DE3324920C1 - Chimney - Google Patents

Abstract

The chimney has an outer casing (10) made of concrete blocks, an insulating layer (11) and an inner casing (12) made of chamotte or concrete. A condensate pipe (13), through which the flue gases are conducted upwards, runs inside the inner casing with a radial wall spacing. The condensate is able to descend on the inner wall and on the outer wall of the condensate pipe (13) so as to be collected at the bottom. Since the condensate pipe has no substantial direct contact with the inner casing, the condensate is not conducted into the mineral building materials of the chimney. The pipe parts (131, 132, 133) of the condensate pipe do not need to be sealingly interconnected nor permeable to water vapour. <IMAGE>

Description

In this case, it is useful to separate or separate the inner tube to keep molded spacers at a distance from the inner jacket. When using Spacers should be designed so that they the moisture transfer from the inner tube to the inner jacket. The spacers should expediently made of metal, glazed ceramic or the like. When using separate spacers, which can be used after the assembly of the inner tube, it is possible to use tension wires to be provided, which run inside the chimney over its circumference, and the wear spaced metal bodies that maintain the spacing between Cause inner jacket and inner tube.

As stated, the inner tube does not need to be tight at all. Preferably is the annular space between the inner jacket and the inner tube on the lower and upper Ventilated end. Appropriate openings and leaks ensure that between The inner tube and inner jacket create a generally downward air movement, which is parallel to the desired watercourse movement. An opening at the top of the chimney allows air to flow in from the atmosphere.

According to a preferred embodiment of the invention it is provided that the inner tube has an opening in the region of a smoke tube connection, in the one connecting pipe, the outer cross-section of which is smaller than that of the opening, without Sealing protrudes, and that the passage of the connecting pipe through the inner jacket is sealed.

Furthermore, it is preferably provided that the inner tube in the area an inspection opening passing through the outer jacket and the inner jacket has an opening through which the annular gap between the inner jacket and inner tube is constantly in communication with the interior of the inner tube.

The inner pipe is therefore just as unsealed at the smoke pipe connection as at the inspection openings. These wall leaks in the inner pipe represent a adequate ventilation of the annular gap.

The inner tube is preferably at the lower end through a base stone Completed from barrier concrete, the one drain for the inside and outside of the inner pipe Has draining water. The inner tube is thus - with the exception of any existing ones Spacer - exclusively in connection with the base stone on which it rests and into the the water from the outside and from the inside of the inner tube flows into it.

In the following, with reference to the drawings, exemplary embodiments the invention explained in more detail. It shows F i g. 1 shows a longitudinal section through a Chimney, F i g. 2 shows a cross section through the chimney according to FIG. 1, F. i g. 3 shows a longitudinal section through the area of the chimney in which a flue pipe connection is set, F i g. 4 is a longitudinal section of the lower part of the chimney with completed flue pipe connection, inspection opening and condensate drain and 5 and 6 show a longitudinal section and a cross section of a second embodiment of the chimney.

The in the F i g. 1 to 4 shown chimney has a rectangular Outer jacket 10 made of tubular concrete blocks made of lightweight concrete or heavy concrete.

The insides of the walls of the outer jacket 10 are covered with an insulating layer 11 covered from heat insulating panels attached to the outer shell 10, e.g. B. in grooves or by clamping. The insulation layer 11 encloses the inner jacket 12, which consists, for example, of an approximately square tube made of chamotte.

In the interior of the inner jacket 12, the inner tube 13 extends consists of several tube parts 131, 132, 133 placed one above the other. These pipe parts each have at one end a sleeve 14 into which the other end of the adjacent one Pipe part is used.

Because the inner jacket has a rectangular cross-section, with rounded corners has, but the inner tube i3 is round, the vertical passage between the inner jacket 12 and the inner tube 13 are not obstructed even if the outer diameter the sleeves 14 approximately correspond to the inner width of the inner jacket 12.

However, the outer diameter of the sleeves 14 is preferably smaller than the inner width of the inner jacket 12, so that the sleeves of the inner jacket 12 at most touch in one place. Since between the sleeve 14 of the lower pipe part and the in this sleeve inserted section of the pipe part arranged above an annular gap exists and the sleeves 14 are open at the top, is condensate that is on the outside of the upper pipe part drops from the socket of the pipe part arranged below recorded and even when this sleeve with the inner jacket 12 in contact is not derived from the inner jacket.

The outer jacket 10 is at the top of the chimney with a Cover plate 15 covered, which extends inwardly over the insulation layer 11 and the inner jacket 12 extends. Located between the inside of the cover plate 15 and the inner tube 13 However, there is an annular gap 16 through which the annular space 17 between the inner jacket 12 and inner tube 13 is formed, communicates with the atmosphere. Of the An expansion joint plate 18 extends downward on the inside of the cover plate 15. The expansion joint plate 18 protrudes beyond the upper end of the inner jacket and is limited thus not only the annular gap 16, but also the area below. That Expansion joint plate 18 prevents moisture from penetrating the upper ends of the inner jacket 12 and the insulating layer 11, but it is ensured that These two layers move freely in the longitudinal direction relative to the outer jacket 10 the chimney can expand.

F i g. 4 shows a completed smoke pipe connection 19 in the lower part of the chimney.

Through coaxial openings in the outer jacket 10, the insulation layer 11 and the connecting pipe 20 protrudes through the inner jacket 12. The connecting pipe 20 extends into the inner tube 13 in order to introduce the flue gases into the inner tube. The opening 21 of the inner pipe is larger than the outer diameter of the connecting pipe 20, so that through the annular gap 22 formed, the annular space 17 with the interior of the Inner tube 13 is in connection. The connecting pipe 20 has a radially protruding Sealing collar 23 in the area of the insulation layer 11 and is sealed with sealing putty 24 sealed with respect to the opening 25 of the inner jacket 12.

The sealing putty 24 fills the gap between the sealing collar 23 and the inner jacket 12 and the gap between the outer surface of the connecting pipe 20 and the opening 25. The opening 26 of the outer jacket surrounding the connecting pipe 20 10 is closed with an annular stone 27.

F i g. 3 shows the location of the flue pipe connection and the arrangement of the openings 21, 25 and 26 before the assembly of the connecting pipe 20.

As Fig.4 shows, is below the flue pipe connection 19th an inspection opening 28 is provided. The inspection opening 28 consists of four im substantial coaxial openings 29, 30, 31, 32 in the outer jacket 10, in the insulation layer 11, in the inner jacket 12 and in the inner tube 13. The annular space 17 between the inner tube 13 and inner jacket 12 is not bridged by a wall at the openings 31, 32, so that it is formed continuously or open at the point of the inspection opening 28 is. On the wall opposite the opening 32, the inner tube 13 has a further one Opening 33, via which the interior of the inner tube is also connected to the annular space 17 communicates.

The insulation layer 11 and the inner jacket 12 sit on an annular upper edge 34 of a stone base 35 made of waterproof barrier concrete. The edge 34 delimits a trough 36, which has a shoulder 37 approximately halfway up, on the the inner tube 13 is at rest. The shoulder 37 has depressions 38 through which water from the annular space 17 under the inner tube 13 through into the lower region of the trough 36 can flow. The condensate drain is located at the lowest point of the trough 36 39, which consists of a duct leading to the outside for draining off the condensate.

The smoke gases introduced into the connecting pipe 20 rise inside the inner tube 13.

If condensate is deposited on the inner surface of the inner pipe 13, the condensate flows down into the trough 36. As a result of the annular gap 16 at the upper end of the chimney and due to the annular gap 22 at the flue pipe connection 19 and because of the opening of the annular space 17 to the inspection opening 28 is the annular space 17 well ventilated, with a predominantly downward air flow in it forms that the drainage of condensate on the outer surface of the inner pipe 13 supports.

The inner tube 13 does not need to be impermeable to water or To be steam. It is therefore not necessary to define the joints between the individual To seal pipe parts, although such a seal is made if necessary can be.

The Fig.5 and 6 show a chimney, which is essentially the corresponds to the first embodiment, so that only the differences are explained below will. In the second exemplary embodiment, the pipe parts 131, 132, 133 are sleeveless formed and butted one on top of the other. Around the pipe parts coaxially in the inner jacket To keep 12, the pipe parts have laterally protruding triangular spacers 40, which are not in direct contact with the inner jacket 12, but are if necessary, can support with tip contact on this when the inner tube 13 is moved slightly out of its central position.

Claims (8)

Claims: 1. Chimney with an outer casing (10) made of concrete blocks, one on the inner wall of the outer jacket arranged insulating layer (11) and one Inner jacket (12) made of temperature-resistant material, characterized in that inside the inner jacket (12) an inner tube (13) through which the flue gases flow, on which the resulting condensate runs down, at a distance from the wall of the Inner jacket and essentially without extensive direct contact with it is arranged. 2. Chimney according to claim 1, characterized in that the annular space (17) between the inner jacket (12) and the inner tube (13) at the lower and upper End is ventilated. 3. Chimney according to claim 1 or 2, characterized in that the inner tube (13) has a coating that facilitates the drainage of condensate. 4. Chimney according to one of claims 1 to 3, characterized in that that the inner tube (13) by separate or molded spacers (40) at a distance to the inner jacket (12) is held. 5. Chimney according to one of claims 1 to 4, characterized in that that the inner pipe (13) has an opening (21) in the area of a smoke pipe connection (19) has, in which a connecting pipe (20), the outer cross-section of which is smaller than that of the opening (21) protrudes without sealing, and that the passage of the Connection pipe (20) is sealed by the inner jacket (12). 6. Chimney according to one of claims 1 to 5, characterized in that that the inner tube (13) in the area of a through the outer jacket (10) and the inner jacket (12) through inspection opening (28) has an opening (32) through which the annular space (17) between the inner jacket (12) and the inner tube (13) constantly with it the interior of the inner tube is in communication. 7. Chimney according to one of claims 1 to 6, characterized in that that the inner tube (13) at the lower end through a base block (35) made of plywood is completed, the one drain (39) for the inside and outside of the inner tube (13) has draining condensate. 8. Chimney according to one of claims 1 to 7, characterized in that that the inner pipe (13) consists of several pipe parts (131, 132, 133) placed one on top of the other consists. The invention relates to a chimney with an outer jacket Concrete blocks, an insulating layer arranged on the inner wall of the outer jacket and an inner jacket made of temperature-resistant material. Well-known chimneys of this type (DE-PS 27 36 655, FR-PS 12 20 465) have an inner jacket for guiding the flue gases, one surrounding the inner jacket Insulation layer and an outer jacket usually made of molded concrete blocks on. Here there is the problem of moisture penetration into the mineral building materials through condensate. Condensation of water steam from flue gases in chimneys occur unintentionally as a result of insufficient thermal insulation, one too thick Inner jacket, incorrect dimensioning of the chimney cross-section, poor construction, Leaks, etc. Condensation can also occur if the furnace is operated at part load, and as a result of refined heating, regulation and control technology. Condensation in fireplaces and / or chimneys can also occur be brought about consciously in order to use the heat of evaporation in addition and the To improve the efficiency of the furnace. It is known to use seamless metal pipes or glazed, Introduce watertight ceramic pipes that act as a vapor and water barrier serve and prevent moisture from penetrating the mineral components. Metal pipes are subject to corrosion, e.g. B. by halogens. In addition, there is the risk of the thermal shock stress or extreme temperature stress cracks appear in a moisture-proof pipe. A long-term tightness against condensate is therefore very difficult to achieve. The invention is based on the object of a chimney of the opening called type so that without the use of a condensate-impermeable Pipe ensures proper drainage of moisture and water from the chimney in the long term is guaranteed without the condensate entering the surrounding mineral components penetrates. To solve this problem, the invention provides that within of the inner jacket an inner pipe through which the flue gases flow at a distance of the wall of the inner jacket and essentially without direct contact over a large area is arranged with this, on the resulting condensate drains down. According to the invention, an inner tube is arranged free-standing in the inner jacket, through which the flue gases flow and the resulting condensate on its inside and discharges downwards on its outside. As a result of the lack of essential direct Points of contact between the inner pipe and the inner jacket can cause water and moisture do not diffuse to any significant extent from the inner tube into the inner jacket. The condensate is consequently directed down the inner pipe, where it is collected and can be discharged. The inner tube in no way needs to be impermeable to steam be. It can for example consist of ceramic or concrete. Appropriately However, those areas where condensate is drained off are glazed or with another coating to allow the moisture to run off smoothly to ensure. The inner tube preferably consists of several tube parts that either placed loosely on top of one another or connected to one another by a binding agent could be. Even if the water flows from the inside of the inner tube to the outside the water runs down the inner pipe without any disadvantages. The pipe parts of the inner pipe can each have a socket at one end have, which is placed over the other end of the adjacent pipe part. It however, it is also possible to use socket-free pipe parts.