NL1031783C2 - Wall assembly with a connection system for joining together prefabricated wall elements. - Google Patents

Description

Brief indication: Wall assembly with a connection system for joining together prefabricated wall elements.

The invention relates to a wall assembly for prefabricated (residential) construction with a connecting system for joining together prefabricated wall elements thereof. The stability of the building to be erected here is essentially derived from the connection between the prefabricated wall elements thereof, in combination with a disk action of a floor supporting it.

A number of variants are known for the connections between prefabricated wall elements. These are also called diving connections. In a variant 10 currently used by the applicant, the connections herein include steel angle plates collapsed during prefabrication with the aid of anchor pins in the wall elements. After positioning of the prefabricated wall elements on the construction site, these steel angle plates are perpendicular to each other. The corner plates are then connected to each other by welding a steel connecting plate to it. This connecting plate extends in a vertical plane in the transverse direction of the building. The connecting plate can be welded against the corner plates within certain limits. This creates adjustment options for the prefabricated wall elements during assembly of the building. Floor sections are supported on the wall elements.

A temporary formwork is then applied to create a mold space for the mortar around the connecting plate. This mold space around the welded connection plate is filled with sand cement mortar. The longitudinal joints between the floor parts are also filled with sand cement mortar. After setting, welding, collapsing and hardening, the diving connection is established and can ensure that the horizontal and vertical forces are transferred to the wall elements.

A disadvantage of this known connection is that its quality strongly depends on the experience of the welder during assembly. Furthermore, establishing the connection takes relatively much time, in particular if the place where the connection is to be established is difficult to reach from the side, or is at a great height. Also having to work with a temporary formwork requires extra material, actions and skills. If, for example, the connecting location is relatively high, and for instance boards must be attached to the wall elements as temporary formwork, then ladders or scaffolding are soon required for fitting and removing them.

The present invention has for its object to at least partially obviate the aforementioned disadvantages, or to provide a useful alternative. In particular, the invention has for its object to provide a weld-free connection system that is simple in construction and that retains sufficient adjustment possibilities during assembly.

This object is achieved by a wall assembly with a connecting system according to claim 1. Here, first and second connecting parts are provided, which are connected to a first and second, respectively.

second prefabricated wall element. The first connecting part comprises a tube profile. The second connecting part comprises a closing member which at least partially freely extends into the box section after coupling. By at least partially free, it is meant that the closing member can extend with its free end in the tubular profile without thereby being tightly enclosed by wall parts. In particular, there is a clearance of at least 12 mm between the peripheral walls of the box section and the closing member. The part of the closing member extending after coupling into the box section 25 can be at least partially embedded in a curable mass. This curable mass can simply be applied in the tube profile before or after placement of the closing member in the tube profile. After the curable mass has hardened, a solid coupling between the wall elements is established. 30. The fact that the closing member lies at least partially freely in the tubular profile during placement advantageously provides sufficient adjustment possibilities during assembly. It is furthermore advantageous that the box section not only forms part of the connecting means, but can also form a mold for the curable mass during assembly. Applying a temporary formwork with all its disadvantages is then no longer necessary. Furthermore, it is advantageous for the interlocking sleeve profile and closing member to be applied immediately after initial placement, that is, before the curable mass has been applied. is cured, can give a certain degree of stability to the connection. This makes it possible to continue building with advantage, without having to wait for the curable mass to harden. After curing a very strong connection is created between the box section and the closing member, and therefore also between the wall elements. The advantages of a wet and dry connection are thus combined with each other. On the one hand the speed of the dry initial connection, and on the other hand the strength of the cured initially wet connection. Because a weld connection, or other specialized connection technique, is no longer required, the connection can be easily established by anyone at the construction site.

In a preferred embodiment the sleeve profile comprises a flange which preferably extends inwards from the peripheral walls of the sleeve profile. The flange then defines a recess through which the closing member can extend after placement. The flange can, in cooperation with the closing member and the mass cured around it inside the box section, advantageously absorb forces in the axial direction of the box section and feed it from one wall element to the other.

In a further preferred embodiment the recess in the flange is at least 30 mm larger than the portion of the closing member extending therethrough. Thus, the freedom is provided during assembly to position the prefabricated wall elements relative to each other.

In a special embodiment, the part of the closing member which extends into the box section comprises a thickened part, for example a head, chest or flange. This thickened portion, in cooperation with the rest of the closing member and the mass cured around it after placement within the tubular profile, can advantageously absorb forces in the axial direction of the tubular profile and pass it from one wall element to the other.

The closing member can take various forms. The closing member preferably comprises a pin-shaped part, with dimensions such that after placement it can extend freely, i.e. with sufficient lateral play, within the box section.

Further preferred embodiments are defined in the subclaims.

The invention also relates to a method for establishing a connection between prefabricated wall elements with the connection system according to the invention 40 according to claims 26 and 27.

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The invention will be further elucidated hereinbelow with reference to the accompanying drawings, in which: Fig. 1 is a schematic perspective view of an embodiment of the wall assembly with dismantled connecting system; Fig. 2 is a view similar to Fig. 1 with assembled parts; Fig. 3 is a sectional view of Fig. 2 with cured mass applied; Fig. 4 is a schematic perspective view of an embodiment with exploded parts; Fig. 5 is a schematic perspective view of a further embodiment with exploded parts and separate façade element frame; Fig. 6 is a view corresponding to Fig. 5 of a variant with a separate wall element frame; and Fig. 7 is a view corresponding to Fig. 5 of a variant with a separate wall element frame and facade element frame.

20

In Figs. 1-3, the wall assembly is indicated in its entirety by reference numeral 1. The wall assembly 1 comprises a prefabricated concrete wall element 2, a prefabricated concrete wall element 3 and concrete 25. floor parts supported on the wall element 2. The wall element 2 and the wall element 2 Façade element 3 comprises first and second connecting parts connected thereto for connecting the wall and façade element 2, 3 together at an angle of 90 degrees.

The first connecting part comprises a box section 10 with a rectangular cross section. The sleeve profile 10 is connected to the facade element 3 by means of three anchor rods 11 which have collapsed in the material of the prefabricated facade element 3. The sleeve profile 10 comprises a bottom flange 12 in which a recess 13 is located. The tubular profile 10 extends with its axis in the vertical direction and has dimensions in the transverse direction that substantially correspond to the thicknesses of the wall and façade element 2, 3. The tubular profile 10 is connected to the façade element 3 at an upper corner. Furthermore, the box section 10 has a height that is smaller than the thickness of the floor part 4. The box section 10 is preferably made of metal, in particular hot-dip galvanized steel, in order to prevent attack.

The second connecting part comprises a two-part closing member 15. On the one hand, the closing member 15 comprises a threaded bush 16 as a receiving part which is connected to the wall element 2 by means of anchor rods 17, which are embedded in the material of the prefabricated wall element 2. in the material of the wall element 2. In addition, the closing member 15 comprises a threaded body 18 as an insertion part that can be coupled to the receiving part. The threaded body 18 comprises a pin-shaped portion which is provided at its free end with a thickened portion 19. The threaded body 18 can advantageously be formed by a standard threaded bolt that is commercially available. If the threaded body 18 is screwed into the threaded bush 16 (see figures 2 and 3), then the threaded body 18 extends substantially in its vertical direction with its axis.

The prefabricated wall and façade elements are mainly made of concrete, but can also be made of other materials, for instance built up of masonry bricks and / or comprise parts of other materials, such as window frames and door frames. The walls of facade elements are in particular at least 200 cm high and 300 cm wide, and can be prefabricated in the factory depending on the wishes of the client, whereby it is also ensured in the factory that the respective connecting parts are connected to the respective wall and façade elements. In this case, therefore, the anchor rods 11 of the box section 10 as well as the threaded bush 16 and the associated anchor rods 17 are directly collapsed during manufacture of the wall and facade elements 2, 3. Other connection techniques of the box section and / or the closing member with the respective wall and / or façade element are also possible. If, after transport, the prefabricated wall and façade elements 2, 3 arrive at the construction site, the façade element 3 with the recess 13 can be positioned in a simple manner above the threaded bush 16 in the wall element 2.

Because the recess 13 is chosen to be larger than the cross-section of the threaded bush 16 or the threaded body 18, and because the tubular profile has a height that is at least 2 cm smaller than the thickness of the floor part 4, there is the possibility here of 40 and to adjust facade elements 2, 3 in both horizontal and vertical - 6 - directions relative to each other. The floor parts 4 are laid on the wall element 2.

Prior to, during or after adjustment, the threaded body 18 can be screwed from above through the tubular profile 10 into the threaded bush 16. As can clearly be seen in Fig. 2, the threaded body 18 here extends freely in the box section 10.

As can be seen in Fig. 3, then the space in the box section 10, as well as the longitudinal joint between the façade element 3 and 10, the floor part 4 is filled with curable mass 25, which here is formed by a sand cement mortar. In order to prevent the curable mass 25 from flowing downwards, a sealing tape 26 is provided on the underside of the box section 10, which sealing tape connects to the top of the wall element 2. After curing 15 of the curable mass 25, the threaded body 18 is firmly connected to the box section 10. Because the box section 10 is closed in the circumferential direction and is provided with the bottom flange 12, forces in the horizontal and vertical direction can be fully absorbed. The box section 10 here prevents the curable mass 25 from splitting as a result of the play of forces.

FIG. 4 shows a variant in which a sleeve profile 40 is connected to a wall element 41. A space is then left free for the pipe profile 40 at the corner of the wall element 41. The pipe profile 40 comprises an upper flange 42 provided with a recess. a corner profile 46 is connected. Attached to the corner profile 46 is a pin-shaped closing member 47 provided with a head. During assembly, the wall element 45 can be lowered over the wall element 41 such that the closing member 47 disappears via the recess in the upper flange 42 in the box section 40. The tubular section 40 can in this case already be filled with curable mass, or must subsequently be filled with the curable mass. After curing, this variant also creates a solid connection between the wall elements.

FIG. 5 shows a variant in which a side edge of a wall element is formed by a frame 51. This is done here because of a window recess located near the side edge and provided in the wall element 50. The strip 51 is formed here by a steel box-shaped strip which is connected to the wall element 50 by means of embedded anchor rods 51. A tube profile 52 is directly connected to the strip 51. This can for instance take place by means of welding or a bolt connection. . For the rest, the connection means and the establishment of the connection can be made the same as in Figs. 1-3.

FIG. 6 shows a variant of FIG. 5, in which a wall element 60 is now provided on a side edge with a frame 61 which is connected to the wall element 60 by means of embedded anchor rods. The frame 61 is again formed by a steel tubular frame. At the top of the frame 61 there is a pin-shaped closing member 62 which, for example, is connected by welding to the frame 61. For the rest, the connecting means and the establishment of the connection can become the same as in Figs. 1-3. executed.

FIG. 7 finally shows a variant in which both a wall element 70 and also a wall element 71 are provided at their side edges with strips 72, 73, on which the box section resp. the closing member are directly connected. For the rest, here too the connecting means and the establishment of the connection can be made the same as in Figs. 1-3.

In addition to the embodiments shown, many variants are possible. For example, the box section and the closing member can be designed differently, or be connected to the wall elements at other places. The tubular profile can for instance be cylindrical or locally provided with small recesses in order to achieve a better adhesion of the curable mass exiting through the recesses with the other wall element. If desired, a slot can be provided in the peripheral wall of the tubular profile that is slightly larger than the free end of the closing member, so that the tubular profile can be slid sideways over the closing member during assembly. The tubular profile and the closing member can also be fixed to the wall element such that the wall elements can be coupled to each other at oblique angles, or even in line with each other. Furthermore, the box section and the closing member can be attached to the wall elements at different angles. For example, they can extend in horizontal direction with their center lines. To enable the curable mass to be applied in a simple manner in this variant too, an additional filling opening can be provided in the box section. The box section can also be made with a dimension in the transverse direction that is smaller than the thickness of the wall elements 40 to which it is attached. This has the advantage that a * 8 point load on the box section is prevented during transport and storage, which can otherwise lead to damage to the box section, or bending, or cracking in the wall element. The wall elements can form both load-bearing and non-load-bearing wall elements, as well as inside or outside walls.

Thus, according to the invention, a very user-friendly connection system is obtained with which prefabricated wall elements on the construction site can be connected to each other quickly, efficiently and reliably. The wall assembly with connection system lends itself both to the construction of a complete hull, for example a dwelling, as well as to an extension to an already existing building.

1031783

Claims (27)

Wall assembly for prefabricated (residential) construction with a connecting system for joining together prefabricated wall elements on a construction site, comprising: - at least two prefabricated wall elements; 5. connecting means for coupling the prefabricated wall elements together at a desired angle on the construction site; wherein the connecting means comprise a first connecting part connected to one wall element and a second connecting part connected to the other wall element, which connecting parts after coupling with each other are at least partially embedable in a curable mass, characterized in that the first connecting part comprises a tubular profile and the second connecting part comprises a closing member which at least partially freely extends into the tubular profile after coupling, which closing member after insertion in the tubular profile is at least partially embedable in curable mass to be arranged inside the tubular profile. 2. Wall assembly as claimed in claim 1, wherein the wall elements are connected to each other, and wherein after closure in the tubular profile the closing member is at least partially embedded in cured mass inside the tubular profile. 3. Wall assembly as claimed in claim 1 or 2, wherein the tube profile comprises a flange which delimits a recess through which the closing member extends after placement. 4. Wall assembly according to claim 3, wherein the recess is larger than the portion of the closing member extending therethrough. Wall assembly as claimed in any of the foregoing claims, wherein the free end of the closing member comprises a thickened part. Wall assembly as claimed in any of the foregoing claims, wherein the free end of the closing member comprises a pin-shaped part. 1 03 1 7 83 <- 10 - Wall assembly as claimed in any of the foregoing claims, wherein the closing member is two-part and comprises a receiving part attached to the relevant wall element and an inserting part connectable to the receiving part. 5 Wall assembly as claimed in claim 7, wherein the receiving part comprises a threaded bush and the insertion part comprises a complementary threaded body. Wall assembly according to claim 8, wherein the threaded body is a bolt. 10. Wall assembly as claimed in any of the foregoing claims, wherein the sleeve profile is attached to the relevant wall element by means of one or more anchor rods that are embedded in material of the relevant wall element during the prefabrication of the wall element in question. 11. Wall assembly as claimed in any of the foregoing claims, wherein the closing member is attached to the relevant wall element by means of one or more anchor rods that are embedded in material of the relevant wall element during the prefabrication of the wall element in question. Wall assembly as claimed in any of the foregoing claims, wherein the sleeve profile has dimensions in the transverse direction that substantially correspond to thicknesses of the wall elements at the location of the connections to the sleeve profile. Wall assembly as claimed in any of the foregoing claims, wherein the sleeve profile has a dimension in the transverse direction that is smaller than the thickness of the wall element with which it is connected at the location of the connection to the sleeve profile. Wall assembly as claimed in any of the foregoing claims, wherein the tubular profile extends with its axis substantially in vertical direction. ► - 11 - Wall assembly as claimed in any of the foregoing claims, wherein the closing member extends with its axis substantially in vertical direction. 16. Wall assembly as claimed in any of the foregoing claims, wherein the closing member is connected to a bearing wall element, in particular a wall element which is adapted for supporting one or more floor parts after placing thereon. 17. Wall assembly as claimed in any of the foregoing claims, wherein the tubular profile is connected at the location of an upper corner to the relevant wall element. 18. Wall assembly as claimed in claims 16 and 17, wherein the wall element to which the tubular profile is connected is designed with such a height that, after placement, this wall element protrudes over the thickness of the floor parts above the bearing wall element at the top, and wherein the tubular profile has a height that is smaller than the thickness of the floor parts. 20 19. Wall assembly as claimed in any of the foregoing claims, wherein at least one of the wall elements is provided on a side edge with a frame to which the tube profile and / or the closing member is connected. 25 Wall assembly as claimed in any of the foregoing claims, wherein the tubular profile is made of metal, in particular hot-dip galvanized steel. Wall assembly as claimed in any of the foregoing claims, wherein the curable mass is a sand cement mortar. 22. Wall assembly as claimed in any of the foregoing claims, wherein at least one of the prefabricated wall elements is substantially manufactured from concrete. Wall assembly as claimed in any of the foregoing claims, wherein the tubular profile is closed in circumferential direction. «I - 12 - Wall assembly as claimed in any of the foregoing claims, wherein at least one of the wall elements is a non-bearing façade element, in particular a façade element on which no floor parts are supported. 5 Wall assembly as claimed in any of the foregoing claims, wherein the wall elements are at least 200 cm high and 300 cm wide. 26. Method for joining together prefabricated wall elements of a wall assembly for prefabricated (residential) construction with a connection system according to one of the preceding claims, comprising the steps of: - positioning the prefabricated wall elements relative to each other, the sleeve profile and the closing member interlock; - filling the tube profile with the curable mass; and - allowing the curable mass to cure. 27. Method as claimed in claim 26, wherein the closing member 20 comprises two parts and comprises a receiving part attached to the relevant prefabricated wall element and an insertion part that can be coupled to the receiving part, further comprising the steps of: - positioning the prefabricated wall elements relative to each other, sleeve profile is above the receiving portion 25; and - coupling the insertion part through the tube profile with the receiving part. 30 1031783