DE1604090A1 - boiler - Google Patents

Description

»A7INTANWAU · MINCHIM, 8.5.1969 / Μ

DR * WIiHIlM HASSI

· Ι »ΙΟΜΙΝ · ΙΜΙΙ * ·

Ignis S.A., 6, route neuve Friborg (Switzerland)

boiler

The present invention "relates to a boiler operated with the reversal of the combustion gases in the combustion chamber, in which the entry point of the flue gases into the flue gas outlet is at the front in the area of the burner.

Iraxis has shown that in the case of boilers operated with overpressure, very high output, the return of the combustion gases into the flame, as described for example in Switzerland, latent 255 55 ^, is no longer satisfactorily guaranteed .

The present invention aims to take this into account. It is distinguished by the fact that in the front part of the boiler a disk-shaped one which is shaped to correspond to the cross section of the combustion chamber and has an opening for receiving the burner tube

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Damming insert is provided, the damming head part of which protrudes so far into the furnace that it forms a narrowed channel together with the fire pit in front of the entry point of the flue gases into the breath gas vent, bo that the returning gases are dammed and some of these flue gases into the flame area of the burner is diverted.

Through the installation of this water-cooled storage insert, the front part of which protrudes into the combustion chamber, the stowage zone becomes further into the interior of the combustion chamber relocated so that the recirculation of the combustion gases in the flame can be secured. With this measure a symmetrical stowage is achieved in the combustion chamber and also with asymmetrical flue pipe installation a uniform admission of the smoke tubes is achieved.

üin an exemplary embodiment of the subject matter of the invention subsequently explained with reference to figures. It shows:

Fig. 1 is a longitudinal section through a boiler in a schematic representation,

2 shows a front view of the heating boiler according to FIG. 1, FIG. 3 shows a detail from the heating system according to FIG. 1, FIG. 4 shows a front view of a heating boiler with the front face open.

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The boiler shown in Figs. 1 and 2, which is used to generate hot water, has a Firing space 1 delimited by a fire box 2. this Peuererau * 1 is a water room 3 with a front and a rear Abechlußwand 4 and 6 as well an outer dumbbell 8 is arranged. Smoke pipes 5 penetrate the water space 3 tone front to back.

The combustion chamber 1 is arched at the rear Floor 7 completed.

The inflow of water to the water space 3 takes place through a nozzle 11, while the water is removed through a drain nozzle 13. The boiler rests on consoles 15 and 17.

In its front part, i.e. where the burner system is located, the combustion chamber 1 is provided with a fir- " Extension 19 provided, from which, as from the Fi * -. 1 3 and 3, the combustion gases are drawn off through the pipe inlet soff openings 27. The burner system passes through a corresponding opening in the door 9 (not shown) and a connection piece 23 of the insert 21. This space 1 is sealed off in a gas-tight manner by means of a door 9. While previously the combustion gases from the combustion chamber 1 could flow directly into the smoke tube inlet openings 27 after their return, it is now through

009136/0411 ^ßÄD ORIGINAL

Installation of a storage insert 21, which is in communication with the water space 3 by means of through-pipes 25 and is cooled, the storage zone 41 being pushed back into the interior of the furnace, with a singing channel 39 between the storage insert 21 and the confluence with the smoke tubes 5 »ie in the extension 19 * is created. This creates a noticeable pressure gradient between the combustion chamber H and the extension 19 during operation through the stowage element 21, which significantly improves the recirculation of the combustion gases into the flame and thus increases the quality of the combustion of the boiler.

// ie from Fig. ' 3 can be seen, the water flows according to an arrow 35 from the lower part of the water chamber 3 through a through pipe 25 into a water space 29 of the stowage insert 21, which space 29 through a front The front wall 31 and the rear towards the combustion chamber 1 are bounded by a rear wall 33.

The combustion gases pass as indicated by arrow 37 from the front part of the combustion chamber 1 through the Annular channel 39 into the smoke pipe inlet openings 27.

By installing such a stowage insert at large units is also with asymmetrical installation of the smoke tubes 5, for example in steam boilers, the uniform admission of the flue gas pipes is achieved,

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which also contributes significantly to increasing the overall efficiency of such units.

It has been shown that in boilers, in particular steam boilers, which are arranged unevenly around the axis of the furnace Flue pipes, an uneven loading can occur.

As can be seen from Fig. 4, the smoke tubes 5 are dtβ shown steam boiler with respect to the furnace axis 43 unevenly arranged. The lowest water level 50 is shown with a dash-dotted line. If the Storage insert 21 is used coaxially with the furnace axis 43, so the width of the narrowed channel is the entire circumference between the stowage and the fire socket constant. This is for a symmetrical arrangement. tion of the ventpipes expedient. With unbalanced Arrangement, however, must, in order to achieve the same exposure as possible for each smoke tube 5, the cross-section of the gap 56 »i.e. * the gap width 58, im The sense of the distribution of the smoke tubes 5 vary, which is eccentric with respect to the furnace axis 43 arranged stowage insert 21 (is reached with the stowage insert axis. In this way, it is possible accordingly the distribution of the smoke tubes 5 »to achieve a practically even exposure to all smoke tubes, which of course improves the efficiency and thus the operation of the boiler.

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Claims (1)

Claims 1. With the reversal of the combustion agae · la combustion chamber operated boilers, in which the entry point of the flue gases into the breath gas vent is at the front in the area of the burner, characterized in that in the front part of the boiler there is provided a disk-shaped storage insert (21) shaped according to the cross section of the combustion chamber (1) and having an opening (23) for receiving the burner tube, the retaining head part (33) of which into the combustion chamber ( 1) protrudes so that it forms a narrowed channel (39; ^ O) in front of the i) intritcsstelle (27) of the .tauchgase in the breath gas vent (5) together with the fire box (2), so that the returning gases are dammed and some of these breath gases are diverted into the flame area of the burner. ' 2. Boiler according to claim 1 for steam generation, at which the breath pipes are unevenly with respect to the axis of the fire chamber are distributed, (Aft 711 ΜΜί2 Hr.VM »9« M Xndwune «« · «4. ·. 1M7) 009835/0411 BATH characterized in that the clear width (58) of the narrowed channel (56) between the stowage insert (21) and the fire box (2) is variable according to the uneven distribution of the smoke tubes (5) (Fig. 4). 3 boilers according to claim 1 or 2, characterized in that the damming insert (21) is water-cooled and preferably the storage tank (25-29-25) in addition to the water space (3) of the Κ · β · β1β. 4. Hot boiler according to claim 3 » characterized in that the stowage insert, (21) through the supply and discharge pipes (25) is supported to its water space in the boiler. p. Boiler according to one of Claims 1 to 4, characterized in that the stowage insert (21) is expandable is designed bar. c. Heating boiler according to claim 1 or d _y in that the stowage insert (21) is scha mottijrt. 009036/0411 ?. Boiler according to claim 1, characterized in that. devices are provided for maintaining an overpressure in the combustion chamber (1). 0 0 9 8 3 S / 0 411 _BkD Blank page