CH666307A5 - SEPARATING ELEMENT FOR CONCRETE PANELS. - Google Patents

Description

DESCRIPTION 15 The invention relates to a separating element for separating adjacent concrete slabs in a building for sound and / or thermal insulation and for vertical load transmission.

Structures with continuous concrete slabs, which extend, for example, over two adjoining apartments, over a staircase and an adjacent apartment or over a balcony and an adjacent apartment, have considerable problems with regard to sound and heat insulation. Attempts have been made to separate these plates, in particular to reduce sound transmission. For example, continuous ceilings are separated on the walls that support them. However, there is still the disadvantage that a residual sound transmission takes place on the detour via the load-bearing and the attached walls. In the case of stair landings, for example, a ceiling heel protruding beyond the wall is formed in a console shape and the stair landings are then stored thereon with a soft elastomeric underlay. Furthermore, a separate bracket clamped in the wall is used, which projects beyond the wall on both sides and on which the adjacent ceilings are supported with the interposition of an elastomer base. A disadvantage of this bracket formation is that the bracket or joint is clearly visible and that this construction can only be carried out cheaply in prefabricated construction, while it is possible in principle in in-situ concrete construction, but is very complex.

45 It is therefore the object of the present invention to provide a separating element for separating adjacent concrete slabs, which is advantageous both in prefabricated construction, in-situ concrete construction and in mixed construction, i.e. partly prefabricated and partly in-situ concrete, can be used, so a joint or bracket caused by the separation should not be visible.

This object is achieved according to the invention in the initially mentioned separating element in that a separating plate made of sound-absorbing and / or heat-insulating material is provided between the concrete slabs parallel to their adjoining end faces, in that the separating plate has at least one opening for receiving one each transverse to it , is provided for the load transfer carrier and that the carrier is completely covered on one side of the separating plate with foam material with the exception of at least one recess for receiving one each horizontally arranged Ela-6s stomer plate used for vertical load transfer.

The invention is explained in more detail below with reference to exemplary embodiments shown in the figures. Show it:

1 is a separating element in an extended (a) and assembled (b) simplified sectional view,

2 shows the front view of the separating element according to FIG. 1, FIG. 3 shows a second embodiment of the separating element in a simplified sectional view (a) and in a partial front view (b),

4 shows a further embodiment of the separating element in a simplified sectional view,

5 shows an embodiment of the girder in a simplified sectional view (girder made of reinforced concrete),

Fig. 6 shows two embodiments of the partition plate in a simplified sectional view and

Fig. 7 shows the ends of two adjacent partition plates in plan view.

The separating element according to FIGS. 1 and 2 shows a separating plate 1, carrier 2 and in each case a partial covering 3 for the carrier, which consists of foam material and has cutouts 4. In the separating plate 1 there are openings 5 for receiving one carrier 2 each. The separating plate 1 has a length of 1 meter, for example, and in the exemplary embodiment according to FIGS. 1 and 2 is suitable for receiving three carriers 2. The separating element is arranged in a building in such a way that the separating plate 1 is located between two adjoining surfaces of two concrete plates, for example two ceilings, and that the ends of the supports 2 protruding from the separating plate are anchored in the adjacent concrete plates. The height of the partition plate 1 should preferably correspond to the thickness of the adjacent concrete slabs. As this thickness can vary, e.g. Over a range of 14-24 cm with gradations of 2 cm, it is necessary to make the height of the partition plate 1 accordingly variable. This can preferably be achieved by

that the dividing plates are made with a height that corresponds to the maximum thickness of the concrete slabs, and that the dividing plate is provided with notches 6 running horizontally to its longitudinal edges, which enable the upper and possibly also lower longitudinal strips to be broken off or cut off, so that the separating plate can be easily brought to the desired height.

The separating plate 1 consists of a material that is so soft on the one hand that vibrations are not transmitted or at most only very slightly, and that on the other hand has sufficient rigidity to withstand the pressure of the concrete when concreting. The separating plate can also consist of layers which run parallel to one another in the vertical direction and have different mechanical properties, for example a rigid plate which ensures stability and an elastic plate which is made of foam or the like. exists for sound insulation. The partition plate should continue to be made of fire-resistant material so that the load-bearing capacity of the ceilings is not impaired in the event of a fire.

The beams 2 are preferably made of steel or reinforced concrete, whereby they can have any cross-sectional profiles. You can, for example, have solid or hollow profiles or be T, double T, Z or U-shaped. To protect against the risk of rust, the steel should be galvanized or otherwise permanently tempered or made of stainless steel. However, other permanently load-bearing materials can also be used instead of steel or reinforced concrete.

The casing 3 is adapted to the respective carrier 2 in such a way that it covers the part of the carrier 2 which protrudes from the separating plate 1 on one side. In doing so, it moves with the carrier through opening 5 in partition plate 1

carried out. At its open end, it has a flange 7 which bears against the partition plate 1 and is fastened to it by means of an adhesive, for example a double-sided adhesive tape. The cover 3 consists of permanently soft but dimensionally stable material, such as Polyurethane foam or another plastic foam. The casing 3 is preferably prefabricated in the shape of the carrier and is still connected to the carrier in the factory, an adhesive connection or a friction connection being able to be selected for this.

The carrier 2 is fixed in the partition plate by the adhesive connection between the partition plate 1 and the flange 7 of the casing 3. The connection must also be so tight that when the concrete is poured, it cannot pass from one side of the partition plate 1 to the other side.

The recesses 4 in the casing 3 serve to receive elastomer plates 8, via which the pressure is transferred. These elastomer plates are commercially available, durable soft pressure transmission plates. Usually only vertical pressure forces are to be absorbed,

for which an elastomer plate 8 above the carrier 2 is sufficient. If, however, as shown in FIG. 1, an upper and a lower elastomer plate 8 are provided, then moment forces can also be absorbed to a certain extent. The lower elastomer plate is preferably closer to the partition plate or wall than the upper elastomer plate.

The separating element shown is used both for sound insulation and for thermal insulation. Thermal insulation is particularly necessary between areas of the building that are exposed to different temperatures, for example between a balcony floor slab and a ceiling. If the separating element is also essentially used for thermal insulation, then a thicker separating plate and a thicker covering for the carrier will be chosen than for a separating element which mainly serves for sound insulation.

The separator can be supplied in the way

that it is already assembled in the factory as shown in Fig. 1b. At the construction site or in the precast plant, the partition plate is then only brought to the correct height. The partition plate and the carrier with the covering can also be supplied separately. The connection between these then takes place on the construction site or in the precast plant. The elastomer plates are preferably already fastened in the recesses of the casing in the manufacturer's plant. Another possibility of production is to form the separating plate and the casing for the carrier in one piece. Here, too, the carrier can be connected to the partition plate and the covering at the manufacturer's plant or only at the construction site or in the precast plant. This connection is preferably made only after cutting the partition plate to the desired height.

3a shows an embodiment of a separating element that is already installed. In this figure, 9 and 10 denote two vertical walls of a building and 11 and 12 two horizontal concrete ceiling tiles. Furthermore, a formwork 13 used during concreting, which is subsequently removed, and a holder 14, preferably made of plastic, for the partition plate 1 are shown. This holder is attached to the formwork 13 and is used to fix the separating element before concreting the two ceiling panels 11 and 12. This ensures a correct position of the separating element between the two ceiling panels. Fig. 3b shows a recess 15 on the lower edge of the partition plate 1, in

3rd

5

10th

15

20th

25th

30th

35

40

45

50

55

60

65

666307

which the holder 14 engages. This cutout 15 ensures that the lower edge of the partition plate 1 lies firmly on the formwork 13, so that no concrete can flow from one side to the other of the partition plate. The openings 5 for receiving the girders 2 are preferably halfway up the separating plate 1, so that above and below the girders there is sufficient space for reinforcing bars 16 to be inserted into the concrete of the ceiling panels.

Instead of using the holder 14, tabs can also be formed directly on the separating plate 1, via which the connection to the formwork then takes place.

FIG. 4 shows an exemplary embodiment in which two separating elements are combined with one another by using a common carrier 2. Here both ceiling panels 11 and 12 are separated from the vertical walls 9 and 10 by a separating element. This embodiment has a particularly favorable sound insulation effect because the vibrations of the ceiling panels cannot be transmitted from both sides into the walls.

5 shows a beam made of reinforced concrete. In this case, a reinforcing bar 17 is initially cast with concrete 18 only in the area of the casing 3. The protruding part of the reinforcing iron 17 is then only poured directly into the concrete of the adjacent ceiling slab at the construction site or in the precast plant. Instead of the reinforcing iron 17, a support made of solid steel can also be used. This carrier training is particularly rustproof and thus ensures a long service life. It is particularly suitable for outdoor use, e.g. for building icons or loggias.

FIG. 6 shows measures to increase the mechanical stability of the partition plate 1. According to FIG. 6a, the partition plate is provided with horizontal ribs 19 and with vertically extending ribs 20. The reinforcement can also be carried out in such a way that only vertical ribs or only horizontal ribs are used. 6b, the partition plate 1 contains reinforcement inserts 21, which may have a different cross-sectional profile. This can be round or square, for example, and solid or hollow profiles can be used.

7 shows a possibility of connecting separating plates 1 which adjoin one another in the longitudinal direction. In this case, the one longitudinal end has a perpendicularly extending projection

22, while in the adjacent longitudinal end of the following partition plate a correspondingly shaped incision

23 is formed so that a tongue and groove connection can be established between the individual partition plates.

15 Such a tight connection between the separating plates is necessary to prevent the formation of cold and sound bridges and to prevent cement milk from flowing through.

The separating element shown for adjoining concrete slabs is ideally suited for sound and thermal insulation. The use of the elastomer plates enables vertical loads to be transferred from the separated concrete plate part. The separating element can be easily installed on the construction site or in the precast plant. 25 During construction site production, the adjacent concrete slabs can be cast at the same time. When used in the precast plant, a connection is first made to one concrete slab, while later the other ceiling slab is concreted on locally. The beam is coated on all sides with concrete 30 so that it is not visible. Only a linear joint can be seen in the corner of the building. The power transmission from the concrete slabs to the beams is achieved with simple means. The effort for installing the separating elements on the construction site is low.

1 sheet of drawings

Claims (17)

666307 (1) is provided with at least one opening (5) for receiving a carrier (2) running transversely to it and serving for load transfer, and that the carrier (2) on one side of the separating plate (1) is completely covered with foam material with the exception of at least one a recess (4) for accommodating a substantially horizontally arranged elastomer plate (8) serving for vertical load transmission. 1. Separating element for separating adjoining concrete slabs in a building for sound and / or thermal insulation and for vertical load transmission, characterized in that a separating slab (1) made of sound and / and / to be arranged between the concrete slabs (11, 12) parallel to their adjoining end faces or heat-insulating material is provided that the partition plate 2. Separating element according to claim 1, characterized in that the opening (5) is arranged approximately halfway up the separating plate (1). 2nd PATENT CLAIMS 3. Separating element according to one of claims 1 or 2, characterized in that the separating plate (1) and the foam material (3) enveloping the carrier (2) are formed in one piece. 4. Separating element according to one of claims 1-3, characterized in that at the edge of the partition plate (1) recesses (15) for receiving holders (14) are arranged. 5. separating elements according to one of claims 1-3, characterized in that tabs are formed on the partition plate (1) for fastening it. 6. Separating element according to one of claims 1-5, characterized in that the separating plate (1) has notches (6) running parallel to the longitudinal edges at predetermined plate heights. 7. Separating element according to one of claims 1-6, characterized in that the separating plate (1) consists of several layers of different material. 8. Separating element according to one of claims 1-7, characterized in that the separating plate (1) consists of refractory material. 9. Separating element according to one of claims 1-8, characterized in that the carrier (2) consists of steel or reinforced concrete. 10. Separating element according to claim 9, characterized in that the carrier (17) is embedded in concrete in its longitudinal extent in the region of the covering with foam material (3) (Fig. 5). 11. Separating element according to one of claims 1-10, characterized in that the carrier (2) is coated with a permanently soft but dimensionally stable foam material (3). 12. Separating element according to one of claims 1-11, characterized in that the covering made of foam material (3) has a flange (7) for attachment to the partition plate (1). 13. Separating element according to one of claims 1-12, characterized in that on the top and on the underside of the carrier (2) there is in each case a recess (4) in the foam material (3), the lower recess being closer to the partition plate (1) is located as the top recess. 14. Separating element according to one of claims 1-13, characterized in that the separating plate (1) is provided with reinforcing ribs (19, 20). 15. Separating element according to one of claims 1-14, characterized in that the separating plate (1) contains reinforcement inserts (21). 16. Separating element according to one of claims 1-15, characterized in that the separating plate (1) is provided with projections (22) and / or cuts (23) at its longitudinal ends to ensure a tight connection with the longitudinal ends of the adjacent separating plates. s 17. Separating element according to one of claims 1-16, characterized in that two separating plates (1) are arranged on the carrier (2) in the vicinity of its two ends and that both ends of the carrier (2) with the exception of the cutouts (4) are covered with foam material (3).