NL2002249C2 - METHOD FOR BUILDING A HEATING PLACE AND A HEATING COMPOSITION - Google Patents

Description

Method for constructing a fire place as well as a fire place assembly

The present invention relates to a method for building up a fireplace, comprising the fitting of a seat of fire, and the fitting of a flue gas duct. Such a method is known from US 4,478,208. This describes the construction of a fireplace where the actual firebox constructed from blocks is executed. This firing place is of the type that after firing continues to give off heat for a longer period of time, that is to say the blocks for the fire are of the heat-blocking type.

There is nothing in this publication regarding the possible completion of the fireplace thus obtained. That is, it is not apparent from this patent what further measures are being taken to achieve an attractive appearance of the construction thus obtained.

In the state of the art, such an appearance is realized by building up a covering around the seat of fire with conventional building materials step by step. Because the wishes of the users can differ, refractory bricks or other insulating material are used and after finishing, for example by bricklaying, a finishing layer is applied to it.

20 This activity requires great expertise and accuracy because most work is visibility work and must meet high requirements. Moreover, such fireplaces are used not only in new construction but also in existing construction, whereby the nuisance must be limited as much as possible.

It is an object of the present invention to provide a method with which it is possible in a very efficient manner to realize a fire place both in new construction and in existing construction wherein the appearance of the fire place is attractive and the construction can be realized efficiently without that considerable craftsmanship is required for this.

This object is achieved in an above-described method in that an insulating covering is provided around the furnace part, which insulating covering comprises insulating block parts, which block parts have an internal shape adapted to the part of the furnace against which they are placed and have an external shape that corresponds to the final shape of the fireplace.

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According to the present invention, the insulating covering known in the state of the art is not built up from loose small parts such as bricks, but is supplied as units that can be placed quickly and efficiently and can be connected to each other, for example by gluing. These block parts have relatively large dimensions, so that, for example, in height direction only one or a maximum of two block parts are required for covering the seat of the fire. These block parts are internally adapted to the standardized firebox as much as possible. Different block types can exist to provide a different appearance of the insulation around the seat of the fire. The block parts are designed such that on the construction site it is in principle not necessary to share the block parts or to reduce them in another way. As a result, the insulating casing can be fitted around a seat of fire with limited craftsmanship.

The present invention relates to fireplaces of the type in which the heat is directly released to the environment and in which accumulation of heat is not essential. More particularly, the present invention relates to the manufacture of fireplaces. The method described above can be carried out in a simple manner by modulating the insulating block parts such that all this comes within the reach of do-it-yourselfers.

The method described above can also be used for the front plate or cover plate of the firebox. The same applies to the parts connecting to the seat of the fire such as the hood and the flue gas duct. After these have been installed, shielding thereof and the desired appearance can be obtained in a simple manner with specifically designed and adapted insulating block parts. By supplying block parts with the same internal shape with different external shape and / or different external surface treatment, it is possible to opt for a different appearance. A chimney can be assembled as desired in a simple manner without the need for great craftsmanship with regard to assembling the various parts. Moreover, it is possible to construct a structure very quickly after the various parts are available. A complete stove assembly can be realized within a day. Based on a number of modular dimensions of the seat of fire, the surrounding chimney structure can be determined. The reverse is of course also possible and this 3 applies in particular to the existing building. On the basis of the possibilities, the size of the chimney can be determined and from this the size of the desired firebox can be derived in a simple manner and in this way a package containing the various components can be assembled.

The insulating parts are preferably manufactured by molding. These may comprise any insulating material known in the art, such as ceramic material, for example on a vermiculite basis. These larger insulating blocks are manufactured in advance.

The present invention also relates to a furnace part, a flue gas channel, and an insulating covering arranged around the furnace part, said insulating covering consisting of insulating blocks, the internal shape of which is adapted to the part of the furnace against which they are placed and the its external shape corresponds to the definitive shape of that fireplace. In addition, the invention relates to a furnace part, a flue gas channel, and an insulating covering arranged around the furnace part, said insulating covering being made up of insulating blocks, the internal shape of which is adapted to the part of the furnace against which they are placed and the external shape thereof corresponds to the final shape of that fire place.

The invention will be explained in more detail below with reference to an exemplary embodiment illustrated in the drawing. Show:

FIG. 1 a furnace assembly realized according to the present invention; FIG. 2 shows the various parts that make up this heating plate assembly; and Fig. 3 shows the heating plate assembly according to Fig. 1, wherein certain internal parts are also shown.

In Fig. 1, 1 denotes a heating plate assembly according to the present invention. This consists of a firebox 2 surrounded by an insulating covering to be described below and a discharge channel 3 arranged above it. As can be seen from figure 3, a (pull) cap 12 connects to the firebox 2 to which the pipe parts 18 of the flue gas channel 18 connect. An insulating whole is arranged around this internal metallic construction. In the state of the art, such an insulating 4 was built entirely by hand step by step (by bricklaying), which required much time and great craftsmanship. According to the present invention, it is proposed to construct things modularly. This is shown, among other things, with reference to Figure 2. The furnace 8 is first positioned on a bottom plate 7. Under certain circumstances it is possible to dispense with the bottom plate 7. This applies, for example, to structures where a concrete floor is present. After the firebox 8 has been fitted, the pulling hood 12 and on top the attachment 14 are fitted to which the pipe parts 18 are connected. Subsequently, or in parallel, the various insulating parts can be applied. A back plate 9 is used at the furnace 8 and lateral isolation blocks 10 are provided. Alternatively, it is possible not to use the blocks 9 and 10 but only a few blocks 11 which provide both the side part and the rear part. In principle, the blocks have the same height as the part of the firebox 8 to be covered. A supporting plate 22 is then provided on these insulating blocks 10 and 11, respectively. It is also possible to arrange this last, whereby the insulation to be fitted around the pipe parts 18 does not then rest on this support plate. After fitting the hood 12, a U-shaped insulation block can be placed around it. This is preferably made in one piece. A recording block 15 or a recording block 16 is placed thereon for receiving the attachment. In the embodiment shown here, the opening 21 is closed on all sides so that the receiving block 15 (or 16) must first be placed and only then the attachment 14 can be fitted. It will be understood that by U-shaped design of the recording block 15 or 16, the positioning can take place in a random manner.

The insulating blocks 19 can then be placed. The finishing plate 20 for the seat of the fire can be provided as finish 25. Depending on the wishes of the user, a finishing layer can be applied to the blocks 19. Such finishing layers can, for example, also be applied to the insulating blocks 10/11, but in that case only consist of very easy to apply layers for which no workmanship is required.

The various components described above are constructed according to a modular system. That is, if a larger chimney is desired, larger parts can accordingly be used, whereby a number of discrete dimensions of the chimney can be provided by changing the parts stepwise. As a result, it is possible with a limited supply of parts to realize any desired dimensions inspection very quickly without the need for special craftsmanship.

After reading the above, those skilled in the art will immediately see changes that are within the scope of the claims and are obvious.

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Claims (11)

Method for building a fireplace (1), comprising the fitting of a furnace part (8) and the fitting of a flue gas channel (3), characterized in that an insulating covering (10) is arranged around the furnace part (8) 11) is provided, which insulating covering comprises insulating block parts, which block parts have an internal shape adapted to the part of the seat against which they are placed and have an external shape corresponding to the final shape of the fireplace. 10 Method according to claim 1, wherein after the provision in the flue gas channel an insulating coating (19) is applied around it. 3. Method as claimed in any of the foregoing claims, wherein an insulating cover plate (20) is provided for the firebox part, the internal form of which is adapted to the part of the firebox against which it is placed and the external form corresponds to the final external shape of the fireplace. Method according to one of the preceding claims, wherein said insulating parts 20 (10, 11, 19, 20) are produced by molding. Method according to one of the preceding claims, wherein the joining together of the insulating parts (10, 11, 19, 20) comprises only gluing. A furnace assembly (1) comprising a furnace part (8), a flue gas channel, and an insulating covering (9-11) arranged around the furnace part, characterized in that said insulating covering is made up of insulating blocks, the internal shape of which is adapted to the part of the seat against which they are placed and the external shape thereof corresponds to the definitive shape of that fire place. An assembly according to claim 6, wherein after the provision in the flue gas duct (3) insulating covering (19) is provided around it. An assembly according to claim 6 or 7, wherein an insulating cover plate (20) is arranged in front of the furnace part (8), the inner form of which is adapted to the part of the furnace against which it is placed and the outer form 5 corresponds to the final external shape of the fireplace. 9. Collection of parts for manufacturing a furnace assembly comprising a furnace part (8), a flue gas channel, and an insulating covering (9-11) arranged around the furnace part, characterized in that said insulating covering is composed of insulating blocks, of which the internal shape is adapted to the part of the seat against which they are placed and the external shape corresponds to the final shape of that fire place. 10. Collection as claimed in claim 9, comprising an insulating coating (19) for a flue gas channel. 11. Collection as claimed in claim 9 or 10, comprising a cover plate (20) for a firebox part, the internal form of which is adapted to the part of a firebox against which it can be placed and the external form corresponds to the definitive form of a fire place.