A BUILDING CONNECTION COMPRISING A FIRST BUILDING ELEMENT AND A SECOND BUILDING ELEMENT

Abstract

A building connection includes a first building element and a second building element arranged at a distance from each other. The first building element is connected to the second building element by at least one connecting device. The connecting device includes a load transfer element arranged in the first building element, and a support box molded into the second building element. The support box includes an inner bottom wall surface and a support box opening facing the first building element. The connecting device further includes a first sound-absorbing element arranged on the inner bottom wall surface of the support box, and a support plate which is arranged on top of the first sound-absorbing element. The load transfer element protrudes from the first building element and into the support box through the support box opening. A filling area is molded with a filling material. The filling area includes the support box and an area between the first building element and the second building element.

Claims

1. A building connection comprising a first building element and a second building element arranged at a distance from each other, the first building element being connected to e second building element by at least one connecting device, wherein the at least one connecting device comprises: a load transfer element arranged in the first building element, a support box molded into the second building element and comprising an inner bottom wall surface and a support box opening facing the first building element, a first sound-absorbing element arranged on the inner bottom wall surface of the support box, and a support plate which is arranged on top of the first sound-absorbing element, wherein the load transfer element protrudes from the first building element and into the support box through the support box opening, and wherein a filling area is molded with a filling material, and wherein the filling area comprises the support box and an area between the first building element and the second building element, and wherein the first sound-absorbing element comprises an upper surface and a lower surface, where the upper surface and/or the lower surface are formed with a plurality of separate, protruding elements, and open areas between the plurality of the protruding elements, wherein the protruding elements are arranged for being compressed and expand into the areas between the protruding elements.

2. The building connection according to claim 1, wherein the load transfer element is movably arranged in a load transfer element box, which load transfer element box is molded into the first building element.

3. The building connection according to claim 1, wherein the first sound-absorbing element covers substantially the entire inner bottom wall surface of the support box.

4. The building connection according to claim 1, wherein the first sound-absorbing element comprises an upper surface and that the support plate substantially covers the entire upper surface of the first sound-absorbing element.

5. (canceled)

6. The building connection according to claim 1, wherein the area between the plurality of protruding elements is large enough that there is room for the plurality of protruding elements to expand outwards when the first sound-absorbing element is subjected to load from the load transfer element via the filling material and the support plate.

7. The building connection according to claim 1, wherein the first sound-absorbing element is formed in a rubber material.

8. The building connection according to claim 1, wherein the load transfer element is arranged in the support box surrounded by filling material.

9. The building connection according to claim 1, wherein the support box is formed with a plurality of side walls which are inclined relative to the inner bottom wall surface.

10. The building connection according to claim 9, wherein the side walls of the support box are formed with inner side surfaces which are smooth.

11. The building connection according to claim 1, wherein the connecting device comprises a second sound absorbing element arranged in a first end surface of the first building element facing the second building element which second sound absorbing element encloses an opening in the load transfer element box from which the load transfer element projects, and which extends into the first end surface so that the second sound-absorbing element at least covers the filling area abutting against the first building element.

12. The building connection according to claim 1, wherein the building connection comprises a sealing element arranged between and abutting against the first building element and the second building element, and extending at least on the underside of and up on the sides of the opening of the load transfer element box.

13. Use of a building connection according to claim 1, wherein the first building element is a landing and the second building element is a wall.

14. Use of a building connection according to claim 1, wherein the first building element is a floor element and the second building element is a wall.

Description

[0025] An embodiment of the present invention will now be described in more detail with reference to the accompanying figures, in which:

[0026] FIG. 1 shows a view of a building connection seen from above comprising a first building element and a second building element which are connected to each other.

[0027] FIG. 2 shows the section A-A through the building connection shown in FIG. 1.

[0028] FIG. 3 shows the detail B of the building connection shown in FIG. 1 where a load transfer element protrudes from a first building element and into a support box which is molded into a second building element and where the support box is arranged with a sound-absorbing element.

[0029] FIG. 4 shows an enlarged section of FIG. 3 which clearly shows the connecting device which connects the first building element and the second building element.

[0030] FIG. 5 is a perspective view of the support box into which the load transfer element projects.

[0031] FIG. 6 shows a perspective view of a lid element for the support box.

[0032] FIG. 7 shows a side view of the support box shown in FIG. 5.

[0033] FIG. 8 shows a front view of the support box shown in FIG. 7.

[0034] It should first be noted that the various features of the illustrated embodiment of the invention have the same reference numerals in all the figures. A specific reference number thus refers to the same technical features in all the figures.

[0035] FIGS. 1-8 show an embodiment of the building connection 10 where a first building element 12 is securely connected to a second building element 30 with at least one, but preferably a plurality of connecting devices 15. As indicated in the figures, the first building element 12 is at a distance from the second building element 30. This distance, or gap, is not large, but it is large enough that there is no direct contact between the first building element 12 and the second building element 30 which would give a good transfer of sound between the two the building elements. Typically, the second building element 30 will be a vertical wall element of one type or another, while the first building element will typically be a building element which extends outwards in the horizontal direction, such as a landing or a floor element, and which is attached to the second building element by means of one or more connecting devices 15. The weight of the first building element 12 and possible load on the first building element 12, such as furniture, persons, etc., is transferred via the connecting devices 15 to the second building element 30. As sounds propagate easily through concrete structures, the present building connection 10 is designed to eliminate transfer of sound, in particular step sound, between the first and second building elements 12, 30, or at least reduce transfer of sound between the first and second building elements 12, 30 to a minimum.

[0036] The first building element 12 has an upper surface 20, a first end portion 13 towards the second building element 30 and a first side surface 14 facing the second building element 30. The second building element 30 comprises a first side surface 31 facing the first side surface 14 of the first building element 12.

[0037] Each connecting device 15 comprises a load transfer element 24 which is arranged in the first building element 12 and projects from the first side surface 14 of the first building element 12 in an established building connection 10 as indicated in FIGS. 2-4.

[0038] The load transfer element 24 may be molded into the first building element 12 so that it is firmly anchored in the first building element 12. Alternatively, the load transfer element 24 may be movably arranged in a load transfer element box 16 between a retracted position, where preferably the entire load transfer element 24 is positioned inside the load transfer element box 16 and an extended position, wherein the load transfer element 24 is partially pulled out of the load transfer element box 16.

[0039] The load transfer element box 16 is formed with a first end portion with an opening 19 as indicated in FIG. 4, and is preferably fixedly attached in the first building element 12. The load transfer element box 16 may for instance advantageously be molded into the first building element 12 during the production of the first building element 12.

[0040] The opening 19 of the load transfer element box 16 is preferably flush with the first side surface 14 of the first building element 12 so that when the load transfer element 24 is pulled out of the load transfer element box 16, the load transfer element 24 protrudes from the first building element 12.

[0041] The load transfer box 16 also has a second end portion 18 located inside the first building element 12 and the load transfer box 16 preferably has an inner length which is at least as long as the length of the load transfer element 24 so that the entire load transfer element 24 may be pushed into the load transfer element box 16.

[0042] The second building element 30, which will normally, but not necessarily, be a vertically standing building element, comprises a support box 33 as shown in FIGS. 2-4. The support box 33 is preferably fixedly attached in the second building element 30, for example by the support box 33 being molded in during the production of the second building element 30.

[0043] As shown in FIGS. 5 and 7-8, the support box 33 is formed with a bottom wall 37 having an inner bottom wall surface 38, a first side wall 39 having a first inner surface 40, a second side wall 41 having a second inner surface 42, a third, or rear, side wall 43 having a third inner surface 44 and a roof wall 45 having an inner roof wall surface 46. As shown in FIG. 5, the support box 33 is preferably formed with one or more rib elements 35. The rib elements are preferably arranged on the outside of the support box 33 as indicated in the figures. The rib elements 35 give extra mechanical strength to the support box 33 and contribute to the support box 33 being securely fixed in its position in the second building element 30.

[0044] The support box 33 further has a support box opening 34 as indicated in FIG. 4, into which the load transfer element 24 projects, when the building connection 10 is completed. The support box opening 34 is preferably flush with the first side surface 31 of the second building element 30 facing the first building element 12.

[0045] The support box 33 may also comprise a lid 48 which may be attached to the support box 33 so that the support box opening 34 is covered, for example during production and/or transport of the second building element 30. The lid 48 may be provided with one or more fastening elements 49, such as pins or the like, which cooperate with complementary shaped fastening elements, such as openings or holes, on the support box 33. The lid 48 may also be formed with a gripping device 50 which may be used when the lid is to be removed. The gripping device 50 may, for example, be a hole in the lid 48 which is large enough for a person to insert one or more fingers through it.

[0046] Arranged on the inner bottom wall surface 38 of the support box 33 is a first sound-absorbing element 52. The first sound-absorbing element 52 is formed with a lower surface 53 abutting the inner bottom wall surface 38 of the support box 33 and an upper surface 54 facing the interior of the support box. Preferably, the first sound-absorbing element 52 covers substantially the entire inner bottom wall surface 38.

[0047] The first sound-absorbing element 52 may be made of different types of materials, for example of a rubber material, as long as it has the desired sound-absorbing properties and may withstand the mechanical stress due to the weight of the first building element 12 which the first sound-absorbing element 52 must absorb in an established building connection 10.

[0048] The first sound-absorbing element 52 is preferably formed with at least one, but preferably a plurality of protruding elements 55 projecting from the lower surface 53 and/or from the upper surface 54 of the first sound-absorbing element 52. In the embodiment shown in the FIGS. 3 and 4, the protruding elements 55 protrude from the lower surface 53. Between the protruding elements 55, space 56 is formed. When the first sound-absorbing element 52 is subjected to the load from the first building element 12 in a completed building connection 10, the first sound-absorbing element 52 could be compressed somewhat. The protruding elements 55 will then be able to compress and then expand out laterally and into the spaces 56. This means that the height of the first sound-absorbing element 52 will be reduced when it is loaded with the weight of the first building element 12 in a completed building connection 10.

[0049] Arranged on top of the first sound-absorbing element 52 is preferably a support plate 58. The support plate 58 preferably has the same design as the first sound-absorbing element 52 seen from above. The support plate 58 thus substantially covers the upper surface 54 of the first sound-absorbing element 52. The support plate may be made of different types of materials, for example a metal such as steel, or a plastic material which may withstand the load of the first building element 12 in in a completed building connection 10.

[0050] The connecting device 15 preferably also comprises a second sound-absorbing element 21. The second sound-absorbing element 21 is preferably arranged in a recess in the first side surface 14 of the first building element 12 facing the second building element 30. The recess in the first building element 12 preferably has a depth which substantially corresponds to the thickness of the second sound-absorbing element 21 so that a first surface 22 of the second sound-absorbing element 21 substantially aligns with the remains of the first side surface 14 of the first building element 12. The second sound-absorbing element may be made of a rubber material or another suitable material that has the desired sound-absorbing properties.

[0051] In the building connection 10 the first building element 12 is arranged at a distance from the second building element 30, i.e. there is a small gap 32 between the two building elements 12, 30. In the gap 32 a sealing element 27 is preferably arranged as indicated in FIGS. 3 and 4. The sealing element 27 has a general U-shape and lies at the bottom of the load transfer element 24 and extends up on the sides of the load transfer element 24 at least up to the same height as the roof wall 45 of the support box 33, but preferably slightly higher than this. The sealing element 27 preferably abuts in its entirety against the second sound-absorbing element 21. Alternatively, it may be arranged exactly in the transition between the first surface 22 of the second sound-absorbing element 21 and the first side surface 14 of the first building element 12 so that a filling material 61 arranged in the gap 32 between the two building elements 12, 30 does not come into contact with the first side surface 14 of the first building element 12.

[0052] In a completed building connection 10, the first building element 12 is connected to the second building element 30, and the load transfer element 24 is pulled out of the load transfer element box 16 so that it projects into the support box 33 as shown in FIGS. 2-4. When the load transfer element 24 is in its extended position and projects into the support box 33, a filling area 60 is formed as indicated in FIGS. 3 and 4. The filling area 60 thus comprises the area around the load transfer element 24 in the support box 33 and further outwards towards the second sound-absorbing element 21 in the gap 32 between the first building element 12 and the second building element 30. In the gap 32 between the two building elements 12, 30 the filling area 60 extends down to the sealing element 27 below the load transfer element 24, out to the sealing element 27 on the sides of the load transfer element 24, and in the smallest up to the roof wall 45 of the support box 33 at the top of the load transfer element 24 as indicated in FIGS. 3 and 4.

[0053] When the first building element 12 is to be attached to the second building element 30, the load transfer element 24 will be pushed into the load transfer element box 16 so that the first building element 12, such as for instance a landing or floor element, may be easily maneuvered into place between two or more vertically standing second building elements 30. When the first building element 12 is arranged in a straight position, the load transfer element 24 is pulled out of the load transfer element box 16 so that the load transfer element 24 projects into the support box 33, and the sealing element 27 is arranged on the underside and on to the sides of the load transfer element 24 so that the forming of the filling area 60 is completed. The filling area 60 is then filled with a filling material until the filling area 60 is completely filled with the filling material 61. When the filling material 61 hardens and stiffens, a building connection 10 is formed between a first building element 12 of concrete and a second building element 30 of concrete where sound transfer, and in particular step sound, between the two building elements 12, 30 is eliminated or at least reduced to a minimum.

[0054] When the filling material 61 is arranged in the filling area 60, an upper seal 28 may be arranged in the gap 32 between the first building element 12 and the second building element 30 preferably near the upper edge of the first side surface 14 of the first building element 12. The seal 28 preferably extends substantially along the entire width of the first building element 12. This will prevent liquid, sand, gravel and other material from accumulating in the gap 32. The seal 28 may, for example, be formed of a conventional silicone sealing material.

[0055] As mentioned above, the support box comprises a first side wall 39, a second side wall 41 and a third side wall 43. The first side wall 39 and/or second side wall 41 and/or third side wall 43 of the support box is preferably inclined relative to the bottom wall 37 and the bottom wall surface 38 of the bottom wall. This means that the angle between any inclined side walls is less than 90 degrees.

[0056] Furthermore, the first inner surface 40 of the first side wall 39 and/or the second inner surface 42 of the second side wall 41 and/or the third inner surface 44 of the third side wall 43 are preferably smooth, i.e. the inner surfaces 40, 42, 44 of the side walls have no shape for elements projecting from the inner surfaces 40, 42, 44 or any recesses in the inner surfaces 40, 42, 44 in which the filler material may adhere.

[0057] This means that when the filling material 61 in the support box 33 hardens/dries, and thus may shrink somewhat, the filling material 61 will not stick to the side surfaces 40, 42, 44 of the side walls.

[0058] It also means that when a load is transferred from the first building element 12 in an established building connection 10 to the second building element 30 via the load transfer element 24, and the first sound-absorbing element 52 is compressed a certain distance, the hardened filling material 61 will be able to move freely vertically in relative to the support box's plurality of side surfaces. When this happens, a small gap is formed between the filling material and the inner side surfaces 40, 42, 44 of the support box 33 as the inner side surfaces 40, 42, 44 are inclined, which also contributes to damping the sound transfer between the first building element 12 and the second building element 30.

[0059] The invention has now been described with reference to a non-limiting embodiment of the invention. However, one skilled in the art will appreciate that the invention, as explained above and shown in the figures, may be modified and that changes may be made within the scope of the invention as defined in the claims.