HU201600B - Solid- or mixed-fired hot-water boiler of continuous combustion - Google Patents

Abstract

Field of the Invention The present invention relates to a solid or mixed fired continuous combustion stationary hot water plate boiler, a water barrier enclosure, a vertical haystack, a piston air duct connected to the haystack 5, a fire chamber connected to the bottom of the haystack, and a dewatering channel directly connecting the upper part of the coal shaft to the furnace. the water space above the fire chamber and adjacent to the haystack, connected to the water pit, as well as flue gas pipes penetrating the water space. It is an object of the invention that the auxiliary air channel (22) is mounted on the outer boundary wall (2) of the side 15 of the boiler with a regulating door (21) adjacent to the boiler shaft (5) and in one of the extreme thirds of this side of the boiler from the lower region of the boiler. the upper end of the coal shaft (5) is vertically extending as a hollow section, the upper end of which is connected to the upper part of the coal shaft (5) through a pipe section (23) passing through the water jacket (1), while the suction channel (24 is a haystack) (5) with a water space (11, on its adjacent inner wall, with an outlet diagonally opposed to the pipe section (23) in the carbon sink (5)), which is provided with a longitudinally extending longitudinal slot (Figure 1). Scope: 5 pages, 3 drawings, Figure 3 -1-

Description

(57) EXTRAS

FIELD OF THE INVENTION The present invention relates to solid or mixed fired, continuous combustion, stationary hot water plate boilers, water jacket receiving baffles, vertical carbon shaft, spout air channel connected to carbon shaft 5, firebox connected to the bottom of the carbon shaft, needle barrel, above, and adjacent to the water well which is connected to the water penny and the flue gas pipes passing through the water well.

It is an object of the invention that the auxiliary air channel (22) is mounted on the outer boundary wall (2) of the side 15 of the boiler with a draft control door (21) adjacent to the coal shaft (5) and extending from the lower region of the boiler is formed as a vertical section extending vertically up to the height of the upper region of the carbon shaft (5), the upper end of which is connected to the upper part of the carbon shaft (5) through a pipe section (23) passing through the water jacket ) is formed on the inner wall adjacent to the water space (11) in the outermost third of the pipe section (23) extending diagonally into the coal shaft (5) and extending along a longitudinal slot. (Figure 1)

EN 201600 Description of the .4 description: 5 pages, .1 drawing, 3 figures

HU 201600 A

FIELD OF THE INVENTION The present invention relates to a solid or mixed fuel, continuous combustion, stationary welded hot water plate boiler, a vertical carbon shaft with a water jacket receiving double baffles, a carbon baffle door and / or burner support, auxiliary air channel, with a fire chamber, a fire door opening to the fire chamber, a suction duct directly connecting the upper part of the coal pit with the fire chamber, a water space connected to the pebble above and adjacent to the coal pit, and a flue gas pipe I would end up in a connected flue gas chamber.

No. 187,402. A so-called two-shaft continuous-combustion solid-water hot-plate boiler is known from the Hungarian patent, whereby in a coal mine it is possible to burn flammable gases released from the glowing coal through a draft through the draft control door at the bottom of the boiler and through the water jacket. With this solution, good results can be obtained as long as no very dusty carbon is added to the shaft or the added carbon is disintegrated, that is, becomes powder. In this case, due to the tightness of the coal powder, the combustible gases generated in the upper part of the coal shaft cannot be sucked and burned through the carbon layer, which both reduces the efficiency of the combustion and on opening the coal shaft into the air space of the boiler. in fact, where appropriate, they pose a special risk to the air in the room.

To solve this problem, it has been proposed that a vertical pipe, i.e. a suction channel, should be installed through the water space along the coal shaft, the upper end of which runs into the upper third of the coal shaft and the lower end into the firebox.

While this solution allows the flue gases to be transferred to the combustion chamber bypassing the dusty or charred carbon layer, practice has shown that due to the fact that the auxiliary air is in the middle of the top of the coal pit, it is perpendicular to the gas the suction channel also extends parallel to the central axis of the coal shaft, the crossover is formed only in a quarter of the upper part of the coal shaft, which causes the suction channel built into the water space to clog, and to clean due to its difficult accessibility. A further disadvantage of this known solution is that the auxiliary air duct leads to multiple rectangular fractures into the coal shaft and is independent of the opening or closing of the draft control door. When opening the draft control door, the flow of supplemental air (secondary air) into the coal mine is minimized, especially for burnt or dusty coal, since the incoming air naturally chooses a shorter path and flows to the top of the coal mine.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome these drawbacks and to provide a continuous combustion hot water plate boiler that operates at maximum efficiency even in dusty or aggregated coal, utilizes combustible gases from coal mines completely, is easy to clean, convertible.

The object of the present invention is to provide an auxiliary air duct mounted on the outer boundary wall of the boiler side of the boiler with a draft control door and extending from the lower part of the boiler and vertically up to the height of the upper part of the coal shaft is formed as a rectangular section, the upper end of which is connected to the upper part of the coal shaft through a pipe section passing through the jacket, while the suction channel is perpendicular to the outer wall of is equipped.

In order to reduce the temperature of the flue gas discharged and thereby increase the efficiency of the boiler, it is advisable to incorporate spiral wound screws in the flue pipes which are inclined through the water space.

According to the invention, it is also advantageous for the flue gas pipes in the water space to be encircled by a coil connected to the water circuit of this hot water source to relieve an external hot water source, such as an electric boiler.

Finally, in order to provide the possibility of mixed combustion, it is desirable to provide a boiler according to the invention in which a gas or oil burner is mounted on the burner support above the coal shaft, below which a flame deflector is arranged in the upper third of the coal shaft.

The invention will be explained in more detail in connection with an exemplary embodiment, based on the accompanying drawing.

Figure 1 is a vertical sectional view of a hot water boiler suitable for mixed firing according to the invention,

Fig. 2 is a side view of the plate boiler of Fig. 1 rotated 90 ", partly in section, while Fig. 3 is a horizontal cross-sectional view of the plate boiler of Fig. 1 in line A-A.

As shown in the figures, the continuous combustion hot water plate boiler according to the invention has a standing arrangement, which has two limiting walls 2 receiving a lime scale. On one side of the internal part of the boiler surrounded by a water jacket 1 is formed a vertical carbon shaft δ with a carbon pouring door 3 and a burner support stub 4, to the bottom of which is connected a fire wire 7 with a movable grate 6. Access to the firebox 7 is provided by a fire door 8, while a slag door 9 opens into the slag space below the mobile grate 6. Above the fire door 8 there is preferably a smoky door 10. Above the firebox 7 and adjacent to the coal mine δ, a water space 11 is formed which communicates with the jacket space 1 through which the flue gas pipes 12 are inclined, preferably at an angle of 20 °, to a flue gas 14 formed on the top of the boiler . The flue pipes 12 are provided with flue deflectors 15 which slow down the exit of the flue gases and thereby increase their heat output. Around the flue pipes 12 there is provided a baffle 18 with an inlet 16 and an outlet 17 in the water space 11, which may be connected to the water circuit of an external hot water source such as an electric boiler. The inlet nozzle 19 of the water jacket 1 and the water space 11, i.e. the inlet nozzle for returning hot water at the bottom of the boiler, is formed at the top of the boiler.

The main novel feature of the boiler according to the invention is that the auxiliary air passage on the outside of the boiler with a draft control door 21 adjacent to the coal pit 5, in one of its outermost thirds through the pipe section 23 which connects with the uppermost space of the coal shaft 5 and perpendicular to the water jacket 1, it enters the upper part of the carbon shaft 5 into the upper space of the inner side A vertical suction passage 24 is provided with a combustion chamber 7 and is provided with a continuous longitudinal slot 25. The suction passage 24 is most easily formed from two angled angles which are welded to the inner wall of the carbon shaft 5. An important feature of the solution is also the arrangement shown in FIG. 3, in which the pipe section 23 connected to the auxiliary air duct 4 extends transversely to the upper space of the coal shaft 5, perpendicular to the suction duct 24.

If the boiler according to the invention is to be operated with a gas or oil burner, the burner may be mounted on the burner support nozzle 4 formed on the top of the boiler above the coal shaft 5. In this case, it is desirable to install a flame deflector 26 in the upper third of the coal shaft 5 below the burner support stub in order to eliminate the harmful effects of the fireball.

The plate boiler according to the invention is operated as follows:

Through the carbon pouring door 3, the amount of carbon needed for combustion is filled into the coal shaft 5 and the paper, lighter or fine wood for ignition is placed on the moving grate 6. The fire is lit through the fire door 8. The auxiliary air required for combustion enters the coal shaft 5 through the auxiliary air channel 22 and the pipe section 23. If the coal is not dusty, the air thus enters through the coal layer into the combustion chamber 7, where it facilitates the combustion of fuel. The resulting flue gases are discharged through the oblique flue gas ducts 12 to the flue gas chamber 14 and to the chimney 13, releasing their heat to the water space 11. Intensified heat dissipation of the flue gas ducts 12 is facilitated by the plate spirals 15 incorporated therein, which prevent the rapid escape of high-temperature flue gases. By repeatedly twisting the disc spiral 15, the path of the flue gases can be extended, thereby reducing the temperature of the flue gases (250 to 300 ° C) as desired.

To provide cheap domestic hot water or to relieve an external source of hot water, such as an electric boiler, the helix 18 is located in the water space 11 and can be connected to the water circuit of this hot water source or to the domestic water network through an expansion valve.

If the added carbon is very dusty, or has already been scattered or converged on the grate, the draft will no longer be able to suck the gases released from this carbon layer into the firebox 7 through this carbon layer. In this case, the gases from the upper part of the coal shaft 5 pass through the suction duct 24 into the combustion chamber 7, which ensures a constant free flow of the gases throughout the height of the carbon shaft 5 due to the through slot 25. The thus formed suction duct 24 can also be easily cleaned through the slot 25 by means of a suitable structure introduced through the carbon inlet door 3.

The efficiency of pulling the weeds from the coal shaft 5 to the combustion chamber 7 is also enhanced by the fact that the supply air supply and the suction duct 24 are arranged diagonally on the opposite side, which provides a complete crossover in the upper region of the carbon shaft 5.

-4δ

HU 201600 A

Thus, the above measures can significantly increase the combustion efficiency of linseed boilers, while minimizing air pollution and economical production of hot water. 5

PATENT CLAIMS

Claims (4)

1. Solid carbon or mixed fuel, continuous combustion hot water plate boiler, upright carbon shaft with double jacket receiving walls, carbon inlet door and / or burner support stub, auxiliary air channel, bottom edge, with a limited fire compartment, a fire door opening to the fire compartment, a suction duct directly connecting the upper part of the coal pit to the fire compartment, a water jacket formed above the firebox and adjacent to the coal pit, and upper flue gas pipes preferably inclined through the water compartment, , flowing into a chimney flue connected to a chimney, characterized in that the auxiliary air duct (22) is located on the outer boundary wall (2) of the side of the boiler with a draft control door (21) beside the coal shaft (5). relay and at one third of this side of the boiler is formed as a barrier section extending vertically from the lower region of the boiler and extending vertically up to the height of the upper region of the coal shaft, the upper end of which extends over the upper section of the coal shaft while the suction channel (24) is formed as a vertically extending conduit extending across the inner wall of the coal shaft (5) transverse to the water space (11) and extending diagonally across the outer portion of the carbon shaft (5) through the pipe section (23). provided with a longitudinal slot (25). The hot-water polycarbonate boiler according to claim 1, characterized in that plate spirals (15) are wound into the flue gas pipes (12) which are inclined through the water space 45 (11). Hot water plate boiler according to claim 1 or 2, characterized in that in the water space (11) the flue gas pipes (12) are surrounded by a spiral (18) which can be connected to the water circuit of an external hot water source. 4. A hot water plate boiler according to any one of claims 1 to 5, characterized in that a gas or oil burner is mounted on the burner support nozzle (4) on the top of the boiler, above which a flame deflector (26) is arranged. . 60 Published by the National Office for Inventions, Budapest Responsible: dr. Gabriella Swoboda Head of Department R 4970 - KJK 91.3523.66-13-2 Alföldi Nyomda Debrecen - Chief Executive Officer: Viktor Szabó Chief Executive Officer -5HL '20] 600 A Int Cl ⁵ F 23 C 6/04 Episode 1 -6EN 201600 A Int Cl ⁵ F 23 C 6/04 -7HU 201600 A Int Cl ⁵ F 23 C 6/04