• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Insulating block for the erection of walls. Block that includes two main wall faces (10), parallel, surrounded and joined by means of four perimeter faces (11); a body of insulating material (20); at least one covering panel (21) of rigid material, attached to the body of insulating material, said covering panel forming at least one main face of the block; said at least one facing panel having a main face less than 25% of the volume of the block; and the distance between the main faces (10) being at least 7 cm; the insulating material having a density between 100 and 200 kg/m3; and a compressive strength of at least 100 kpa; so that the body of insulating material of each block allows to support the weight of other identical blocks superimposed for the erection of self-supporting walls of at least 3 m in height. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2595511A1
    申请号:ES201530930
    申请日:2015-06-29
    公开日:2016-12-30
    发明作者:Vicente Sarrablo Moreno
    申请人:Vicente Sarrablo Moreno;
    IPC主号:
    专利说明:

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    DESCRIPTION
    INSULATING BLOCK FOR THE ERECTION OF WALLS Field of technology
    The present invention concerns an insulating block for the erection of walls that provides thermal and acoustic insulation by means of prefabricated blocks that combine a body of insulating material with a cladding panel, for example ceramic, porcelain, stone, chipboard, or wood or resin .
    State of the art
    Insulating blocks for erecting walls that combine thermal and acoustic insulating material with a ceramic material cladding panel are known.
    Many of the known documents constitute cladding blocks, which need to be fixed on a wall or structural element to be supported, as is the case of documents DE1807883, EP2789765 and EP1997977. However, these solutions do not allow the erection of self-supporting walls, since the blocks are not provided for this purpose.
    Other insulating blocks designed for erection of self-supporting walls are also known, such as those known through documents DE4437885 and DE4233633.
    In the case of the first document DE4437885, an artificial stone brick is proposed that has a coating of insulating material. In this case the structural resistance is assumed by the brick, which thanks to its thickness, can even admit friction for the passage of facilities without its structural capacity being reduced, however the total thickness of the block will be very high, occupying a lot of surface area. its placement, or it will have an insulating coating of little thickness and therefore of low insulating capacity.
    In the case of the second document DE4233633, an artificial stone brick filled with a core of insulating material is proposed, which is proposed to be hard foam. The product described in this document reserves the structural resistance to the artificial stone material, disposing it on the opposite outer faces and also inside the insulating material in order to ensure a correct transmission of the charges through said artificial stone material. Practice horizontal friction on this product, affecting said artificial stone material, producing an unwanted weakening of the structural capacity of the
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    block, because the insulating material alone is not ready to hold the overlapping blocks above it.
    In addition to this solution proposed by document DE4233633, it is not permissible for the block to be covered with artificial stone material on only one of its faces, since it requires a resistant capacity on both exterior faces to be able to be supported when the blocks are stacked.
    Documents are also known that describe blocks intended for erection of walls in which the resistant material is a lightened or foamed concrete in order to give it insulating properties, such as in DE102006004434. This solution diverges from the proposed solution, since the insulating qualities of a lightened concrete are not comparable with those provided by materials typically used as insulating materials such as foams, polyurethanes, agglomerated wood fiber panels, etc. Thus, the insulating properties of the obtained wall will be deficient, or walls of much thickness and weight will be required.
    Brief description of the invention
    The present invention concerns an insulating block for the erection of walls that includes:
    • two main wall faces, parallel, surrounded and joined by four perimeter faces;
    • a body of insulating material;
    • at least one rigid material cladding panel, attached to the body of insulating material, said cladding panel forming at least one main face of the block;
    • said at least one cladding panel that covers each main face occupies less than 25% of the volume of the block;
    Therefore, the proposed block has two main wall faces parallel to each other, which in a mounting position will be arranged vertically and will form the accessible faces of a wall erected by the laterally adjacent and stacked arrangement of a plurality of said blocks. The four perimeter walls are those that face other perimeter walls of other blocks in said mounting arrangement.
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    Each block is thus composed of a body of insulating material to which at least one lining panel of rigid material is attached which provides a coating of at least one of said main faces. The rigid material that forms the cladding panel will preferably be, but not limited to, ceramic, porcelain, natural or artificial stone, agglomerated stone or wood, wood, or resins. That is to say that a main face of the block has one of the aforementioned materials of finishing material, being completely formed by a single cladding panel attached to the body of insulating material, or formed by a plurality of cladding panels.
    Likewise, it is contemplated that both main faces of the block have an identical or different material cladding panel, with a finish provided by one or several cladding panels, although according to a preferred embodiment, each cladded main face is formed by a single cladding panel, which will preferably be ceramic.
    It is also proposed that the volume of the at least one cladding panel that provides the coating of the same main face represents a maximum of 25% of the total volume of the block. Therefore, the lining panel (s) cannot represent more than 25% of the volume of the block when only one main face has a lining, and said lining panels cannot represent more than 40% of the volume of the block in case of that both main faces have a coating, although preferably the values will be lower, such as 15% in the case of the coating on a main face, and a maximum of 30% in the case of the coating of the two main faces, or even 10% with one-sided coating and 20% with two-sided coating.
    Additionally, it is proposed that, in a novel way, the proposed insulating block object of the present invention have the following characteristics:
    • the distance between the main faces is at least 7cm;
    • that the insulating material has a density between 100 and 200 kg / m3;
    • that the insulating material has a compressive strength of at least 100 kPa;
    so that the body of insulating material of each block allows to support the weight of other superimposed identical blocks for the erection of self-supporting walls of at least 3m high.
    Optionally, it is also considered optimal that the insulating material has a tensile strength perpendicular to the main faces of at least 20 kPA.
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    The fact that the thickness of the block is greater than or equal to 7cm allows the stability of a wall constructed by said blocks to be suitable for the erection of walls at least 3 meters high. In addition, the low density of the insulating material, together with said thickness and the low proportion of the volume that the cladding panels represent, ensures that most of the block is made of a very insulating material, so that an enclosure erected by means of said blocks offers a very high thermal and acoustic insulation, allowing its use as a separation enclosure between interior spaces and exterior spaces, complying with building regulations in this regard.
    On the other hand, the compressive strength offered by the insulating material is high for materials of this type with low density, which allows said insulating material to assume resistant and stress transmission functions produced by vertical loads. Specifically, the proposed block has been sized so that said insulating material body can withstand, by itself, the weight of multiple blocks stacked on it, constituting a wall 3m high or more.
    For the erection of walls of greater heights it can be combined with retaining anchors to the ceiling, to reinforcement anchors nailed between adjacent blocks to reinforce their union, or in the case of being used as a backing or as a facade cladding, by means of joined reinforcement to the adjoining wall that is being covered or covered.
    Said hidden anchor will preferably be placed attached to the upper part of the block to be fixed, and may consist, by way of example, of an element screwed to the wall to be coated having a flat end inserted between two superimposed blocks, said end being provided with protrusions that are inserted at least in the lower block, either in its insulating material, either in holes or perforations provided in the rigid coating, preferably in the protruding ribs, such that said anchor is hidden from the main face exposed from the wall of insulating blocks.
    This characteristic allows said wall to be stable and self-supporting regardless of the structural contribution that the cladding panels can make, the insulating material being the one that performs the structural function, which allows for example that said cladding panels be placed only in a of the faces
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    main block, it is unnecessary to place said coating on the other main face of the blocks for structural reasons.
    Thus, the essential function performed by said cladding panel is not the structural one, but to offer protection against fire, improve the acoustic insulation of certain frequencies, stiffen the blocks, and serve as a support for the correct adhesion of tiles, of plasters or plasterboard or light paneling of wood or laminated plaster to said wall, and also serving as a support to allow a firm anchoring of all types of supports anchored to the wall by means of screws such as shelves, cabinets, hangers, frames, lights, etc. ., which thanks to said cladding panel can be placed at any point of the wall offering a correct distribution of forces and a high punctual resistance around said screw.
    The cladding panel also has a decorative function, said cladding panels being provided with an aesthetic treatment.
    According to an additional embodiment with optional character, the insulating material is a rigid panel of agglomerated wood fibers, which gives optimum insulating and resistant properties, as well as desirable transpiration and waterproofing capabilities. It is also an interesting material from the ecological point of view to be recyclable and of natural origin, and of low environmental impact. Despite this, the use of other insulating materials is also contemplated, such as polystyrene.
    Additionally, it is proposed that said insulating material body maintain its capacity to support the weight of other superimposed identical blocks for the erection of self-supporting walls of at least 3m in height, after suffering a reduction of its resistant section of a maximum of 25% by means of a horizontal regatta arranged horizontally along a main face of the block, causing an interruption of the vertical transmission of loads through the cladding panel. In this case, the remaining 75% of the block, which can be composed solely of insulating material, is capable of withstanding the vertical loads caused by the weight of the blocks located above said regatta, until the 3m wall is completed as a minimum.
    This characteristic indicates that the resistant capacity of the insulating material body is oversized to allow said insulating material body to maintain the structural stability of the wall even after the realization of a friction or regatta crossing one of the main faces of the block from side to side, eliminating the vertical continuity of the at least one cladding panel of said main face, and therefore preventing the
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    vertical transmission of loads through said cladding panel, and also reducing the resistant section of the insulating material body.
    Therefore, a self-supporting wall constructed of insulating blocks such as those proposed and having one of its faces crossed by a horizontal regatta continue to be stable thanks to the resistant action of the bodies of insulating material of the blocks. It also contemplates the possibility of including factory ducts inside the insulating material for the passage of facilities, avoiding the need to make rubs.
    It is also proposed that the perimeter walls of each block have tongue and groove configurations, which allows a tongue and groove coupling between identical blocks arranged laterally adjacent or vertically superimposed, even if they are positioned laterally displaced as usual in the construction of walls. These tongue and groove configurations provide a correct alignment of the blocks, an optimal load transmission and an easy and fast assembly, as well as improving air and water tightness. You can even consider the assembly of the wall without the use of binders, but by simple insertion of the pieces with each other, which allows a dry construction, and that the blocks are recoverable and reusable. The dry joints can be reinforced with lateral nailing between adjacent blocks and / or with connectors to the adjoining facade support, in the case of using the proposed block for erection of transdoses or exterior cladding.
    In another intended embodiment said at least one cladding panel is disposed on only one of the main faces of the block, the opposite main face being free of any cladding panel and therefore with the insulating material in sight, on the contrary in Another embodiment especially provided for the erection of insulated walls said at least one cladding panel is arranged on the two main faces of the same block, allowing to give rise to a wall of self-supporting insulating blocks with both exposed faces covered with cladding panels.
    According to another proposed additional feature, each cladding panel has protruding ribs on its face that is in contact with the body of insulating material, said protruding ribs being in mounting position, preferably oriented vertically or horizontally.
    Thus, according to said embodiment, the union between the cladding panel and the body of insulating material is produced by the friction existing between said protruding ribs and complementary grooves provided in the body of insulating material in which
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    said protuberant nerves are inserted under pressure, which allows a free manufacture of toxic chemical compounds, typically present in the adhesives, and which can release toxic gases, or be dangerous in case of fire.
    To ensure the correct union, it is expected that said protuberant nerves have a T-shaped or dovetail section, which provides a firmer union.
    However, the joint or reinforcement of the joint between the cladding panel and the body of insulating material by means of adhesives is also contemplated.
    Optionally, it is also proposed that the cladding panel integrate, in coincidence with the main face of the block, a surface finish layer of a material other than the material that forms the cladding panel. Said material will preferably be plaster, in order to provide a pre-plastering of the wall constructed by means of the insulating blocks, to which subsequently only the joints between the different blocks would have to be rejoined to obtain a fully plastered wall ready to be painted.
    It is also proposed that said cladding panels have a plurality of parallel weakening lines, provided to facilitate the breaking or cutting of said cladding panel following said weakening lines. This feature allows an operator to cut the body of insulating material, which can be easily cut by means of a knife or a manual or electric saw, and then break the cladding panel by simple bending, or proceed to its cutting by tools with low power or low penetration capacity, since only the thickness of said cover plate would have to be traversed.
    Said weakening lines will preferably be thinning lines of the material by thin grooves, either by its exposed face or by its face in contact with the insulating material.
    Through this feature the block can be shortened to match the size of the hole in which it should be placed.
    Optionally, they will also include additional weakening lines perpendicular to the other weakening lines.
    The proposed block is intended for the erection of self-supporting walls, but is also indicated for the erection of walls in parallel to existing walls, preferably of façade, at a short distance generating an air chamber, or even in direct contact. Through this construction it is possible to improve the thermal and acoustic insulation of said existing wall. Said wall of insulating blocks can be placed
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    both inside, by way of transdosing, as well as outside, thus simultaneously insulating said facade, protecting it from rain and weather, and can even provide the cladding material. In this realization as exterior cladding of the facade, it is contemplated both in a new building, and in the improvement of the thermal insulation of an old building, but in both cases it is proposed to include a plurality of connectors, or hidden anchors, which anchor said wall of insulating blocks to said facade to better resist horizontal stresses caused by wind, while vertical stresses are transmitted through the overlapping blocks. Said hidden anchors can also be included in the translocated walls, to improve the resistance of said translocated wall to possible horizontal stresses.
    The proposed material allows to obtain the advantages of a ceramic brick wall, referred to its resistance to shocks, ability to withstand hanging elements such as shelves, its acoustic absorption of serious sounds, its compatibility with other materials and construction techniques such as plastering , revoked, tiled, whitewashed, etc., and the absence of hollow sound when struck, as with other paneling construction solutions, together with other advantages provided by the body of insulating material such as its acoustic and thermal insulation, the lightness of the blocks, the ease of cutting, etc. All this in a compact block of small thickness, which allows to obtain all these advantages without having to place the insulation and then build a wall in front, consuming much more space and time.
    It will be understood that references to geometric positions, such as parallel, perpendicular, tangent, etc. they admit deviations of up to ± 5 ° with respect to the theoretical position defined by said nomenclature.
    Other features of the invention will appear in the following detailed description of an embodiment example.
    Brief description of the figures
    The foregoing and other advantages and characteristics will be more fully understood from the following detailed description of an embodiment example with reference to the attached drawings, which should be taken by way of illustration and not limitation and only with a schematic character without scale or proportion, in which:
    Fig. 1 shows an axonometric view in which three blocks stacked in two rows appear, according to a first example of embodiment in which each block only has
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    ceramic coating on one of its main faces, and in which the blocks include a horizontal conduit inserted in the insulating material during its manufacture, for the passage of installations;
    Fig. 2 shows a vertical cross-section of a wall composed of blocks with a coating on a single main face, in which a horizontal regatta has been practiced on the main face covered with the ceramic coating, leaving only a portion of the resistant section of the insulating material body, and said wall being facing and distanced from a brick wall, forming an air chamber between them, the wall of insulating blocks being fixed to the brick wall by means of a hidden anchor screwed to the brick wall and inserted between two superimposed blocks, arranging the hidden anchorage of vertical studs inserted in the protuberant nerves of the ceramic coating;
    Fig. 3 shows an axonometric view like the one shown in Fig. 1, but in which blocks with ceramic coating appear on their two main faces, according to a second example of realization, with the visible face of the weakening line covering parallel in the form of small grooves that facilitate the gripping of mortar or plaster, and that also facilitate the tasks of trimming the insulating block to a desired size.
    Detailed description of an embodiment example
    Fig. 1 shows an exemplary embodiment with an illustrative non-limiting character, according to which the proposed insulating block has two main parallel faces 10 separated by a distance of at least 7cm, said main faces 10 being connected by four side faces 11 intended to connect the blocks side by side.
    The proposed block consists of a rigid body of insulating material 20 composed of agglomerated wood fibers with a density of between 100 and 200 kg / m3 and with a compressive strength of at least 100 kPa, being able to reach 150 kPa. It will be understood that the use of other different materials is also contemplated in the present invention.
    These mechanical properties of the insulating material body, together with its width, provide a high insulating capacity, and mechanical properties that allow it to withstand the weight of a plurality of superimposed blocks to build a wall.
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    at least 3m high. This combined with the stability that gives it a width of at least 7cm, allow the erection of walls up to 3m high self-supporting.
    Said body of insulating material has, according to the present embodiment, maximum dimensions of 40cm long, 20cm high, 9cm wide, these dimensions may be other without affecting the proposed invention, provided that the width be sufficient to ensure the structural and insulating capabilities of the insulating material body.
    In the present example, one of the main faces 10 of the block is formed by a cladding panel 21 attached to the body of insulating material 20. As the body of insulating material is responsible for supporting the vertical loads of a wall composed of said blocks , the ceramic cladding panel does not have to assume vertical loads, and this allows the block to only include cladding panel in one of its main faces 10, in those uses in which only one of the main faces 10 of the blocks remains exposed, and can be said very thin coating.
    Examples of these uses are those of erecting façade translocation walls, in order to provide it with insulation, or the cladding of the façade by its outer face is also contemplated by a wall erected by said blocks. In both cases, the main face of the blocks facing said facade wall does not require a cladding panel, as it will not be accessible after completing the insulating block wall. On the contrary, the other main face 10 will be accessible, and therefore it is so necessary to cover it by means of the aforementioned cover panel.
    The insulating material body 20 will be sized, according to a preferred embodiment, so that it can withstand the vertical loads of a wall 3m high, even in the case that it runs a regatta 23 that horizontally crosses a main face 10 of the block, such as the one shown in Fig. 2, interrupting the vertical continuity of the cladding panel 21, and reducing the resistant section of the insulating material body 20 to 20%.
    However, it has also been proposed that each block includes a conduit 24 inside the insulating material 20, included during the manufacture of the block, said conduits 24 being of adjacent coaxial blocks connectable in mounting position, which allows the passage of installations through said ducts 24 without the need to practice said races 23.
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    Thus, it is optionally proposed that each block include one or more internal ducts 24 that cross said block from one side face 11 to another opposite side face 11, either horizontally or vertically. Said internal ducts 24 are provided for the passage of installations through said blocks. It is also contemplated that, as shown in Fig. 3, that each block has cladding panels 21 covering its two main faces 10. In this case, it is considered a block suitable for the erection of self-supporting insulating walls separated from other walls, for example dividing walls between two adjacent interior spaces, or for the erection of interior and exterior separation walls without the need for any additional walls, providing by itself all the necessary properties for the separation of interior and exterior spaces, referred both to acoustic and thermal insulation, as to impermeability, vapor barrier, etc.
    Said cladding panel is proposed to be made of ceramic material, providing the block with the advantages of brick construction, added to the insulating properties of the proposed insulating material body.
    These advantages include a protection of the insulating material against fire, acoustic insulation against certain frequencies not absorbed by the insulating material, a hard and continuous finish resistant to shocks and punching, and a finish capable of supporting and distributing high point loads such as caused by the screw anchoring, for example the holding of a shelf. The ceramic material also provides an ideal substrate for plastering, plastering, adhering tiles, embossing, liming, etc., in which case it is preferable to include a horizontal grooving to facilitate the grip of these materials (see Fig. 3), and also It is a material suitable for both indoor and outdoor, being weatherproof.
    These properties are not exclusive to ceramics, and therefore can also be obtained by cladding panels 21 of other materials, such as wood, stone, chipboard, resins, etc.
    It is also proposed that the cladding panel include a finish of a different material, for example a plaster layer, or a vitrification of the main face 10. Such finishes provide additional properties, or simply a more aesthetic finish that can be seen without work additional.
    The union between the cladding panel 21 and the insulating material body 20, in the present embodiment, is produced by the geometric interference existing between
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    protuberant ribs 40 protruding from the lining panel 21 on its face which is in contact with the insulating material body 20, which are preferably parallel and vertical, and which are inserted in complementary grooves provided in said insulating material body 20. Both the ribs and the grooves have in this example a dovetail configuration, which gives them a firm anchorage without using adhesives.
    Depending on the elasticity of the insulating material 20 used, the coupling of the insulating material 20 can be made with the cladding panel 21 by pressing, or by lateral sliding from the ends of the block between the body of insulating material 20 and the panel of lining 21.
    The lateral faces 11 of each block have complementary tongue and groove configurations 30, which allow the connection between stacked or laterally adjacent blocks. Said connection ensures a correct air tightness of said joints, which improves the insulating properties of the block, and makes the use of binder material unnecessary, allowing dry construction. Optionally, it is possible to propose the inclusion of joint pieces inserted simultaneously in several adjacent blocks, which allow reinforcing said union. Said joining pieces may consist, by way of example, of metal or plastic elements provided with teeth or legs that are inserted or nailed simultaneously in the bodies of insulating material 20 or in the lining 21 rigid of several adjacent blocks.
    Optionally, in the case of erection of façade or intradosed cladding, parallel to an existing wall, it is contemplated that said wall of insulating blocks be connected to said existing wall by means of hidden anchors 50 that confer resistance against horizontal stresses, shown in Fig. 2 according to an example of realization in which they consist of a thin metal plate fixed to the existing wall by means of screwdriver, and sandwiched between two superimposed insulating blocks, the hidden anchor 50 being connected to said insulating blocks by means of vertical lugs that they are inserted inside complementary holes provided in the protuberant ribs on the back face of the lining 21, thus being anchored and hidden.
    权利要求:
    Claims (15)
    [1]
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    1. - Insulating block for the erection of walls that includes:
    • two main wall faces (10), parallel, surrounded and joined by four perimeter faces (11);
    • a body of insulating material (20);
    • at least one cladding panel (21) of rigid material, attached to the body of insulating material (20), said cladding panel (21) forming at least one main face (10) of the block;
    • said at least one cladding panel (21) that covers a main face (10) occupies less than 25% of the volume of the block;
    characterized by that
    • the distance between the main faces (10) is at least 7cm;
    • the insulating material (20) has a density between 100 and 200 kg / m3; Y
    • the insulating material (20) has a compressive strength of at least 100 kPa;
    so that the insulating material body (20) of each block allows to support the weight of other superimposed identical blocks for the erection of self-supporting walls of at least 3m high.
    [2]
    2. - Insulation block according to claim 1 characterized in that the materials that comprise it include at least one selected from:
    • rigid panel of agglomerated wood fibers as insulating material (20);
    • rigid polystyrene panel as insulating material (20);
    • ceramic panel as a cladding panel (21);
    • stone panel as a cladding panel (21);
    • artificial stone panel as cladding panel (21);
    • agglomerated stone or wood panel as cladding panel (21);
    • wood panel as cladding panel (21);
    • resin panel as cladding panel (21).
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    [3]
    3. - Insulation block according to claim 1 or 2, characterized in that said insulating material body (20) maintains its ability to support the weight of other superimposed identical blocks for the erection of self-supporting walls of at least 3m in height, after suffering a reduction of its resistant section of a maximum of 25% by means of a horizontal regatta arranged horizontally along a main face (10) of the block, causing an interruption of the vertical transmission of loads through the cladding panel (21).
    [4]
    4. - Insulation block according to claim 1, 2 or 3 characterized in that said perimeter walls (11) have tongue and groove configurations (30), allowing a tongue and groove coupling between identical blocks arranged laterally adjacent or superimposed.
    [5]
    5. - Insulating block according to any one of the preceding claims, characterized in that
    • said at least one cladding panel (21) is disposed on only one of the main faces (10) of the block; or why
    • said at least one cladding panel (21) is arranged on the two main faces (10) of the block.
    [6]
    6. - Insulating block according to any one of the preceding claims, characterized in that said at least one covering panel (21) has:
    • ribs (40) protruding from its face in contact with the body of insulating material (20), oriented vertically or horizontally; or
    • ribs (40) protruding from its face in contact with the body of insulating material (20), oriented vertically or horizontally with a T-shaped section; or
    • ribs (40) protruding from its face in contact with the body of insulating material (20), oriented vertically or horizontally with a dovetail section.
    [7]
    7. - Insulating block according to claim 6 characterized in that the union between the lining panel (21) and the body of insulating material (20) is produced by the friction existing between said protuberant ribs (40) and complementary grooves provided in the body of insulating material (20) in which said protuberant ribs (40) are inserted under pressure; and / or by means of adhesives.
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    [8]
    8. - Insulation block according to any one of the preceding claims, characterized in that the cladding panel (21) integrates a surface finish layer of a material other than the material comprising said cladding panel (21).
    [9]
    9. - Insulation block according to claim 8 characterized in that the surface finish layer is made of plaster.
    [10]
    10. - Insulating block according to any one of the preceding claims, characterized in that each main face (10) provided with a lining is formed by a single lining panel (21).
    [11]
    11. - Insulating block according to any one of the preceding claims, characterized in that it includes internal ducts (24) for passage of installations arranged horizontally and / or vertically.
    [12]
    12. - Insulation block according to any one of the preceding claims, characterized in that the cladding panel (21) has a plurality of parallel weakening lines, provided to facilitate the breaking or cutting of said cladding panel (21) following said lines of weakening
    [13]
    13. - Insulating wall characterized in that it is composed of blocks as described in any one of the preceding claims 1 to 12, stacked in vertical overlap and connected to each other, their respective main faces (10) being coplanar.
    [14]
    14. - Insulating wall according to claim 13 characterized in that it is arranged in parallel and adjacent to an existing wall by its inner face and / or its rear face.
    [15]
    15. - Insulating wall according to claim 14 characterized in that it includes hidden anchors (50) that anchor said insulated wall to said existing wall for the transmission of horizontal stresses from the insulating wall towards the existing wall, said hidden anchors (50) being fixed to the insulating material (20) or to the lining (21) of the insulating blocks.
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    同族专利:
    公开号 | 公开日
    EP3112548A1|2017-01-04|
    EP3112548A9|2019-11-13|
    ES2595511B1|2017-09-08|
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    EP16382308.1A| EP3112548A1|2015-06-29|2016-06-29|Insulation block for the erection of walls|
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