EP0906995B1 - Mantel block for a multiple-casing chimney - Google Patents

Abstract

The cover block has a heat insulation layer (18,20) made of a material which hardens after shaping and is thinner in the area of the intermediate wall (22) of the cover (12), then in the area of the outer walls (24,26,28,30,32,34) of the cover. Thus, the central axis (36,38) of the inner wall of the heat insulation layer runs eccentrically to the central axis (40,42) of the inner wall of the cover.

Description

The invention relates to a casing stone for one multi - layered fireplace with a statically supporting mantle and a thermal insulation layer on the inside of the jacket for a fireplace with at least two channels.

Such a casing stone is known from DE-U 85 20 590. There is a thermal insulation layer and a jacket on this jacket stone arranged concentrically to each other. On the inside of the Protective layers or projections or ribs are provided, which an air layer between the thermal insulation layer and bridge a flue gas discharge pipe and Support the inner flue gas pipe to the side.

For a mantle stone for a fireplace with two or more Channels are used to discharge flue gas several such trained channels with flue gas inner tubes side by side arranged.

In another type of fireplace, such as in the DE-A 32 46 978 described, it is common for the casing stones without heat insulation and the flue gas inner pipes with a tubular thermal insulation layer made of fiber material envelop. If ventilation is required, this remains an annular gap between the thermal insulation layer and the inner wall of the Jackets, with the flue gas inner tube Thermal insulation layer concentric in the duct of the casing stone is arranged.

A disadvantage of the known versions of mantle stones is it that the axes of the Flue gas inner tubes are very far apart and require a correspondingly wide version of the mantle stones.

The object of the present invention is a casing stone for a fireplace with two or more channels to create the is as narrow as possible and therefore as little as possible in a house Floor space and therefore as little living space as possible takes.

According to the invention the object is achieved in that the Thermal insulation layer made of a hardening after shaping Material exists and in the area of the partition or Partitions of the jacket is made thinner than in the area the outer walls of the jacket, so that the central axis of the Inner wall of the thermal insulation layer eccentric to the central axis the inner wall of the jacket.

It has been shown that in a double-draft fireplace in Area of the partition wall of the jacket even on one Thermal insulation layer in the area of the intermediate wall of the jacket could be dispensed with if both trains were flue gas be heated. But even if one of the trains doesn't transported hot flue gases, it is sufficient if in the area the partition wall of the jacket is the sum of the thicknesses of both Thermal insulation layers equal to the thickness of the thermal insulation layer in the Area of the outer walls of the jacket is.

In this way, for example, in the case of a double-track Fireplace the thermal insulation layers in the area between the the intermediate wall of the jacket lying on both trains only half as much thick as in the area of the outer walls of the Coat. This moves the axes of the in the channels laying smoke gas inner tubes by several centimeters together so that the cladding stone and thus the chimney narrower than can be done so far.

A particular advantage of the embodiment according to the invention consists in that the thermal barrier coating consists of a Forming hardening material. This will make the Geometric dimensions of the thermal insulation layer already at the Manufacture of the mantle stone set. This is with the Use of a tubular thermal insulation layer Fiber material not possible because on the one hand Thermal insulation layers made of fiber material usually with constant thickness, and even if the thickness is in Circumferential direction would be different, so could not be ensured that when moving on the Construction site is always in the correct position.

In a preferred development of the invention, the Thermal insulation layer made of foam concrete. This material can be used in the Manufacturing influenced in its pore content and thus regarding the thermal conductivity of the hardened foam concrete are controlled so that an optimal adaptation to the Purpose is possible.

If a round in the thermally insulated channel of the mantle stone Flue gas inner tube should be used, so it is advantageous if the inner wall of the thermal barrier coating has circular cross section. By selecting the Outside diameter of the flue gas inner tube or The inner diameter of the thermal barrier coating can be changed as required either tight against the inner wall of the Thermal insulation layer or an annular gap for rear ventilation be provided.

The eccentric arrangement of the central axis of the inner wall the thermal insulation layer to the central axis of the inner wall of the Sheath is also advantageous if the second channel of the Chimneys not the discharge of flue gas, but the supply from fresh air to the heater. In this case too complete insulation to the adjacent duct is not required, but the advantage is achieved that the Fresh air already preheated on the way through the fireplace becomes.

In the drawing, a preferred embodiment of the Invention shown, which is explained in more detail below.

Fig. 1

einen ersten Mantelstein für einen zweizügigen Kamin im Querschnitt,

Fig. 2

einen zweiten Mantelstein für einen einzügigen Kamin mit Lüftungskanal im Querschnitt und

Fig. 3

einen dritten Mantelstein für einen zweizügigen Kamin mit Lüftungskanal im Querschnitt.

It shows

Fig. 1

a first casing stone for a two-pass chimney in cross section,

Fig. 2

a second casing stone for a single-pass chimney with ventilation duct in cross section and

Fig. 3

a third casing stone for a two-pass chimney with ventilation duct in cross section.

In Fig. 1 is a first casing stone 10 for one multi-shell two-drawer fireplace shown in cross section. Within a statically supporting jacket 12 is in each both intended to accommodate flue gas inner tubes Channels 14 and 16 a thermal insulation layer 18 and 20 from Foam concrete arranged on the inside of the jacket 12. in the The area of the intermediate wall 22 of the jacket 12 are Thermal insulation layers 18 and 20 made thinner than in the area of the outer walls 24, 26, 28 and 30, 32, 34 of the jacket 12, see above that the central axes 36 and 38 of the inner walls of the Thermal insulation layers 18 and 20 eccentric to the Central axes 40 and 42 of the inner wall of the jacket 12 in Run offset to the intermediate wall 22. In the area of the four outer corners of the jacket 12 are continuous Holes 44, 46, 48, 50 provided to accommodate several superimposed mantle stones 10 penetrating Tie rods.

Fig. 2 shows a second casing stone 210 for one single-chimney with a ventilation duct 215 in cross section. Within the statically supporting jacket 212 is in the for the inclusion of a flue gas inner tube provided channel 214 a thermal insulation layer 218 made of foam concrete on the inside of the jacket 212 arranged. In the area of the intermediate wall 222 of the jacket 12, the thermal insulation layer 218 is made thinner than in the area of the outer walls 224, 226, 228 of the jacket 212, so that the central axis 240 of the inner wall of the Thermal insulation layer 218 eccentric to the central axis 40 of the Inner wall of the jacket 212 runs. In the area of four Outside corners of the jacket 212 are through holes 244, 246, 248, 250 intended to accommodate several one above the other set mantle stones 210 penetrating tie rods.

3 shows a third casing stone 310 for one Cross-section two-pass chimney with ventilation duct 315. Of the Ventilation duct 315 is in the middle between the two Receiving channels 314 provided with inner flue gas pipes or 316 arranged and by an intermediate wall 322, 323 separated from these. In each of the two channels 314 and 316 is a thermal insulation layer 318 or 320 made of foam concrete on the Arranged inside the jacket 312. In the field of Partitions 322 and 323 of the jacket 312 are the Thermal insulation layers 318 and 320 made thinner than in Area of the outer walls 324, 326, 328 or 330, 332, 334 of the Sheath 312, so that the central axes 336 and 338 of the Inner walls of the thermal insulation layers 318 and 320 eccentrically to the central axes 340 and 342 of the inner wall of the Sheath 312 towards the intermediate walls 322 and 323 run staggered. In the area of the four outer corners of the Sheath 312 are through holes 344, 346, 348, 350 intended to accommodate several stacked Jackets 310 penetrating tie rods.

Claims (3)

1. Mantel block (10, 210, 310) for a multiple-casing chimney with a statically bearing mantel (12; 212; 312) and a coat of thermal insulator(18, 20; 218; 318, 320) on the internal side of the mantel (12; 212; 312) for a chimney with at least two funnels (14, 16; 214, 215; 314, 315, 316),
   characterized in that
   the coat of thermal insulator (18, 20; 218; 318, 320) consists of a material hardening after the shaping process and is thinner in the area of the internal partition (22; 222), i.e. of the internal partitions (322, 323) of the mantel (12; 212; 312) than in the area of the external walls (24 to 34; 224 to 234; 324 to 334) of the mantel (12; 212; 312) so that the center line (36, 38; 236; 336, 338) of the internal side of the coat of thermal insulator (18, 20; 218; 318, 320) extends eccentrically with regard to the center line (40, 42; 240; 340, 342) ofthe internal side ofthe mantel (12; 212; 312).
2. Mantel block according to claim 2,
   characterized in that
   the coat of thermal insulator (18, 20; 218; 318, 320) consists of porous concrete.
3. Mantel blcok according to claim 1 or 2
   characterized in that
   the internal side of the coat of thermal insulator (18, 20; 218; 318, 320) shows a circular cross section.

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