CZ35569U1 - Insulation block - Google Patents

Description

Field of technology

The present technical solution relates to an insulating block (block) made of foam material for use as an element for the construction of insulating systems for walls and ceilings of buildings.

State of the art

Polish patent application P.283124 describes a formwork block with two side walls, at the ends with protrusions and grooves. They are connected by transverse walls so that one of them is arranged where the side walls have grooves. Thus, two chambers are created in the block: one closed and the other open. In its upper parts, the transverse walls have at least one recess formed as close as possible to the upper edge of the side walls for accommodating horizontal reinforcement. The construction of the wall walls described in this application consists in that in each layer the tongues of one block are inserted into the grooves of another block.

Another Polish utility model PL 59898 Y1 describes a building block in the form of a single horizontal layer in the form of a wall, which comprises three square openings offset from each other by a constant modulus forming one third of the length of these blocks. The openings are arranged so that in each subsequent horizontal layer the walls coincide vertically with each other and form columnar openings used for accommodating vertical reinforcement and filling with concrete.

Still further, the description of Polish patent PL 167039 B1 describes a modular wall element made of gypsum materials for the dry construction of all external walls, said element comprising a central cylindrical opening between the half-width front walls and two half-cylindrical openings extending into the side walls. The side walls are provided with a half-cylindrical groove and a half-cylindrical protrusion, arranged vertically and symmetrically in strips and placed alternately with respect to each other. Around the cylindrical central hole and the half-cylindrical holes in the upper part of the element there is a protrusion and half-protrusions in the form of two truncated pyramids with rounded side edges and in the lower part of the element there is a recess and two half recesses with dimensions corresponding to the dimensions of the protrusion and the two half protrusions.

Polish patent PL 172426B1 describes a set of masonry blocks, some of which have concave channel depressions on their front walls, while others have convex walls that can be connected to these channel depressions. Furthermore, in the central partition, the fully modular block has a groove or hole for inserting a connector intended for connecting adjacent blocks - blocks.

Current technologies and methods of constructing wall insulation layers from blocks (blocks) include methods of joining elements by "contact" without the use of mortar, as well as joining blocks and bricks using lime-cement mortar, sealant or lining, so-called formwork: metal, wood or concrete. blocks, gypsum or other formwork materials in place and then poured with concrete, filled with reinforced concrete or foam gypsum.

However, no solution has been described for a connecting system for insulating elements, comprising in particular blocks (blocks) of foam materials for the construction of insulation systems for walls and ceilings of buildings, which would easily and effectively prevent rainwater or condensation from accumulating in cavities on upper surfaces. When installing the insulation layer during rain, it often happens that, despite the use of shields, rainwater and / or condensation water accumulates in the cavities on the upper surface of the blocks, including the grooves forming part of the block joining system. The presence of water is definitely undesirable, as it may freeze at sub-zero temperatures (which would cause the joints of protrusions and grooves between the blocks to seep in) or microorganisms (especially fungi) may grow in a humid environment. In addition, in order to maintain the conformity of the dimensions of the insulation system with the given design, all joints of hollow blocks should be assembled by "contact", ie without

-1GB 35569 UI left spaces. In the event of water accumulating in the grooves on the upper surface of the blocks, due to the low compressibility of the water, the lower surfaces of the next layer of blocks set from above cannot fully adhere to the upper surfaces of already assembled blocks. In practice, the differences resulting from the sum of the thicknesses of the water layers on each subsequent layer of blocks have reached up to 20 cm. For these reasons, it was desirable to ensure efficient but easily feasible drainage of water from the cavities in the upper surfaces of the insulating blocks, which was achieved with the block (block) according to the present technical solution.

The essence of the technical solution

The present technical solution relates to an insulating block (block) made of foam material, which has a number of protrusions on the lower surface and a corresponding number of grooves on the opposite upper surface. The block according to the present technical solution is characterized by drainage channels located on the upper surface of the block, one drainage channel being led through the bottom of each groove and the outlet of each drainage channel being located at the edge of the upper surface of the block.

In a preferred embodiment of the insulation block according to the present technical solution, the drainage channels are arranged parallel to each other.

In another preferred embodiment of the insulation block according to the present technical solution, the drainage channels are led horizontally and the bottoms of the drainage channels are inclined with the bottoms of the grooves.

In another preferred embodiment of the insulation block according to the present technical solution, the bottoms of the drainage channels are inclined with respect to the plane defined by the upper surface of the block (block).

In a particularly advantageous embodiment of the insulation block according to the present technical solution, the bottoms of all drainage channels are inclined in the same direction in the same way. In another particularly advantageous embodiment of the insulation block according to the present technical solution, the slope of the bottom of the drainage channels with respect to the plane defined by the upper surface of the block is in the range from 0.5 to 5%, preferably 1.5%.

In another preferred embodiment of the insulation block according to the present technical solution, each groove has the outline of a regular polygon or circle, preferably a rectangle (rectangle, and in particular a square), seen from above.

In another preferred embodiment, the insulating block according to the present technical solution is in the shape of a prism, for example a block, or a block composed of several prisms (blocks) connected by side walls.

Due to the presence of drainage channels, the insulation blocks according to the presented technical solution allow to drain water from the grooves. In the case of horizontally guided channels which have bottoms sloping with the bottoms of the grooves, the drainage of water is forced when the protrusions of another block fitted from above are inserted into the grooves. Under pressure, water escapes through the drainage channels. On the other hand, in the case of channels with bottoms inclined with respect to the plane defined by the upper surface of the block, water is drained from the grooves due to gravity and any residual water is removed as a result of the above-described deployment of another block attached from above.

Thanks to an extensive system of corresponding locks formed by joints of protrusions and grooves on the upper and lower surfaces of the blocks, insulation blocks according to the present technical solution allow to insulate walls and ceilings of buildings successive layers of blocks. Insulation blocks according to the present

-2 CZ 35569 The UIs of the technical solution are designed so that the outlets of the drainage channels point outside the block and, for aesthetic reasons, point inside the constructed building. As a result, rainwater or condensation water can be easily and efficiently drained from the upper surfaces of the insulation blocks before or at the latest during the installation of the insulation systems.

Clarification of drawings

The subject of the present technical solution is shown in the drawings, in which FIG. 1 shows a block according to the present technical solution in a perspective view, FIG. 2 shows a simplified perspective view of the upper part of the block according to the present technical solution, FIG. 3a shows a perspective view of a fragment of the upper part of a block according to the present technical solution, FIG. 3b shows a section in the vertical plane of a fragment of the upper part of the block of FIG. 3a, FIG. 4a shows a perspective view of a fragment of the lower part of the block according to the present technical solution, FIG. 4b shows a section in the vertical plane of a fragment of the lower part of the block of FIG. 4a, FIG. 5a shows a top view of a block according to the present technical solution, FIG. 5b, 5c, 5d and 5e show cross-sections of the block of FIG. 5a along the planes A-A, B-B, C-C and D-D, respectively. 6 shows another advantageous variant of the block according to the present technical solution in a perspective view.

Examples of technical solutions

The insulating block according to the present technical solution has on the lower surface 1 a row of protrusions 3 (see Figs. 1,4a, 4b and 5d) and on the opposite upper surface 2 a corresponding row of grooves 4 (see Figs. 1, 2, 3a, 3b, 5a and 5b). Drainage channels 5 are arranged on the upper surface 2 of the block, one drainage channel 5 being led through the bottom 6 of each groove 4 and an outlet from each drainage channel 5 being located at the edge of the upper surface 2 of the block. As shown in FIG. 2, 3a and 5a, the drainage channels 5 are arranged parallel to one another. The arrows in FIG. 2 indicate the direction of water drainage through the drainage channels.

Giant. 5a, 5b and 5c show a variant of the block according to the present technical solution, in which the drainage channels 5 are guided horizontally and the bottoms 7 of the drainage channels 5 are aligned with the bottoms 6 of the grooves 4. FIG. 2, 3a and 3b again show another variant of the block according to the present technical solution, where the bottoms 7 of the drainage channels 5 are inclined with respect to the plane defined by the upper surface 2 of the block. The bottoms 7 of all drainage channels 5 in the variant of the technical solution shown in FIG. 2, 3a and 3b are equally inclined in the same direction.

Preferably, the inclination of the bottom 7 of the drainage channels 5 with respect to the plane defined by the upper surface 2 of the block is in the range from 0.5 to 5%, preferably 1.5%. In a preferred variant of the technical solution shown in FIG. 1, 2 and 3a, each groove 4 has a square outline in top view. In a preferred variant of the technical solution shown in FIG. 1, the insulation block is formed as a prism. In another advantageous variant of the technical solution shown in FIG. 6, the insulating block is formed as a block composed of several blocks connected by side walls in an L-shape in a top view. In addition, the block according to the present invention can be combined with separate elements, as shown in FIG. 6.

Claims (8)

PROTECTION REQUIREMENTS An insulating block made of foam material, which is provided on the lower surface (1) with a series of protrusions (3) and on the opposite upper surface (2) corresponding to a series of grooves (4), characterized in that it is further provided with drainage channels (5) on the upper surface (2) of the block, wherein one drainage channel (5) is guided through the bottom (6) of each groove (4) and wherein the outlet of each drainage channel (5) is located at the edge of the upper surface (2) of the block. Insulation block according to Claim 1, characterized in that the drainage channels (5) are arranged parallel to one another. Insulation block according to claim 1 or 2, characterized in that the drainage channels (5) are guided horizontally and the bottoms (7) of the drainage channels (5) are aligned with the bottoms (6) of the grooves (4). Insulation block according to claim 1 or 2, characterized in that the bottoms (7) of the drainage channels (5) are inclined with respect to the plane defined by the upper surface (2) of the block. Insulation block according to claim 4, characterized in that the bottoms (7) of all drainage channels (5) are equally inclined in the same direction. Insulation block according to claim 4 or 5, characterized in that the inclination of the bottom (7) of the drainage channels (5) with respect to the plane defined by the upper surface (2) of the block is in the range from 0.5% to 5%, preferably 1; 5%. Insulation block according to any one of claims 1 to 6, characterized in that each groove (4) has, when viewed from above, the outline of a regular polygon or circle, preferably a rectangle, in particular a square. Insulation block according to any one of claims 1 to 7, characterized in that it is in the form of a prism or a block composed of several prisms connected by side walls.