NO328275B1 - Joining system for two building elements and method for joining two building elements. - Google Patents

Abstract

The present invention relates to a joining system for fastening a first building element (1) in relation to a second building element (2), wherein a first part (10) comprises a box element (100) adapted for embedding in the one building element (1,2) . According to the invention, a lifting element (110) is attached to the box element (100), which lifting element (110) comprises a fastening portion (111) adapted for co-operation with lifting equipment, which fastening portion (111) during an installation phase of the joining system is located relatively outside an outer side (3) of one building element (1,2) comprising the box element (100).

Description

The present invention relates to a joining system for joining two building elements together, where the joining system comprises a fastening device for easy handling of the building elements to be joined together.

Such joining systems are normally used to join a beam to a column or alternatively a stair element in a stairwell, or between two stair elements. The connection systems can in one variant comprise a box element arranged in the beam with a movable bridge element in the box element, which when the beam is lifted to the relevant position is brought out to an extended position where the bridge element rests against a bearing surface in the column and holds the beam in place by the weight of the beam. The space between the beam and column can then be cast outside.

There are several alternative solutions for joining systems. Another example is a hooking device where the beam comprises a fastening device which. is unhooked from a hook attached to the column or vice versa.

In all these solutions, one will seek to lift a building element in order to position it relatively in relation to the other building element with which it is to be joined. To build a larger building, there will be a plurality of lifting procedures to lift all building elements into place.

The present invention aims to provide a solution where building elements to be lifted can be lifted in a simple and safe way for positioning relative to the building element it is to be joined with. Another purpose is to provide a system that is cost-effective in production and use.

These purposes are achieved with a joining system as stated in the subsequent independent claims, where further aspects of the invention are stated in non-independent claims and the description below.

The joining system according to the invention is used for joining and securing a first building element in relation to a second building element. These two building elements can, for example, be a beam and a column or a staircase element and a stairwell or two staircase elements. A first part of the joining system is arranged to one building element and a second part of the joining system is arranged to the other building element. Which part is arranged in which building element will depend on which building elements are to be connected and the current situation where the connection system is used.

According to the invention, the first part comprises a box element, preferably embedded in, the one building element where a lifting element is attached to the first box element, which lifting element comprises an attachment part that protrudes beyond an outer side of the building element to be lifted. Alternatively, the box element can be attached to the one building element in another way, such as welding, scouring or something else. An outer face shall in this application be considered to be formed by the total surface of one side of the element. This outer side or total surface can be formed by a main surface and at least one partial surface which is located within and or outside a plane in which the main surface is located, seen in relation to the rest of the element, so that the partial surfaces can be formed by recesses or elevations. The outer side thus includes both the main surface and the partial surfaces.

The fastening part can be formed by a single lifting eye, a thickening part, which can for example be spherical, more conical, cube-shaped or have another shape which can for example be a combination of the above or another shape, a hook part, alternatively it can form a lifting eye , thickening part, hook part, which is hinged in relation to the rest of the lifting element, or alternatively another quick coupling part for cooperation with an opposite quick coupling part in the lifting equipment which is to lift the building element. One can also think of a variant where a lifting element comprises several fastening parts.

The lifting element can be attached to the box element in several ways, for example by being welded to the box element before embedding the box element in the building element. Alternatively, the lifting element can have a design so that it is threaded onto the box element before this is molded into the building element to be lifted. In a further variant, threaded sections can be arranged on the box element where the lifting element is designed with cooperating threads so that it can be screwed to the box element. In one variant, the lifting element can be attached to a top wall of the box element, in another variant it can be attached to a side wall of the box element. By attaching the lifting element to the box element and this is done before casting, a secure fixing of the lifting element will be achieved while at the same time getting good power transmission from the lifting element via the box element and further into the building element to be lifted. It is also conceivable that several lifting elements are attached to the same box element, where these several lifting elements can be arranged next to the same side of the box element or on different sides, or with some on one side and another on another side.

The fastening part of the lifting element will necessarily be outside an outer side of the building element to be lifted, after this has been cast. This can be achieved in several ways, one is that the fixing part protrudes beyond a main surface of the building element, where the main surface in this case forms the outside of the building element. In another variant, this can be achieved by the attachment part of the lifting element being located in a submerged part of the building element in relation to a main surface of the rest of the building element, where it is therefore located outside an outer side of the building element but at the same time within a plane coinciding with a main surface of the building element. When casting the space between the building elements to be joined, which is a normal procedure for such joining systems, this submerged part of the building element can also be cast so that you get a smooth uniform surface of the building element that was lifted. This surface will then normally lie in the same plane as the main surface of the building element. This submerged part of the building element, which forms a partial surface, can be formed as a step-down of the building element towards the end that faces the second building element to which the first building element is to be attached or one can imagine a type of pit in the main surface of the cast building element. This pit may have a partially conical shape with the lifting element positioned substantially in the center of the conical shape. Alternatively, the pit can be shaped with insertion parts adapted to guide the lifting equipment towards the fastening part of the lifting element for a simple joining of these. In one embodiment, this can be done, for example, if the fixing part is a fixed ring, in that the pit is formed by two pit parts leading towards the hole in the fixed ring. This will guide the guide of a hook towards the fixing part of the lifting element. The conical shape will also function to guide the lifting equipment in the right position with the fixing part.

During use, the attachment part will normally be at a mainly horizontal side of the building element, which horizontal side faces relatively upwards in relation to the rest of the building element. This facilitates the use of the attachment part and the interaction this attachment part has with any lifting equipment, which will often be a lifting crane.

The fact that the fastening part is located in a relatively submerged part of the building element also means that the building element during transport has no protruding parts outside a main surface of the building element, which is advantageous.

According to one aspect of the invention, the box element has an open end and further, the first part of the joining system comprises a bridge element that can be moved inside the box element, displaceable between a retracted position mainly arranged inside the box element and an extended position where a part of the bridge element is outside it open the end of the box element. The open end of the box element is preferably arranged with the plane of the open end flush with an outer surface of the one building element so that it does not protrude beyond a main surface of this side of this building element. This outer surface with which the box element lies flush will normally be a different outer surface of the building element to be lifted than the surface on which the fixing part of the lifting element is located. For a concrete beam, this can be done when casting the beam. The bridge element is displaceably arranged inside the box element, preferably so that in a retracted position it is completely inside the box element.

According to one aspect of the invention, the first part may also comprise an anchor element which extends a distance from an outer end of the bridge element and which cooperates with a locking element in the second part to lock the parts together in a joined state, which provides a tensile anchoring of the system. Furthermore, the joining system can include devices for limiting the movement of the bridge element in relation to the box element to a maximum extended position so that the bridge element cannot be moved further than the stop device without it being further manipulated. The joining system can include devices at the box element and or the bridge element which provide simple displacement of the bridge element in relation to the box element both from a retracted to an advanced position but also from an advanced position to a retracted position. This can be done by guide ropes, openings in the box element, the shape of the bridge element etc.

The invention also includes a method for joining two building elements, such as a stairwell in a stairwell, where a number of box elements are placed in the first building element, the stairwell, by casting the stairwell in a known manner, where an open side of the box elements is arranged flush with an edge of the stair tread and where in an upper side of the stair tread there is access to a number of attachment parts of lifting elements attached to the cast-in box elements. In the second building element, the stairwell, corresponding recesses are provided in relation to the box elements, after which bridge elements are arranged in a known manner in the box elements, the lifting equipment is attached to the attachment parts and lifted for placement, when the open end and the box elements are outside the recess, the bridge element is moved in a known manner to an extended position so that part of the bridge element is inside the recess, and the stair tread is lowered until the bridge element rests against a surface in the recess, after which the lifting equipment can be easily released from the stair tread.

Furthermore, the method can include that a seal in the form of a sealing element is placed along a lower edge and/or upper edge of the gap between the stairwell and the stairwell, and casting compound is filled in cavities in the first and second part of the joining system and the gap and at the same time in the submerged part around the fixing part of the lifting elements, so that all cavities in the joining system are filled and a smooth surface of the stairwell is formed. You will also have a similar method for, for example, a beam and a column. At these steps, the joint system is anchored for movement in a normal horizontal plane.

The invention will now be explained with a non-limiting embodiment example with reference to the attached drawings, where; Fig. 1 shows a perspective sketch of a first part for attachment to or incorporation into a first building element,

Fig. 2 shows the device in fig. 1 top view,

Fig. 3 shows the device in fig. 1 side view,

Fig. 4 shows a perspective sketch of the box element in fig. 1 alone,

Fig. 5 shows a perspective sketch of the bridge element in fig. 1 alone,

Fig. 6 shows a partial sketch of two building elements which are joined together with a joining system according to the invention, and

Fig. 7 shows a side view of the system in fig. 6.

In fig. 6, a joining system according to the invention is shown used for joining a first building element 1 and a second building element 2. The building elements are shown before casting a space 6 between the elements and a possibly submerged part 4.

A first part 10 of the joining system which is fixed in or to the first building element 1 is shown in figures 1-3. This first part 10 comprises a box element 100, a lifting element 110 and a bridge element 120. The box element 100 with the lifting element is further shown in fig. 4 and the bridge element 120 is shown in fig. 5. The box element comprises a first and second side wall 101,102 connected via a bottom wall 103 and a top wall 104 so that an inner cavity 107 is formed between these walls. This inner cavity 107 has an open end 108 and an end closed by an end plate 105. Furthermore, an access opening 106 is arranged at the inner end plate 105 which leads into the inner end of the inner cavity. This access opening is formed by a hole in the top wall 104 which cooperates with an opening plate 109, which is bent into a U-shape where the tops of the U-shape are connected to the end plate 105 and an end section of the U-shape is connected to the top wall 104, where a second end section of the U-shape will lie flush with a main surface 31 of an outer side 3 of the building element 1.

The lifting element 110 comprises an attachment part 111 which comprises a conical extension 114 and a top flange 115, as best shown in fig. 3, which conical extension at its end opposite the top flange is connected to a connecting rod 113, where the connecting rod 113 has a smaller cross-section than the top flange 115, so that the conical extension 114 goes from a smaller cross-section at the connecting rod 113 to a larger cross-section at the top flange 115 The connecting rod 113 is connected at the end opposite the fixing part 111 to a fixing plate 112, which is fixed to the top wall 104 of the box element 100.

The bridge element 120 is also formed by two side walls 121,122 and a bottom wall 123 and a top wall 124, as shown in fig. 5, so that it formed an internal open cavity 125. The bottom wall 123 is further equipped with a first thickening part 126a and a second thickening part 126b, arranged with a gap 127 along the bottom wall 123 of the bridge element 120. It is also conceivable that this thickening part is a whole plate or something similar, it can be a plate of uniform or varying thickness. The bridge element 120 comprises an inner end 128 which is arranged facing into the box element 100, where a limiting device 130 is arranged at the inner end 128. There is access to this limiting device 130 via the access opening 106 in the box element 100, as shown in fig; 2. One can also see here that the bridge element 120 shown in fig. 5 is turned 180 degrees about a mainly horizontal axis in relation to the bridge element which is shown together with the box element in figures 1-3. This limiting device 130 can be a threaded hole for screwing in a stop element (not shown) which prevents the bridge element 120 from being pulled out beyond a maximum extended position relative to the box element without further manipulation of the elements, such as unscrewing the stop element again. The bridge element 129 also comprises an outer end 129 which is located outside the box element 100 in an extended position of the bridge element, but which in a retracted position is located mainly at or within the open end 108 of the box element 100.

As shown in fig. 6 and 7, the attachment part 111 of the lifting element 110 when the first part 10 is arranged in the first building element 1 will be outside an outer side 3 of the building element 1. This outer side 3 is formed by a main surface 31 which lies in an outer plane 30 formed by the building element 1 , and a partial surface 32 which is formed by a submerged portion 4 of the building element 1. This submerged portion 4 thus forms a recess in the main surface 31 of the building element, and this submerged portion 4 can be shaped with guide devices 5, such as a partially spherical the sunken part 4. An end section of the opening plate 109 which forms the access opening 106 lies flush with the main surface 31 of the building element 1. The open end 108 of the box element 100 lies flush with a side wall 7 of the first building element 1 facing the second building element 2 The bridge element 120 has its outer end 129 arranged inside a cavity 21 formed by the second part 20 of the ing system. A base plate 22 can be arranged at the bottom of this cavity 21. To complete the joining, the space 6 between the two building elements 1,2 will be sealed at the bottom edge and molding compound will be added in the space which will fill the cavity 21 and the cavity 125 of the bridge element 120 and the cavity 107 and the access opening 106 of the box element 100, where the submerged part 104 will also be filled with molding compound, so that a smooth surface of the building element 1 is formed. The access opening can be used to move the bridge element from a retracted position to an advanced position.

The invention is now explained with reference to an embodiment. Many variants of this embodiment are conceivable within the scope of the invention as defined in the following claims. In one variant, the lifting element can comprise a fastening plate which forms a U-shape complementary to the outer shape of the box element, where the fastening plate is attached to the box element at the legs of the U-shape. The lifting element can also be shaped without an attachment plate where the connecting rod itself is directly attached to the box element, to the top wall or, for example, to a side wall of the box element. In such a case, two lifting elements can also be attached to the box element, one to each side wall of the box element. These two lifting elements can be arranged in a common submerged part in relation to a main surface of the building element. One can also imagine variants where features from certain designs are used together with features from other designs such as a sleeve-shaped fixing plate with a connecting rod attached to two opposite sides of the sleeve-shaped fixing plate with each fixing part in each of its sunken parts. In another variant, the two connecting struts can be connected by a common fastening part which is located in a submerged part of the building element and thus forms a hoop device as a fastening part.

Claims (11)

Joining system for fixing a first building element (1) i in relation to a second building element (2), where a first part (10) of the joining system is adapted for arrangement to one building element (1) and a second part (20) of the joining system is adapted for arrangement to the other building element (2), which first part (10) comprises a box element (100) adapted for embedding in the one building element (1,2), characterized in that a lifting element (110) is attached to the box element (100), which lifting element (110) comprises an attachment part (111) adapted for interaction with lifting equipment, which attachment part (111) under an installation base of the joining system is located relatively outside an outer side ( 3) of the one building element (1,2) comprising the box element (100). 2. Consolidation system according to claim 1, characterized in that the attachment part (111) comprises devices (114,115) for quick coupling with a lifting device. 3. Consolidation system according to claim 1, characterized in that the lifting element (110) comprises a fastening plate (112), a connecting rod (113) connected to the outer fastening part (111), where the fastening plate (112) is attached to the box element (100) and is connected to the connecting rod (113). 4. Consolidation system according to claim 4, characterized in that the fastening plate (112) forms a sleeve element, which is arranged around the box element (100). 5. Consolidation system according to claim 1, characterized in that the fastening part (111) in a state of use is located in a part (4) submerged in relation to the surface (3) of the building element (1) to which it is arranged. 6. Consolidation system according to claim 5, characterized in that the submerged part (4) comprises devices (5) for guiding lifting equipment into engagement with the fastening part (111). 7. Consolidation system according to claim 5, characterized in that the fastening part (111) is arranged within a plane (30) flush with a main surface of the outer side (3) in which it is located, so that the fastening part (111) does not protrude beyond the outer circumference of the building element (1,2). 8. Joining system according to one of the above-mentioned claims, characterized in that the box element (100) is a mainly hollow element with an open end (108) flush with a side (7) of the building element (1) which, after assembly, will face the second building element (2), where a bridge element (120) is arranged movably inside the box element (100) from a substantially retracted position where it is located inside the box element (100) to an extended position where a part of the bridge element is outside the box element (100), and can engage with a receiving opening (21) in the second building element (2) so that the building elements (1,2) are connected together. 9. Joining system according to one of the above-mentioned claims, characterized in that the building element (1) comprising the box element (100) and the lifting element (110) is a molded building element (1). 10. Procedure for joining two building elements (1,2), of which at least one building element (1) is a cast element, characterized in that the desired number of box elements (100) are provided, to which the desired number of lifting elements (110) are attached, the box elements (100) with the attached lifting elements (110) are arranged in a mold so that the fastening part (111) of the lifting element (110) after casting will be outside an outer surface (3) of the building element (1), after which, in a known manner, molding compound is added to the mold and the building element (1) is hardened and brought to the place of use, the bridge element (120) is positioned in a known manner retracted inside the box element (100 ), where lifting equipment is then attached to the fastening part (111) of the lifting element (110) and the building element (1) is lifted up to its position and brought together in a known manner by bringing the bridge element (120) to an extended position in engagement with the other building element (2 ), after which the lifting equipment is released from the first building element (1). 11. Procedure according to claim 10, characterized in that the fixing part (111) is located in a submerged part (4) relative to the rest of the outer circumference of the building element, which submerged part (4) is cast after joining the building elements (1,2) so that a smooth outer surface is formed surface of the building element (1).