SE503910C2 - Heat accumulating fireplace composed of separate prefabricated module elements - Google Patents

Abstract

A fireplace with heat-accumulating walls (2, 3, 4, 5) comprising a combustion chamber (10) and a flue gas space (14) being dismountably composed of separate, prefabricated module elements for walls (2, 3, 4, 5), top (7) and bottom (1), the wall elements (2, 3, 4, 5) consisting of an outer plate cover (28) formed as a mould, heat-accumulating material (29) being moulded therein and having assembly means (32) at its edge areas for dismountable mounting of the wall elements (2, 3, 4, 5).

Description

15 20 25 30 35 503 910 2 fireplace with heat-accumulating walls, which can be easily and quickly mounted on site without special expertise, which does not require transport and installation of heavy and awkward elements, but still has heat-accumulating and heat-dissipating properties approaching those of a conventional tiled stove.

Another object of the invention is to provide a fireplace which is completely or partially dismantled and allows easy replacement of defective parts without the entire fireplace having to be dismantled.

A further object of the invention is to provide a fireplace which allows optimization of the flue gas temperature in the building in which it is to be mounted.

A further object of the invention is to provide a fireplace which can be used as a fireplace in the renovation of tiled stoves.

These and other objects are achieved in the initially stated heat-accumulating fireplace which according to the present invention is characterized by wall module elements in the form of prefabricated side, front and rear walls having an outer sheet metal shell, formed as a mold with a bottom forming said outer sheet shell and the height of which corresponds to the desired thickness of heat-accumulating material, and heat-accumulating material cast therein, and mounting means arranged in the edge areas of the module elements for demountable assembly of the wall module elements.

This design enables an economical production of the wall elements. Furthermore, the flue gases come into direct contact with heat-accumulating mass facing inwards towards the flue gas space and moisture can thereby be both absorbed by and released from the accumulating material and the risk of cracking and erosion is thereby considerably reduced compared with e.g. a design with sheet metal on both the inside and outside of the wall elements.

Furthermore, the fireplace can be transported in relatively easy-to-handle pieces and very easily assembled in its intended place as well as completely or partially dismantled. The installation time for the entire fireplace will be very short.

Furthermore, the fireplace is well suited for installation of any kind and it can easily be provided with water heating means and / or hot air circulation means. Further developments of the invention are stated in the subclaims. Brief Description of the Drawings Further objects, advantages and features of the invention will become apparent from the following detailed description of preferred embodiments of the invention shown in the accompanying drawings, in which Fig. 1 schematically shows an exploded view of the mountable and demountable fireplace, Fig. 2 schematically shows the fireplace in assembled condition, - Fig. 3 shows a vertical cross-section through the fireplace from the front, Fig. 4 shows a vertical side cross-section view through the fireplace, Fig. 5 shows a horizontal cross-section through the fireplace, taken along the line AA in Fig. 3, Fig. 6 shows a top plan view of the fireplace, Fig. 7 shows a schematic perspective view of the flue gas module, where invisible parts are shown in broken lines, and Fig. 8 shows a bottom insert in the combustion chamber.

Description of preferred embodiments Fig. 1 schematically shows the construction of the fireplace according to the invention of separate module elements in the form of a plinth element 1, side wall element 2,3, rear piece 4, front piece 5, an insert module 6 for hanging fireplace doors and a top element 7. Fig. 2 schematically shows the parts assembled into a unit 8. This construction of a fireplace involves a new way of thinking. Transport of the individual elements does not offer any problems at all, nor does the assembly, since the individual parts have a relatively low weight. Because the elements are self-supporting, as will be discussed in more detail below, the installation is simple, and it is also possible to dismantle the fireplace without further ado, in whole or in part.

Fig. 3 shows a vertical section from the front of the fireplace.

The fireplace rests on the base 1. On this, with any sealing compound or other means for sealing, the side wall elements 2,3 and the back piece 4 are placed. The elements are mounted successively and connected with suitable joints, e.g. by screwing with any insertion of sealing means in a suitable manner. The top of the fireplace is formed by the top element 7, which includes a flue gas nozzle 8 and a damper 9 for this. In the lower part of the fireplace a combustion chamber 10 is housed, the walls of which are lined with refractory material 11. In the embodiment shown, the side wall elements comprise air ducts 12,13 for circulating air, whereby direct heating of air is achieved.

The fireplace can be combined with a fan for forced circulation.

In the upper part of the fireplace is arranged a flue gas space 14 which is separated from the combustion chamber 10. Suitable residence time and optimal transfer of heat from the flue gases to the heat accumulating walls is achieved by means of the flue gas module 15 arranged in the flue gas space. , the lower part of which funnel-shaped expands so that an intermediate bottom 17 is formed, which delimits the two spaces of the fireplace from each other. Arranged above this central flue gas duct element is a hood element 18, in which the flue gas is forced to turn and flow downwards again and then turn up again to pass out through the flue gas nozzle 8 located at the top. With this design it is possible to optimize the function of the fireplace by regulate the length of the flue gas path through the flue gas space to e.g. adapt the fireplace to an existing chimney or equivalent.

In the embodiment shown, turbulators 19 are arranged on the outside of the hood element in order to further improve the heat dissipation of the flue gases to the heat-accumulating wall elements which surround the flue gas space.

A primary air intake 20 is arranged in the base element for supplying combustion air to the bottom of the combustion chamber. A bottom insert 21 is arranged in the bottom of the fireplace with a central, suitably latticed or rusted opening 22. Secondary air ducts 23 are also arranged in the base element 1, which openings as openings 24 in the rear limiting wall of the combustion chamber.

Fig. 4 shows a vertical side cross-sectional view, from which, in addition to that shown in Fig. 3, it can be seen that the flue gas module 15 is arranged freely from all the walls of the flue gas space. Furthermore, dashed lines 25 are indicated by dashed lines which control the air circulating in the side wall elements intended to be heated directly. The flue gas module is mounted on brackets 26, which are suitably screwed, at 27, into the side wall elements. This offers a simple solution to the problem of inspecting and possibly repairing the flue gas module without having to dismantle the entire fireplace for that purpose. By removing the brackets 27 and dropping the flue gas module into the combustion chamber, it can then be disassembled and removed through the hatch opening.

Fig. 5 shows a horizontal cross-section through the fireplace taken along the line A-A in Fig. 3. The wall elements are formed with an outer casing 28 of sheet metal, preferably 3 mm sheet steel. In this way, the wall elements obtain the desired rigidity and become self-supporting.

The plates of the wall elements are bent to form a rim with a height corresponding to the desired thickness of heat-accumulating material 29. The shape of the bend is adapted so that double sealing surfaces 30, 31 at an angle are achieved in the corners, whereby a very good seal can be achieved with simple average. The wall elements can be screwed together by direct screwing in the plate, as illustrated with screw 32 in fig., Or any reinforcement can be arranged e.g. in the form of a welded nut. Alternative solutions can easily be conceived without deviating from the invention's idea that the fireplace should be built up of self-supporting, separately manufactured elements for assembly on site.

By designing the wall elements with an outer plate jacket, a number of advantages are achieved. The fireplace can be used in its existing condition, but is equally suitable for installation completely as desired. A decisive advantage, however, is that the plates function as remaining molds and heat-accumulating mass is preferably cast directly in the plates. After the casting has hardened, the wall elements are ready to use. The problem of demoulding disappears e.g. completely. To reduce the risk of cracking in the heat-accumulating material, sheet metal partitions can be arranged in the sheet metal molds to thereby divide the heat-accumulating mass into several blocks (not shown in the drawings).

Fig. 6 shows a top plan view of the top of the fireplace. It is in the embodiment shown designed to be filled with sand or the like and can be supplemented with mineral wool insulation or the like, and comprising the flue gas nozzle 8 and the damper 9. The damper is operated by means of a control 33 accessible from the side of the fireplace.

Fig. 7 shows the flue gas module 15 in perspective. The flue gas module comprises a central flue gas duct element 16 with a lower extended part with a lower side edge corresponding to the cross section of the fireplace, arranged to function as a middle bottom or partition between the combustion chamber and the flue gas space. Sooting or inspection hatches 34 are suitably also arranged in this part, which can also function as a by-pass line if necessary. From the combustion chamber 10, the flue gases are directed up through the central flue gas duct element up towards the inside of the hood arranged above it, and further, as described in connection with Fig. 3.

Fig. 8 shows the bottom element 21 on a larger scale with the central opening 23 for primary air supply as well as ledges 35 at the upper edge for placing refractory material around the walls of the combustion chamber.

The flue gas module is suitably made of 3 mm sheet metal. In the embodiment shown, the hood has a pointed top, but other embodiments are also conceivable, e.g. hemispherical, flat, substantially flat with rounded corners. The figure shows a construction that allows displacement of both parts of the flue gas module in relation to each other in order to thereby change the length of the flue gas ducts, whereby a fitter can thus adapt and optimize the function of the fireplace when connecting to an existing chimney in an older property. in connection with the fireplace assembly or at a later time.

A suitable plate thickness in the module element is 3 mm, which gives a stable supporting structure. A wall thickness of about 80 mm, ie. 77 mm heat accumulating material, is suitable.

Thanks to the design of the fireplace, it can be installed in practically all spaces without any special restrictions.

It can then be used in its existing condition or bricked or in another way built in e.g. in an old tiled stove, which then gets a modern interior and which meets all conceivable requirements authorities can set.

The fireplace can also be supplemented with hot water preparation, fans for air heating through the installation or installation of conventional equipment.

With the fireplace according to the invention, a flexible, easily adaptable heat source is thus achieved which replaces virtually all variants of wood-burning stoves, tiled stoves, soapstone stoves, etc. on the market.

Claims (5)

10 15 20 25 503 910 PATENT CLAIMS Heat-accumulating fireplace demountable composed of separate module elements comprising combustion chamber and flue gas space, characterized by wall module elements in the form of prefabricated side (2,3), front (5) and rear (4) walls having an outer plate jacket (28 ), formed as a mold with a bottom forming said outer plate sheath and with a rim whose height corresponds to the desired thickness of heat-accumulating material, and heat-accumulating material molded therein (29), and in the edge areas of the module elements mounting means for demountable assembly of wall-modular assembly. Fireplace according to Claim 1, characterized by a flue gas module (15) of sheet metal arranged in the flue gas space. Fireplace according to claim 2, characterized in that the flue gas module comprises a central flue gas duct element (16) connected to the combustion chamber and a hood element (18) surrounding it with walls which overlap the walls of the central flue gas duct element. Fireplace according to claim 2, characterized in that the flue gas module has a lower bottom plate with a shape corresponding to the inner cross section of the fireplace and forming an intermediate bottom (17) between combustion chamber and flue gas space, that said intermediate bottom is mounted on removable brackets (26) and that the flue gas module is arranged divisible, whereby the parts can individually be dropped into the combustion chamber and picked out through an access opening to the combustion chamber. Fireplace according to claim 3, characterized in that turbulence-creating baffles (19) are arranged on the outside of the hood element.