operation of the arrangement is as follows: The throttle discs 4 stand in normal operation in such a way that they block the passage through the cross-section 3 and most of the flow must be through the nozzle opening 4 '. When an abnormal Pressure difference between water inlet i and steam outlet 15 is determined, this is a sign that salts have built up in the evaporation heating surface to have. It is then necessary to flush the heating surface. To this end, will on a pipe string, the shaft 17 rotated uin 9o °, so that the throttle disc in the The situation shown in Fig. 3 and 4 comes. The water can therefore flow on both sides you forward, ice flow, and as a result of the reduced resistance it becomes greater Amount of water flowing through the pipe string than can be evaporated in it.

In the separator 7, the water will separate from the steam and through the tubes i9 flow into the container 2o, from which it is released by opening the valve 21 is drained. After a reasonable period of time, say 2 minutes, will the throttle disk 4 rotated again by 90 ° into the normal position and the same The process is repeated on the next pipe string and so on until all pipes are flushed through are. Then the valve 21 is also closed again.

The adjustment of the throttle nozzles can also be carried out automatically the apparatus for this can automatically depending on the pressure difference between 1 and 7 can be put in and out of operation.

Claims (4)

PATENT CLAIMS: i. Device for flushing individual pipe strings of a forced flow boiler without interruption of operation, the pipe strings without Cross-connection go through to a point where in normal operation with certainty Simtliches water is evaporated, characterized in that on the water inlet side of each pipe string a throttle nozzle is arranged, which during the flushing process is turned off. 2. Apparatus according to claim i, characterized in that the pipe strings are connected by a collector from which the flushing water is drained will. 3. Apparatus according to claim i, characterized in that the throttle nozzles are arranged in extensions of the pipe strings in the form of discs and by: 'Unfolding or turn go ° to release most of the extended cross-section. 4. Device according to claim i, characterized in that the device operates automatically one after the other makes the switchover and, if necessary, depending on the. Pressure gradient the coil is automatically switched on and off.