CZ243191A3 - Chimney element and process for producing thereof - Google Patents

Abstract

The invention relates to a chimney element (1) which has, over its cross-section or cross-sectional region, an outer region or shell region, an insulating region arranged towards the inside, and a flue-gas pipe arranged on the inside of the insulating region. To simplify the manufacture, workability and handling, it is provided that at least the shell region (16) and/or insulating region (17) are constructed in one piece, merge into one another discontinuously or continuously and consist of fired clay produced by the vertical coring technique. <IMAGE>

Description

The present invention relates to a chimney-shaped fitting having a cross-sectional area or sheath area insulating its inner side and a flue arranged at the inner side of the insulating area. pbo production.

prurezu ob 1ast.

the outer area at a light line to

BACKGROUND OF THE INVENTION

The chimney elements known from the prior art are of a multi-faceted nature and consist of a so-called sheath made of concrete, the inner recess of which houses an insulating board of insulating material which surrounds the inside of the flue gas duct. It is therefore a three-part construction, the individual components being produced separately and then assembled together. The production of the chimney panel proves to be costly due to the need for additional joining of the individual parts and to the relatively individual parts (casting of the cementitious casing method, production of the insulation board).

In addition, additional joining of the individual parts requires, if necessary, inaccuracies, additional machining, which can significantly increase the cost of such a chimney panel.

It is an object of the present invention to provide a chimney panel having sufficient thermal insulation

of.

resistance to aggressive, especially gaseous or liquid components. In addition, the chimney element, with better mechanical strength, should be produced as simply and inexpensively as possible.

Another object of the present invention is to provide a multiple chimney system which can be constructed in a simple manner, requires as few individual parts as possible and saves space as much as possible.

The essence of the invention

The chimney element having an outer area or sheath area in the cross-section or cross-sectional area, an insulating area arranged on the inside and a flue gas duct according to the invention arranged on the inside of the insulating area, fulfills the deficiencies of the prior art. the sheath area and the insulating area are formed in one piece, in particular they continuously or discontinuously merge into one another and consist of burnt clay produced by high-perforation technology.

Preferably, the sheath area or insulating area has a continuation comprising an air intake shaft (7).

Further preferably, one-piece protrusions are provided on the inside of the insulating area, for example in the form of rivets, bridges or the like.

Preferably, the flue is a glass pipe, a metal pipe, a plastic pipe or a stoneware pipe.

Furthermore, preferably between the flue gas duct and the jacket area, respectively. additional insulation layer.

Preferably, the sheathing area, the insulating area and the flue gas duct are formed in one piece and consist of clay.

Preferably, the flue gas duct is arranged to the inner side of the insulating area separately over the shaped spacer.

Furthermore, preferably the inner side of the flue gas duct is coated, in particular glazed, for example.

Advantageously, there are concentrically extending holes systems in the jacket region and / or insulating region, and in particular opposite the holes of one system lies the material region located between the holes of the other system.

Preferably, it is a volume change. respectively. radial direction adjustable volume gradient.

Advantageously, the chimney panel consists of a plurality of one-piece cup-like parts which are connected via a form-fitting connection means, in particular through groove and tongue protrusions and recesses.

Furthermore, there is preferably at least one support section or support bridge which is arranged in such a way. that during extrusion pressing. respectively. extrusion is the achievable support effect of the extruded unburned product.

Advantageously, the support section or support bridge in the high-hole cross-section is designed as a mass section or a cross section. a material bridge.

Advantageously, the material section or the material section has a cross section. a material bridge of at least one row of holes extending in the axial direction.

Furthermore, the at least one support section or support bridge, in particular the two support sections or support bridges are arranged in the direction. running tangentially to the flue receiving channel.

Advantageously, the plurality of support portions, respectively.

The bridges are arranged mirrored and / or and preferably extend perpendicular to the outer chimney panel.

point support symmetrically bounding surface

Advantageously, in the cross-sectional plane of the flue receiving channel or in the cross-sectional plane of the flue gas duct, a support section or a section is provided. supporting bridge.

Further preferably, the support section has formed breakpoint locations.

respectively. the support bridge removes the technique

The deficiency of the prior art and the stated objective is also met by a multiple chimney system with a plurality of side-by-side chimneys running in parallel, optionally with at least one rear ventilation shaft according to the invention, characterized in that there is a chimney element according to at least one of As a basic modular component and the individual modular components, they can be connected to each other by means of positive contact means.

Preferably, the shaped contact means are grooved and down recesses and protrusions.

Advantageously, at least a portion of the chimney panels used as modular parts are open along at least one side of the jacket region up to the abutment surface which is provided with positive contact means.

The deficiencies of the prior art and the stated object are further met by the method of manufacturing a chimney panel according to the invention, which has the following steps:

(a) use of clay as a matrix:

b) forming all the chimney panel or cup part in the extrusion or extrusion process, namely as a high-perforated brick, wherein, in addition to the holes themselves, effective support sections or support bridges in the form of tangible bridges are formed transversely to the pressure direction;

(c) cutting, drying and firing of unbaked product:

and

d) manual or automatic finishing of the chimney panel.

Preferably, the support sections or support bridges break off after drying or firing.

Further preferably, during forming according to feature b), the material webs are provided with a series of holes and the side portion of the chimney located between the two material webs breaks off after firing.

The invention provides the advantage of using tsv. extrusion or extrusion process b

least jacket, respectively. the insulating regions of the chimney panel in a continuous process without the need for costly production and / or additional joining of the individual parts. At the most, the chimney piece needs to be completed a bit, but this is relatively simpler with the use of burnt clay than in the prior art. On the one hand, the sheathing and insulating regions can be formed differently from one another. ie. discontinuously or continuously interconnecting one another, so that in the second case the visual separation of the sheathing and insulating region can no longer be performed. The clay material provides sufficient thermal insulation, sound insulation and fire insulation with good mechanical strength and chemical resistance. Finally, the invention also corresponds to the current trend, since construction with bricks is still popular.

The invention has the object of providing extrusion

According to a further suitable embodiment and / or the insulating area of the continuation, an air shaft, which can also be used in the extrusion process, respectively.

jacketed water supply jointly

By forming one-piece protrusions on the inner side of the insulating area, e.g. in the form of rivets, bridges or the like. to facilitate the flue gas duct, which centering of the individual insert may suitably be a glass pipe, metal pipe, plastic pipe or earthenware pipe.

In order to additionally increase the thermal insulation, it is preferably between the flue gas duct and the casing, respectively. additional insulation layer. It also allows good flue grip.

A further preferred embodiment of the chimney panel according to the invention is that. The sheathing area, the insulating area and the flue gas duct are designed to be a complete extrusion thinner, and only dto loe must be a single piece and consist of clay. As a result, the chimney element can be manufactured continuously in the press process, the additional flue gas installation is eliminated, the upper and lower surfaces of the respective chimney surface are ground.

According to another embodiment of the chimney panel according to the invention, the flue gas duct to the inner side of the insulating area is spaced apart over the formed spacer element, thereby creating a limit and spaces which can be used as rear ventilation ducts.

The use of a glass, metal, plastic, or earthenware flue in the form of a flue gas duct and / or a coating of the inner wall of the flue gas duct, for example with glaze, significantly increases the chimney life. This is due to the fact that these measures allow the operation of the chimney insensitive to moisture. It is known to load the air with pollutants in the fire of the house and hardly sufficient energy reserves. Therefore, heating systems that save the environment and energy will be absolutely required in the future. In the light of these developments, prospective condensed low temperature heating systems will become increasingly important. Thanks to the proposed measures, the chimney constructed of such chimney elements can also be used for cold and aggressive fumes, which can form aggressive condensate.

In order to achieve a high degree of impermeability of the chimney made of the chimney elements according to the invention, it is provided according to the invention that its boundary surfaces perpendicular to the axis of the chimney are ground, with the front faces in particular having opposite profiles.

high leakage rates such seals of very stable plastic seals. especially elastomers such as. eg polychloroprene or mineral, respectively. ceramic base.

to the direction of the chimney, the components, allow

At the same time, impermeability can be achieved by introducing thermally inert and moisture-insensitive can be formed from (synthetic rubber), chlororbutadiene or

Surface-ground boundary surfaces perpendicular to the boundary of the chimney joints of the chimney insensitive to moisture, a pressure-tight chimney which is particularly suitable for condensation low-temperature heating systems.

Furthermore, according to the invention, it is provided that there are concentrically extending holes systems in the sheathing and / or insulating region, with the material region located between the holes of the other system in particular opposite the holes of one system. This measure achieves the so-called self-supporting support of the plastic phase which leaves the extrusion matrix, which at this stage is also, and precisely because of the large dimensions of the complete chimney piece, susceptible to collapse, respectively. to deformation. Due to the spaced arrangement of the holes, a direct path with little resistance to heat transmission is avoided.

A further increase in the heat transmission resistance is realized in this context by creating holes with a longitudinal cross-section. wherein the holes are arranged concentrically along their wide sides. The heat transfer therefore takes place in a controlled manner perpendicular to the wide side of the hole, where there is a relatively higher resistance to heat transfer.

Furthermore, it is proposed that due to the change in volume, respectively. The cross-sectional area of the holes is an adjustable volume gradient in the radial direction. In this way, the volume and hence the thermal insulation properties can be adapted to the respective requirements in the radial direction.

The embodiment according to the invention is not limited to one-piece chimney pieces with or without flue, on the contrary it is also assumed that the chimney piece also according to the invention consists of shaped parts which are connected particularly via troughs. a plurality of dish-like means of contact and feather protrusions and depressions. This with great dimensions, because with individual men based on their light weight individual worker. however, there are also advantages of the invention. In order to achieve a particularly high fit of the individual, one-piece cup-shaped parts with each other. shaped connection means are envisaged, in particular in the form of groove and tongue protrusions and depressions, which, moreover, also considerably facilitate mutual alignment of the individual cup-shaped parts.

As mentioned at the outset, due to the plasticity of the material during extrusion, respectively. extrusion - and here especially in extrusion molding, respectively. large chimney parts - leaving the extrusion die.

freshly made stage

K breakdown assumes.

phase collapse, preventing this according to the invention that at least one so-called support section or support bridge extends transversely to the longitudinal axis of the stack member during coextrusion molding. At least one, during extrusion extrusion. formed support section. or in the process to extend transversely to the longitudinal axis of the chimney panel so that the support effect of the extruded unfired product is achievable. Besides supporting the phase immediately after

1ísování í. př í p.

support bridge, leaving the extrusion die, a support effect is also achieved during the drying process, in which further softening can occur due to evaporation of moisture.

According to the invention, the material section and / or the material section have a cross section. the web of at least one row of holes extending in the axial direction, on the one hand, a weight saving is achieved.

simply separate the side regions along the holes of the material section.

on the other hand, the possibility of the chimney panel of the chimney panel body or the material bridge.

respectively. Subsequently, it also acts as a desired breaking point or a desired separation point.

According to a further embodiment of the chimney panel according to the invention, preferably two support sections or support bridges run tangentially to the flue receiving duct, and if the support sections or support bridges are designed as material sections. respectively. tangible bridges. with holes, the area of the chimney panel between the two support bridges can simply be removed and a chimney door or the like may be inserted or the panel may be used as a one-sided open panel.

A particularly high support effect is achieved by arranging a plurality of support sections, respectively. support bridges, respectively. mirror-like and / or point-symmetrical, and in particular extend perpendicular to the outer surface of the chimney panel.

In a preferred embodiment, the support portions or the support portions are located at a distance of approx. support bridges in the lower, ie. to the base adjacent to the half section of the chimney panel.

According to a further embodiment, it is provided that the support section, respectively. the support bridge is arranged in the cross-sectional plane of the flue receiving channel or in the cross-sectional plane of the flue. Such a support bridge also prevents collapse of the extruded phase during production. It can be like that

1, the support web is removed by stamping after the chimney panel has been fired, so that a free cross section of the channel is finally achieved.

By using the modular parts of the kit made in a multiple simple way, like the chimney system amazingly the beds can be very simple,

It is necessary to hold only sufficient chimney parts. The use of clay as a material offers the advantage of a relatively low weight with good workability. Thanks to form-fitting means, eg in shape and protrusions. the modular parts and thus the groove and feather recesses achieve a higher mutual fit higher accuracy of fit when lining blocks. Due to the possibility of constructing a chimney system from a plurality of chimney elements arranged in a particular plane, the gradually increasing chimney can be completed in a separate manner by a single operator. Known casings for being also simple to progressively grow as one piece and pose relevant problems.

on the contrary, the chimneys are usually made of concrete, which implies, for example, that at least two workers or even a hoist are required to spread the incoming sheaths, which is effectively excluded by the present invention.

The removal of the side area of the chimney panel for the production of the open side can, if desired, be carried out advantageously in front of the workplace. The use of single-sided modular components provides increased space savings, which is becoming increasingly important in the construction industry.

In an embodiment of the method according to the invention, it may be advantageous that the support sections or support bridges are broken off after drying or firing.

Λ

Overview of the drawings

The preferred embodiment of the chimney panel according to the invention will be explained in more detail below with reference to the figures.

The images show:

1 and 2. 6 to 8 chimney elements according to the invention for single shaft chimneys:

Figures 3 to 5. 8 to 12 chimney elements according to the invention for two-shaft chimneys:

Figures 13 to 15 of the chimney panels according to the invention, which consist of individual, together folded cup-shaped parts:

16 and 17 show respectively a multiple chimney system using chimney elements according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

Giant. 1 shows a chimney panel 1 according to the invention, which is of square cross-section and an annular channel 2 arranged centrally therein. The chimney panel 1 consists of burnt clay (brick), which is produced in a so-called extrusion process. extruding. Several rows of holes 3 are arranged concentrically with respect to channel 2. wherein the holes of each adjacent hole pattern are spaced apart.

The chimney panel 1 has a jacket region 16 as well as an inwardly insulating 16 and an insulating region 17 The precise separation of these chimney panels 1, shown in FIG. 1, is a region 17, the jacket region continuously merging into each other.

The stack 1 further has support bridges 4 which extend tangentially to the channel 2 and are provided with smaller rows of individual holes 5 running in the direction of the axis of the stack 5. The support bridges 4 are formed as mass bridges. Despite the holes 5, the support bridges 4 have a higher proportion of weight than the remaining regions of the stack 1. The support bridges 4 extend in the embodiment of FIG. 1 perpendicular to the casing surface 6 of the stack 1 and lie in the lower half of the stack 1. in the area adjacent to the base.

The support bridges 4 are important in the production of the chimney panel 1. because they prevent the collapse of the freshly extruded phase. The additional support effect is also obtained by concentrically arranging and forming holes 3, 3 in the form of longitudinal holes.

The holes 5 in the support bridges 4 also make it easier to break openings in the chimney panel 1, for example, for fastening the chimney door or the like. which also serve to facilitate the breaking of the hole, respectively. to widen the edge area of such an opening, e.g. to insert a chimney door frame.

The fitting shown in FIG. 2 differs from the fitting shown in FIG. 1 only in that it has a rectangular cross-section and has, in one piece, a continuation 21 formed in one piece which comprises an air intake shaft 7.

According to the invention, support bridges 4 are also provided in the region of the supply air 7, which are also provided with rows of small holes 5. The support bridges 4 are preferably arranged in the region of the edges of the cross-section of the air duct 7 because they exert an optimum support effect.

The cross-sectional area of the holes 3 is small in the inner region of the chimney panel 1 as in its outer corner regions and rises towards the center of the chimney panel 1, resulting in a certain volume gradient in the radial direction.

The chimney elements 1 shown in FIGS. 1 and 2 are intended for the operation of so-called one-shaft chimneys.

Giant. 3 shows a chimney panel 1 which differs from the chimney panel 1 of FIGS. 1 and 2 in particular in the cross-section of the channel 2. The cross-section of the duct 2 has on its inner side projections 3 which allow simple centering of the flue 9 inserted into the duct 2. This flue 9 can optionally be made of glass. metal, plastic or stoneware (ceramics), the chimney produced in this way is also suitable for low-temperature heating systems, which can form very aggressive condensate. Reference numeral 12 denotes the so-called rear air ducts which are arranged symmetrically in the cross-section.

The chimney panel 1 shown in FIG. 4 corresponds substantially to the combination of FIGS. 2 and 3.

Giant. 5 shows a further chimney panel 1 according to the invention, which corresponds to that of FIG. 3, with the only difference that the cross-section of the channel 2 is substantially circular but in one piece with the projections 3 to center the flue gas duct 9;

2. This support bridge 49 has break points 18, 1.9 that facilitate punching, rssp. breaking of the support bridge 49 after firing resp. when placing the chimney panel 1.

Giant. 13 and 14 show further embodiments of the chimney panel

Komí nový 11. 1 1 '. In accordance with the invention, the parts are in one piece. The surface 22 and the groove 22 can be.

The panel 1 here consists of two extrusion processes produced which are connected to one another via the abutment form-fit means, in particular in the form of tongue-like projections 23 and recesses 24. Also here the insulation provided additionally to increase the thermal thermal insulation material between the inner side of channel 2 and flue 9. 13 and 14 are shown in outline for clarity only, in order to show how the cup-shaped parts 11, 11 and 11 interact. Its structure, however, is identical to the bowl part 11

The other structure of the cup-shaped parts 11 and 11, in particular the arrangement of the holes 3 and the support bridges 4 with the rows of holes 5, is the same as the previously described embodiments of the stack 1 according to the invention.

Giant. 15 shows a chimney panel according to the invention, which is constructed from a total of four one-piece cup-shaped parts t1 The cup-shaped parts 11 abut against each other on surfaces 22 and interlock with groove and tongue projections 23 and recesses 24 thereby achieving better fit and centering of the individual cup-shaped pans. For the sake of clarity, the two cup-shaped parts 11 of the left half of the chimney panel are also shown only as a contour in FIG. 15.

the structure of this embodiment identical to the previously described parts 11 have them in

The essence

Also bowl-shaped

7

The stack of chimney elements 11 surrounds a channel 2 in which, for example, the flue 9 is held by the insulating material.

Giant. 16 shows the structure of a multiple chimney system with an air supply duct 7. There is a chimney panel 40 which has an opening 20 up to the bearing surface 41 along the casing surface. The other chimney panel structure 40 is the same, especially with respect to the support webs 4 and holes 3, with already described chimney elements 1.

The abutment surfaces 48 have protrusions 42 which cooperate with recesses 43 bordering the cup-shaped portion 41. The cup-shaped portion 41 is like other parts also formed by high-perforation technology and provided with through holes. Other abutment surfaces 44 of the cup-shaped portion 41, which together with the chimney member acting as a basic modular component. the inlet air duct 7 is provided with projections 46 which cooperate with recesses 47 which are arranged in the corner regions of the base panel 45. The base panel 45 is substantially identical in structure to the chimney panel 1 in FIG. 9.

Giant. 17 shows a similar structure to that of FIG. 16. There are two stack chimneys 40 which both have a side opening 20 and are arranged at right angles to the cup-shaped portion 41 forming the air supply duct 7. The cup-shaped portion 41 is adjacent to the basic modular unit. In this way, with a special space saving, a multiple chimney system with an air supply duct can be constructed very simply.

PATENTOVÉ

Claims

Claims (21)

Claims TV2 94Μ cross section m / i? I tn t 1. Chimney panel. which outer region or arranged insulating region and the insulating region are formed in one piece has a jacket region in cross section or region to the inner region and on the arranged inner side of the flue gas duct, in that at least the jacket region (46) in particular continuously or discontinuously intersects one another; consist of burnt, high-punched clay. 2. Combination indicating or insulating area of the air intake shaft (7). panel according to claim 1, characterized in that the jacket region (16) (17) has a continuation (21). containing 3. Chimney panel characterized also by the wall (8.8 '). the region i (17) is according to the clause 1 or 2, one-piece protrusions, for example in the form of rivets, bridges or the like, are arranged on the inside. Chimney panel according to one of Claims 1 to 3, characterized in that the flue (9) is a glass pipe, a metal pipe, a plastic pipe or a stoneware pipe. 5. Chimney panel characterized by a jacket area (16). additional insulation layer. accordingly. points 1 to 4, between the flue gas duct (9) resp. the insulating area (17) is 1 9 Chimney panel according to claim 1 or 2, characterized in that the jacket region (16), the insulating region (17) and the flue gas duct (9) are formed in one piece. and consist of burnt clay. 7. Coming new dí lec according to point 6, marked u with that is the flue (9) is arranged to the outside side of the insulating area (17) zoomed out over sculpted di stančn í element (13) 8. i Com 1 new dí lec by points 1 to 7, marked u with that. internal flue side (9) is coated, in particular glazed. 9. Chimney panel according to claims 1 to 8, characterized by. 2. The method according to claim 1, characterized in that there are concentrically extending sets of holes in the jacket region (16) and / or in the insulating region (17), with the material region lying in particular opposite to the holes (3, 3) of one assembly. located between the holes (3, 9) of the second assembly. 10. Chimney panel according to claim 9, characterized by. that by changing the volume, respectively. The volume gradient of the cross-sectional area of the holes (3, 3) is adjustable in the radial direction. 11. The new one consisting of a component according to items 1 to 10, thereby. A chimney panel (1) comprising a plurality of one-piece cup-like parts (11, 11) which are connected via a positive fit, through the groove and tongue projections (23) and the recesses (24). 12. Chimney panel according to claim 1, characterized in that at least one support section or support bridge (4, 4 or 49) is produced. which is arranged such that during extrusion. respectively. extrusion is an unburned product. achievable supporting effect of extruded 13 . Combination characterized by a support bridge (4, 4) as a mass section, respectively. component according to claim 12, characterized in that the support section or a material bridge is formed in the high-hole cross-section. 14. Chimney element according to claim 13, characterized in that the material section or the section of the chimney is formed. the material bridge has at least one row of holes (5, 5) extending in the axial direction. 15 Dec Com 1 new dílec confess Sujíc í s e stretch or supportive bridge (4 sections or supporting bridges (4 running tangential to according to points 12 to 14, characterized in that at least one support or 4) in particular two support 4) are arranged in the direction of the channel (2) for the flue gas duct (9). Chimney element according to Claims 12 to 15, characterized in that a plurality of support sections or sections are provided with a plurality of support sections. The support bridges (4, 4) are arranged in a mirror-like and / or point-symmetrical manner and preferably extend perpendicular to the outer boundary surface (6) of the stack member (1). Chimney element according to claim 12, characterized in that in the cross-sectional plane of the channel (2 or 2). a supporting section is provided in the cross-sectional plane of the flue gas duct (9). respectively. support bridge (49). 18. A chimney component as claimed in claim 17, wherein the support section or the chimney section, respectively. the support web (49) has formed breakpoints. 19. Multiple chimney system with a plurality of chimneys running parallel to one another, optionally with at least one shaft. characterized in that the ventilator exits the chimney panel according to at least one of claims 1 to 18 as the basic modular building blocks by contact means. the parts (45) and the individual connections are mutually fitting 20. The multiple feature of the system of claim 19, wherein the shaped contact means are groove and down recesses and projections (42, 43, 46, 47). 21. A multiple chimney system as claimed in claim 19 or 20, wherein at least a portion of the chimney members used as modular components. are open along at least one side of the sheath area up to a bearing surface (48) which is provided with positive contact means. 22. A method of manufacturing a part according to a chimney panel. especially chimney points 1 to 18, with the following steps ^: (a) use of clay as a matrix; b) forming all the chimney panel or cup part in the extrusion or extrusion process, namely as a high-perforated brick, wherein, in addition to the holes themselves, effective support sections or support bridges in the form of mass bridges are formed transversely to the pressure direction; (c) cutting, drying and burning the unburned product; d) manual or automatic finishing of the chimney part, 23. A method as in claim 1 22, the support sections or support bridges break off after drying or firing. 24. The method of claim 1, wherein the material is a chimney stack, characterized by feature b) of point 22, and the side portion breaks off the material bridges after firing. 22 or 23, during bridge forming provided with a row of holes located between two RH * 7 0 '/ -