DE2517733C3 - Boiler section for a section boiler - Google Patents

Description

The invention relates to a boiler section for a sectional boiler according to the preamble of Claim 1 and to a sectional boiler made from such boiler sections.

In the known articulated pickling boilers with a fan burner arranged on an end wall Each individual boiler section has a water channel that completely encompasses the combustion chamber. The flames and the heating gases can dissipate their heat to the surrounding area at the entire boundary of the combustion chamber Drain the boiler water. The hot gases then get into the hot gas flue, where they pass through more Heat transfer can be cooled down to the desired outlet temperature.

In the case of sectional boilers for atmospheric gas burners, the lower water channel is in most cases unavailable. The boiler sections then only form the upper limit of the combustion chamber and the subsequent ones Heating gas flue. Heat transfer to the boiler water only takes place in these areas.

From DE-OS 19 01 714 a sectional boiler for atmospheric gas burners is known in which the The lower water channel of the individual boiler sections is only partially interrupted. The one vertical part of the The water channel leads to a lower water hub, while the other vertical part is only a short one Nozzle is present. The entire lower part and a vertical part of the water channel are not available.

The application is based on the task of a boiler section with a partially interrupted water channel to create that both for the formation of a closed combustion chamber for a sectional boiler with a fan burner as well as to form an open combustion chamber for a sectional boiler with atmospheric Gas burners can be used.

The object is achieved according to the invention in that the uninterrupted part of the Water channel is connected to a lower arranged on the central axis water hub

To produce a boiler for a forced draft burner, adjacent boiler sections can each be turned by 180 °

is turned around its central axis and assigned to each other will. Water channels with openings alternate on both combustion chamber walls, with the Openings can be easily closed.

The openings can be closed without further ado in that the uninterrupted part of the water channel of each boiler section is almost twice as wide as the other parts of the section. The widened water channel then engages on both sides in the openings of the adjacent boiler sections and covers this. The heat exchange surface is therefore not reduced compared to the known boilers.

The alternating openings in the combustion chamber can also be created by raised sealing strips covered on both sides on the uninterrupted part of the water channel of each Boiler sections are arranged and extend to the middle of the adjacent boiler sections. By conduction the raised sealing strips contribute to good heat exchange. In places they carry out Heating to a slightly higher combustion chamber temperature and therefore a better one Burnout of hard-to-burn parts.

Both the widened water channels and the raised sealing strips to cover the normally The resulting openings in the combustion chamber can easily be made in the foundry will. It is of course also possible not to make any widening and the resulting openings to be closed by separate cover strips.

The boilers of the type described are particularly suitable for the use of atmospheric Gas burners. Individual links are used without widening the water channels. The burner tubes can be from one or both side walls

can be inserted through the existing openings. Because the openings on the opposite Walls are offset, in the second case they mesh like a comb.

In addition to the possibility of universal use of the boiler section, there is a particular advantage that a boiler section to form a closed combustion chamber as a result of the interrupted water channel can be produced very cost-effectively in the foundry. It is possible to nest two models one inside the other and to significantly increase the capacity of a molding line. Runs and cuts of the Injection systems can also be led to the inner boundary walls of the combustion chamber, which ensures that the mold is filled evenly. Thermal stress in the boiler sections are avoided, and at the same time a high elasticity is achieved.

The drawings represent exemplary embodiments of the

Invention. It shows

F i g. 1 two boiler sections for boilers with forced draft burners in the front view

Fig.2 to Fig.4 are a side view of some assembled Boiler sections with different combustion chamber seals,

F i g. 5 sow a horizontal section AA F i g. 2,
F i g. 6 shows a horizontal section BB according to FIG. 3,
F i g. 7 shows a horizontal section C-C according to FIG. 4,
Fig. 8 two boiler sections for boilers with atmospheric gas burners in the front view,

F i g. 9 a «; Side view of some joined boiler sections without a combustion chamber seal
F i g. 10 a horizontal section D-D according to FIG. 9.
The boiler sections consist of upper water pockets 1 to form a heating gas flue and a lower water channel 2 to form a combustion chamber 3. The water-side connection is through the upper water hub 4 and the lower water hub 5, both of which lie on the central axis of the boiler section. The water channel 2 is interrupted in the area of a vertical delimiting wall of the combustion chamber 3, so that the remaining part of the water channel branches off from the lower water hub 5

According to FIG. 1 and F i g. 8 adjacent boiler sections are each 180 ° around their vertical Turning the central axis and aligning it with each other. In this way, a boiler body is created, which is closed in the front and rear area by known end links. A seal between the boiler sections takes place in a known manner by circumferential sealing strips 6.

ίο For sealing the areas where the water channel is interrupted, are according to F i g. 5, the water channels 2 of the neighboring links designed wider accordingly. According to Figure 6, the seal is made by raised sealing strips 6 on the neighboring links. Usually an intermediate stage between the extreme exemplary embodiments shown is recommended. To F i g. 7, the openings are closed by subsequently attached cover strips 7.

In the case of boilers with atmospheric gas burners, the openings 8 remain open as shown in FIGS. 9 and 10 is shown. The burner tubes 9 are pushed through the openings 8.

For this purpose 3 sheets of drawings

Claims (7)

Claims: 23 17 733 1st element for a sectional boiler, consisting from upper water pockets to form a heating gas flue and from a lower one, a combustion chamber forming water channel interrupted in the area of a vertical boundary wall is, characterized in that the uninterrupted part of the water channel (2) with a is connected to the lower water hub (5) arranged on the central axis 2. From boiler sections according to claim 1 existing sectional boiler, characterized in that the adjacent boiler sections rotated 180 degrees around their vertical central axis are. 3. Glicder boiler according to claim 2 for fan burners, characterized in that the not interrupted part of the water channel (2) almost twice as wide as the other parts of the Boiler section is formed 4. sectional boiler according to claim 2 for fan burners, characterized in that the not has interrupted part of the water channel (2) on both sides raised sealing strips (6) 5. sectional boiler according to claim 2 for fan burners, characterized in that the interrupted areas of the lower water channels (2) cover strips (7) are arranged. 6. sectional boiler according to claim 2 for atmospheric gas burners, characterized that in the openings (8) of the side walls of the combustion chamber (3) burner tubes (9) are arranged. 7. sectional boiler according to claim 6, characterized in that the burner tubes (8) in the Burner chamber (3) are arranged like a comb.