DE49933C - Device on water tube boilers for separating the boiler scale - Google Patents

Description

IMPERIAL

PATENT OFFICE.

In the construction of the. present boiler system was inter alia. It is important that when the boiler is in operation, the freshly fed water before it enters the narrow water pipes can reach, slowly travels a long way, and that the amount of water which regularly flows through the heating tubes, only the amount of water that has actually evaporated the same, the steam extraction itself is the regulator for the rotational speed of the boiler water, and that finally the water freshly entering the boiler does not match the water that is already in the boiler Water can mix before it has made a deal in the kettle. The narrow heating pipes lying in the fire so only evenly heated and fairly purified water free of scale builders fed.

In the drawings and the description below, there are three types of execution this boiler system shown and explained.

Fig. Ι is a vertical longitudinal section through a boiler with a simple tube system,

Fig. 2 is a vertical cross section of the boiler through the grate,

Fig. 3 is a horizontal section of the same boiler through the water and steam container, the Showing circulation device;

Fig. 4 shows a vertical longitudinal section of a boiler with an expanded water tank in the lower boiler;

Fig. 5 is a vertical cross-section of this kettle through the grate,

6 shows a horizontal section through the lower boiler and the tubular chamber,

7 shows an arrangement similar to that shown in FIGS. 1 to 3, but with a double tube system ; ■

FIG. 8 shows the circulation arrangement in the upper boiler for FIGS. 4 and 7.

Construction according to Figs. 1, 2 and 3.

The boiler consists essentially of the upper boilers or water and steam tanks AA ¹ , the chambers B and C, which respectively by means of vertical nozzles D and E. D ¹ E ^{1 are} connected to the upper boilers A and A ¹ , the pipe system F, which is inserted between the chambers B and C, and finally the circulation and water separation device arranged in the upper boilers. The rear tubular chamber C consists of a horizontal cylinder with a flattened front wall G. The latter is inclined so that it is at right angles to the tubes. The front tubular chamber B forms a cylinder that is flattened inwards and outwards (rear and front).

In order to guide the water fed into the boiler as indicated above, the following circulation device is arranged. Close to the front connecting stilts D, but behind this, the transverse walls K ¹ respectively protruding into the steam chamber are in the upper boiler. K ¹¹ inserted. The upper boiler is also in the longitudinal direction by one also projecting into the steam chamber, but not all the way to the transverse wall K ¹ respectively. K ^u reaching longitudinal wall L respectively. L ¹ divided, which at the rear in the first upper boiler A forms a cylinder M open at the top. The same around-

gives the opening of the nozzle E and closes the water space of the upper boiler from the connection with the chamber C. Behind M, the wall L extends to the head of the boiler.

The second upper boiler A ¹ is divided similarly by the longitudinal wall L ^1. Instead of merging into a whole cylinder, however, the wall here is only curved in a semi-cylindrical shape, since the last section of the upper boiler can and should communicate with the nozzle. In order to allow the fresh water to circulate freely and repeatedly after it has once circulated through the boiler, a wide pipe N or N ¹ inserted, which, respectively, from the front part O. O ¹ coming, respectively through the partition K ^1. K ¹¹ through down into the nozzle E respectively. E ' , with N passing through the cylinder M. These tubes now allow the regular circulation of the water in the boiler, which, since the heating tubes fall backwards, naturally takes place in the direction indicated, is independent of the freshly flowing water and becomes weaker or stronger, depending on the intensity of the firing above Grates.

The boilers shown in FIGS. 4 to 8 are based entirely on the same principles built.

The boiler Fig. 4 to 6 differs completely from what has been described above only in that the water pipes are shortened, the rear tubular chamber is placed in the heating channel and that the cylindrical long boilers P and P ^{1 are} attached to them. In the boiler illustrated by FIG. 7, the rear long boilers have been replaced by a second tube bundle V.

Claims (1)

Patent claim: In order to avoid immediate mixing of the water freshly fed into tubular kettles with that which has already circulated in it, and for the purpose of such an inevitable circulation regulated by the steam consumption that a mixture of the freshly fed water into the kettle with that already in it can only take place after the former has discontinued the scale formers and made a full cycle through the boiler: the arrangement of the transverse partitions KK ¹ , the longitudinal partitions LL ¹ , with the cylinder elements MM ¹ and the overflow pipes NN ^1, which mediate the communication.