DE10228001A1 - Device for guiding and removing exhaust air - Google Patents

Abstract

The invention relates to a device for guiding and evacuating used air, e.g. combustion gases such as flue gases or the like, produced by a combustion device installed in a building for heating purposes, especially a fireplace for the combustion of fossil fuels, comprising a line for guiding used air arising during combustion and an outer shell surrounding said line. A heat insulation device embodied as a mineral wool form element is arranged between the line and the outer shell. The inner surface thereof is embodied such that it corresponds to the outer wall of the line. In order to further develop such a device in order to provide a device which is easy to install, which can be installed at an especially low cost and which can be retrofitted, the line is guided via at least one ceiling, the outer wall is embodied such that it is uninterrupted in the region of said ceiling and an insulating element is disposed between the line and the ceiling, filling and sealing the gap between the line and the ceiling.

Description

The invention relates to a device for guidance and rejection of one installed in a building for heating purposes Combustion device, in particular a fireplace for burning fossil fuels Fuels, exhaust air generated, for example combustion gases, such as Flue gases or the like, with one that arises during combustion Exhaust air leading Line and an outer shell surrounding the line, wherein between the Pipe and the outer shell arranged as a molded element made of mineral wool thermal insulation is whose inner surface the outer wall the line is designed accordingly.

Devices of this type are known in many ways from the prior art. A generic device is for example from the DE 196 16 268 A1 known. This known device consists of a line and an outer shell surrounding the line, a thermal insulation device designed as a shaped element being arranged between the outer wall and the line and the inner wall of the outer shell, the outer surface of which is designed corresponding to the inner wall of the outer shell and the inner surface of the outer wall of the line are, so that these surfaces are essentially on the line and / or the outer shell. The shaped elements have a corresponding height in the distance between the floor and the ceiling of a building or a building storey. The line consists of individual chamotte tubes. The outer shell is made of plate-shaped elements, which preferably consist of plasterboard. Such a device has proven itself for the purposes mentioned.

From the DE 32 11 536 A1 a device known as a multi-layer chimney is known, which in turn consists of a line and an outer shell, a gap between the line and the outer shell being filled with insulation boards. These are so-called three-shell chimneys, the flue gas-carrying inner pipe made of fireclay, the thermal insulation layer surrounding the inner pipe made of mineral fibers and the sheathing made of lightweight concrete.

Another device for guiding and discharging exhaust air generated by a combustion device is known from the DE 89 13 493 U1 known. This device, which is called the chimney pipe here, has at least one smoke pipe, thermal insulation and an outer jacket surrounding the smoke pipe and the thermal insulation, which is constructed in one storey and consists of a glass fiber reinforced concrete part. This fiberglass-concrete outer jacket can be designed to be as high as a house and is usually inserted vertically into the opening provided for the chimney after the building has been constructed by means of a crane or crane vehicle.

From the DE 296 07 387 U1 an insulation element is also known, such as is used for the insulation of polygonal cross-section, in particular rectangular, preferably square, pipelines, preferably of pipelines for the discharge of exhaust gases resulting from the combustion of fossil fuels in heating systems. This insulating element has a plurality of substantially parallel recesses in a main surface, which are arranged in a plurality of groups which correspond to one another and are spaced apart from one another, namely the number of outer surfaces of the pipeline.

After all, is out of DE 199 05 103 A1 a device for sealingly enclosing pipe and / or pipe lines is known, which can be used in a wall and / or ceiling or floor opening of a building and which consists of a sleeve sheathing the pipe and / or line section, which is heat-resistant when exposed to fire and is smoke-tight. The sleeve is designed as a tubular shell made of mineral fibers, the tubular shell being flexible in the axial direction and in the radial direction. A bulkhead connects to the cuff and fills the wall and / or ceiling or floor opening. The bulkhead consists of fire protection mortar, for example, which can be covered with a mineral wool panel on one side.

Based on this state of the art the invention has for its object a generic device to evolve in that simple and in particular cost-effective Way an easy to install and retrofit device is created.

To solve this task it is provided that the line through at least one floor guided, the outer wall formed interrupted in the area of the floor ceiling and between the line and the floor ceiling, a gap between the pipe and the floor ceiling sealing sealing element is arranged.

Usually, a device known from the prior art with all three construction elements, namely the outer shell, the duct for the exhaust air and the thermal insulation, is guided over the entire height, so that this also results in a certain procedure for the construction of such devices. Such devices are usually not suitable for retrofitting in buildings without great effort. Rather, the corresponding steps must be taken when building the building, whereby the device is bricked up in parallel with the construction progress of the building, in particular with regard to the construction of the individual floors. This also results in material fluctuations due to thermal fluctuations in the contact area between the storey ceilings and the device, which not infrequently lead to cracks in the area where the device is passed through storey ceilings.

In the device according to the invention it is envisaged that only the line extends over the entire height of the building, i.e. from the fireplace extends to the exit often provided on the roof, while the Thermal insulation device and the outer wall are set in the area of the floor ceilings. Such one Device leaves yourself in a simple way in existing buildings integrate, since for this purpose only appropriate core holes in the floors if possible have to be introduced coaxially, to follow up on this insert the pipe, which is then covered with the thermal insulation device. In the area of the floor ceilings, the gap is then between the pipe and the floor ceiling filled with a sealing element before in a final step the outer wall between the ceilings or floors. To this Way leaves yourself an inexpensive integrate producible device into a building with little effort, being a matter of course such devices according to the invention can also be installed in new buildings as construction progresses.

According to another feature of the invention provided that the outer shell from plate-shaped Elements exist, which are preferably formed from plasterboard are. This configuration has the advantage that it is relatively light Components for the outer shell be used. On the use of so-called coat stones can be dispensed with. The plasterboard can be attached in a simple manner previously erected stands attached to the ceiling and floor become. Another advantage is that the plasterboard due to their material thickness relatively little living space compared to the previously mentioned coat stones.

According to another feature of the invention provided that the outer shell spaced from the thermal insulation device is arranged. By avoiding direct contact with the thermal insulation device high temperatures of the outer shell are also avoided, so that the outer shell does not have to have an F classification and only as a privacy screen serves.

It is also contemplated that the Distance between the outer shell and the line is bigger, than the width of the gap between the pipe and the floor. This ensures that the outer shell is not rich in loading the gap is set up and that the outer shell also the gap inaccessible makes. Damage of the insulation element in the gap through subsequent manual work or through the intended residential use of a building is avoided.

The thermal insulation device preferably consists of a plurality of pipe shells which are arranged one above the other and seal tightly. Such pipe shells can be easily installed on the line. The pipe shells are preferably made of mineral wool, which has a bulk density of between 70 and 150 kg / m ³ , so that the pipe shells have sufficient radial but also axial flexibility which compensates for irregularities in the surface of the line, for example in the region of the transition from adjacent ones Enable pipe shots.

The line is preferably there made of gas-tight, single or double-walled stainless steel exhaust pipes, plastic exhaust pipes, ceramic exhaust pipes, light metal exhaust pipes and / or composite exhaust pipes. Standard fireplaces are connected to this line. The administration is through ceiling openings guided, which are designed in particular as core bores.

According to another feature of the invention provided that the insulation element in the gap from an organically or inorganically bound mineral fiber tube shell, consists in particular of rock wool and / or glass wool. The insulation elements in the gap space serves to maintain the fire resistance of the floors.

The insulating element preferably has a melting point of at least 600 ° C., in particular more than 900 ° C., preferably more than 1000 ° C. The insulating element is designed as a wound or segmented pipe shell, which preferably consists of individual segments which are glued to one another. In order to be able to provide the fire resistance duration of conventional floor ceilings, it has proven to be advantageous to design the insulation elements with a bulk density between 20 and 600 kg / m ³ , in particular between 20 and 200 kg / m ³ .

In addition, the insulation element an outside Have lamination, in particular made of aluminum or others Metal / metal sandwich foils or from plastic foils or from plastic composite foils consists.

Finally, it is provided according to a further feature of the invention that the lamination has at least one end of an overlap area that can be connected to the opposite end of the lamination. The lamination is therefore suitable for closing a slot running in the longitudinal direction of the pipe shell, wherein a radial tension can be built up in the pipe shell via the lamination in order to seal the two in the region of the to allow axial openings of the pipe shell arranged surfaces.

Other features and advantages of Invention result from the following description of the accompanying drawing, in the one preferred embodiment a device according to the invention is shown.

In the drawing, a section of a building is shown in longitudinal section. The building 1 consists of a basement 2 and a ground floor 3 as well as a roof 4 , which is designed as a sloping roof. Between the basement 2 and the ground floor 3 is a first floor ceiling 5 arranged. A second floor ceiling 5 is located below the roof 4 and above the ground floor 3 , It goes without saying that the building 1 can also have an additional number of storeys, which also increases the number of storeys 5 elevated.

Every floor 5 has a hole 6 of circular cross-section. In these holes 6 is one the roof 4 piercing device 7 provided for the management and diversion of one in the basement 2 angeordne th, not shown combustion device serves exhaust air. The combustion device is on a connecting piece 8th connected at right angles to a pipe 9 flows out, which is part of the device 7 is. The administration 9 is centered in the holes 6 arranged. Between the line 9 and a floor ceiling 5 is a gap 10 trained with an insulating element 11 is filled in sealingly.

The administration 9 is with a thermal insulation device 12 , consisting of several pipe shells arranged one above the other, sealed together.

At a distance from the thermal insulation device 12 points the device 7 an outer shell 13 on, which consists of plate-shaped elements, namely plasterboard.

The thermal insulation device 12 consists of mineral wool, which has a bulk density of 100 kg / m ³ . The administration 9 is made of gas-tight single-walled stainless steel exhaust pipes, which are arranged one above the other in shots.

The insulation element 11 consists of an organically bound mineral fiber tube shell made of rock wool and has a melting point of 1000 ° C. The bulk density of the insulation element 11 is 150 kg / m ³ . On the outer surface of the insulation element 11 a lamination made of aluminum foil is arranged, which overlaps at one end a slot running in the longitudinal direction of the insulation element and can be glued with its opposite end.

Claims (13)

Device for guiding and discharging through, in a building ( 1 ) Combustion device installed for heating purposes, in particular a fireplace for burning fossil fuels, exhaust air generated, for example combustion gases, such as flue gases or the like, with a line leading the exhaust air generated during the combustion ( 9 ) and one the line ( 9 ) surrounding outer shell ( 13 ), where between the line ( 9 ) and the outer shell ( 13 ) a thermal insulation device designed as a molded element made of mineral wool ( 12 ) is arranged, the inner surface of the line ( 9 ) is designed accordingly, the line ( 9 ) by at least one floor ceiling ( 5 ) led, the outer shell ( 13 ) in the area of the floor ceiling ( 5 ) interrupted and between the line ( 9 ) and the floor ceiling ( 5 ) a, a gap ( 10 ) between the line ( 9 ) and the floor ceiling ( 5 ) sealing filling element ( 11 ) is arranged. Device according to claim 1, characterized in that the outer shell ( 13 ) consists of plate-shaped elements, which are preferably formed from plasterboard. Device according to claim 1, characterized in that the outer shell ( 13 ) spaced from the thermal insulation device ( 12 ) is arranged. Apparatus according to claim 3, characterized in that the distance between the outer shell ( 13 ) and the management ( 9 ) is larger than the width of the gap ( 10 ) between the line ( 9 ) and the floor ceiling ( 5 ). Apparatus according to claim 1, characterized in that the thermal insulation device ( 12 ) preferably consists of several pipe shells arranged one above the other, sealingly abutting one another. Apparatus according to claim 1, characterized in that the mineral wool of the thermal insulation device ( 12 ) has a bulk density between 70 and 165 kg / m ³ . Device according to claim 1, characterized in that the line ( 9 ) consists of gas-tight single or double-walled stainless steel exhaust pipes, plastic exhaust pipes, ceramic exhaust pipes, light metal exhaust pipes and / or composite exhaust pipes. Device according to claim 1, characterized in that the insulating element ( 11 ) in the gap ( 10 ) from an organically or inorganically bound mineral fiber tube shell, in particular from Rock wool and / or glass wool exists. Apparatus according to claim 8, characterized in that the insulating element ( 11 ) has a melting point of at least 600 ° C, in particular more than 900 ° C, preferably more than 1,000 ° C. Apparatus according to claim 8, characterized in that the insulating element ( 11 ) is designed as a coiled or segmented pipe shell, preferably consisting of individual segments which are glued to one another. Apparatus according to claim 8, characterized in that the insulating element ( 11 ) has a bulk density between 20 and 600 kg / m ³ , in particular between 20 and 200 kg / m ³ . Apparatus according to claim 8, characterized in that the insulating element ( 11 ) has an external lamination, which consists in particular of aluminum or other metal / metal sandwich foils or of plastic foils or of plastic composite foils. Apparatus according to claim 12, characterized in that the Lamination has at least one end of an overlap area that with the opposite End of the lamination is connectable.