DE36537C - Steam generation in tubular boilers - Google Patents

Description

IMPERIAL

PATENT OFFICE.

Those described below and shown in the drawing in two modifications Innovations in tube boilers aim at a continuous supply of the actual tube boiler by means of a jet blower (injector) switched into the boiler line, which but not, as usual, sucking in water from an open vessel, but in one under pressure, namely the boiler pressure, standing reservoir acts sucking. The tube boiler, which is continuously fed from above by the injector water and kept cool, .ist so connected to a steam and water reservoir, which is also under pressure, and which is the source of both the injector steam jet and the feed water. With this boiler system, complete separation of the scale from the Feed water.

In Fig. Ι r is the tubular boiler, which is connected to the reservoir d by pipeline r ¹ r ² , into which check valves r ³ r ^{4 are} switched on, and indeed on both sides, so that one pipe goes into the steam space and the other into the The water space of the reservoir d opens. The injector nozzle i and a relief valve h are switched on in the steam line r ^1. The water supply to the injector is carried ο through the tube, which can be cooled in the pool b, into the coiled tubing and pipe s s ¹ runs out and occurs at ρ with the reservoir connection. The reservoir d is fed intermittently by means of a pump etc. through pipe χ.

The effect is as follows:

The boiler system r is heated and is under steam pressure. First you open the starter valve h; steam flows out, and it sucks in the water of reservoir d, which has been cooled on its way in basin b . The same flows continuously, continuously condensing the steam, even if the start-up valve h is now closed, and the water drawn in is accordingly pressed through the injector into the tubular boiler, through which it flows from top to bottom. A mixture of water and steam respectively. Pure steam will exit through the pipe r ² , raise the shut-off valve r ⁴ and pass through the pipe α with fine openings into the reservoir d , in which the steam separates from the water, with simultaneous heating of the water in the reservoir d.

The cold feed water for reservoir d is introduced through pipe χ . This water is slowly heated by the injector water flowing down through the pipe s ¹ and the coil s , which cools itself down, rises gradually higher and warms up more and more, until it finally boils, the entire boiler separates and enters the pipe s ¹ as pure injector water at ρ . As can be seen, the cold feed-water is therefore first heated and brought to the boil in order to separate out all the scale, and then cooled again in order to be able to act as a condenser on the injector steam.

FIG. 2 shows a modification which differs from FIG. 1 only in that the reservoir d is also heated, otherwise the arrangement is the same; the same letters are also used for similarly functioning parts.

The heating of the tubular boiler r and reservoir d is, as can be seen, a common one; the fiery gases first pass through the boiler pipes s [in order to then wash around the pipe coil b afterwards.

The steam for the machine is taken from the boiler d . However, as indicated by the dotted tube in Fig. 2, the steam generated from the tube boiler rb and exiting through the tube r ² from the tubes b can be conducted directly to the cylinder of the machine to generate power without any return of the generated steam takes place in the reservoir; the water still contained in the steam can be separated out. There can also be different pressures in the two reservoirs d and b; Of course, a higher pressure will then be generated in the tubular boiler, so the injector would have to overcome the excess pressure when the water is transferred into the tubular boiler.

Claims (1)

Patent Claims:
For tubular boilers: The process by double-sided connection of a steam and water reservoir Serving container with a heated boiler forming a continuous pipe system, with the activation of an injector between the two, to drive the water of the collector through the boiler and heated to be returned to the collector for the purpose of constant supply and cooling of the heated Boiler and indirect heating of the reservoir. , In the process mentioned under 1., the modification from the tubular boiler not to return the steam coming back into the reservoir, but directly, under any Separation of the water to be used in the cylinder, , In the procedure described under 1. the use of a cold water inlet opposite water drainage feeding the injector, for the purpose of preheating the cold water and the elimination of the scale, as well as its own cooling of the injector water. In the process described under 1. the direct heating of the reservoir d. For this purpose ι sheet of drawings.