FI94073C - mounting Floor - Google Patents

Description

94073

This invention relates to an installation floor, i.e. a double floor structure, in which a second floor is formed from the actual load-bearing floor to a certain height, leaving free space between the two floors for, for example, HVAC installations, in particular computer equipment cabling, electrical cabling, air ducts, , sewer -10 for pipes, etc.

The use of this type of double flooring has become more common recently and can be used in offices, public buildings and industrial facilities, for example.

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Of the previously known double floor solutions, mention may be made of a mounting floor which is assembled from floorboards which are mounted at their corners on height-adjustable mounting splits. The typical size of floorboards is 600x600 mm 20 and they are usually pre-covered with textile or vinyl coating or ceramic tiles or parquet. The advantage of this type of floor is that the loose floorboards are easy to remove, which makes it easier to carry out cabling or other installation work, while the disadvantage is the slowness of the installation work, especially if the subfloor is uneven, in which case the height of the installation slots must be adjusted. There are also numerous open seams for cleaning and appearance. In addition, this type of floor is very expensive.

30 Another type of double floor is a raised floor, which is assembled from plaster vaulted tiles on top of which. . cast about 40 mm thick self-leveling gypsum mass. At the bottom of these tiles are several adjacent vaulted ducts for cabling or other installations. A seam-35 ton floor surface is obtained which can be coated with the desired coating. Inspection / maintenance openings are made in this floor during or after floor production. The disadvantage of this floor structure is that it is very expensive and in addition the disadvantage of the 2 94073 gypsum-based material is that it has to be protected from moisture and, in addition, it is relatively brittle, so it has to be made thick to obtain sufficient strength.

DE-A-36 13 627 discloses a double floor structure which comprises a layer of plastic film or sheet metal arranged on support legs, on the floor of which a floor leveling layer is cast. The mold structure of the plastic film presented in this publication is very complex in structure. Thus, the plastic film structure shown comprises a plurality of fields, with a fastener formed in the center of each field to which the support leg can be attached. In addition, each field has diagonally matched stiffening rows. The production cost of such a plastic film structure is considerably high.

DE-A-39 16 302 discloses a double floor structure comprising a film glued on the support tiles, which is preferably a closed-cell polyethylene foam, on the floor of which a floor leveling layer is formed. Said support plates comprise a conical leg part and a plate-like upper part. The slab-like tops are arranged side by side so that the slab-like tops form a substantially intact raised floor surface. A considerable amount of support tile material is required to form such a double floor structure, which is likely to increase costs.

U.S. Pat. No. 2,414,094 discloses a building frame made of wood planks. According to Figure 3 of this publication, a structure with openings is arranged on top of this frame 30. Concrete is applied to this structure, which penetrates the said-. openings. This publication does not specify what material said structure is.

35 GB patent publication 1,007,351 discloses a method for forming a floor in situ. According to this publication, truss structures are installed on the floor beams, on which 3 94073 a metal mesh is then laid, on which concrete is poured to form a concrete slab.

FI patent publication 66229 discloses a composite slab comprising a substructure, a damper arranged on the substructure and a concrete slab cast on the damper, the upper part of the substructure having a spike-like structure by means of which a connection is made between the concrete, the damper and the substructure. Lines 4-5 on page 1 and lines 4-5 of page 8 of this publication state that the thin sheet may be steel sheet, fabric, etc. However, the rest of the description does not in any way support the use of the fabric. It is highly questionable whether the invention disclosed in the publication will work if the sheet metal is replaced by a fabric, as the composite slab structure shown is load-bearing, which makes it thick and as a result the fabric under the concrete may tear during the casting phase or assume intact. downwards under the influence of the weight of the concrete, whereby significant depressions are formed on the final concrete surface, in which case post-casting must be carried out to form a flat surface.

FI patent publication 76545 discloses a pumpable and fully self-leveling floor screed, the composition of which is as follows: 25 cements: 10-40% by weight of dry matter sand: 25-60% by weight of dry matter fly ash: 20-40% by weight of dry matter adhesive: 0.1-5% by weight of dry matter shrinkage compensation agent: 0.1-10% by weight of dry matter fluidizer: 0.1-1% by weight of dry matter fibers: 0.05- 3% by weight of dry matter water: 20-30% by weight of dry matter.

35 This previously known fiber-reinforced floor screed forms a coating with excellent mechanical properties when cured and can be used for applications ♦ traditionally considered to be problem areas, for example 4 94073 for leveling weak concrete, wood and various mass floors such as magnesite floors and gypsum floors.

PCT / FI-90/00301 discloses a step sound-insulating floor structure, in particular comprising a layer combination formed on a concrete floor with a flexible, sound-absorbing material layer in the form of a carpet or sheet and a layer about 15-35 mm thick cast on this material layer. of Patent No. 76545.

The object of the present invention is to provide an installation floor which avoids the problems associated with the double floor solutions described above and which can be easily and quickly manufactured, which has good strength properties and which is particularly inexpensive.

These objects can be achieved by a solution according to the invention, the main features of which appear from the appended claims.

The invention is based on the realization that the floor screed known from the above-mentioned FI patent publication 76545 can be cast directly on a nonwoven fabric arranged on the support members, whereby the nonwoven fabric at the same time acts as a mold and a reinforcement. The result is an even, seamless, very strong and thin floor layer with an overall thickness.

In accordance with the present invention, in addition to the floor screed known from FI patent publication 76545, it is also possible to use possible other floor screeds which are cement-based, fiber-reinforced, pumpable, self-leveling, fast-curing, fast-drying and shrinkage-compensated.

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According to the invention, there is thus provided an installation floor comprising a floor structure formed of a load-bearing structure tuk on a support height, wherein there is free space between the load-bearing structure and the floor structure for installations, which floor is characterized in a material layer consisting of a cement-based, fiber-reinforced, pumpable, self-leveling, fast-curing, fast-drying and shrinkage-compensated filler.

The nonwoven fabric is preferably made of synthetic polymer and / or carbon fibers or glass fibers. Particularly preferred are polyolefin nonwoven fabrics, such as polypropylene and / or polyethylene nonwoven fabrics. Various combinations of these nonwovens can also be used, such as a combination comprising a polyolefin nonwoven fabric and a nonwoven fabric fitted thereon.

The weight of the nonwoven fabric is preferably about 50-500 g / m 2 and its thickness is preferably about 0.4-3 mm.

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A particularly preferred nonwoven fabric to be used in accordance with the invention is a filter fabric made of a polyolefin, such as polypropylene and / or polyethylene, having a weight of about 120-200 g / m 2 and a thickness of about 0.5-1 mm. Such filter fabrics have previously been used in civil engineering as a separating, filtering and reinforcing layer between the subsoil and various structural layers.

The composition of the leveling compound used according to the invention, calculated on the dry matter of the leveling compound, is preferably as follows: binder: 10-40% by weight. filler: 25-60% by weight filler: 20-40% by weight adhesive: 0.1-5% by weight 35 shrinkage compensator: 0.1-10% by weight liquefier: 0.1-1% by weight % • «« fibers: 0.05-3% by weight 6 94073

The binder is preferably cement, the aggregate is preferably sand and the filler is preferably fly ash.

As the adhesive, for example, polyvinyl acetate powder can be used, and as the shrinkage compensation agent, for example, gypsum can be used. For example, Melment (trademark, manufactured by SKW) can be used as a liquid carrier, i.e. a spreading agent.

Said fibers contained in the leveler are preferably synthetic polymer and / or carbon fibers, in particular polyolefin, polyacrylonitrile and / or polyvinyl alcohol fibers, polypropylene fibers being particularly preferred. The length of the fibers is preferably 1-20 mm and particularly preferably 5-7 mm.

Said leveling agents may further contain a small amount, preferably less than one% by weight, of various additives, for example antifoams and retarders, such as a gypsum inhibitor.

The screed to be pumped preferably contains about 20-30% by weight of water, based on the solids in the screed.

25 The average of the leveling layer formed on the nonwoven fabric ·. The thickness is preferably about 15-35 mm. Due to the weight of the leveling compound, the nonwoven does not remain completely straight but is pressed somewhat downwards between the support members, whereby the thickness of the leveling layer is correspondingly at the thinnest support members and between the thickest support members.

The installation floor according to the invention can be formed on top of a new or old floor, which floor can be, for example, a cast-in-place concrete floor or a floor formed of hollow core slabs, solid concrete elements or lightweight concrete elements. In this case, pieces of a certain shape and size are used as support members, such as bricks or cylindrical or box-shaped pieces made of concrete or plastic material. As the plastic material, for example, closed-cell foamed plastic such as polystyrene can be used. Tu-tongues are fitted with a certain division over the finished floor. If necessary, the support members are fixed to the floor, for example by gluing. For example, the distance between the support members may be about 200-600 mm. The height of the support members can vary widely depending on the application.

Inspection / maintenance openings can be formed in the floor structure of the installation floor according to the invention so that a double frame is arranged on the support members, the upper surface of which is at the level of the upper surface of the desired floor. The double frame comprises an outer frame and an inner frame having a base portion and forming a mold. The seams between the frames are covered for 15 castings. During casting, the inner frame is filled with screed and this inner frame forms the cover of the inspection / service opening. It is also possible to form an inspection / service opening afterwards, for example by drilling.

The invention will now be described in more detail by way of example with reference to the accompanying drawing, in which Figure 1 shows a cross-section of an installation floor according to the invention, and Figure 2 shows the same structure as Figure 1 seen from above.

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Example

According to FI patent publication 76545, a dry matter mixture was prepared by vigorously mixing the following ai-30 components:

Portland cement: 24.0% by weight sand: 35.8% by weight fly ash: 33.0% by weight

Vinapol 1070 (PVA powder): 2.0% by weight 35 gypsum: 3.0% by weight

Melment F 10: 0.7% by weight antifoam: 0.5% by weight gypsum retarder (GV2): 0.2% by weight 940 7 3 8

Polypropylene fiber (length 6 nun): 0.8% by weight This dry product was mixed with 23% by weight of water, calculated on the dry product, to obtain a completely self-leveling filler.

Lime-sand brick 2 (75x130x270 mm) was glued to the hollow slab 1 with a C / C 365-435 mm pitch. A filter cloth 3 made of polypropylene fibers (70%) and polyethylene fibers (30%) having a weight of 135 g / m 2 and a thickness of 0.7 mm was fitted on top of these bricks. On this filter fabric 3, the fully self-leveling leveling compound 4 described above was cast. In the case of bricks, the thickness of the leveling layer 15 was 20 mm and between the bricks it varied up to 50 mm.

The floor structure thus formed was subjected to a point load test with a point load of 20x25 mm (625 mm2) at points a-d (see Fig. 2).

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The point loading test was performed at a loading speed of 1 mm / min from loading points a-d. The deformation (deflection) was measured by the movement of the piston at the point load. The breaking load from the force-25 ma / deformation curve was determined at the point where the first damage was detectable. The maximum load, as well as the corresponding maximum deformation, was also quoted.

30 The test results are shown in the following table:

LOAD SECTION

• · a b c d 35 ----- BREAKING LOAD [kN] 3.87 3.5 6.71 2.42 BREAKING WEIGHT [mm] 0.51 0.71 0.92 0.88 MAX. LOAD [kN] 7.75 7.90 11.50 5.15 40 MAX. DIMENSION [mm] 4.13 3.63 5.15 3.92 9 94073

As can be seen from these test results, the thin layer of filter fabric and screed according to the floor structure according to the invention has particularly good properties in terms of strength and rigidity.

Claims (8)

An installation floor comprising a fixed height from a supporting structure (1) formed by a floor structure (3, 4) supported by support means (2) wherein there is free space between the supporting structure and the floor structure, characterized in that the floor structure comprises - a fiber cloth (3) provided on the support means (2) and a molded material layer (4) superposed on the fibrous fabric comprise a cement-based, fiber-reinforced, self-leveling and shrinkage-compensated putty which can be pumped quickly and cures and dries quickly. 25 ,; Assembly floor according to claim 1, characterized in that the fiber fabric (3) is made of synthetic polymer or carbon fibers. Installation floor according to claim 1 or 2, characterized in that the fibrous fabric (3) is made of polyolefin fibers, such as polypropylene and / or polyethylene fibers. Mounting floor according to any of the preceding claims, characterized in that the weight of the nonwoven fabric (3) is about 50-500 g / m2. 94073 Mounting floor according to any of the preceding claims, characterized in that the fiber fabric (3) has a thickness of about 0.4-3 mm. Installation floor according to any of the preceding claims, characterized in that the supporting members (2) are bodies of a certain shape and size made of bricks, concrete or cellular plastic with closed cells, such as polystyrene. Installation floor according to any of the preceding claims, characterized in that the putty layer (4) has an average thickness of about 15-35 mm. Mounting floor according to any of the preceding claims, characterized in that the putty has the following composition based on the dry matter of the putty: binder: 10-40 wt.% Body material: 25-60 wt.% Filler: 20-40 20% by weight of adhesive: 0.1-5% by weight of shrinkage compensation agent: 0.1-10% by weight flowability enhancer: 0.1-1% by weight fibers: 0.05-3% by weight in * 1 • 4