HU188672B - Refractory building unit for making internal mantle and internal structure of two-mantle tile stove - Google Patents

Abstract

The brick allows the easy assembly of the walls of a double wall stoneware stove without any specific knowledge. The brick is shaped on five faces and has one smooth, flat side face 15. On two end faces 10, a median longitudinal rib 12 protrudes, corresponding to a median groove 13 on the other two end faces 11. In the second side face, at least one groove 16 is present, corresponding in width y and depth to that of the longitudinal grooves 13. The longitudinal groove 13 and the side groove 16 have equal distances x from the edge. In the side face 14, further side grooves 16 are preferably present, the central distance of which corresponds to the wall thickness of the building brick, and said grooves are crossing further grooves 17 placed and formed in a corresponding way. <IMAGE>

Description

FIELD OF THE INVENTION The present invention relates to a refractory building element for making the inner mantle and inner superstructure of a two-mantle tile stove, wherein the outer mantle of the tile stove is made of tiles.

Tile stoves are usually constructed of ceramic tiles with variations on the backside parallel to their edges. These ribs serve to connect the tiles to one another by means of connecting clamps or the like, and the joints formed between the tiles are closed with a refractory mass. The internal superstructure, i.e. the flue gas passages, are also made of refractory elements, which are shaped by machining. Therefore, building a tile stove is a laborious, skill-intensive and highly-skilled job. Attempts have already been made to simplify this by making tile stoves two-jacketed. In this case, the inner cladding and superstructure were made of refractory elements, while the outer cladding was designed as a tile covering consisting of individual tiles or prefabricated tiles. Similarly, this work can only be done by a specialist, although making the outer sheath from tiles has been a major simplification.

It is an object of the present invention to provide a building block of the type described in the introduction for two-mantle tile stoves in such a way as to permit the construction of tile stoves of various sizes in a simple manner without any particular skill. In particular, it is an object of the present invention to facilitate the easy and rapid construction of the inner jacket and inner body, such as flue gas passages.

According to the invention, the object is solved by providing the building element with a central longitudinal rib, two longitudinal grooves on the other two front sides, and at least one first side sand and one at least one second side sandwich, each of which is perpendicular to the first side. the groove is of the same design as the longitudinal groove, whereby the edges of the first and second side grooves are each corresponding to the edge of the longitudinal groove, while the other side surface is formed as a flat surface.

Preferably, the side surface leads to at least two parallel side grooves having a central distance of at least the thickness of the building block. <

Building blocks, in particular hollow plastic building blocks, which have grooves and ribs on all their face and side surfaces, are already known, for example, from Austrian Patent 314,165. However, the building blocks described herein have only longitudinal grooves and ribs on their side surfaces. Thus, they are hardly applicable to the interior structure of tile stoves, given the frequent angular design of the flue gas passages, since they would have to be partially rotated to the corners to form the corners and turned to the side. In tile stoves, the tiles' side surfaces of the tiles must be closed and flat to prevent the formation of an air cushion between the tiles and the tiles, as this will reduce heat transfer. (

As mentioned above, the building element according to the invention has closed flat side surfaces on the tile side so that the inner sheath has a flat outer surface on which the tile can then lie flat and prevent the formation of air cushions or air passages (2). The intersecting grooves on the inward facing side surfaces allow for easy construction of the inner structure, as the longitudinal ribs of the horizontal building blocks can be inserted into the lateral grooves of the building envelope components. This makes it impossible to calculate the proper cross-section of the flue gas passages, as the building blocks they fit correctly with each other when the rib of the forehead is located in a longitudinal or side groove.

The possibilities of reconstruction and design of the inner superstructure can be further improved by an embodiment of the building element according to the invention, wherein the length and height of the side surface are always multiple of the thickness of the building element, where the number of parallel side grooves is always equal to this multiple.

DETAILED DESCRIPTION OF THE DRAWINGS The invention will be explained in more detail by reference to the drawings, in which some exemplary embodiments of the present invention are illustrated. In the drawing:

1-4. Figures 2 to 5 show a top view and a side view of two exemplary embodiments of a building element according to the invention;

Figure 5 is a perspective view of a corner section formed of the building block of Figures 1 and 2;

Figure 6 is a detail of two sheaths for a replacement stove.

The building element 1 according to the invention preferably has square sides 14 and 15, one of which, in this case the side surface 15, is flat. It has a central longitudinal rib 12 at its two end faces 10 and a longitudinal groove 13 corresponding to the longitudinal ribs 12 at its other end faces 11. As shown in Figures 1 and 2, and in Figures 5 and 6, the ribs 12 and 13, respectively, are formed on the interconnected faces or, as shown in Figures 3 and 4, on the inclined faces.

Significant simplification of tile stove construction is achieved by the side grooves 16 and 17, which are inserted into the inward side surface 14 of the building element 1 when constructing the inner sheath. The edge distance x of the side sanders 16 and 17 corresponds to the edge distance 13 of the longitudinal sand formed in the front face 11. The side grooves 16 and 17 are always of the same width as the width y of the longitudinal groove 13 and the longitudinal rib 12 so that the longitudinal rib 12 of the front surface 10 can also be introduced into the lateral grooves 16 and 17.

Figures 1 and 2 illustrate a preferred exemplary embodiment. In this case, four first side grooves 16 are recessed into the side surface 14, having a width y equal to the width of the longitudinal groove 13 and spaced by xx. The distance x between the two outermost side grooves 16 corresponds to the longitudinal groove 13. It follows that the median distance z of the side sand 16 is of thickness d, which is equal to a quarter of the height of the building block 1. Further, in the present case, four second side grooves 17 are provided which intersect the first side grooves 16 at right angles, and the same relationships apply. Thus, protrusions are formed between the side grooves 16 and 17 for which

-2188 672 surface in corner area x-x, otherwise x-xx at edges, cs xx-xx in center area.

Due to the large number of sidewalks, this building block provides all the flue gas passages, intermediate walls, etc. required for the internal structure of the tile stove. 5, as shown in Figure 5, any arrangement can be easily accomplished.

The embodiment 1 according to Fig. 3, in which the side 14 is rectangular.

The lateral surface 14 is provided with two second grooves 16 and 17 having two lateral grooves 16 and 17, respectively, each having the same distance x corresponding to the distance of the longitudinal groove 13 and the longitudinal ribs 12, respectively. This embodiment also illustrates the possibility that the longitudinal ribs 12 and the longitudinal grooves 13 are formed on the opposite end faces 10, 11. Of course, this building block 1 can also be provided with additional side panels 16,17.

When constructing the inner mantle of the tile stove, the building blocks 1 are arranged such that the closed flat side surfaces 15 form the outer side of the inner mantle, so that the tiles 4 rest on their entire surface on the building blocks 1 without forming air cushions or air ducts. The 4 tiles used are of course flat on their backs without ribs. The tiles 4 are provided with a circumferential groove 18 on their faces 20 for connecting the tiles 4 to each other.

T-shaped connecting elements 19 are then inserted into the grooves 18 of the tiles 4. The middle leg of the T-shaped connector 19 connects the two adjacent tiles 4 and the cross member of the connector 19 connects them to the tile 30 of the next row.

With the building blocks of the invention, two-mantle tile stoves can be pre-designed, the necessary building blocks can be prepared and, preferably, sold together with the tiles 4 as a building kit. The inner jacket and inner superstructure can be built without any particular skill according to the construction plan, since the position of the building blocks 1 'is clearly defined by the grooves and ribs, and in many cases the desired position of the building blocks can be drawn without any particular difficulty.

Claims (4)

Claims A refractory building element for making an inner shell casing of an inner jacket of a two-jacketed tile stove, the outer jacket of which is constructed of tiles, characterized in that it has a central longitudinal rib (12) on two front faces (10) the longitudinal groove (13) and the two lateral grooves (14, 15) having at least one first groove (16) and at least one second lateral groove (17) perpendicular to the first side groove (14), each of which has a groove ( 13) of the same size, wherein one edge of the first and second side grooves (16, 17) is formed according to the edge distance (x) of the longitudinal groove (13) of the front face (11) and the other side face (15) is formed as a flat face. An embodiment of a refractory building element according to claim 1, characterized in that at least two parallel side grooves (16, 17) are formed in the side surface (14) having a central distance (z) at least of the thickness (d) of the building element (1). of equal value. Embodiment of a refractory building element according to claim 2, characterized in that the length and height of the side surface (14) is always an integer multiple of the thickness (d) of the building element (1), wherein the number of parallel lateral lobes (16, 17) is always the same as this multiple. 4. The refractory building element according to any one of claims 1 to 3, characterized in that the width (y) of the ribs (12) and / or the longitudinal groove (13) of the front surfaces (10,11) is equal to half the thickness (d) of the building element (1).