DE392885C - Ship's boiler with a bundle of water pipes lying at an angle between two water chambers - Google Patents

Description

Ship's boiler with a bundle of water pipes lying at an angle between two water chambers. rie invention is aimed at ship boilers with diagonally between two water chambers lying bundle of water, the bundle passing through a combustion chamber, in where the superheater is arranged, is separated into two parts. Lie invention indicates: -, I mainly by the fact that baffle plates carry the heating gases below on the middle part of the lower bundle of ribbons, on the sides of this bundle at the top let out into the combustion chamber, whereupon the heating gases in the middle Reach part of the upper bundle and leave the bundle at the top to the side.

The invention is illustrated by way of example in the drawing; Fig. z shows a vertical cross-section through the entire boiler system between the water chambers at the ends of the kettle, Fig. 2 one running from front to back Center section through the entire boiler system. reä kettle rests on a pedestal x and is located above a grate 2 of conventional design. The cauldron itself consists of two continuous water chambers 3 and 4 on the front and back, which are connected by straight water pipes 5. The water pipes have about one Inclination of 18 ° to the horizontal plane.

The steam and water space 6 is through Rohi-sLücke 7 with the front Chamber 3 and connected to the rear chamber 4 by circulation pipes 8. The tubes 8 are arranged in two levels and enter the space 6 above and below its horizontal diameter, while at the rear end open into the water chamber 4 like the other water pipes.

Opposite each water pipe 5 are in the outer wall of the water chamber 3 hand holes provided, the edges of which are slightly conical and conical Plug 9 can be closed with the aid of nuts ii.

The water pipes every other row are so close together that the speed of the gases of fire in the passage between them is high and only few baffles are required. It should be emphasized that the individual streams of the hot gases after their passage between the closely spaced rows of water pipes expand and become jumbled before they open the pipes of the next close row hit, because between every two rows close-lying pipes a row of pipes is always arranged with double spacing. As a result, there is a wide gap between the tubes in the row as well still closely spaced against the tubes of the rows, each tube the narrow row directly in the path of the fire gases. This is very important and significantly increases the efficiency of the boiler.

The sheathing includes a layer 21 made of heat-insulating material as well as a layer 22 of refractory masonry, while that part of the jacket, surrounding the fire box, a layer 23 of insulating material and a layer 24 made of refractory masonry.

Approximately in the middle of all the water pipes 5, a space for accommodating a superheater 25 is left open, the pipes of which run at right angles to the water pipes 5. A baffle plate 26 is located below the superheater, while two short baffle plates 27 and 28 are arranged above the superheater at the front and rear. These baffle plates together with the baffle plate 29 above the top layer of the water pipes, which leaves a passage opening free on the front and back, and together with baffle plates 30 directly above the bottom row of pipes guide the hot gases in a winding path through the pipe stack, with the mean flow direction is perpendicular to the direction of all tubes.

An important advantage is the special shape of the baffle plates, which is made so that the gases must touch all parts of the heating surfaces. the applied type of baffle plates leads to the arrangement of the superheater in the described Location. In addition to the superheaters, this arrangement creates empty spaces on both sides, which, as it were, form chambers for a second combustion. In these chambers swirl the fire gases before they sweep over the superheater tubes. This area around the land is of great importance for ship boilers, as space is here for firing is limited. When carbon dioxide gas at higher speed If it does not flow through the pipe stack, no further combustion takes place the gas can flow into a chamber as provided on both sides of the superheater is. If there are no such chambers for post-combustion, then find this takes place in the fox, and the efficiency of the boiler drops. Also ensure these rooms have a uniform temperature of the gases. The gases enter the over heater from two sides, at right angles to its tubes, so that the Obe_fläche the pipes are completely and effectively coated by the gases.

The special arrangement of the water pipes and the baffle plates causes also insofar a better distribution of the fire gases over the heating surface than they are forced to penetrate into the spaces below and above the baffle plates. Between As stated, there is only a cross flow in the narrow water pipes, on the other hand, there is a longitudinal flow mainly only in the wide spaces,

Claims (2)

PATENT CLAIMS: i. Ship boiler with between two water chambers inclined bundle of water tubes passing through a combustion chamber in which the Superheater is arranged, is divided into two parts, characterized in that Impact plates (26, 27, 28, 29, 3o) are arranged in such a way that the heating gases are below enter at the middle part of the lower bundle of tubes, at the top of this Sides exit into the combustion chamber, from this into the middle part of the enter the upper bundle of tubes and leave it at the top at the sides. 2. Ship boiler according to claim i, characterized in that the superheater (25), its tubes at right angles to the water pipes, in the central part of the combustion chamber lies.