DE3347559A1 - Low temperature heating boiler, especially for the medium and large power ranges - Google Patents

Abstract

The low temperature heating boiler is intended for medium and large power ranges and consists of an upper water-conducting housing with a combustion chamber and a lower water-conducting housing beneath which the flue gas header is arranged. The two housings, provided with heat carrier medium connections, are connected together by overflow pipes. The heating gas flue pipes leading from the combustion chamber to the flue gas header run in the overflow pipes. The overflow pipes (13) are connected with their inlet openings (13') to the upper and with their outlet openings (13'') to the lower housing (3). The heat carrier medium feed connection (1) of the boiler, which is of conventional boiler construction steel throughout, is arranged on the lower housing (3), and the heat carrier medium return connection (2) is arranged on the upper water-conducting housing (4), and in fact above the combustion chamber (5) there. The two connections (1,2) are connected by a bypass duct (7) provided with a control member (6). The floor (8) of the horizontally arranged combustion chamber (5) is constructed with a downward inclination with respect to the inlet openings of the heating gas flue pipes (9). <IMAGE>

Description

(14 897)

Low-temperature heating boilers, especially for medium and large output ranges

The invention relates to a low-temperature heating boiler, especially for medium and large Service areas according to the preamble of the main claim.

To save primary energy (oil / gas)? it has long been known to design heating boilers in such a way that that these can be operated with so-called sliding temperature or as a low-temperature boiler. The special measures that have been taken so far to enable such an operating mode, boil down to making the parts exposed to gas largely or as good as resistant to condensation possible to ensure that little or no condensate occurs = such measures range from the enamelling via cast body inserts and the use of stainless steel up to the formation of so-called double-shell Heating surfaces. For heating boilers with a smaller output range, the additional expense associated with such measures is justified and This is justifiable, but not without further ado for larger boilers, i.e. boilers for the middle one and large performance range applies,

The invention is accordingly based on the object of providing a heating boiler for the generic determination and in particular to create medium and large performance areas, in which on S. special measures of the type mentioned for condensate safety and the entire boiler with a simple basic concept and temperature control created with the smallest possible volume for the heat transfer medium and also, slightly along its center line can be carried out divided. With a heating boiler, this task is the same as the one at the beginning mentioned type according to the invention solved by what is covered in the characterizing part of the main claim. Advantageous further developments result from the subclaims.

This solution is therefore based on the consideration that is essential to the invention, that quickly around the combustion chamber heat transfer medium not directly from this area up through the boiler flow to withdraw, but to a certain extent to prevent it and an outflow downwards in cocurrent with the To effect heating gases, which is regulated by the bypass line ensures that an excess of relative cold return water directly again without the possibility of cooling of the boiler enters the flow. This makes it possible to keep the entire boiler out of the ordinary To produce boiler plate without the

to have to apply the measures mentioned for the condensate resistance. The prerequisite for this is the somewhat irregular arrangement of the flow and return connections and the arrangement of the mouths of the overflow pipes on the upper housing and their mouths on the lower housing. . ^:

The boiler of the type mentioned is a boiler according to US Pat. No. 4,271,789, which however, it is being pursued with the opposite direction, namely a so-called ". ' Condensing boiler or condensate boiler, that is, with this boiler everything is based on it, the heating gases like that cool down as much as possible and allow condensate to accumulate. For reasons provided there Management of the heat transfer medium, namely from bottom to top and the resulting special This known boiler is therefore not used for cooling the heat transfer surfaces Appropriate solution to the task at hand.

Since in the solution according to the invention only the relatively cold return water at the top over the The combustion chamber is initiated, this can immediately spread over the hottest area of the boiler, warm up and then basically illegally down into the jackets of the double pipes stream. The water is then definitely already

considerably warmed up, since it can be assumed that already in the upper case about 60% of the Burner generated heat is absorbed.

It is essential that in the area of the heating gas pipe connections to the horizontal combustion chamber the combustion chamber floor in relation to the outlets the pipes are inclined so that no steam bubbles form on the water side in this area, which is subject to high thermal loads, and the heated Water can run off on the sloping surfaces.

The same applies to the ceiling of the flue gas collection chamber, But this solely for the reason that overflow pipes and heating gas supply pipes are cheap can connect to the relevant housing plates.

The condition of a course of the corresponding area inclined towards each Heizgaszugmündung the combustion chamber wall can of course also be fulfilled by a cylindrical combustion chamber wall, which is more advantageous but is a planar, flat V-shaped downward, inclined design of this Area, as the pipes are easier to connect, which then through the incline connection from the lower Housing run converging to the upper housing.

It is also essential for the design according to the invention, and in this respect also different from the previously known condensate boiler, that the combustion chamber is arranged with its longitudinal axis horizontally, as this enables the return water to be supplied from above and largely evenly flowing around it downwards and with respect to the ' combustion chamber cross-sectional area larger connection surface for the heating gas supply pipes is available.

In known boilers with forced draft burners, the rearmost ones, i.e. the flue gas collecting chambers, are always next Areas of the hot gas flues endangered by dew point corrosion »In the case of the Training is the water that is in the spaces between the heating gas supply pipes and overflow pipes flows downwards, heated up more and more when it flows downwards.

The fact that a bypass line is present between the flow and return connection of the boiler, which with a control member, for example. In the form of a rotary cap, a pump with variable so adjustable power od. The like. Is provided, which by a Heat sensor, located in the lower area at the end of the hot gas flues, is controlled, you can use the Boiler temperature in the lower, critical range

infinitely variable adjustment to a certain setpoint value. D.niii t can before br-ΐ lhnf t on a rjon:; t usual Return admixture, which would have to be connected upstream of the boiler, can be completely dispensed with. It only so much heating return water will flow through the boiler that it reaches a certain the set minimum temperature is heated. The so far "too much" of return water is about the Bypass line routed directly into the boiler flow line.

This concept also makes it possible to avoid dew point corrosion without additional equipment to equip the boiler in the hot gas flues with a two-stage burner or burner with modulating control. When the burner is at low Fuel throughput is running, then the throttle valve in the bypass line is adjusted accordingly, so that the boiler water does not assume a temperature that is too low and the combustion gases or heating gases on can condense to cool boiler walls.

By regulating the boiler water temperature, even with different loads, i.e. with different Fuel throughput avoided too much cooling of the boiler and thus also a Too much cooling of the heating gases.

BATH ORIGINAL

In order not to let the length of the overflow and hot gas pipes become too long, and so that the boiler height can still be accommodated in boiler rooms of normal height , are pipes preferably used for the hot gas pipes _? which have helically twisted walls. Such pipes are known per se.

Advantageously, the overflow pipes with the heating gas supply pipes can expediently while maintaining the perpendicular connection to the relevant housing or chamber walls with respect to the central one Boiler verticals are curved, which is particularly important when using Heizgaszugrohren with twisted walls to a stronger turbulence or rearrangement of the hot gases flowing through leads.

Due to the horizontal arrangement of the combustion chamber there is also the possibility of the horizontal combustion chamber to be equipped with burners on both sides and if necessary in the middle. to arrange a partition and besides, one can, only through appropriate Extension of the two housings while maintaining the height and width dimensions of the whole Boiler in output adjustment easily a larger number of overflow and hot gas draft pipes provide.

The heating boiler according to the invention is illustrated below with reference to the graphic representation of Embodiments explained in more detail.

It shows

1 shows a cross section through the heating boiler;

2 shows a longitudinal section through the heating boiler according to FIGS

3 shows a cross section through the heating boiler in a different embodiment.

As can be seen from Fig. 1, 2 , the combustion chamber 5 or the housing 4 receiving it is arranged horizontally, with the return connection 2 located at the highest point of the housing 4, which is arranged via a bypass line 7 with the lower water-carrying housing 3 Flow connection 1 is in communication. With regard to the return line and distribution downwards via the combustion chamber 5, suitable distribution elements or the like can of course be provided within the upper housing 4, depending on the length of the combustion chamber, several connections 2.

In the exemplary embodiment shown, the base is 8 level with the combustion chamber but inclined towards the center, i.e., ^ ach v-shaped directed downwards so that, on the one hand, the heated water in this thermally high area

can flow off and no vapor bubbles can form or catch and on the other hand the heating gas supply pipes 9 can be connected vertically to simple, circular openings in the bottom 8. The same applies to the housing base 12 of the housing

The Heizgaszugrohre 9 have helically twisted walls 9 'and fill the overflow pipes 13 almost completely, which means that despite the reasonable height dimensioning of the entire boiler, a long Heat exchange paths for both the heating gases and the heat transfer medium result, both in cocurrent flow down to the housing 3, which is essential to in the lower, condensate-critical area 14 not to allow a temperature gradient leading to condensation to develop.

The cover plate 11 and the bottom plate 10 of the water collection chamber 15 in the housing 3, under which the RauchgassammeIkammer 16 with a smoke outlet connection 16 'are arranged inclined for the purpose of easy pipe connection.

The whole thing is with a conventional housing jacket 17 with internal, not shown thermal insulation enclosed.

In der Bypaßloituny 7 i:; L a l <ogolot yan G huyvi. in the

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BATH ORIGINAL

Arranged in the form of a rotary flap that can be controlled by a motor by a temperature sensor 18, which at greater heat demand is increasingly in the closed position. The control element 6 can also, as mentioned, be a variable-performance circulation pump.

Since the whole boiler heats up very quickly when the burner 19 is switched on again, namely from up down with extremely low water volume of the entire boiler with also very "Warm front" of the heat transfer medium advancing rapidly downwards, also falls in the otherwise critical one Area 14 of the tubes 9 does not show any condensate, which can therefore never cool down to a critical extent.

In addition, an uncooled bypass line with a relatively large cross-section could easily be used with closure flap from the combustion chamber 5 to the smoke outlet 16 'lead, which remains open until the "warm front" of the heat transfer medium has reached critical area 14.

All dashed lines in Fig. 2 illustrate the possibility of arranging two burners 19 on both sides of the combustion chamber 5, which then extends through the housing 4, in which it is then expedient a suitable partition 20 is arranged.

The embodiment like, Fig, 3 clarifies the possible curve of the overflow pipes 13 and the Heizgaszugrohre 9, which not only to leads to a stronger turbulence of the hot gases in the bend area, but also a stronger one The bottom of the combustion chamber can be angled without the boiler becoming wider in the lower area must as the upper housing 4 "i.e." the course the tubes 13 remain in the vertical projection of the two housings 3, 4.

Since the whole boiler, as can be seen above, is absolutely symmetrical, it is also very easy to add the To divide the boiler in relation to its longitudinal center plane and to set the two half blocks I, II against each other. The water-bearing rooms must be closed, and the abutting surfaces of the assembled Blocks I, II must be sealed in a suitable manner. The merging of the and returns is problem-free, because without further ado. pipe connections can be provided on the housings or in the cable runs (see Pig. 4.5).

A cross-division would also be analogous, without affecting the function of the boiler of the boiler possible.

Claims (1)

(14 897) Patents O O / 7 CC q ΟΙρΙ, Ιης. / Claims: ^{JO4 / JJd} Dip:, ir. _c . At the MeIm 6450Ha 1. Low temperature boilers, especially for medium and large power ranges, consisting of an upper water-bearing housing with Combustion chamber and a lower water-bearing housing, under which the flue gas collection chamber is arranged is, the two with heat transfer medium connections provided housing connected to each other by overflow pipes and in the overflow pipes to the flue gas collection chamber leading Heizgaszugrohre are arranged, characterized in that the overflow pipes (13) with their openings (13 ') to the upper housing (4) and with their openings (13 ") are connected to the lower housing (3) that the heat transfer medium flow connection (1) at the lower (3) and the heat transfer medium return connection (2) on the upper water-bearing housing (4) above the combustion chamber (5) and the two connections (1, 2) with a control element (6) such as a rotary valve, pump with variable power or the like provided bypass line (7) are connected and that the bottom (8) the horizontally arranged combustion chamber (5) with respect to the junctions of the heating gas supply pipes (9) is designed to be inclined downward. 'λ. Kciäfsol ii.ich Arifj [jt uch 1, characterized in that the heating gas supply pipes (9) are designed as pipes with walls (9 ¹ ) twisted in a helical manner. 3. Boiler according to claim 1 and / or 2, characterized in that the bottom (8) of the combustion chamber (5) is formed from two surfaces inclined downwards towards the center and the Heizgaszugrohre (9) perpendicular to the bottom (8) of the combustion chamber (5) at corresponding openings are connected in the areas. 4. Boiler according to claim 3, characterized in that the bottom (12) of the upper housing (4) is arranged to run parallel to the bottom (8) of the combustion chamber (5). 5. Boiler according to claim 3 and / or 4, characterized in that the bottom and the cover plate (10, 11) of the flue gas collecting chamber (16) according to the inclination of the combustion chamber base (8) and the upper housing base (12) are arranged inclined. 6. Boiler according to one of claims 1 to 5, characterized in that BATH ORIGINAL the overflow pipes (13) and the heating gas supply pipes (9) arranged in them in at least two adjacent rows are arranged one behind the other. 7. Boiler according to one of claims 1 to 6, characterized in that the combustion chamber (5) with a bypass line provided with an adjustable locking element with the Flue gas outlet (16 ") is connected. 8. Boiler according to one of claims 1 to 7, characterized in that the combustion chamber (5) extending through the upper housing (4) on both sides with burners (19) and with a central partition (20) is provided. 9. Boiler according to one of claims 1 to 8, characterized in that the overflow pipes (13) and the heating gas supply pipes. (9) are curved with respect to the vertical. 10. Boiler according to claim 9, characterized in that that the overflow pipes (13) remain with their bends within the vertical projections of the two housings are arranged. 11. Kar.r.nl nuch oinem dor claims 1 to 10, characterized in that the upper and lower housing (4, 3) and the overflow pipes (13) with the heating gas supply pipes (9) are arranged symmetrically to the boiler vertical (21). 12. Boiler according to one of claims 1 to 11, characterized in that all boiler components, namely housing (3, 4), combustion chamber (5), overflow pipes (13) with heating gas supply pipes (9) and bypass line (7) are formed from conventional boiler sheet. 13. Boiler according to one of claims 1 to 12, characterized in that the G-ehäuses (3, 4) along their center plane (21) in two symmetrical, mutually adjustable Blocks (I, II) designed divided and the media connections to the housings (3, 4) in the form of Y-pipe connections (22) are trained.