DE43034C - Wing mechanism for conveying the water circulation in steam boilers - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 13: Steam boiler and equipment.

Patented in the German Empire from i. October 1887.

In order to prevent scale formation, rinse the boiler walls before the Scale adheres to them, the device described below has been made, which deserves to be applied preferably where the whole boiler construction is Circulation already favored, that is to say in the boiler tube boilers. The inventor still knows to the fact that by increasing the circulation in a corresponding measure one can increase the output of the boiler can increase. Since the water then far more completely absorbs the heat from the walls dissipates, the highest degrees of heat and even jet flames are harmless with regard to the maintenance of the boiler, with regard to their rational use but recommended in places if it is e.g. B. It is a matter of utilizing the furnace gases from the smelting works, which are moved by fans, or if for whatever reason instead of chimneys or suction fans Under-wind blowers are to be used.

Fig. Ι to 8 represent the device in different Arrangements.

Fig. Ι and 6 show a smaller simple one Boiler the connection of the apparatus with a boiler pipe system made of bent tubes, intended for pure, sludge-free Water. The boiler pipe ends are tangentially connected to the cylindrical apparatus on both sides, in which the water is above the pipe connection. With the rotation of the eccentrically mounted wing in the sense of the arrows, Fig. 6, the water flows through the boiler pipes lying in the fire in order to separate of the steam to circulate further in the housing.

If the wing shaft is extended, the wing can be driven by stepped disks happen from the outside; however, in many cases it is preferable to use the mostly unused one to utilize the high pressure of the boiler by passing the steam through a turbine wheel or a screw can exit, whereby the screw can be wedged directly onto the shaft extension, or is connected to the vane shaft by means of a transmission (toothed or screwed wheel).

Fig. Ι shows the suggestion of a screw in the nozzle at the upper end of the housing. The latter is only close to the screw at the outlet opening and is below it Ribbed and grooved area around what is still ejected by the snail Let the water run off.

2 and 3 and the doubling of this system, FIGS. 4 and 5, differ from FIGS . 1 and 6 in that the inlet and outlet openings 0 and p, FIGS. 1 and 6, lie in different horizontal planes, and the openings 0 are deeper than the openings p. In this way the circulation is considerably supported, so that the effort required to move the wing is less; but then there is enough space for gradual

Divorce from Kesselstein. For this purpose, the housing has a pocket-like bulge provided, in which the specifically heavier ones and therefore soon around the circumference of the case the circulating sludge and settle down until they are blown off. Such Bulges are shown in cross section in FIGS. 3 and 4 and in a similar arrangement in FIG. 7 recognizable.

These housings, to which a boiler tube system is tangentially connected, can as well as forming a boiler for itself, as well as in many ways with it other kettle shapes can be combined. First of all, the connection is particularly emphasized of a cylindrical vessel with the housing through tangential nozzles. Here the heated in the boiler tubes circulates Water, and under certain circumstances also the steam mixture, in the large space and enables that the advantage of the large container is combined with that of the rapid formation of steam in the boiler. The cylinder boiler can be located directly next to the device (in the fire) or apart (well covered). Another combination is that with a so-called Alban kettle with Field's Tubes. As is well known, it is possible to insert obliquely positioned field tubes directly into the To set fire while the circulation in them with less intense heat radiation, so at some distance from the rust, a sufficient one is. Hence it is advisable either the lower Field's tubes with their free ends tangential to a circulating apparatus to be connected or an at least two-tier system under the Albanian water tank to be attached by special boiler pipes connected tangentially to a circulating apparatus, which can be connected by a slightly inclined manifold. From this pipe you can lead off two nozzles, one of which one with the steam collector, the other with the lower part of the Alban boiler connect and feed the latter.

In order to enable the boiler tubes, which are permanently fixed on one side, regardless of whether they are part of an Alb or belong to another boiler system, a tangential connection to a horizontal circulating apparatus, Figs and 10 pipe connections shown. It is α a boiling tube end which is provided with stand thread. b is a piece of pipe immovably fastened to the circulating housing by threading or rolling, d is a stuffing box-like muff with an internal thread, corresponding to the external thread of the boiler pipe, which has a number of teeth on the circumference, Fig. 9.

The latter are used to tighten the muff by a chain with corresponding chain links that is placed around the relevant, possibly leaking pipe. The muff is sealed in Fig. 9 by a few alternately arranged rings made of steel g and a soft lead antimony composition e, in Fig. 10 by a hemp or asbestos wrapping h in conjunction with a rubber ring i and a helically wound lead composition strip e.

In most cases it is sufficient to clean the boiler with pure water feeding, the wings are cold, rotating at sufficient speed.

In many cases of operation, there is neither a special external drive to drive the wing mechanism An internal steam screw or turbine is necessary. The aspiration to leave of the heated mixture, combined with a suitable size of the free cross-sections the pipes leading out of the housing and into it and the dimensions of the wing are intended to ensure that only As a result of the heating of the water in the pipes, the wings of the housing rotate vehemently and more water enters the boiler pipes throw than would occur without the use of the wing mechanism.

To compensate for this effect, the wing waves are used when using several devices connect through transmissions and lead upwards for this purpose, Figs. 2 and 4.

Claims (1)

Patent Claims: i. A capsule mechanism, consisting of a rotating wing mechanism and one of the same surrounding housing, which in the way with the boiler tube bundle of a steam boiler connected, that there is a tangential connection of the boiler pipes with that traversed by the wing mechanism Creates space for the purpose of: a) to increase the circulation in the boiler tubes, the deposition of scale and to combat the lingering of the steam build-up on the pipe walls, the latter rather, to rinse continuously and to keep it thermally conductive, b) the steadily generated mixture of steam, water and sludge steadily into the capsule housing, where the rotation separates steam, water and solid residues is conveyed under the influence of centrifugal force, the sludge is collected on the circumference of the housing can be and the steam after | 3. Using the high pressure of the above rises.
The use of the same lengthened wing mechanism mentioned under 1. or a second wing mechanism moved by the same force in the steam room to eject the water from the steam. Tubular boiler, in order to act as a result of its pressure effect when the steam emerges a rotating worm or helical wing provides the driving force for the wing mechanism mentioned under 1. and 2. deliver. For this purpose ι sheet of drawings.