KR102619755B1 - Method and connection arrangement for mounting a prefabricated construction element to another construction element - Google Patents

Abstract

A method of mounting a prefabricated construction element (1) comprising concrete to another construction element (2) and a connection arrangement are described. The method comprises a mechanical connection means ( 3) a connecting step of connecting by, a grouting step of grouting the joint (4) by at least partially covering the joint (4) with grout (5) and hardening the grout (5), and at least partially before the grouting step. and a coating step of coating the surfaces (6) of the prefabricated construction element (1) to be covered by the grout (5) in the grouting step with anti-adhesion means (7).

Description

Method and connection arrangement for mounting a prefabricated construction element to another construction element

The invention relates to a method of mounting a prefabricated construction element comprising concrete as defined in the preamble of independent claim 1 to another construction element.

The invention relates to a connection arrangement between a prefabricated construction element comprising concrete as defined in the preamble of independent claim 14 and another construction element.

The present invention provides a method of mounting a prefabricated construction element comprising concrete to another construction element and a connection arrangement between a prefabricated construction element comprising concrete and another construction element, comprising: Allows for openness between prefabricated construction elements and other construction elements in a way that allows them to be easily dismantled and recycled, promoting a circular economy.

The method for installing a prefabricated construction element containing concrete of the present invention on another construction element is characterized by the provisions of paragraph 1 of the independent claim.

Preferred embodiments of the method are defined in dependent claims 2 to 13.

The connection arrangement between a prefabricated construction element comprising concrete of the invention and another construction element is correspondingly characterized by the provisions of independent claim 14.

Preferred embodiments of the connection arrangement are defined in dependent claims 15 to 26.

Prefabricated construction elements comprising concrete may be, for example, any of the following: prefabricated reinforced concrete columns/pile/pillars, prefabricated reinforced concrete beams and prefabricated concrete wall elements.

Said further construction element may also be a prefabricated construction element comprising concrete, for example a prefabricated reinforced concrete column/pile/pillar. Alternatively, the further construction element may be a cast-in-situ construction element comprising concrete, such as a reinforced concrete foundation or a component belonging to a reinforced concrete foundation.

Next, the method and connection arrangement are described in more detail with reference to the drawings.

Figure 1 shows a first embodiment of a connection arrangement in which a prefabricated construction element is in the form of a prefabricated reinforced concrete column and another construction element is in the form of a reinforced concrete foundation.
Figure 2 shows a second embodiment of a connection arrangement, wherein one prefabricated construction element is in the form of a prefabricated reinforced concrete column and another construction element is in the form of a reinforced concrete foundation.
Figure 3 shows a third embodiment of a connection arrangement, in which one prefabricated construction element is in the form of a prefabricated reinforced concrete column and another construction element is in the form of a reinforced concrete foundation.
Figure 4 shows a fourth embodiment of a connection arrangement, wherein one prefabricated construction element is in the form of a prefabricated concrete wall element and another construction element is in the form of a reinforced concrete foundation.
Figure 5 shows a fifth embodiment of a connection arrangement, wherein one prefabricated construction element is in the form of a prefabricated concrete wall element and another construction element is in the form of a reinforced concrete foundation.
Figure 6 shows a sixth embodiment of a connection arrangement, wherein one prefabricated construction element is in the form of a prefabricated concrete wall element and another construction element is in the form of a reinforced concrete foundation.
Figure 7 shows a seventh embodiment of a connection arrangement, in which one prefabricated construction element is in the form of a prefabricated concrete beam and another construction element is in the form of a prefabricated reinforced concrete column.
Figure 8 shows steps in the disassembly process of the first embodiment of the connection arrangement shown in Figure 1;
Figure 9 shows another stage of the disassembly process of the first embodiment of the connection arrangement shown in Figure 1;
Figure 10 shows a further further step of the disassembly process of the first embodiment of the connection arrangement shown in Figure 1;
Figures 11a-11c show further steps of the disassembly process of the first embodiment of the connection arrangement shown in Figure 1;
Figure 12 shows the separation means in the form of an unperforated sheet.
Figure 13 shows a separating means in the form of an expanded steel plate.

First, the method of mounting a prefabricated construction element (1) containing concrete to another construction element (2) will be described in more detail.

Prefabricated construction elements comprising concrete include, for example, prefabricated reinforced concrete columns/pile/pillars, as shown in Figures 1 to 3, prefabricated reinforced concrete beams, as shown in Figure 7 and Figures 4 to 4. As shown in Figure 6, it can be any one of the prefabricated concrete wall elements.

Said further construction element 2 may also be a prefabricated construction element 1 comprising concrete, for example a prefabricated reinforced concrete column/pile/pillar, as shown in FIG. 7 . Alternatively, said further construction element 2 may be a cast-in field comprising concrete, such as a reinforced concrete foundation or a part belonging to a reinforced concrete foundation, as shown in FIGS. 1 to 6 -situ) may be a construction element.

The method is such that a joint (4) is formed between the prefabricated construction element (1) and the another construction element (2) and the joint (4) is formed by the prefabricated construction element (1) and the another construction element (2). and a connection step of connecting said prefabricated construction element (1) by means of repeatedly openable mechanical connection means (3) to said another construction element (2) so as to be at least partially limited.

The method comprises a grouting step of covering the joint (4) at least partially with grout (5) and grouting the joint (4), for example by filling and allowing the grout (5) to harden.

The method comprises prior to the grouting step at least partially coating the surfaces (6) of the prefabricated construction element (1) to be covered by the grout (5) in the grouting step with separating means (7), for example with anti-adhesion means. It includes a coating step.

In the coating step, mechanical anti-adhesion means such as perforated or non-perforated plates, sheets or films can be used as separating means (7). As a means of preventing mechanical adhesion, for example, wood such as expanded steel sheets, perforated steel sheets, plates of polymers, sheets of polymers, films of polymers, textile sheets, fabric sheets, formwork liners, and coated plywood. can be used The advantage achieved by using perforated plates, sheets or films as separating means (7) is that the perforations allow the grout (5) to be attached to the prefabricated construction element (1) via the separating means (7). This provides a stronger connection between the grout (5) and the prefabricated construction element (1), while allowing easy separation of the prefabricated construction element (1) from the separation means (7) and the grout (5).

In the coating step, anti-adhesion substances, such as fluids such as oils, cementitious retarders or carbon, can be used as separating means 7 .

The coating step preferably, but not necessarily, means, for the coating step, means that are separate from the prefabricated construction element (1), i.e. do not form part of the prefabricated construction element (1), and said further construction. and providing means (7) that are separate from the element (2), i.e. do not form part of said further construction element (2).

The separating means (7) preferably, but not necessarily, comprises the grout (5) configured to cover the prefabricated construction element (1) at the joint (4) and the surfaces (6) of the prefabricated construction element (1). ) between the interfaces (not indicated by reference numerals), i.e. arranged to at least partially follow the connecting surfaces.

The method allows the separation of the prefabricated construction element (1) from the grouting without damaging the prefabricated construction element (1) since the grout (5) does not adhere to the surfaces (6) of the prefabricated construction element (1) due to the separating means (7). Allows for easy removal.

The coating step is preferably, but not necessarily, carried out by at least partially separating means (7) provided before the grouting step, for example by means of any alternative separating means (7) that is to be covered by the grout (5). and additionally coating the surfaces (6) of the construction element (2). In this case, the separating means (7) preferably, but not necessarily, consists of the grout (5) configured to cover the further construction element (2) at the joint (4) and the further construction element ( 2) the interface between the surfaces 6 (not indicated by reference numeral), i.e. arranged to at least partially follow the connecting surface.

The method ensures that the grout (5) is not attached to the surfaces (6) of the further construction element (2) coated by the separating means (7), without damaging the further construction element (2). Allows easy removal from another construction element (2).

In some embodiments, the connecting step is repeatable, preferably, but not necessarily, comprising anchor bolts (8) extending from the another construction element (2), as shown in Figures 1-7. and providing mechanical connection means (3) that can be opened and closed easily. In this embodiment the connecting step involves first nuts 9 on the anchor bolts 8 such that the nuts are at a distance from the another construction element 2, as shown in FIGS. 1 to 3 ) may include the step of screwing. In this embodiment, the connection step is such that first nuts (9) are present between the another construction element (2) and the prefabricated construction element (1) and the grouting space (11) is formed between the another construction element (2) and the prefabricated construction element (1). 2) arranging anchor bolts (8) to penetrate the openings (10) in the prefabricated construction element (1) so as to be formed between them and the prefabricated construction element (1). In this embodiment, the connecting step includes screwing the second nuts (12) onto the anchor bolts (8) to secure the prefabricated construction element (1) to the anchor bolts (8). In the embodiment shown in FIGS. 4 to 6 , the washer 17 is arranged on the anchor bolts 8 between the openings 10 and the second nuts 12 . In this embodiment, the method preferably, but not necessarily, allows the opening formed in the metal plates 13 of the connector element 14 to be at least partially cast in the concrete of the prefabricated construction element 1 in the connection step. and arranging the anchor bolts (8) to penetrate the bolts (10). This connector element 14 can be, for example, a column shoe as shown in the embodiment shown in FIGS. 1 to 3 , as shown in the embodiment shown in FIG. 7 , depending on the form of the prefabricated construction element 1 It may be in the form of a beam shoe as shown, or a wall shoe as shown in the embodiment shown in Figures 4 and 5. The connection step, in this embodiment, preferably but not necessarily, involves openings 10 in the prefabricated construction element 1 such that the anchor bolts 8 extend into the cavity 15 in the prefabricated construction element 1 ) and arranging the anchor bolts 8 to penetrate the cavities, wherein the connecting step preferably but not necessarily includes anchor bolts (8) inside the cavities so that the second nuts 12 can be received within the cavities. 8) and screwing the second nuts (12) to each other. In this embodiment the method preferably, but not necessarily, fills the cavities at least partially with a material 16 other than the grout 5 prior to the grouting step so as to at least partially prevent the grout 5 from entering the cavities. It includes a charging step of charging them. In the filling step, for example, at least one mineral wool, gypsum, plaster and lime mortar can be used as the other materials 16 . These materials are easier to remove than concrete or mortar, so that the repeatedly openable mechanical connection means 3 can be accessed and opened in the cavity 15, as shown in Figure 8.

increasing the shear force transfer capacity between the grout (5) at the joint (4) between a prefabricated construction element (1) and said another construction element (2), while at least facilitating the reuse of the construction element (1). To further create a demountable connection, the method comprises a protruding formation (20) configured to protrude into the grout (5) at the joint between the prefabricated construction element (1) and the another construction element (2) and the prefabricated construction element (20). providing said prefabricated construction element (1) with at least one of said cavity formations (21) configured to protrude grout (5) from said joint between said construction element (1) and said another construction element (2). It can be included.

Increases the shear force transfer capacity between the prefabricated construction element (1) and the grout (5) at the joint (4) between said other construction elements (2), while also allowing for easy disassembly to at least allow reuse of the construction element (1). To further create a possible connection, the method comprises a protruding formation (20) configured to protrude into the grout (5) at the joint between the prefabricated construction element (1) and the another construction element (2) and the prefabricated construction element (20). providing said another construction element (2) with at least one of the cavity formations (21) configured to protrude grout (5) from said joint between an element (1) and said another construction element (2). It can be included.

Construction element (1) so as to increase the shear force transfer capacity between the prefabricated construction element (1) and said other construction element (2), while additionally creating an easily disassembly connection that at least allows for reuse of the construction element (1). ) can be provided with a formation 20 extending into a cavity 21 in the grout 5 between a prefabricated construction element 1 and said other construction element 2, as shown in FIG. 2 .

Construction element (1) so as to increase the shear force transfer capacity between the prefabricated construction element (1) and said other construction element (2), while additionally creating an easily disassembly connection that at least allows for reuse of the construction element (1). ) can alternatively be provided with a formation 20 extending into the cavity 21 in the other construction element 2 , as shown in FIG. 3 .

Alternatively, as shown in FIG. 5 , a prefabricated construction element (1) is configured to be filled with grout (5) cast between said prefabricated construction element (1) and said another construction element (2). ) By forming a cavity (21) in the surface (6), the shear force transfer capacity between the prefabricated construction element (1) and said other construction element (2) is increased, while at least allowing the reuse of the construction element (1). Additional easily disassembly connections can be created.

Alternatively, as shown in FIG. 6 , the prefabricated building element is configured so that both cavities (21) are filled with grout (5) cast between said prefabricated building element (1) and said another building element (2). By forming a cavity (21) on both the surface (6) of (1) and the surface (6) of said another construction element, the shear force transmission capacity between the prefabricated construction element (1) and said other construction element (2) is increased. On the other hand, it is possible to additionally create an easily demountable connection that allows at least a reuse of the construction element (1).

The anchor bolts (8) are preferably, but not necessarily, screwed into threaded muffs (17) such that the threaded muffs (17) are connected to the surfaces (6) of the further construction element (2). cast into the concrete of said another construction element (2) so as to extend from said another construction element (2), fastened to said threaded muffs (17) and also cast into the concrete of said another construction element (2). These are threaded bars, anchored by anchor means (18). An example of this is the Copra® anchoring coupler from Peikko Group. The advantage of this is that it allows the threaded bar to be removed from the threaded muff 17 so that the anchor bolts 8 do not protrude from the further component 2, as shown in FIGS. 11a to 11c. am. 11b and 11c, a separate tool 2)2) is screwed into the threaded muffs 17 to remove the threaded muffs 17 from another component 2.

Next the connection arrangement between a prefabricated construction element (1) comprising concrete and another construction element (2) will be described in more detail.

Prefabricated construction elements comprising concrete include, for example, prefabricated reinforced concrete columns/pile/pillars, as shown in Figures 1 to 3, prefabricated reinforced concrete beams, as shown in Figure 7 and Figures 4 to 4. As shown in Figure 6, it can be any one of the prefabricated concrete wall elements.

Said further construction element 2 may also be a prefabricated construction element 1 comprising concrete, for example a prefabricated reinforced concrete column/pile/pillar, as shown in FIG. 7 . Alternatively, said further construction element 2 may be a cast-in field comprising concrete, such as a reinforced concrete foundation or a part belonging to a reinforced concrete foundation, as shown in FIGS. 1 to 6 -situ) may be a construction element.

In the connection arrangement, a prefabricated construction element (1) is connected such that a joint (4) is formed between said prefabricated construction element (1) and said another construction element (2) and the joint (4) is connected to said prefabricated construction element (1). It is connected to said further construction element (2) by means of mechanical connection means (3) which can be opened and closed repeatedly, so as to be at least partially limited by said further construction element (2).

In the connection arrangement, the joint 4 is at least partially covered and eg filled with grout 5 which is allowed to harden.

In the connection arrangement, the separating means (7), for example the anti-adhesion means (7), are allowed to harden with the surfaces (6) of the prefabricated construction element (1) which are at least partially covered by the grout (5). There is between said grout (5) which at least partially covers the joint (4).

The separation means 7 may comprise mechanical anti-adhesion means such as perforated or non-perforated plates, sheets or films. Mechanical anti-adhesion means can be used, for example, on wood such as expanded steel sheets, perforated steel sheets, plates of polymers, sheets of polymers, films of polymers, textile sheets, fabric sheets, formwork liners, and coated plywood. can be used The advantage achieved by using perforated plates, sheets or films as separating means (7) is that the perforations allow the grout (5) to be attached to the prefabricated construction element (1) via the separating means (7). This provides a stronger connection between the grout (5) and the prefabricated construction element (1), while allowing easy separation of the prefabricated construction element (1) from the separation means (7) and the grout (5).

The separation means 7 may comprise anti-adhesion substances, such as fluids, for example oil or carbon.

The separating means (7) is preferably, but not necessarily, a means separate from the prefabricated construction element (1), i.e. means that does not form part of the prefabricated construction element, and is separate from said further construction element (2). Personal means, i.e. means that do not form part of another construction element (2) above.

The separating means (7) preferably, but not necessarily, comprises the grout (5) covering the prefabricated construction element (1) at the joint (4) and the surfaces (6) of the prefabricated construction element (1). the interface between them (not marked with a drawing symbol), i.e. at least partially along the connecting surface.

The connection arrangement allows prefabricated construction from grouting without damaging the prefabricated construction elements (1) since the grout (5) does not adhere to the surfaces (6) of the prefabricated component (1) coated with the anti-adhesion material (7). Allows easy removal of element (1).

In the connection arrangement, the separating means (7) as provided, for example any alternative anti-adhesion means (7), is connected to the surfaces of said another construction element (2) which are at least partially covered by the grout (5). (6) and the grout (5) which is allowed to harden and at least partially covers the joint (4). The advantage of this is that the grout (5) will not adhere to the surface (6) of said another component (2) coated by the anti-adhesion material (7), allowing easy removal of the grouting from the other component. The point is that it does. In this case, the separating means (7) preferably, but not necessarily, comprises the grout (5) covering the further construction element (2) at the joint (4) and the further construction element (2). ) (not indicated by reference numeral) between the surfaces 6, i.e. at least partially along the connecting surface.

In some embodiments, the connection arrangement preferably, but not necessarily, comprises anchor bolts (8) extending from the further construction element (2), as shown in Figures 1 to 7. A mechanical connection means (3) that can be opened and closed is provided. In this embodiment the repeatable openable mechanical connection means (3) connects the anchor bolts (8) such that the nuts are at a distance from the further construction element (2), as shown in FIGS. 1 to 3. It may include first nuts (9) screwed on. In this embodiment, the anchor bolts (8) are such that first nuts (9) are present between the another construction element (2) and the prefabricated construction element (1) and the grouting space (11) is located between the another construction element (2) and the prefabricated construction element (1). Openings 10 in the prefabricated construction element 1 are formed between the construction element 2 and the prefabricated construction element 1 . In this embodiment, the repeatably retractable mechanical connection means (3) has second nuts (12) screwed onto the anchor bolts (8) to secure the prefabricated construction element (1) to the anchor bolts (8). ) may include. In the embodiment shown in FIGS. 4 to 6 , the washer 17 is arranged on the anchor bolts 8 between the openings 10 and the second nuts 12 . In this embodiment, the anchor bolts 8 penetrate openings 10 formed in the metal plates 13 of the connector element 14 which are at least partially cast in the concrete of the prefabricated construction element 1 . This connector element 14 can be, for example, a column shoe as shown in the embodiment shown in FIGS. 1 to 3 , as shown in the embodiment shown in FIG. 7 , depending on the form of the prefabricated construction element 1 It may be in the form of a beam shoe as shown, or a wall shoe as shown in the embodiment shown in Figures 4 and 5. Anchor bolts 8 are preferably but not essential in these embodiments of the connection arrangement, such that the anchor bolts 8 extend into the cavity 15 in the prefabricated construction element 1 . ) and the second nuts 12 are preferably, but not necessarily, anchor bolts ( inside the cavities so that the second nuts 12 can be received within the cavities). 8) It is screwed on. In this embodiment of the connection arrangement the cavities are preferably, but not necessarily, at least covered with a material 16 other than the grout 5 prior to the grouting step so as to at least partially prevent the grout 5 from entering the cavities. Partially charged. In the filling step, for example, at least one mineral wool, gypsum, plaster and lime mortar can be used as the other materials 16 . These materials are easier to remove than concrete or mortar so that the repeatedly openable mechanical connection means 3 can be accessed and opened within the cavity 15, as shown in Figure 8.

Increases the shear force transfer capacity between the prefabricated construction element (1) and the grout (5) at the joint (4) between said other construction elements (2), while also allowing for easy disassembly to at least allow reuse of the construction element (1). To further create a possible connection, the prefabricated construction element (1) is provided with a protruding formation (20) which protrudes into the grout (5) at the joint between the prefabricated construction element (1) and the another construction element (2). and a cavity formation (21) through which the grout (5) from the joint between the prefabricated construction element (1) and the another construction element (2) projects.

Easy disassembly allowing at least reuse of the construction element (1) while increasing the shear force transfer capacity between the prefabricated construction element (1) and the grout (5) at the joint (4) between said other construction elements (2). To further create a possible connection, the further construction element (2) is provided with a protruding formation (20) which protrudes into the grout (5) at the joint between the prefabricated construction element (1) and the further construction element (2). ) and a cavity formation 21 through which the grout 5 from the joint between the prefabricated construction element 1 and the another construction element 2 protrudes.

Construction element (1) so as to increase the shear force transfer capacity between the prefabricated construction element (1) and said other construction element (2), while additionally creating an easily disassembly connection that at least allows for reuse of the construction element (1). ) can provide a formation 20 extending into a cavity 21 in the grout 5 between a prefabricated construction element 1 and said other construction element 2, as shown in FIG. 2 .

Construction element (1) so as to increase the shear force transfer capacity between the prefabricated construction element (1) and said other construction element (2), while additionally creating an easily disassembly connection that at least allows for reuse of the construction element (1). ) may alternatively provide a formation 20 extending into the cavity 21 in the other construction element 2 , as shown in FIG. 3 .

Alternatively, as shown in FIG. 5 , a prefabricated construction element (1) is configured to be filled with grout (5) cast between said prefabricated construction element (1) and said another construction element (2). ) By forming a cavity (21) in the surface (6), the shear force transfer capacity between the prefabricated construction element (1) and said other construction element (2) is increased, while at least allowing the reuse of the construction element (1). Additional easily disassembly connections can be created.

Alternatively, as shown in FIG. 6 , the prefabricated building element is configured so that both cavities (21) are filled with grout (5) cast between said prefabricated building element (1) and said another building element (2). By forming a cavity (21) on both the surface (6) of (1) and the surface (6) of said another construction element, the shear force transmission capacity between the prefabricated construction element (1) and said other construction element (2) is increased. On the other hand, it is possible to additionally create an easily demountable connection that allows at least a reuse of the construction element (1).

Anchor bolts (8) are preferably, but not necessarily, screwed into the threaded muffs (17) and the threaded muffs (17) are connected to the surfaces (6) of the further construction element (2). cast into the concrete of said another construction element (2) so as to extend from said another construction element (2), fastened to said threaded muffs (17) and also cast into the concrete of said another construction element (2). It is anchored by anchor means (18). An example is the Copra® anchoring coupler from Peikko Group. The advantage of this is that it allows the threaded bar to be removed from the threaded muff 17 so that the anchor bolts 8 do not protrude from the further component 2, as shown in FIGS. 11a to 11c. am. 11b and 11c, a separate tool 2)2) is screwed into the threaded muffs 17 to remove the threaded muffs 17 from another component 2.

As technology advances, it will become apparent to those skilled in the art that the concepts of the present invention can be practiced in a variety of ways. The invention and its embodiments are therefore not limited to the examples described above but may vary within the scope of the claims.

Claims (26)

A method of mounting a prefabricated construction element (1) comprising concrete to another construction element (2), comprising:
said prefabricated construction element (1) and said prefabricated construction element (2) by means of mechanical connection means (3) repeatedly openable and retractable to said another construction element (2) such that a joint (4) is formed between said prefabricated construction element (1) and said another construction element (2). (1) a connection step connecting;
grouting the joint (4) by at least partially covering the joint (4) with grout (5) and allowing the grout (5) to cure, and
A coating step of coating the surfaces (6) of the prefabricated construction element (1) to be covered by the grout (5) in the grouting step, at least partially, prior to the grouting step, with separating means (7),
The connecting step comprises providing repeatably retractable mechanical connecting means (3) comprising anchor bolts (8) extending from the another construction element (2),
The connecting step comprises screwing first nuts (9) on the anchor bolts (8) such that the nuts are at a distance from the another construction element (2),
The connection step is such that the first nuts (9) are between the another construction element (2) and the prefabricated construction element (1), and the grouting space (11) is between the another construction element (2) and the prefabricated construction element (1). Openings in the prefabricated construction elements (1) to be formed between them. (10) Arranging the anchor bolts (8) to penetrate,
The connecting step comprises screwing the second nuts (12) onto the anchor bolts (8) to secure the prefabricated construction element (1) to the anchor bolts (8),
The connecting step is to extend the anchor bolts (8) into the openings (10) in the prefabricated construction element (1) such that the anchor bolts (8) extend into the cavity (15) in the prefabricated construction element (1). Including the step of arranging,
The connecting step comprises screwing the second nuts (12) onto the anchor bolts (8) inside the cavities so that the second nuts (12) are received in the cavities,
The above method is,
a filling step of filling said cavities at least partially with a material (16) other than grout (5) prior to said grouting step so as to at least partially prevent grout (5) from entering said cavities, and
The method of mounting a prefabricated construction element to another construction element, characterized in that it further comprises using at least one mineral wool, gypsum, plaster and lime mortar as said other materials (16) in said filling step. According to claim 1,
Characterized in that the separating means (7) is arranged to at least partially follow the interface between the prefabricated construction element (1) and the grout (5) configured to cover the prefabricated construction element (1) at the joint (4). A method of mounting a prefabricated construction element to another construction element. According to claim 1,
Said coating step comprises additionally coating the surfaces (6) of said another construction element (2) to be covered by grout (5) at least partially with separation means (7) prior to said grouting step. A method of mounting a prefabricated construction element to another construction element. According to claim 3,
The separating means (7) is arranged to at least partially follow an interface between the grout (5) and the further construction element (2), which is configured to cover the further construction element (2) at the joint (4). A method of mounting a prefabricated construction element to another construction element. The method according to any one of claims 1 to 4,
Said another construction element (2) is screwed into threaded muffs (17), such that said threaded muffs (17) extend from the surfaces (6) of said another construction element (2) into said another construction element (2). Threaded bars cast into the concrete of a construction element (2), fastened to said threaded muffs (17) and anchored by anchoring means (18) also cast into the concrete of said another construction element (2). A method of mounting a prefabricated construction element to another construction element, characterized in that it provides as anchor bolts (8). The method according to any one of claims 1 to 4,
characterized in that separating means (7) are provided for the coating step, which are means separate from said prefabricated construction element (1) and from said further construction element (2). How to mount it. The method according to any one of claims 1 to 4,
a protruding formation (20) configured to protrude into the grout (5) at the joint between the prefabricated construction element (1) and the another construction element (2) and 2) providing the prefabricated construction element (1) with at least one of the cavity formations (21) configured to protrude the grout (5) from the joint between them. How to mount it. The method according to any one of claims 1 to 4,
a protruding formation (20) configured to protrude into the grout (5) at the joint between the prefabricated construction element (1) and the another construction element (2) and 2) a prefabricated construction element to another construction element, characterized in that the further construction element (2) is provided with at least one of the cavity formations (21) configured to protrude the grout (5) from the joint therebetween. How to mount it. A connection arrangement between a prefabricated construction element (1) comprising concrete and another construction element (2), wherein:
Said prefabricated construction element (1) is provided with mechanical connection means repeatably openable and closed to said further construction element (2) such that a joint (4) is formed between said prefabricated construction element (1) and said further construction element (2). (3) connected by;
said joint (4) is at least partially covered with grout (5) which is allowed to harden;
The separating means (7) is allowed to cure with the surfaces (6) of the prefabricated construction element (1) at least partially covered by the grout (5) and the grout (5) at least partially covers the joint (4). exists between,
The mechanical connection means (3), which is repeatably openable and openable, comprises anchor bolts (8) extending from the further construction element (2),
First nuts (9) are screwed on the anchor bolts (8) such that the nuts are at a distance from the another construction element (2),
The anchor bolts (8) are such that the first nuts (9) are between the another construction element (2) and the prefabricated construction element (1), and the grouting space (11) is located between the another construction element (2) and the prefabricated construction element (1). 2) through openings (10) in the prefabricated construction element (1) to be formed between them and the prefabricated construction element (1),
Second nuts (12) are screwed onto the anchor bolts (8) to secure the prefabricated construction element (1) to the anchor bolts (8),
The anchor bolts (8) penetrate openings (10) in the prefabricated construction element (1) such that the anchor bolts (8) extend into the cavity (15) in the prefabricated construction element (1),
The second nuts (12) are screwed to the anchor bolts (8) inside the cavities so that the second nuts (12) are received in the cavities,
The cavities are at least partially filled with a material (16) other than the grout (5) so as to at least partially prevent the grout (5) from entering the cavities,
Connecting arrangement, characterized in that the other materials (16) comprise at least one of mineral wool, gypsum, plaster and lime mortar. According to clause 9,
Characterized in that the separation means (7) at least partially follows the interface between the prefabricated construction element (1) and the grout (5) covering the prefabricated construction element (1) at the joint (4). array. According to clause 9,
The separating means (7) is allowed to harden with the surfaces (6) of the further construction element (2), which are at least partially covered by the grout (5), and the grout (4) at least partially covers the joint (4). 5) A connection arrangement, characterized in that it exists between. According to clause 9,
Characterized in that the separating means (7) at least partially follows the interface between the grout (5) covering the another construction element (2) at the joint (4) and the further construction element (2). , connection array. The method according to any one of claims 9 to 12,
The anchor bolts (8) are screwed into threaded muffs (17) and the threaded muffs (17) extend from the surfaces (6) of the another construction element (2). ) by means of anchor means (18) cast into the concrete of said another construction element (2) and fastened to said threaded muffs (17) and also cast into the concrete of said another construction element (2). Anchored, connected array. The method according to any one of claims 9 to 12,
The connection arrangement, characterized in that the separation means (7) are means separate from the prefabricated construction element (1) and from the further construction element (2). The method according to any one of claims 9 to 12,
The prefabricated construction element (1) comprises a protruding formation (20) protruding into the grout (5) at the joint between the prefabricated construction element (1) and the another construction element (2). and providing at least one of a cavity formation (21) projecting the grout (5) from the joint between said another construction element (2). The method according to any one of claims 9 to 12,
Said further construction element (2) has a protruding formation (20) protruding into the grout (5) at the joint between said prefabricated construction element (1) and said further construction element (2) and said prefabricated construction element (1). ) and said another construction element (2), characterized in that it provides at least one of the cavity formations (21) through which the grout (5) protrudes. delete delete delete delete delete delete delete delete delete delete

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