NL1040337C2 - CONFIRMATION MEANS AND METHOD FOR CONFIRMING A PREFAB BUILDING ELEMENT TO A SUPPORT STRUCTURE. - Google Patents

Description

Fastening means and method for fastening a prefab building element to a support structure

FIELD OF THE INVENTION

The invention relates to fixing means for fixing a prefabricated building element to a bearing structure, which fixing means comprise: - a first part to be arranged on the bearing structure comprising a first member; and - a second part to be arranged on the building element comprising a second member which is adjustable relative to the remaining part of the second part.

This particularly concerns the attachment of a (part of a) façade or roof, to a concrete frame or a construction of brick walls and (wooden or system) floors. The invention also relates to a method for attaching a prefab building element to a bearing structure by means of such fixing means.

BACKGROUND OF THE INVENTION

There is a wide variety of housing types, each with its own bearing structure, façade construction, roof construction and interior finishing. For example, a large part of the existing housing stock consists of terraced houses built in the period 1960-1980. Many of those terraced houses are now eligible for renovation, whereby the façade and / or roof can be replaced by, for example, prefab HSB (timber frame construction) building elements, preferably house-wide and storey-high or even house-high. But also with other houses or buildings, whether existing or still to be built, people use (increasingly) prefabricated building elements. Prefabrication has the advantages of shortening the construction time in the execution phase and a higher and more consistent quality of the building elements.

All kinds of solutions are known for attaching a prefab building element to a supporting structure. For example, EP0342991A1 describes a system for fixing panels by means of brackets to, and at a certain distance from, a frame wherein the brackets are designed such that, after fixing, the position of the panels relative to the frame can be changed within certain limits. . In US3465996A we find a similar system for fixing plates on a facade. US2011 / 296769A1 describes the attachment of prefab elements to a support structure by means of brackets and the mutual attachment of elements by means of clips. US3561182A describes a system for mutually securing parts of a framework in which the mutual position of the parts can be varied within certain limits.

However, none of the above systems can easily and quickly secure a good and medium-tight attachment between a prefabricated building element and a support structure. Each system is only suitable for use with a certain type of support structure or a limited number of types of support structures. None of the systems can attract the structural element against the support structure in order to achieve a medium-tight seal. It is also not possible with any of the systems to operate the fastening means from the support structure, which has all kinds of advantages, including eliminating the need for a scaffolding and the ease of working from the support structure.

There is therefore a need for a good, generally applicable, solution for the simple and quick medium-tight mounting of a prefabricated building element, such as a (part of a) facade or roof, to a supporting structure, for example a concrete skeleton or, for example, a brickwork construction walls and (wooden or system) floors, wherein the fixing means can preferably be operated from the bearing structure. The present invention now provides for this.

Summary of the invention

The invention provides fastening means of the type mentioned in the preamble, characterized in that the fastening means are designed such that, with a correct mutual positioning of the first part and the bearing structure, a correct mutual positioning of the second part and the building element , and a correct mutual positioning of the building element and the supporting structure, eats against the first member during the adjustment such that the building element is attracted against the supporting structure. The invention also provides a method for attaching a prefab building element to a support structure by means of such fixing means, characterized in that the method comprises: arranging the first part in the correct mutual positioning on the support structure; arranging the second part in the correct mutual positioning on the building element; bringing the building element and the supporting structure into the correct mutual positioning; and adjusting the second member relative to the remaining part of the second part so that the building element is attracted to the bearing structure.

The terms "horizontal" and "vertical" in the context of the invention always mean "in a position of use at least substantially horizontally" or "in a position of use at least substantially vertically", wherein "position of use" indicates a situation of correct mutual positioning. The prefabricated building element can thus be fixed to the bearing structure in a reasonable manner.

The first member preferably extends in a vertical plane parallel to the main surface of the building element and the second member is adjustable in a horizontal direction perpendicular to that vertical plane. The terms "perpendicular" and "parallel" in the context of the invention always mean "substantially perpendicularly" or "substantially parallel" respectively. Thus, during the adjustment of the second member, the prefabricated building element is attracted to the bearing structure. The first member is preferably adjustable with respect to the remaining part of the first part. Thus, deviations, which will generally occur in particular in the support structure, can be absorbed. In a preferred embodiment, the first member comprises a wire end and the second member comprises a set wood. These are common, readily available parts that can be used easily, quickly and effectively in practice.

A method according to the invention can also comprise: - applying adjustment means to the support structure; and - fixing the first part on the adjusting means.

The term adjusting means is used in its broadest sense within the scope of the invention and, in addition to complete or incomplete sets of adjusting frames and adjusting frames, also comprises single parts such as a adjusting batten and a adjusting frame. The adjusting means, for example of wood or steel, can accommodate dimensional deviations and variations in the supporting structure within certain limits, and the use of the adjusting means makes the invention more general, for example for supporting structures with wooden, stony or concrete floors and brickwork or brickwork. concrete walls, applicable.

The second part preferably also comprises a third member, which third member is movable between a first position and a second position, in which first position the first member moves freely along the relative position of the building element and the supporting structure. third member can move and in which second position the second member, with the correct mutual positioning of the building element and the supporting structure, eats against the third member during adjustment and the third member eats against the first member. A method according to the invention can now also comprise: - bringing the third member into the first position; - bringing the building element and the supporting structure into the correct mutual positioning, wherein the first member moves freely along the third member; - bringing the third member into the second position; and - adjusting the second member.

Thus, when the correct mutual positioning of the building element and the supporting structure is achieved, it can be moved vertically horizontally in the direction of the supporting structure until the correct mutual positioning of the building element and the supporting structure is achieved. This is particularly important in the event that parts of the support structure are in the way, for example a protruding upper floor.

The third member is herein preferably rotatable in a vertical plane perpendicular to the main surface of the component and translatable in a plane perpendicular to the axis of rotation, the second part of which also comprises a fourth extending parallel to the axis of rotation in a horizontal direction. member and the third member is provided with a slotted hole cooperating with the fourth member. Such an embodiment is found to work in practice handy and well. The second part is then preferably mirror-symmetrical in which the axis of rotation of the third member lies in the mirror-symmetry plane and the mirror-symmetry plane is parallel to the main surface of the building element. Thus, only one type of fastening means is required that can be used on multiple sides of the component.

The second part can herein also comprise a fifth member suitable for holding the third member in the first position, wherein more preferably at least a part of the fifth member can be removed relatively easily from the remaining part of the second part, for example by applying a relatively small force, bending moment or torsional moment to the fifth member. A method according to the invention can then also comprise: - holding the third member in the first position by means of the fifth member; and - removing the at least one part of the fifth member from the remaining part of the second part.

The third member can thus be held in the first position by means of the fifth member during the correct mutual positioning of the building element and the supporting structure. After achieving the correct mutual positioning of the building element and the supporting structure, the at least one part of the fifth member can be removed, whereby it is possible to move the third member to the second position or, for example, the third member to move automatically, for example under influence of gravity or a spring mechanism provided for this purpose, moves to the second position.

This is important in a situation where it is difficult or no longer possible without the removal to move the third member to the second position.

The fixing means preferably also comprise sealing means to be arranged between the bearing structure and the building element. If, by adjusting the second member, pressure is exerted on the sealing means, they will form a seal between the building element and the support structure. More preferably, the sealing means comprise an elastic element, for example a sealing rubber. A medium-tight seal can thus be achieved, at least to a large extent, which is of particular importance in connection with the thermal insulation of the house or building in question.

The fixing means are preferably designed in such a way that with the correct mutual positioning, the second member can be adjusted from the support structure. This has all kinds of advantages, including the elimination of the necessity of a scaffolding and the ease of working from the support structure.

Brief description of the drawings

The invention is explained below with reference to non-limiting exemplary embodiments.

In the drawings: figure 1 shows a more or less schematic perspective view of a support structure with a prefabricated building element to be mounted thereon; figure 2 shows a partial cross-section of the support structure and a prefabricated building element attached thereto according to the invention; and figure 3 fastening means according to the invention with members in different positions.

Output examples

Figure 1 shows a load-bearing structure (3), here a concrete frame of an intermediate house, and a prefabricated building element (2) to be attached to it, here a house-wide floor-high prefab HSB (timber frame construction) façade element. The facade element (2) is attached to the floors and walls of the support structure (3) by means of a series of fastening means (1) according to the invention. Figure 2 shows a confirmation in more detail. In the given example, first a frame (7), here made of wood, is provided on the support structure (3) with which dimensional deviations and variations in the support structure (3) can be compensated within certain limits. You can also see a finish (8) to be applied later.

The fixing means (1), see figures 2 and 3, comprise a first part (4) which comprises a first plate (4b) which, here by means of screws, is arranged on the support structure (3) or the adjusting frame (7). The first part (4) also comprises a first member (4a), here a wire end, which can be adjusted within a certain range if necessary or desired with respect to the first plate (4b). The fixing means (1) also comprise a second part (5) which comprises a second plate (5f) which, here by means of screws, is arranged on the facade element (2), and also an adjustable second member (5a), here a set of logs. The adjusting wood (5a) is arranged in a flanged end (5g) of the second plate (51) and can be adjusted within a certain range with respect to the second plate (5f). The first plate (4b) and the second plate (5f) are both recessed in the given example in order to obtain stronger connections.

The second part (5) also comprises a third member (5b) which, via intermediate positions (B, C), is movable between a first position (A) and a second position (D). The third member (5b) is here a tilting disc which is rotatable in a vertical plane perpendicular to the main surface of the facade element (2) and is translatable in a plane perpendicular to the axis of rotation. To that end, the second part (5) also comprises a fourth member (5c) extending in a horizontal direction parallel to the axis of rotation and the tilting disc (5b) is provided with a slotted hole (5d) cooperating with the fourth member (5c) ). In the first position (A), the threaded end (4a) can move freely along the tilting disc (5b) as indicated in the last part of the mutual positioning of the façade element (2) and the support structure (3) with the arrow in Figure 3 (A). The facade element (2) can thus be moved vertically horizontally in the direction of the support structure (3) until the correct mutual positioning of the facade element (2) and the support structure (3) is achieved. In the second position (D), the adjusting timber (5a), with correct mutual positioning of the façade element (2) and the supporting structure (3), deposits against the tilting disc (5b) which in turn deposits itself again during adjustment against the wire end (4a), as indicated in figure 3 (D), and thus the façade element (2) is pulled against the bearing structure (3). The second part (5) is here mirror-symmetrical, such that only one type of fastening means (1) is required that can be used on all sides of the building element (2).

The second part (5) here also comprises a fifth member (5e), mounted here on the second plate (5f), for holding the tilting disc (5b) in the first position (A). The fifth member (5e) is relatively easy to break off from the second plate (5f). The fastening means (1) here also comprise sealing means (6) arranged between the bearing structure (3) and the facade element (2), in the given example a sealing rubber.

When fixing the façade element (2) to the support structure (3), one can now proceed as follows. The facade element (2) is correctly positioned with respect to the support structure (3). The tilting disc (5b) is thereby in the first position (A) so that the threaded end (4a) can move freely along the tilting disc (5b), and the facade element (2), at least at least the last part of the path, is positioned vertically can move in the direction of the support structure (3). The fifth member (5e) thereby holds the tilting disc (5b) in the first position (A). The fifth member (5e) is then broken off from the second plate (5f), whereafter the tilting disc (5b) is moved to the second position (D). Moving to the second position (D) can possibly also take place more or less naturally, for example under the influence of gravity or by means of a spring mechanism provided for this purpose. By now adjusting the adjusting timber (5a) the facade element (2) is pulled against the bearing structure (3), and pressure is also exerted on the sealing rubber (6) so that a medium-tight seal is formed between the facade element (2) and the bearing structure (3). The same is repeated for the entire series of fasteners.

The shape and dimensions of the first part (4) and the second part (5) are such that, with the correct mutual positioning, the adjusting wood (4a) can be adjusted from the supporting structure (3). Thus the fixing of the facade element (2) can be done entirely from the support structure (3) and no scaffolding is required.

With the invention it is possible to fasten a prefabricated building element well, simply and quickly, without scaffolding, to a more or less random, load-bearing structure.

It will be clear that the invention is not limited to the exemplary embodiments shown and described, but that all kinds of obvious variants are possible within the scope of the invention for a person skilled in the art.

Claims (21)

Fixing means (1) for fixing a prefabricated building element (2) to a support structure (3), which fixing means comprise: - a first part (4) to be arranged on the support structure comprising a first member (4a); and - a second part (5) to be arranged on the building element comprising a second member (5a) which is adjustable relative to the remaining part of the second part, characterized in that the fastening means are designed such that the second member a correct mutual positioning of the first part and the supporting structure, a correct mutual positioning of the second part and the building element, and a correct mutual positioning of the building element and the supporting structure, against the first member during adjusting such that the building element against the support structure is attracted. Fastening means according to claim 1, characterized in that the first member extends in a vertical plane parallel to the main surface of the building element and the second member is adjustable in a horizontal direction perpendicular to said vertical plane. Fastening means according to claim 1 or 2, characterized in that the first member is adjustable with respect to the remaining part of the first part. Fastening means as claimed in any of the claims 1-3, characterized in that the first member comprises a threaded end. Fastening means according to any of claims 1-4, characterized in that the second member comprises a set wood. Fastening means according to one of claims 1-5, characterized in that the second part also comprises a third member (5b), which third member is movable between a first position (A) and a second position (D) in which first position the first member can move freely along the third member when the correct mutual positioning of the building element and the supporting structure is reached, and in which second position the second member, during the correct mutual positioning of the building element and the supporting structure, during mending eats against the third organ and the third organ eats against the first organ. Fastening means according to claim 6, characterized in that the fastening means also comprise urging means, for example a spring mechanism, suitable for urging the third member to the second position. Fastening means as claimed in claim 6 or 7, characterized in that the third member is rotatable in a vertical plane perpendicular to the main plane of the building element and can be translated in a plane perpendicular to the axis of rotation, to which the second part also comprises a fourth member (5c) extending in a horizontal direction parallel to the axis of rotation and the third member is provided with a slotted hole (5d) cooperating with the fourth member. 9. Fastening means according to claim 8, characterized in that the second part is mirror-symmetrical, wherein the axis of rotation of the third member lies in the mirror-symmetry plane and the mirror-symmetry plane is parallel to the main plane of the building element. 10. Fastening means according to any one of claims 6-9, characterized in that the second part also comprises a fifth member (5e) suitable for holding the third member in the first position. 11. Fastening means as claimed in claim 10, characterized in that at least a part of the fifth member can be removed relatively easily from the remaining part of the second part, for instance broken off, by a relatively small force, bending moment on the fifth member. or torque. Fixing means according to one of claims 1 to 11, characterized in that the fixing means also comprise sealing means (6) to be arranged between the bearing structure and the building element. Fastening means according to claim 12, characterized in that the sealing means comprise an elastic element, for example a sealing rubber. 14. Fastening means according to any one of claims 1-13, characterized in that the fastening means are designed such that with the correct mutual positioning the adjustment of the second member can take place from the support structure. Method for attaching a prefabricated building element (2) to a support structure (3) by means of attachment means (1), the attachment means comprising: - a first part (4) to be arranged on the support structure comprising a first member (4a); and - a second part (5) to be arranged on the building element comprising a second member (5a) which is adjustable relative to the remaining part of the second part, wherein the fastening means are designed such that the second member, when correctly positioned relative to one another of the first part and the supporting structure, a correct mutual positioning of the second part and the structural element, and a correct mutual positioning of the structural element and the supporting structure, eats against the first member during adjustment such that the structural element is attracted to the supporting structure, characterized in that the method comprises: - arranging the first part in the correct mutual positioning on the support structure; - arranging the second part in the correct mutual positioning on the building element; - bringing the building element and the supporting structure into the correct mutual positioning; and - adjusting the second member relative to the remaining part of the second part so that the building element is attracted to the bearing structure. A method according to claim 15, wherein the first member is adjustable relative to the remaining part of the first part, characterized in that the method also comprises adjusting the first member relative to the remaining part of the first part. A method according to claims 15 or 16, characterized in that the method also comprises: - applying adjustment means (7) to the support structure; and - fixing the first part on the adjusting means. A method according to any one of claims 15-17, wherein the second part also comprises a third member (5b), which third member is movable between a first position (A) and a second position (D), in which first position the first member is located , when the correct mutual positioning of the building element and the supporting structure can be moved freely along the third member and in which second position the second member, against the correct mutual positioning of the building element and the supporting structure, deposits against during adjustment the third member and the third member opposed to the first member, characterized in that the method also comprises: - bringing the third member into the first position; - bringing the building element and the supporting structure into the correct mutual positioning, wherein the first member moves freely along the third member; - bringing the third member into the second position; and - adjusting the second member. A method according to claim 18, wherein the second part also comprises a fifth member (5e) suitable for holding the third member in the first position and at least a part of the fifth member relatively simple of the remaining part of the second part can be removed, for example broken off, by exerting a relatively small force, bending moment or torsional moment on the fifth member, characterized in that the method also comprises: - keeping the third member in the first position by means of the fifth member organ; and - removing the at least one part of the fifth member from the remaining part of the second part. A method according to any one of claims 15-19, wherein the fastening means also comprise sealing means (6) to be arranged between the bearing structure and the building element, for example an elastic element such as a sealing rubber, characterized in that by adjusting the second pressure is applied to the sealing means. Method as claimed in any of the claims 15-20, wherein the fixing means are designed such that with the correct mutual positioning the adjustment of the second member can take place from the support structure, characterized in that the adjustment of the second member takes place from the support structure .