NL2023718B1 - Modular wall element for realising a wall of a building, a wall comprising the modular wall element, a building comprising the wall and a method for realising the wall - Google Patents

Abstract

A B S T R A C T Modular wall element for realising a wall of a building, said modular wall element comprising a first interface arrangement at a first side of said modular wall element and a second interface arrangement at a second side of said modular wall element, wherein said first interface arrangement and said second interface arrangement are each provided with at least one of a fluid connector and an electrical connector, wherein said first interface arrangement and said second interface arrangement are arranged such that a first interface arrangement of a first modular wall element, in use, interfaces with a second interface arrangement of a second modular wall element for realising a connection of said at least one of said fluid connectors; and said electrical connectors of said first modular wall element and said second modular wall element. Wall comprising the modular wall elements and method for realising the wall.

Description

Title: Modular wall element for realising a wall of a building, a wall comprising the modular wall element, a building comprising the wall and a method for realising the wall Description According to a first aspect, the present disclosure relates to a modular wall element for realising a wall of a building. According to a second aspect, the present disclosure relates to a wall comprising modular wall elements according to the first aspect of the present disclosure. According to a third aspect, the present disclosure relates to a building comprising a wall according to the second aspect of the present disclosure.

According to a fourth aspect, the present disclosure relates to a method for realising a wall according to the second aspect of the present disclosure. Known walls of buildings may be provided as a brick wall comprising bricks that are held together by for instance glue or mortar. Realisation of such walls may in particular prove to be relatively cumbersome when such walls need to be provided with utilities such as electrical wiring and/or ducting for gas or water. An objective of the present disclosure is to provide an element and a method for realising a wall having utilities such as electrical wiring and/or ducting for gas or water of a building in a relative less cumbersome manner. The objective is realised by providing a modular wall element according to the present disclosure. The modular wall element according to the first aspect of the present disclosure comprises a first interface arrangement at a first side of said modular wall element and a second interface arrangement at a second side of said modular wall element, wherein said first interface arrangement and said second interface arrangement are each provided with at least one of:

- a fluid connector arranged for receiving, via said modular wall element, a fluid, wherein said fluid connectors are mutually communicatively coupled for fluid flow; - an electrical connector arranged for receiving, via said modular wall element, an Alternating Current, AC, mains signal, wherein said electrical connectors are mutually communicatively coupled. The first interface arrangement and said second interface arrangement are arranged such that a first interface arrangement of a first modular wall element, in use, interfaces with a second interface arrangement of a second modular wall element for realising a connection of said at least one of: - said fluid connectors; and - said electrical connectors of said first modular wall element and said second modular wall element.

The present disclosure relies at least partly on the insight that realisation of known walls comprising electrical wiring and/or ducting for gas or water generally requires realising a wall that is free from utilities such as electrical wiring and/or ducting for gas or water and subsequently rework said wall for integrating said utilities in said wall. The required reworking of the wall is a relative cumbersome activity that may add to the building time for building the building. Moreover, the reworking may add additional cost thereby making the building relatively expensive. Alternatively, a less attractive wall may be realised by simply placing the electrical wiring and/or ducting for gas or water on an outer surface of the wall, thereby leaving the electrical wiring and/or ducting for gas or water in sight of persons present in the building. Though placing the utilities on the outer surface of the wall may be relative time effective as compared to reworking the wall, placing the utilities may add to the building time for building the building.

By providing a modular wall element provided with fluid connectors that are mutually communicatively coupled for fluid flow and/or with electrical connectors that are mutually communicatively coupled a direct integration of the utilities in the wall, without the need for reworking the wall or without the need for placing the utilities on the outer surface of the wall, may be realised thereby allowing to realise a relative attractive wall in a less cumbersome manner. By providing the modular wall element with the first and second interface arrangement a relative large wall may be realised in a relative practical manner while realising a direct integration of the utilities in the wall. During installation the interface arrangements of neighbouring modular wall elements may be coupled thereby realising that utilities present in the neighbouring modular wall elements are communicatively coupled. This is beneficial for realising that the utilities may extend along the full length of the wall.

Within the context of the present disclosure the electrical connector may in addition, or alternatively, be arranged for receiving a Direct Current (DC).

In an embodiment of the modular wall element according to the first aspect of the present disclosure, said modular wall element is a load bearing modular wall element for realising a load bearing wall. Within the context of the present disclosure a load bearing wall is to be understood as a wall that may support a part of a building such as a floor or a roof.

Preferably, said first side of said modular wall element is provided opposite said second side of said modular wall element. This is preferred for realising a straight wall in a relative practical manner.

It is beneficial if said first interface arrangement and said second interface arrangement are provided such that, in use, said fluid connectors are located below said electrical connectors. Locating, in use, the fluid connectors below the electrical connectors is beneficial for avoiding any fluid that may leak from the fluid connectors to affect the electrical connectors.

It is advantageous if said modular wall element comprises a first wall part and a second wall part, wherein said first wall part and said second wall part are provided between said first side of said modular wall element and said second side of said modular wall element, wherein one of said first wall part and said second wall part is arranged for providing an inner wall of said building.

In this regard, it is beneficial if said modular wall element comprises a wall element receiving space that is at least partly bounded by said first wall part and said second wall part, wherein an insulation material is provided in said wall element receiving space for insulating said modular wall element.

In an embodiment of the modular wall element according to the first aspect of the present disclosure, said one of said first wall part and said second wall part arranged for providing said inner wall of said building is provided with at least one of: - an electric wall installation box, communicatively coupled to said electrical connectors, for supplying, in use, said AC mains signal received by said electrical connectors; and - a fluid wall connection, communicatively coupled to said fluid connectors, for supplying, in use, fluid received by said fluid connectors.

Preferably, said modular wall element at a third side thereof is provided with a positioning and fastening device receiving recess for receiving, in use, a positioning and fastening device. This is beneficial for allowing said modular wall element, via the positioning and fastening device, to be fixated to a further part of the building. By providing the positioning and fastening device receiving recess the outer appearance, in use, of the modular wall element may be relatively unaffected by the fixation via the positioning and fastening device.

It is beneficial if said modular wall element is provided with a wall lock device receiving space for receiving a wall lock device. Receiving the wall lock device, by the modular wall element, is beneficial for allowing said modular wall element, via the wall lock device, to be fixated to a further part of the building. By providing the wall lock device receiving space the wall lock device may be provided, at least partly, in the modular wall element thereby allowing realisation of a visually attractive wall.

In this regard it is advantageous if said modular wall element is provided with said wall lock device that is arranged for locking said modular wall element to said positioning and fastening device, wherein said wall lock device is received in said wall lock device receiving space. 5 Preferably, said modular wall element is arranged for extending, in use, along a full height of said wall. According to the second aspect the present disclosure relates to a wall comprising modular wall elements according to the first aspect of the present disclosure, wherein a first interface arrangement of a first modular wall element of said modular wall elements is connected to a second interface arrangements of a second modular wall element of said modular wall elements such that said at least one of said fluid connectors and said electrical connectors of said first modular wall element and said second modular wall element are connected for realising at least one of: - a communicative coupling of said fluid connectors for fluid flow between said first modular wall element and said second modular wall element; and - a communicative coupling of said electrical connectors between said first modular wall element and said second modular wall element.

Embodiments of the wall correspond to embodiments of the modular wall element according to the first aspect of the present disclosure. The advantages of the wall correspond to the advantages of the modular wall element according to the first aspect of the present disclosure presented previously.

Preferably, said wall comprises said positioning and fastening device and wherein said positioning and fastening device is received in said positioning and fastening device receiving recess. In this regard, it is advantageous if said modular wall elements are locked to said positioning and fastening device via said wall lock device, wherein said positioning and fastening device is fixated to a floor of said building.

According to the third aspect the present disclosure relates to a building comprising a wall according to the second aspect of the present disclosure. Embodiments of the building correspond to embodiments of the wall according to the second aspect of the present disclosure and the modular wall element according to the first aspect of the present disclosure. The advantages of the building correspond to the advantages of the modular wall element according to the first aspect of the present disclosure presented previously and the wall according to the second aspect of the present disclosure presented previously.

According to the fourth aspect the present disclosure relates to a method for realising a wall according to the second aspect of the present disclosure, said method comprising the steps of: - providing modular wall elements according to the first aspect of the present disclosure; - connecting a first interface arrangement of a first modular wall element of said modular wall elements to a second interface arrangements of a second modular wall element of said modular wall elements such that said at least one of said fluid connectors and said electrical connectors of said first modular wall element and said second modular wall element are connected for realising at least one of: - a communicative coupling of said fluid connectors for fluid flow between said first modular wall element and said second modular wall element; and - a communicative coupling of said electrical connectors between said first modular wall element and said second modular wall element.

Embodiments of the method correspond to embodiments of the wall according to the second aspect of the present disclosure and the modular wall element according to the first aspect of the present disclosure. The advantages of the method correspond to the advantages of the modular wall element according to the first aspect of the present disclosure presented previously and the wall according to the second aspect of the present disclosure presented previously. In this regard it is beneficial if said method further comprises the steps of:

- placing said first modular wall element of said modular wall elements on said positioning and fastening device and receiving said positioning and fastening device in said positioning and fastening device receiving recess of said first modular wall element;

- placing said second modular wall element of said modular wall elements on said positioning and fastening device and receiving said positioning and fastening device in said positioning and fastening device receiving recess of said second modular wall element; wherein during said step of connecting, said first modular wall element is moved along said positioning and fastening device relative to said second modular wall element for realising said connection.

The present disclosure will now be explained by means of a description of a preferred embodiment of a modular wall element, an assembly comprising the modular wall element and a method for realising the wall, in which reference is made to the following schematic figures, in which: Fig. 1: a modular wall element according to the first aspect of the present disclosure is shown; Fig. 2: elements of the modular wall element from Fig. 1 are shown; Fig. 3 - 10: enlarged views of the elements of Fig. 2 are shown; Fig. 11: the modular wall element of Fig. 1 is shown in an exploded view; Fig. 12: a positioning and fastening device is shown; Fig. 13: the positioning and fastening device from Fig. 12 is shown in an exploded view; Fig. 14: a side view of the positioning and fastening device from Fig. 12 is shown; Fig. 15: the positioning and fastening device from Fig. 12 is shown in an isometric view; Fig. 16: elements of a wall lock device in an exploded view are shown; Fig. 17: a side view of a wall lock device is shown;

Fig. 18 - 19: cross-sections of the wall lock device from Fig. 17 are shown; Fig. 20: an assembly according to the present disclosure is shown; Fig. 21: a method for realising a wall according to the present disclosure is shown; Fig. 22: a method for realising an assembly according to the present disclosure is shown.

Modular wall element 1 comprises a frame part 3 and two wall parts 5 and 7. A first wall part 5 of the two wall parts is attached at a first side of the frame part 3 and is arranged for providing an inner wall of a building 401. A second wall part 7 of the two wall parts is attached at a second side of the frame part 3. The frame part 3 comprises four frame elements 9, 11, 13 and 15 that are interconnected via interface sub-arrangements 17, 19, 21 and 23 for forming, together with the interface sub- arrangements 17, 19, 21 and 23 a rectangular frame structure. The frame elements are, preferably, fabricated from extrusion profiles, preferably made from aluminium. A first frame element 9 and a second frame element 11 of the four frame elements form, in use, respectively an upper and a lower edge of the modular wall element 1. A first side of the modular wall element 1 that, in use, forms a vertical edge of the modular wall element 1 is formed by a third frame element 13 of the four frame elements and two interface sub-arrangements 17 and 21 of the interface sub-arrangements. A further side, in use, a further vertical side of the modular wall element 1 is formed by a fourth frame element 15 of the four frame elements 2 and another two interface sub- arrangements 19 and 23 of the interface sub-arrangements. The interface sub- arrangements 17 and 21 form a first interface arrangement and the interface sub- arrangements 19 and 23 form a second interface arrangement.

The sub-arrangements 21 and 23 both comprise a housing 31 and a fluid connector 33 arranged for receiving, via said modular wall element 1, a fluid. The sub-arrangements 21 and 23 are mutually communicatively coupled, by a fluid conduit 25 and 27 for fluid flow between the sub-arrangements 21 and 23. The fluid connectors 33 of sub-arrangements 21 and 23 are complimentary and arranged to cooperate for forming said mutual communicative coupling of the sub-arrangements 21 and 23. The sub-arrangements 17 and 19 both comprise a further housing 35 and an electrical connector 37 arranged for receiving, via said modular wall element 1, an Alternating Current, AC, mains signal.

The electrical connectors 37 of the sub- arrangements 17 and 19 are mutually communicatively coupled by a conductive element 29 such as a power wire.

The electrical connectors 37 of sub-arrangements 17 and 19 are complimentary and arranged to cooperate for forming said mutual communicative coupling of the sub-arrangements 17 and 19. The first interface arrangement and the second interface arrangement are arranged such that a first interface arrangement of a first modular wall element 1, in use, is allowed to interface with a second interface arrangement of a second modular wall element (not shown) for realising a connection of said at least one of said fluid connectors and said electrical connectors of said first modular wall element 1 and said second modular wall element.

Modular wall element 1 further comprises a wall attachment arrangement 2 for attaching, in use, said modular wall element 1 to an outer wall or a further wall of said building, wherein said outer wall or further wall is substantially parallel to said modular wall element 1. The wall attachment arrangement 2 comprises an attachment opening arranged for receiving a fastening means 4 such as a bolt for fastening said modular wall element 1, via said fastening means 4, to said outer wall or said further wall.

The wall attachment arrangement 2 is formed as part of the sub- arrangements.

In an alternative embodiment it is conceivable that the attachment arrangement is comprised by the frame elements.

A positioning and fastening device 101 is arranged for positioning and fastening a wall element 303, preferably the modular wall element 1, to a floor 305 for realising the wall of the building 401. The positioning and fastening device 101 comprises a fastening arrangement 103. The fastening arrangement 103 is arranged for fastening to the wall element 303 and/or the modular wall element 1. To this end the modular wall element 1 is provided with a positioning and fastening device receiving recess 39 in frame element 11 thereof for receiving, in use, the fastening arrangement 103 of the positioning and fastening device 101. The positioning and fastening device 101 comprises an elongated base 105 extending in a longitudinal direction L. The elongated base 105 comprises a fastening arrangement receiving space 107. The fastening arrangement receiving space 107 is arranged for partly receiving, in use, said fastening arrangement 103. In the embodiment shown, the fastening arrangement 103 is provided with a support element 119 that is arranged for being received in the fastening arrangement receiving space 107 and thereby supporting the fastening arrangement 103 onto the elongated base 105. The fastening arrangement receiving space 107 is dimensioned such that said fastening arrangement 103 is movable in said fastening arrangement receiving space 107 before said fastening arrangement 103 is fastened to said elongated base

105.

The positioning and fastening device 101 further comprises two clamping elements 109 that are each pivotably connected to the elongated base 105. The clamping elements 109 are provided with a protrusion 113 that, when connected to said elongated base 105, extents at least partly in said longitudinal direction L. The elongated base 105 is provided with a clamping element receiving space 117 for receiving said protrusion 103 and thereby pivotably connecting the clamping elements 109 to the elongated base 105. Each of the clamping elements 109 is further provided with a clamping organ 115 that, when connected to said elongated base 105, extents at least partly in said longitudinal direction L. The protrusion 113 and clamping element receiving space 117 are arranged such that in a position wherein said clamping organ 115 is substantially perpendicular to the elongated base 105 a removal of the clamping element 109 is possible by lifting the clamping element 109 relative to the elongated base 105. By aligning the clamping organ 119 substantially parallel to the elongated base 105 the fastening arrangement 103 may be clamped between the clamping organ 119 and the elongated base 105. In other words, the clamping elements 109 are arranged such that in a first position of the clamping elements 109 the fastening arrangement 103 is movable in the fastening arrangement receiving space 107 and in a second position of the clamping element 109 the fastening arrangement 103 is clamped between the clamping element 109 and the elongated base 105. The clamping elements 109 are further arranged for, in use, being brought in the second position by placing the modular wall element 1 on a side of the clamping elements 109 facing away from the elongated base 105. The positioning and fastening device 101 may optionally be provided with interface organs 111 for providing an interface between the modular wall element 1, the elongated base 105 and the clamping elements 109. The interface organs 111 are supported on a virtual flat plane V formed by the clamping elements 109 and the elongated base 105. The positioning and fastening device 101 further comprises a floor attachment arrangement 102 for attaching a floor 305 to said positioning and fastening device 101. Wall lock device 201 comprises a housing 203. Housing 203 is provided with a first housing part 205 and a second housing part 207 that are arranged for being connected to each other via fastening elements 209 and thereby form a housing space for housing elements of the wall lock device 201. The second housing part 207 is provided with further fastening elements 211 for allowing the wall lock device 201 to be fastened to an element of the building 401 such as the modular wall element 1 or wall element 303. The modular wall element 1 and the wall element 303 may be provided with a wall lock device receiving space 41 for receiving the wall lock device 201. Wall lock device 201 is arranged for locking to the positioning and fastening device 101 and thereby allowing an element of the building 401 such as the modular wall element 1 and/or wall element 303 to be locked to the positioning and fastening device 101. The wall lock device 201 comprises a worm drive 213 provided with a worm screw 215 and a worm gear 217. The worm screw 215 is provided as part of a wall lock actuation arrangement 219. The wall lock actuation arrangement 219 further comprises an actuation element 221. The actuation element 221 is arranged for rotating of the wall lock actuation arrangement 219 about a virtual actuation axis A for actuating the worm drive 213. In an alternative embodiment of the wall lock device 201, the worm drive 213 is replaced by a bevel gear.

The worm gear 217 is provided as part of a wall lock locking arrangement 223. The wall lock locking arrangement 223 further comprises a wall locking element 225 that is arranged for locking said wall lock device 201, via said wall locking element 225, to said positioning and fastening device 101. The wall lock locking arrangement 223 is arranged such that said wall lock locking arrangement 223 is allowed to rotate about a virtual locking axis B between a first angular position and a second angular position.

The rotation of the wall lock locking arrangement 223 is limited, between said first angular position and said second angular position, by a rotation limiting arrangement 227 of the wall lock device 201. The rotation limiting arrangement 227 comprises a cam 229, a first end stop 231 and a second end stop 233. The cam 229 is attached to said wall lock locking arrangement 223 and blocked for rotation relative to said wall lock locking arrangement 223. The cam 229 is blocked for rotation relative to the wall lock locking arrangement 223 by providing the cam 229 with a surface contour that is arranged to provide a form-locked connection with a locking axis 235 of the wall lock locking arrangement 223. The cam 229 is movable along said surface contour in a direction of said virtual locking axis B.

Movement of the cam 229 relative to the housing 203 in the direction of the virtual locking axis B is avoided, or at least greatly limited, by guide elements 204 and a worm gear adaptor 239. The guide elements 204 provide a barrier to movement of the cam 229 at a side of the cam 229 facing the wall locking element 225. The worm gear adaptor 239 provides a barrier to movement of the cam 229 at a side of the cam 229 facing away from the wall locking element 225. The movement of the cam 229 along the surface contour may be realised by screwing a nut 237 and/or the worm gear adaptor 239 onto the locking axis 235. The locking axis 235 is provided with a screw thread (not shown) arranged for cooperation with the nut 237 and/or the worm gear adaptor 239. In a first embodiment of the wall lock device 201 a screwing action of the nut 237 causes a change in distance between the nut 237 and the wall locking element 225. The worm gear adaptor 239 provides an interface between the worm gear 217 and the nut 237 for transferring a rotation of the worm gear 217 to the nut 237. In this embodiment the worm gear adaptor 239 may movable relative to the worm gear 217 and/or the nut 237 in the direction of the virtual locking axis B.

Alternatively or in addition, the worm gear adaptor 239 may be provided with screw thread for cooperation with the screw thread provided onto the locking axis 235. In this alternative embodiment, the worm gear adaptor 239 is arranged for driving the cam 229 along said surface contour in the direction of said wall locking element 225 beyond a position that may be achieved with the nut 237. To this end the worm gear adaptor 239 is provided with a protruding wall piece 240 that overcomes a distance between the screw thread provided on the worm gear adaptor 239 and the cam 229.

The first end stop 231 and the second end stop 233 are provided as an integral part of the housing 203. The second housing part 207 of the embodiment according to the figures comprises rib organs forming the first and second end stops 231 and 233. The locking axis 235 comprised by the wall lock locking arrangement 223 is moveable along said virtual locking axis B. Operation of the worm drive 213 through actuation of the actuation element 221 may result in the cam 229 to contact the first end stop 231. Once the cam 229 is in contact with the first end stop 231 a further actuation of the actuation element 221 in a direction of rotation that is identical to the direction of rotation performed for realising that said cam 229 to be in contact with the first end stop 231 will cause the locking axis 235 to move such that the locking element 225 is moved towards the worm screw 215 of the worm drive 213. By movement of the locking element 225 relative to the housing 203 a distance between the locking element 225 and the housing 203 is reduced allowing to clamp a further element of the building 401 between the locking element 225 and the housing 203 for realising locking by the wall lock device 201. Assembly 301 as part of building 401 comprises the modular wall element 1, the positioning and fastening device 101 and wall lock devices 201. Assembly 301 further comprises wall element 303 and floor 305. Floor 305 comprises a floor element lock device 307. The floor element lock device 307 is received in a through hole provided in the floor 305 and arranged for fixating the floor 305 to the floor attachment arrangement 102 of the positioning and fastening device 101. The wall element 303 is provided with two of the wall lock devices 201. A first wall lock device 2014 of the two wall lock devices locks the wall element 303 to the positioning and fastening device 101. The second wall lock device 201b of the two wall lock devices is arranged for locking the wall element 303 to a further wall element (not shown) for forming a wall. The modular wall element 1 is locked to the wall element 303 via fastening means 4 that are provided in said wall attachment arrangements 2. Method 501 is arranged for realising a wall comprising a plurality of modular wall elements 1. Method 501 comprises a step 503 of providing the modular wall elements 1 and the positioning and fastening device 101. Method 501 further comprises a step 505 of placing the first modular wall element of the modular wall elements on the positioning and fastening device 201 and receiving the positioning and fastening device 101 in the positioning and fastening device receiving recess 39 of the first modular wall element 1. In a yet further step of the method 501 during a step 507 a second modular wall element of the plurality of modular wall elements is placed on the positioning and fastening device 101, wherein the positioning and fastening device 101 is at least partly received in the positioning and fastening device receiving recess 39 of the second modular wall element.

A further step of method 501 is a step 509 of connecting a first interface arrangement of a first modular wall element 1 of the plurality of modular wall elements to a second interface arrangements of a second modular wall element 1 of the plurality of modular wall elements such that the fluid connectors 33 and the electrical connectors 37 of the first modular wall element 1 and the second modular wall element 1 are connected for realising a communicative coupling for fluid flow between the first modular wall element and the second modular wall element and a communicative coupling of the electrical connectors 37 between the first modular wall element and the second modular wall element. During step 507 of connecting, the first modular wall element 1 is moved along the positioning and fastening device 101 relative to the second modular wall element for realising said connection and the wall. In an alternative embodiment of method 501, method 501 is used with wall elements 303 for locking a plurality of wall elements 303 to the positioning and fastening device 101 instead or in addition to locking of the plurality of modular wall elements 1 to the positioning and fastening device 101. In this alternative embodiment of the method 501, the wall lock device 201 may be provided inside and/or attached to the wall elements 303.

Method 601 is arranged for realising assembly 301. Method 601 comprises a step 603 of providing the positioning and fastening device 101, the modular wall element 1 and the floor 305. During a subsequent step 605, the elongated base 105 of the positioning and fastening device 101 is fastened to the floor 305.

Method 601 further comprises a step 607 of providing the clamping element 109 in the first position and, preferably while the clamping element 109 is in the first position, provide the fastening arrangement 103 in the fastening arrangement receiving recess 39 of the modular wall element 1.

Subsequently, during a step 609, the fastening arrangement 103, preferably in combination with the modular wall element 1, is provided in a predetermined position relative to the floor 305. Preferably, the fastening arrangement 103 is brought in a predetermined position relative to the floor 305 by moving the fastening arrangement 103 in the fastening arrangement receiving space 107. In an embodiment of method 601 it is conceivable that the fastening arrangement 103 is moved in a position relative to the elongated base 105 by positioning the modular wall element 1 in a predetermined position relative to the floor 305, preferably wherein the predetermined position relates to an alignment of the modular wall element 1 with another wall of the building.

The fastening arrangement 103 is being clamped, during a step 611, between the clamping element 109 and the elongated base 105. Preferably, during step 611 the clamping is realised by moving the clamping element 109 in the second position by pulling the modular wall element 1 towards the elongated base 105 by actuation of the actuation element 221.

In an alternative embodiment of method 601, method 601 is used with wall elements 303 for locking a plurality of wall elements 303 to the positioning and fastening device 101 instead or in addition to locking of the plurality of modular wall elements 1 to the positioning and fastening device 101. In this alternative embodiment of the method 601, the wall lock device 201 may be provided inside and/or attached to the wall elements 303.

Claims (15)

CONCLUSIONS Modular wall element (1) for realizing a wall of a building (401), the modular wall element (1) comprising a first interface arrangement on a first side of the modular wall element (1) and a second interface arrangement on a second side of the modular wall element (1), wherein the first interface arrangement and the second interface arrangement are each provided with at least one of: - a fluid connector (33) adapted to be passed through the modular wall element (1) receiving a fluid, the fluid connectors (33) being mutually communicatively coupled for fluid flow; - an electrical connector (37) adapted to receive an alternating current, AC, mains signal via the modular wall element (1), the electrical connectors (37) being mutually communicatively coupled; - wherein the first interface arrangement and the second interface arrangement are arranged such that a first interface arrangement of a first modular wall element, when used, interfaces with a second interface arrangement of a second modular wall element for realizing a connection of at least one of: - the fluid connectors (33); and - the electrical connectors (37) of the first modular wall element and the second modular wall element. Modular wall element (1) according to claim 1, wherein the first side of the modular wall element (1) is provided opposite the second side of the modular wall element (1). A modular wall element (1) according to claim 1 or 2, wherein the first interface arrangement and the second interface arrangement are arranged such that, in use, the fluid connectors (33) are located below the electrical connectors (37). Modular wall element (1) according to any one of the preceding claims, wherein the modular wall element (1) comprises a first wall part (5) and a second wall part (7), wherein the first wall part (5) and the second wall part (7 ) are provided between the first side of the modular wall element (1) and the second side of the modular wall element (1), one of the first wall part (5) and the second wall part (7) being adapted to provide an inner wall of the building (401). Modular wall element (1) according to claim 4, wherein the modular wall element (1) comprises a wall element receiving space which is at least partially bounded by the first wall part (5) and the second wall part (7), wherein an insulating material is provided in the wall element receiving space for insulating the modular wall element (1). Modular wall element (1) according to claim 4 or 5, wherein the one of the first wall part (5) and the second wall part (7) adapted to provide the inner wall of the building (401) is provided with at least one of: - an electrical wall installation box communicatively coupled to the electrical connectors (37) for providing, in use, an AC mains signal received by the electrical connectors (37); and - a fluid wall connector communicatively coupled to the fluid connectors (33), for providing, in use, fluid received through the fluid connectors (33). A modular wall element (1) according to any one of the preceding claims, wherein the modular wall element (1) is provided on a third side thereof with a positioning and fixing device receiving recess (39) for receiving a positioning and fixing device in use. (101). Modular wall element (1) according to any one of the preceding claims, wherein the modular wall element (1) is provided with a wall locking device receiving space (41) for receiving a wall locking device (201). A modular wall element (1) according to claims 7 and 8, wherein the modular wall element (1) is provided with the wall locking device (201) adapted for locking the modular wall element (1) to the positioning and fixing device (101), wherein the wall locking device (201) is accommodated in the wall locking device receiving space (41). A modular wall element (1) according to any one of the preceding claims, wherein the modular wall element (1) is adapted, when used, to extend along the full height of the wall. Wall provided with modular wall elements (1) according to any one of the preceding claims, wherein a first interface arrangement of a first modular wall element of the modular wall elements is connected to a second interface arrangement of a second modular wall element of the modular wall elements such that at least one of the fluid connectors (33) and the electrical connectors (37) of the first modular wall element and the second modular wall element are connected to realize at least one of: - a communicative coupling of the fluid connectors (33) for fluid flow between the first modular wall element and the second modular wall element; and - a communicative coupling of the electrical connectors (37) between the first modular wall element and the second modular wall element. A wall according to claim 11 using modular wall elements (1) according to claim 7, wherein the wall comprises the positioning and fixing device (101) and wherein the positioning and fixing device (101) is included in the positioning and fixing device receiving recess. (39). A wall according to claim 12 using modular wall elements (1) according to claim 9, wherein the modular wall elements (1) are locked to the positioning and fixing device (101) via the wall locking device (201), the positioning and locking device ( 101) is fixed to a floor (305) of the building (401). A method (501) for realizing a wall according to any one of claims 11 to 13, the method comprising the steps of: - providing modular wall elements (1) according to any one of claims 1 to 10; - connecting a first interface arrangement of a first modular wall element of the modular wall elements to a second interface arrangement of a second modular wall element of the modular wall elements such that at least one of the fluid connectors (33) and the electrical connectors (37 ) of the first modular wall element and the second modular wall element are connected to realize at least one of: - a communicative coupling of the fluid connectors (33) for fluid flow between the first modular wall element and the second modular wall element; and - a communicative coupling of the electrical connectors (37) between the first modular wall element and the second modular wall element. A method (501) according to claim 14 for realizing a wall according to claim 13, wherein the method further comprises the steps of: - placing the first modular wall element of the modular wall elements on the positioning and fixing device (101) and receiving the positioning and fixing device (101) in the positioning and fixing device receiving recess (39) of the first modular wall element; - placing the second modular wall element of the modular wall elements on the positioning and fixing device (101) and receiving the positioning and fixing device (101) in the positioning and fixing device receiving recess (39) of the second modular wall element; wherein, during the connecting step, the first modular wall element is moved along the positioning and fixing device (101) relative to the second modular wall element to realize the connection.