EP3164551B1 - Fastening system and method for such a system - Google Patents
Fastening system and method for such a system Download PDFInfo
- Publication number
- EP3164551B1 EP3164551B1 EP15814426.1A EP15814426A EP3164551B1 EP 3164551 B1 EP3164551 B1 EP 3164551B1 EP 15814426 A EP15814426 A EP 15814426A EP 3164551 B1 EP3164551 B1 EP 3164551B1
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- EP
- European Patent Office
- Prior art keywords
- fastening means
- profile rail
- flange portion
- flange
- structural element
- Prior art date
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Images
Classifications
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/74—Removable non-load-bearing partitions; Partitions with a free upper edge
- E04B2/7407—Removable non-load-bearing partitions; Partitions with a free upper edge assembled using frames with infill panels or coverings only; made-up of panels and a support structure incorporating posts
- E04B2/7453—Removable non-load-bearing partitions; Partitions with a free upper edge assembled using frames with infill panels or coverings only; made-up of panels and a support structure incorporating posts with panels and support posts, extending from floor to ceiling
- E04B2/7457—Removable non-load-bearing partitions; Partitions with a free upper edge assembled using frames with infill panels or coverings only; made-up of panels and a support structure incorporating posts with panels and support posts, extending from floor to ceiling with wallboards attached to the outer faces of the posts, parallel to the partition
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/74—Removable non-load-bearing partitions; Partitions with a free upper edge
- E04B2/76—Removable non-load-bearing partitions; Partitions with a free upper edge with framework or posts of metal
- E04B2/78—Removable non-load-bearing partitions; Partitions with a free upper edge with framework or posts of metal characterised by special cross-section of the frame members as far as important for securing wall panels to a framework with or without the help of cover-strips
- E04B2/7854—Removable non-load-bearing partitions; Partitions with a free upper edge with framework or posts of metal characterised by special cross-section of the frame members as far as important for securing wall panels to a framework with or without the help of cover-strips of open profile
- E04B2/789—Removable non-load-bearing partitions; Partitions with a free upper edge with framework or posts of metal characterised by special cross-section of the frame members as far as important for securing wall panels to a framework with or without the help of cover-strips of open profile of substantially U- or C- section
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/74—Removable non-load-bearing partitions; Partitions with a free upper edge
- E04B2/76—Removable non-load-bearing partitions; Partitions with a free upper edge with framework or posts of metal
- E04B2/766—T-connections
- E04B2/767—Connections between wall studs and upper or lower locating rails
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/74—Removable non-load-bearing partitions; Partitions with a free upper edge
- E04B2002/7461—Details of connection of sheet panels to frame or posts
- E04B2002/7462—Details of connection of sheet panels to frame or posts using resilient connectors, e.g. clips
- E04B2002/7464—Details of connection of sheet panels to frame or posts using resilient connectors, e.g. clips clasping a flange of a profile
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/74—Removable non-load-bearing partitions; Partitions with a free upper edge
- E04B2002/7461—Details of connection of sheet panels to frame or posts
- E04B2002/7477—Details of connections using screws or nails
Definitions
- the nail can rotate when loads are applied to the profile rails, which implies that it is mainly the axial locking mechanism of the nail that holds the profile rails together.
- Another object is to increase the strength of the nailed joint by obtaining a buckling load instead of an axial tensile load in the nailed joint.
- Another object is to enable the use of electric or pneumatic nailing tools also when nailing heavy-gauge profile rails.
- the fastening system according to the invention has the features of claim 1.
- the first fastening means portion forms an attachment point for the nail of the nailed joint, which allows a nailed joint to be formed between the structural element and the profile rail substantially independently of the characteristics of the profile rail.
- the profile rail is made of folded or bent sheet metal, the invention allows the profile rail to be designed with a reduced material thickness, which is an advantage from environmental, ergonomic and cost point of view.
- profile rails to be designed from materials which normally do not allow nailed joints, e.g. profile rails formed from polymeric materials or laminated profile rails formed from layers of fibrous materials, e.g. cellulose fibers.
- the first fastening means portion supports the first flange portion of the profile rail and resists folding of the flange portion inwards when the nail penetrates it. This supporting function is enhanced since the connecting portion of the fastening means that extends between the fastening means portions of the fastening means conveys forces from the flange portion of the profile rail through which the nail is driven to the opposite flange portion thereof.
- each set of apertures comprises a first aperture disposed in the web portion in close connection or at least close proximity to the first flange portion, a second aperture disposed in the first reinforcement portion in close connection or close proximity to the first flange portion, a third aperture disposed in the web portion in close connection or close proximity to the second flange portion, and a fourth aperture disposed in the second reinforcement portion in close connection or close proximity to the second flange portion.
- said at least fastening means comprises a first flange portion, a second flange portion and web portion interconnecting the flange portions, said flange portions of the fastening means being substantially planar and substantially mutually parallel, and that said web portion of the fastening means is substantially planar and extends substantially orthogonally between the flange portions of the fastening means portions so that the fastening means exhibits substantially a U-shape, wherein said at least one fastening means is intended to be mounted in the profile rail by being inserted into said apertures.
- the fastening means is formed from folded or bent steel plate having a thickness in the range of 0.7-1.5 mm.
- first, vertical profile rail is to be connected to a second, horizontal profile rail, as is the case in a framework designed using lightweight construction technology, it may be advantageous to position the fastening means inside the first profile rail at the lower end thereof, so that the fastening means is caused to support the inside of the flange portions of the first profile rail, whereupon the first profile rail, with mounted fastening means, is positioned in the second profile rail so that the outsides of the flange portions of the first profile rail are caused to abut against the inside of the flange portions of the second profile rail.
- the fastening means portions of the fastening means will prevent the flange portions of the first profile rail from being folded backwards when the nails penetrate them.
- the supporting means furthermore prevents the nail from rotating when the profile rails are loaded, since the profile rail being loaded, i.e. the vertical, first profile rail, is fixed between the second, horizontal profile rail and the fastening means.
- the fastening means In order to further prevent rotation of the nail, it may be advantageous to design the fastening means with a connecting portion that abuts against the web portion of the horizontal profile rail.
- the fastening means can then be attached to the joists upon which the horizontal profile rail rests by driving one or several nails through the connecting portion, the web portion of the horizontal profile rail and into the joists.
- the fastening means will then also serve as a pressure-equalizing washer for the attachment to the joists while simultaneously securing the horizontal profile rail to the joists.
- the two nails will then together form a nailed joint connecting the profile rails to each other, and the fastening means will still support the flange portion of the vertical profile rail and prevent this portion from folding when the first nail penetrates it.
- the application of the second nail should be made at a position where the flange portion of the horizontal profile rail does not overlap the flange portion of the vertical profile rail, but where the fastening means portion of the fastening means is disposed behind the flange portion of the vertical profile rail.
- the profile rail 3 exhibits a folded or angled reinforcement portion 11, 12 that extends back toward the opposite flange portion and that is substantially parallel to the web portion 10.
- the reinforcement portions 11, 12, which contribute to giving the profile rail 3 its C-shaped cross-section (see Figures 3-6 ), are adapted to increase the ability of the profile rail 3 to receive vertical loads in a known manner. If the profile rail 3 is formed from steel plate, the profile rail 3 can be folded or bent along parallel folding or bending lines in a known manner to form the flange, web and reinforcement portions.
- the profile rail 3 exhibits a plurality of sets or arrays of apertures 13-16, which are disposed at predetermined positions along the profile rail 3.
- the apertures in each set of apertures 13-16 are arranged on a level with each other as viewed in the longitudinal direction of the profile rail 3.
- the sets of apertures13-16 are preferably placed at regular intervals along the length of the profile rail 3, e.g. with a spacing in the range of 10-100 cm.
- the web portion 24 has a length corresponding to the distance between the apertures 17 and 19, i.e. a length that is slightly smaller than the distance between the flange portions 8 and 9 of the profile rail 3.
- the fastening means portions 22 and 23 have a length that is slightly longer than the width of the flange portions 8 and 9.
- the fastening means portions 22 and 23 further have a width that is slightly smaller than the length of the apertures 17-20.
- the fastening means portions 22 and 24 have a thickness that is slightly smaller than the width of the apertures 17-20.
- a desired number of fastening means 21 are inserted into the apertures 17-20 at desired positions along the profile rail 3. If the fastening means 21 is inserted from the web side of the profile rail 3, as shown in Figures 3 and 4 , the free ends of the fastening means portions 22 and 23 of the fastening means 21 are first passed through the apertures 17 and 19, respectively, and then in through the apertures 18 and 20, respectively, so that the web portion 24 of the fastening means 21 is caused to abut against the web portion 10 of the profile rail 3, or is at least brought into close proximity to the web portion 10.
- the wall panel 5 When the desired number of fastening means 21 have been mounted in the profile rail 3, the wall panel 5 is brought into a desired position against the profile rail 3, as shown in Figure 7 , whereupon a nail 27 is driven through the wall panel 5, the flange portion 8 of the profile rail 3 and the fastening means portion 22 of the fastening means 21, as shown in Figure 8 .
- This step is repeated at each position where a fastening means 21 is mounted in the profile rail 3, wherein the wall panel 5 is connected to the profile rail 3 by means of a nailed joint formed by said nails 27.
- Figure 9 shows the nailed joint in a case where the fastening means 21 has been mounted on the profile rail 3 from the opening side of the profile rail 3.
- the fastening means 21 makes it possible to design the profile rail 3, or at least the flange portion 8, with a relatively thin material thickness. If the profile rail 3 is formed from a steel plate, this constitutes a considerable advantage, since it enables the profile rail 3 to be formed from a steel plate which by itself cannot form a joint with a nail. This enables a considerable saving, since the material consumption, i.e. weight of steel per meter length of profile rail, can be drastically reduced. Furthermore, this enables an improvement from a purely ergonomic point of view, since the profile rail will be lighter and therefore easier to handle.
- the fastening means portion 22 of the fastening means 21 forms a fastener for the nail 27, wherein said fastener enables the formation of a nailed joint between a structural element and a profile rail which by itself cannot provide a sufficient hold for the nails.
- said nails 27 are so-called ballistic nails, which are driven through the wall panel 5, the flange portion 8 of the profile rail 3 and the fastening means portion 22 of the fastening means 21 with a tool designed for the purpose, e.g. a nail gun.
- the quality of the nailed joint is dependent on the number of fastening means 21 and their mutual position in the profile rail 3.
- the number of fastening means 21 and their positions are advantageously adapted to the board-shaped structural element which is to be attached to the profile rail 3.
- a heavy structural element may e.g. require a larger number of attachment points than a light one, and accordingly, it may be advantageous to use relatively many and closely spaced fastening means for such a structural element.
- the second fastening means portion 23 of the fastening means 21 may constitute a fastener during the formation of a corresponding nailed joint with a structural element at the second flange portion 9 of the profile rail, wherein said structural element may, for example, be constituted by the support upon which the wall structure formed by the wall panel 5 is to be mounted.
- the fastening means 21 in addition to forming fasteners for the nails, also contribute to increasing the bending resistance of the profile rail 3, both in its longitudinal direction and in its transverse direction.
- the web portions 24 of the fastening means 21 especially contribute to reducing the buckling or bending tendency of the web portion 10 of the profile rail 3, whereas the fastening means portions 22 and 23 of the fastening means 21 contribute to reducing the buckling or bending tendency of the flange portions 8 and 9 of the profile rail 3.
- Figure 10 shows an alternative embodiment of a fastening means 28 in the form of a flange reinforcer, wherein said fastening means 28 is substantially similar to the above-described fastening means 21, but exhibits substantially planar supporting sections 29, 30 projecting from the long sides of the fastening means portions 22, 23 and forming a predetermined angle ⁇ therewith.
- This predetermined angle ⁇ may e.g. be in the range of 5-10 degrees.
- the fastening means 28 is mounted in the profile rail 3 in substantially the same manner as the above-described fastening means 21, but with the addition that the fastening means portions 22 and 23 are pressed against each other before the mounting so that the free edges of the supporting sections 29 can be brought into the apertures 17 and 19 of the profile rail 3.
- FIG 11 shows the fastening means 28 mounted in the profile rail 3.
- the fastening means 28 has recovered its original shape after having been inserted into the apertures 17-20.
- the installer moves the structural element 5 which is to be attached to the profile rail 3 against the flange portion 8.
- the structural element 5 does not get in direct contact with the adhesive 31 at this stage, but can be positioned into the desired position, both in the height direction and laterally, without the adhesive 31 contacting and sticking to the structural element 5.
- the installer applies a pressure load to the structural element 5 so that the supporting sections 29, 30 yield and bend backwards, wherein the structural element 5 is allowed to contact and stick to the adhesive 31, as shown in Figure 12 .
- the fastening means 28 is elastically deformable to an extent sufficient, on the one hand, to allow mounting in the profile rail 3, and, on the other hand, to allow the installer to push the supporting sections backwards, but sufficiently rigid to enable the supporting sections 29 to provide a sufficient support during the positioning of the structural element 5.
- a nail 27 is driven through the structural element 5, the flange portion 8 of the profile rail 3 and the fastening means portion 22 of the fastening means 21, as described previously and shown in Figure 12 .
- the fastening means 28 thus enables a combined adhesive and nailed joint to be formed in a simple manner.
- the use of the adhesive means that the number of nails can be reduced, which may be advantageous in those cases where penetrations of the structural element are to be avoided, at the same time as the nails 27 secure the structural element 5 in the desired position until the adhesive dries or sets.
- FIGS 13 and 14 show a further embodiment of a fastening means 32, which in this case has the form of a so-called end stiffener.
- the fastening means 32 comprises a first, forward fastening means portion 33, a second, rearward fastening means portion 34 and a side wall portion 35 interconnecting the fastening means portions 33, 34.
- the fastening means portions 33, 34 are substantially planar and are substantially mutually parallel.
- the side wall portion 35 is substantially planar and extends substantially orthogonally between the fastening means portions 33, 34.
- the fastening means 32 also comprises a bottom portion 36, which is substantially orthogonal to both the fastening means portions 33, 34 and the side wall portion 35.
- the fastening means 32 comprises a supporting portion 37, which extends between the fastening means portions 33 and 34 substantially in parallel to the side wall portion 35.
- the fastening means 32 generally has a rectangular shape, and has a length and width enabling it to be mounted with an exact fit in a profile rail 3 by being inserted into the end of the profile rail 3, as shown in Figure 13 .
- the fastening means portions 33 and 34 thereof will abut against, or at least be in close proximity to, the flange portions 8 and 9, respectively, of the profile rail 3.
- first fastening means portion 33 of the fastening means 32 will abut against, or at least be in close proximity to, the internal surface 26 of the flange portion 8 of the profile rail 3, and the second fastening means portion 34 of the fastening means 32 will, in a corresponding manner, abut against, or at least be in close proximity to the internal surface 26 of the flange portion 9 of the profile rail 3, as shown in Figure 14 .
- a structural element (not shown) can be placed on the flange portion 8 and be connected to the profile rail 3 in the same manner as described above, i.e.
- flange portion 8 and the fastening means portion 33, the supporting portion 37, and also the side wall portion 35 and bottom portion 36, contribute to the fastening means portion 33 being maintained in its position and not being pushed or folded backwards by the force from the penetrating nail.
- the bottom portion 36 allows the fastening means 32 to be attached, by means of a nailed joint or screw joint, to the support on which the profile rail 3 rests.
- the fastening system according to the invention can also be used for attaching two profile rails to each other. This may be of interest when a vertical profile rail is to be connected to a horizontal profile rail, e.g. to form the type of frame system 4 or framework shown in Figure 1 .
- the method comprises the step of inserting the fastening means 32 into the profile rail 3 so that the fastening means portions 33 and 34 thereof are caused to abut against, or at least be in close proximity to, the flange portions 8 and 9, respectively, of the profile rail 3, as shown in Figures 13 and 14 .
- the vertical profile rail 3 with the mounted fastening means 32 is placed in the horizontal profile rail 2 so that the flange portions 8, 9 of the profile rail 3 are caused to abut against corresponding flange portions 38, 39 of the profile rail 2, as shown in Figures 15 and 16 .
- the vertical profile rail 3 has a C-shaped cross-section in order to increase the ability of the profile rail 3 to resist transverse forces, e.g. caused by a wind load acting on the frame system 4
- the horizontal profile rail 2 has a U-shaped cross-section in order to enable the insertion of the profile rail 3 into the profile rail 2, as shown in Figure 16 .
- nails 27 are driven through the flange portion 38 of the horizontal profile rail 2 and the flange portion 8 of the vertical profile rail 3, as well as through the flange portion 39 of the horizontal profile rail 2 and the flange portion 9 of the vertical profile rail 3, and are caused to hold to the fastening means portion 33 and 34, respectively, of the fastening means 32, as shown in Figure 17 , wherein the profile rail 2 is connected to the profile rail 3 by means of a nailed joint formed by the nails 27.
- the supporting portion 37 contribute to the fastening means portions 33 and 34 being maintained in their respective positions and not being pushed or folded backwards by the force from the penetrating nails 27.
- FIGS 18-20 show alternative embodiments of fastening means 40, 41, 42 suitable for use in a fastening system according to the invention.
- All fastening means 40, 41, 42 exhibit a first fastening means portion 43, a second fastening means portion 44 and at least one connecting portion 45 supporting and connecting the fastenings means portions 43, 44 to each other.
- the fastening means portions 43 and 44 are substantially parallel to each other in order to support flange portions of a profile rail in the same manner as described above.
- Figures 21 and 22 shows an alternative embodiment of a profile rail 50, where the supporting means is integrated into the profile rail 50.
- the profile rail 50 exhibits a first flange portion 51 and a first fastening means portion 52, which connects to the flange portion 51 and extends behind and in parallel therewith.
- the profile rail 50 further exhibits a web portion 53, which connects to the first fastening means portion 52 and forms a substantially right angle therewith.
- the profile rail 50 furthermore exhibits a second flange portion 54 and a second fastening means portion 55, which connects to the flange portion 54 and extends behind and in parallel therewith.
- the fastening means portion 55 connects to the web portion 53 and forms a substantially right angle therewith.
- the profile rail 50 furthermore exhibits reinforcement portions 56, 57, which connect to the flange portions 51, 54 and extend in parallel to the web portion 53.
- the first fastening means portion 52 abuts against the first flange portion 51 and, in the same manner, the second fastening means portion 54 abuts against the second flange portion 55.
- the profile rail 50 is formed by a metal plate which is folded double at its long sides to form the flange and fastening means portions.
- the web portion 52 is common for both the flange and fastening means portions. Accordingly, the integrated fastening means is formed by the fastening means portions 52 and 54 and the interconnecting web portion 53.
- the profile rail 50 is mounted in the horizontal profile rail 2 in the same manner as has been described above, but with the difference that the fastening means in this case is integrated into the profile rail and thus does not need to be inserted into the profile rail 50 before it is mounted in the horizontal profile rail 2.
- the profile rail 50 is attached to the profile rail 2 in the same manner as has been described above, i.e. in that nails 27 are applied through the flange portions 38, 38 of the profile rail 2 and through the flange portions 51, 55 of the profile rail 50 and are caused to hold to the fastening means portions 52, 54 of the profile rail 50, as shown in Figure 22 .
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Description
- The present invention relates to a fastening system for attaching a structural element to a profile rail by means of a nailed joint, said fastening system comprising said profile rail, which comprises:
- a first flange portion for interaction with the structural element;
- a second flange portion opposite to the first flange portion; and
- a web portion interconnecting the flange portions and extending between the flange portions, wherein the first flange portion exhibits a first, external surface for interaction with the structural element, and a second, internal surface facing toward the second flange portion, and wherein the second flange portion exhibits a first, external surface, and a second, internal surface facing toward the first flange portion.
- The present invention also relates to method for attaching a structural element to a profile rail by means of a nailed joint, comprising:
- a first flange portion for interaction with the structural element;
- a second flange portion opposite to the first flange portion; and
- a web portion interconnecting the flange portions and extending between the flange portions, wherein the first flange portion exhibits a first surface for interaction with the structural element, and a second surface facing toward the second flange portion, and wherein the second flange portion exhibits a first, external surface, and a second, internal surface facing toward the first flange portion.
- The present invention especially relates to a fastening system and a method for such a system for attaching a board-shaped structural element in the form of a building board or wall panel to a profile member by means of a nailed joint. For example, the building board or wall panel may be a building board of wood fibers, chips, OSB, plywood or fiber/gypsym. Alternatively, the building board or wall panel may be a magnesium oxide board, a silicate board or a plasterboard.
- The present invention also especially relates to a fastening system and a method for such a system for attaching a first profile rail to a second profile rail by means of a nailed joint, e.g. for attaching a lying or horizontal profile rail to an upright or horizontal profile rail.
- As used herein, profile rail refers to an elongated rail or member, usually of metal, e.g. steel, which is designed with a uniform cross-section along its length. The cross-section is usually C or U-shaped. Such profile rails are used e.g. for forming a truss structure or a framework in so-called lightweight construction, wherein said framework is subsequently covered with board-shaped structural elements (see also
Figure 1 ). When forming such a framework, vertical or upright profile rails, which are also called studs, are attached between an upper, horizontal and a lower, horizontal profile rail, which are also called rails. When covering the framework, it is common that the structural elements are nailed to the studs. As a rule, also the connection of the studs to the rails is done with nailed joints. - When a structural element is attached to a profile rail by means of a nailed joint, the profile rail has to be dimensioned so that the nails of the joint hold in the profile rail. This means that there is a lower limit for how thin the material thickness of the profile rail can be designed. Accordingly, if the structural element is to be attached to the profile rail by means of a nailed joint, at least the flange portion facing toward the structural element has to be designed with a material thickness that is sufficient to allow the nails of the nailed joint to hold.
- This is a problem, since it makes the continuous ambition to reduce the material consumption in profile rails more difficult.
- An additional problem may arise when a first, vertical profile rail is to be attached to a horizontal profile rail to form a truss structure or a framework according to the foregoing. During such mounting, the stud is inserted into the rail so that the flange portions of the stud abut against the flange portions of the rail, whereupon a nail is driven through the respective flange portions of the rail and into the respective flange portions of the stud behind. When nailing in such a way, the flange portions of the stud run the risk of being folded inwards before the nail penetrates therethrough. Thereby, there a risk of unwanted gaps forming between the flange portions of the rail and the stud, which is not acceptable in load-bearing structures.
- In document
US2004159071 , it has been attempted to solve this problem by placing a yoke on the nailing tool used when forming the nailed joints attaching the studs to the rails, wherein said yoke serves the function of maintaining the flange portions of the rails and the studs in contact with each other during the nailing. This solution, however, makes the nailing tool heavier and more bulky, which makes the work slower and puts more pressure on the installers. Furthermore, the yoke will be in the way if the tool is to be used for other nailing. - A further problem may arise when structural elements mounted on the framework are subjected to a dynamic load, e.g. a wind load. The vertical studs, which receive the load, are then pushed inwardly and tend to bend. The resulting load is then transferred by the nailed joints between the studs and rails. In each nailed joint, the force becomes a tensile force loading along the axial attachment of the nailed joint. Furthermore, this force increases if light-gauge studs are used, i.e. studs having a relatively thin material thickness, such as, for example, 0.7-1.5 mm, since the studs then also bend in shape, i.e. do not maintain their shape, which further increases the demand on the holding ability of the nailed joint.
- To solve this problem, it has been attempted in the same document
US2004159071 to develop nails or fastening devices which are supposed to increase the holding ability of the nailed joint in different ways. However, these design measures on the fastening devices are strongly limited by the fact that there is a risk of crack formation occurring in the flange portions of the studs when heavy-gauge fastening devices displacing a lot of material are used. Yet another problem is that the strength of the nailed joint is dependent on a combination of the friction of the surface of the fastening device and the buckling strength of the body of the nail, which are both jeopardized by the technologies described in the above document, which is why they may be regarded as suitable only for non-load-bearing structures. - In the Technical Handbook for Construction sheeting, Materials and Design (Teknikhandboken for byggnadsplåt, material och utförande (www.teknikhandboken.se)), it is mentioned that:
" When using penetrating screws, crack formation has been observed in the sheet material. Furthermore, in dynamic loading, penetrating screws with high thread pitch have a tendency to become unscrewed from the support. - The risk of crack formation is also a problem when nailing profile rails. Tests have shown that the design features of the screw for achieving hold are in opposition to its dimensioning for efficient shooting. If the diameter of the nail is limited to enable it to penetrate the flange portions without crack formation therein, the hold of the nail in the flange portions will become dependent on the design of its surface. If the surface is designed with grooves or furrows, the hold of the nail increases, but its strength decreases.
- Another problem is that electric and pneumatic nailing tools have a limited penetration force and thereby limits the steel thickness of the profile rails. Electric nailing tools today are capable of penetrating profile rails having a thickness of approx. 1.5-2 mm, and pneumatic ones approx. 3.5-4 mm. If profile rails of greater steel thickness are to be joined, gas powered or powder-actuated nailing tools, which are substantially more expensive than electric and pneumatic nailing tools, have to be used.
- Another problem is that the nail can rotate when loads are applied to the profile rails, which implies that it is mainly the axial locking mechanism of the nail that holds the profile rails together.
- Yet another problem is that many of the present facade structures cannot withstand the movements arising in the structure. In a structure where studs are arranged vertically in a horizontal rail, a transverse load, e.g. a wind load, is transferred from the studs to the rail attachment to the joists via the flange portion of the rail. The transition between the flange portion of the rail and the web portion thereof then forms a natural, sagging "hinge". For instance, it is common that plaster facades exhibit cracks after a very short time, wherein said cracks are least partially caused by this phenomenon. Document
US 5 590 505 A discloses the features of the preamble of claim 1. - Accordingly, there is need for a fastening system and a method which allow the formation of a strong and reliable nailed joint, and which allow the formation of nailed joints in thin profile rails to which nails normally will not hold.
- The object of the present invention is to at least partially solve the above-mentioned problems and to produce a fastening system and a method which allow the formation of a strong and reliable nailed joint substantially independently of the characteristics of the profile rail.
- One object of the invention is to transform the holding force of the nails from a tensile force, which is axial to the nails, into a buckling load, which is perpendicular to the longitudinal direction of the nails.
- Another object is to increase the strength of the nailed joint by obtaining a buckling load instead of an axial tensile load in the nailed joint.
- An additional object is to prevent the flange portion of the profile rail from being folded when the nail is driven into the flange portion.
- A further object is to reduce the risk of cracks forming in the flange portion when the nail penetrates it.
- Another object is to enable the use of electric or pneumatic nailing tools also when nailing heavy-gauge profile rails.
- One object is to reduce movements between studs and rails in a nailed light construction frame, which otherwise are at risk arising e.g. in case of wind loading on the structure. Another object is to prevent the nail in the nailed joint from rotating when the profile rail is loaded.
- Another object is to achieve an efficient load transfer from the profile rail, via the nailed joint and to the joists supporting the profile rail.
- The fastening system according to the invention has the features of claim 1.
- The method according to the invention comprises the steps of
claim 7. - Accordingly, according to the invention, the first flange portion of the profile rail is secured between the structural element and the first fastening means portion of the fastening means before the nail is driven through the structural element, the profile rail and into the fastening means. This prevents the first flange portion of the profile rail from being folded backwards/inwards when the nail is driven in, which ensures the formation of a stable joint. Furthermore, the fastening means prevents the flange portion of the profile rail from separating or moving away from the structural element after the formation of the joint. For example, the fastening means prevents the structural element from separating from the profile rail when the profile rail is loaded, e.g. by a wind load.
- The structural element can be constituted by a building board or by an adjoining, second profile rail to which the first profile rail is to be connected.
- Accordingly, the first fastening means portion forms an attachment point for the nail of the nailed joint, which allows a nailed joint to be formed between the structural element and the profile rail substantially independently of the characteristics of the profile rail. If the profile rail is made of folded or bent sheet metal, the invention allows the profile rail to be designed with a reduced material thickness, which is an advantage from environmental, ergonomic and cost point of view.
- Furthermore, the invention allows profile rails to be designed from materials which normally do not allow nailed joints, e.g. profile rails formed from polymeric materials or laminated profile rails formed from layers of fibrous materials, e.g. cellulose fibers.
- Furthermore, the first fastening means portion supports the first flange portion of the profile rail and resists folding of the flange portion inwards when the nail penetrates it. This supporting function is enhanced since the connecting portion of the fastening means that extends between the fastening means portions of the fastening means conveys forces from the flange portion of the profile rail through which the nail is driven to the opposite flange portion thereof.
- It may be advantageous to design the fastening system so that it comprises a plurality of fastening means, which are adapted to be mounted in the profile rail at predetermined positions along the length of the profile rail.
- It may also be advantageous to design the fastening means so that they extend between the flange portions of the profile rail, in which case the fastening means also contribute to reinforcing the profile rail, both in its longitudinal direction as well as in its transverse direction.
- It may be advantageous to arrange the fastening system so that the profile rail exhibits a plurality of apertures for receiving said at least one supporting means.
- It may be advantageous to arrange the fastening system so that the apertures are disposed in sets, which are positioned at regular intervals along the length of the profile rail.
- It may be advantageous to arrange the fastening system so that the profile rail, at a free edge of the first flange portion, comprises a first reinforcement portion extending back toward the second flange portion, and that the profile rail, at a free edge of the second flange portion, comprises a second reinforcement portion extending back toward the first flange portion, and that each set of apertures comprises a first aperture disposed in the web portion in close connection or at least close proximity to the first flange portion, a second aperture disposed in the first reinforcement portion in close connection or close proximity to the first flange portion, a third aperture disposed in the web portion in close connection or close proximity to the second flange portion, and a fourth aperture disposed in the second reinforcement portion in close connection or close proximity to the second flange portion.
- It may be advantageous to arrange the fastening system so that said at least fastening means comprises a first flange portion, a second flange portion and web portion interconnecting the flange portions, said flange portions of the fastening means being substantially planar and substantially mutually parallel, and that said web portion of the fastening means is substantially planar and extends substantially orthogonally between the flange portions of the fastening means portions so that the fastening means exhibits substantially a U-shape, wherein said at least one fastening means is intended to be mounted in the profile rail by being inserted into said apertures.
- According to the invention, the fastening means is formed from folded or bent steel plate having a thickness in the range of 0.7-1.5 mm.
- If a first, vertical profile rail is to be connected to a second, horizontal profile rail, as is the case in a framework designed using lightweight construction technology, it may be advantageous to position the fastening means inside the first profile rail at the lower end thereof, so that the fastening means is caused to support the inside of the flange portions of the first profile rail, whereupon the first profile rail, with mounted fastening means, is positioned in the second profile rail so that the outsides of the flange portions of the first profile rail are caused to abut against the inside of the flange portions of the second profile rail. When the profile rails are subsequently connected to each other by driving nails through the flange portions of the profile rails and into the fastening means, the fastening means portions of the fastening means will prevent the flange portions of the first profile rail from being folded backwards when the nails penetrate them.
- Furthermore, the fastening means portions will prevent the profile rails from separating when they are loaded. The fastening of the flange portions of the first profile rail between the flange portions of the second profile rail and the supporting means portions of the supporting means implies that the adjacent flange portions can only slide against each other, which implies that the nail will be subjected mainly to a transverse buckling force when the profile rails are loaded.
- Since the profile rails are formed from a relatively thin sheet metal material, having a thickness of 0.7-1.5 mm, the supporting means furthermore prevents the nail from rotating when the profile rails are loaded, since the profile rail being loaded, i.e. the vertical, first profile rail, is fixed between the second, horizontal profile rail and the fastening means.
- In order to further prevent rotation of the nail, it may be advantageous to design the fastening means with a connecting portion that abuts against the web portion of the horizontal profile rail. The fastening means can then be attached to the joists upon which the horizontal profile rail rests by driving one or several nails through the connecting portion, the web portion of the horizontal profile rail and into the joists. The fastening means will then also serve as a pressure-equalizing washer for the attachment to the joists while simultaneously securing the horizontal profile rail to the joists.
- When nailing a profile rail of a heavy-gauge material, it may be advantageous to minimize the material that the nail has to penetrate by designing the fastening means portion supporting the flange portion of the profile rail with a through opening, and to realize the nailed joint with two nails, wherein a first nail is applied at the position of the opening so that the first nail is caused to penetrate the flange portion of the horizontal profile rail and the flange portion of the vertical profile rail, but not into the material of the fastening means. The second nail is driven through the flange portion of the vertical profile rail and into the fastening means portion of the fastening means, but not through the flange portion of the horizontal profile rail. The two nails will then together form a nailed joint connecting the profile rails to each other, and the fastening means will still support the flange portion of the vertical profile rail and prevent this portion from folding when the first nail penetrates it. In this case, the application of the second nail should be made at a position where the flange portion of the horizontal profile rail does not overlap the flange portion of the vertical profile rail, but where the fastening means portion of the fastening means is disposed behind the flange portion of the vertical profile rail.
- In the following, the invention will be described more closely with reference to accompanying patent drawings.
-
Figure 1 shows a side view of a wall segment comprising a fastening system according to the invention. -
Figures 2-9 show a fastening system according to a first embodiment of the invention. -
Figures 10-12 show a fastening system according to a second embodiment of the invention. -
Figures 13 and 14 show a fastening system according to a third embodiment of the invention. -
Figures 15-17 shows the procedure of connecting a first, vertical profile rail to a second, horizontal profile rail according to the invention. -
Figures 18-20 show different embodiments of fastening means according to the invention. -
Figures 21-22 show an alternative embodiment of a profile rail according to the invention, and its attachment to a horizontal profile rail. -
Figure 1 shows a wall segment comprising a first, upper horizontal profile rail 1, a second, lowerhorizontal profile rail 2 and a plurality of vertical profile rails 3. The first, upper horizontal profile rail 1 has a U-shaped cross-section and is oriented so that the opening of the cross-section faces downward. The second, lowerhorizontal profile rail 2 also has a U-shaped cross-section, but is oriented so that the opening of the cross-section faces upward. Thevertical profile rails 3 have a C-shaped cross-section (see alsoFigures 3-13 ) and are oriented so that their upper ends connect to the upper, horizontal profile rail 1, and so that their lower ends connect to the lower,horizontal profile rail 2. Thevertical profile rails 3 are parallel and disposed at a predetermined mutual distance, e.g. with a center-to-center distance (C/C distance) of 600 mm. - The profile rails 1-3 form a
frame system 4, or framework, for the mounting of board-shapedstructural elements 5, e.g. in the form of building boards or wall panels. In some contexts, profile rails having a U-shaped cross-section, which are normally intended for horizontal mounting, are called rails, whereas profile rails having a C-shaped cross-section, which are normally intended for vertical mounting, are called studs. - In the following, a fastening system for mounting the board-shaped
structural elements 5 inFigure 1 , and a method for such a fastening system, will be described more closely with reference toFigures 2-8 . - The fastening system comprises the
profile rail 3, which is elongated and extends between a first,upper end 6 and a second,lower end 7, wherein said ends 6, 7 are adapted to interact with saidhorizontal profile rails 1 and 2, as shown inFigure 1 . Theprofile rail 3 comprises afirst flange portion 8, asecond flange portion 9 and aweb portion 10 interconnecting theflange portions flange portions flange portion surface 25, which faces away from the opposite flange portion, and a second, internal side orsurface 26, which faces toward the opposite flange portion. Theweb portion 10 is substantially planar and extends substantially orthogonally between theflange portions flange portions profile rail 3 exhibits a folded or angledreinforcement portion web portion 10. Thereinforcement portions profile rail 3 its C-shaped cross-section (seeFigures 3-6 ), are adapted to increase the ability of theprofile rail 3 to receive vertical loads in a known manner. If theprofile rail 3 is formed from steel plate, theprofile rail 3 can be folded or bent along parallel folding or bending lines in a known manner to form the flange, web and reinforcement portions. - The
profile rail 3 exhibits a plurality of sets or arrays of apertures 13-16, which are disposed at predetermined positions along theprofile rail 3. The apertures in each set of apertures 13-16 are arranged on a level with each other as viewed in the longitudinal direction of theprofile rail 3. The sets of apertures13-16 are preferably placed at regular intervals along the length of theprofile rail 3, e.g. with a spacing in the range of 10-100 cm. - Each set of apertures 13-16 comprises four through apertures 17-20 in the material forming the
profile rail 3. Each aperture 17-20 is elongated and extends in the longitudinal direction of theprofile rail 3. The length of the aperture 17-20 may, for example, be in the range of 10-20 mm and its width in the range of 1-3 mm. Theaperture 17 is disposed in theweb portion 10 in close connection or close proximity to thefirst flange portion 8, and theaperture 18 is disposed in thereinforcement portion 11 in close connection or close proximity to thefirst flange portion 8. In the same way, theaperture 19 is arranged in theweb portion 10 in close connection or close proximity to thesecond flange portion 9, and theaperture 20 is arranged in thereinforcement portion 12 in close connection or close proximity to thesecond flange portion 9. Accordingly, theapertures apertures apertures - The fastening system further comprises a plurality of fastening means (21) in the form of a flange reinforcer, which are adapted to interact with the
profile rail 3 in a manner that will be described more closely below. Each fastening means 21 comprises a first fastening meansportion 22 in the form of a flange portion, a second fastening meansportion 23 in the form of a flange portion andweb portion 24 interconnecting the fastening meansportions portions web portion 24 is substantially planar and extends substantially orthogonally between the fastening meansportions web portion 24 has a length corresponding to the distance between theapertures flange portions profile rail 3. The fastening meansportions flange portions portions portions web portion 10, as shown at the top ofFigure 2 and inFigures 3 and 4 , or from the opening side of theprofile rail 3, as shown at the bottom ofFigure 2 and inFigures 5 and 6 . - Before mounting a wall panel to the
profile rail 3, a desired number of fastening means 21 are inserted into the apertures 17-20 at desired positions along theprofile rail 3. If the fastening means 21 is inserted from the web side of theprofile rail 3, as shown inFigures 3 and 4 , the free ends of the fastening meansportions apertures apertures web portion 24 of the fastening means 21 is caused to abut against theweb portion 10 of theprofile rail 3, or is at least brought into close proximity to theweb portion 10. If the fastening means 21 is inserted from the opening side of theprofile rail 3, as shown inFigures 5 and 6 , the free ends of the fastening meansportions apertures apertures web portion 24 of the fastening means 21 is caused to abut against thereinforcement portions profile rail 3, or is at least brought into close proximity to thereinforcement portions - When the fastening means 21 has been inserted into the apertures 17-20, the fastening means
portions flange portions profile rail 3. More precisely, the first fastening meansportion 22 of the fastening means 21 will abut against, or at least be in close proximity to, theinternal surface 26 of theflange portion 8 of theprofile rail 3, and the second fastening meansportion 23 of the fastening means 21 will, in a corresponding manner, abut against, or at least be in close proximity to, theinternal surface 26 of theflange portion 9 of theprofile rail 3, as shown inFigures 4 and 6 . - When the desired number of fastening means 21 have been mounted in the
profile rail 3, thewall panel 5 is brought into a desired position against theprofile rail 3, as shown inFigure 7 , whereupon anail 27 is driven through thewall panel 5, theflange portion 8 of theprofile rail 3 and the fastening meansportion 22 of the fastening means 21, as shown inFigure 8 . This step is repeated at each position where a fastening means 21 is mounted in theprofile rail 3, wherein thewall panel 5 is connected to theprofile rail 3 by means of a nailed joint formed by saidnails 27. -
Figure 9 shows the nailed joint in a case where the fastening means 21 has been mounted on theprofile rail 3 from the opening side of theprofile rail 3. - The fastening means 21 makes it possible to design the
profile rail 3, or at least theflange portion 8, with a relatively thin material thickness. If theprofile rail 3 is formed from a steel plate, this constitutes a considerable advantage, since it enables theprofile rail 3 to be formed from a steel plate which by itself cannot form a joint with a nail. This enables a considerable saving, since the material consumption, i.e. weight of steel per meter length of profile rail, can be drastically reduced. Furthermore, this enables an improvement from a purely ergonomic point of view, since the profile rail will be lighter and therefore easier to handle. - Accordingly, the fastening means
portion 22 of the fastening means 21 forms a fastener for thenail 27, wherein said fastener enables the formation of a nailed joint between a structural element and a profile rail which by itself cannot provide a sufficient hold for the nails. - The fastening means
portion 22 also prevents theflange portion 8 from being folded inwards, i.e. away from thestructural element 5, when thenail 27 is applied, which ensures the formation of a reliable nailed joint. Furthermore, the fastening meansportion 22 prevents the flange portion from separating from thestructural element 5 when thestructural element 5 and theprofile rail 3 are loaded, e.g. by a wind load. - It may be advantageous to form fastening means 21 from a steel plate having a material thickness in the range of 0.7-2.5 mm, e.g. 0.7-1.5 mm, but other dimensions and materials, e.g. fiber-reinforced material, for example fiber-reinforced hard plastic, are possible as long as the fastening means provides a good hold for the nail.
- Preferably, said
nails 27 are so-called ballistic nails, which are driven through thewall panel 5, theflange portion 8 of theprofile rail 3 and the fastening meansportion 22 of the fastening means 21 with a tool designed for the purpose, e.g. a nail gun. - It can be appreciated that the quality of the nailed joint is dependent on the number of fastening means 21 and their mutual position in the
profile rail 3. The number of fastening means 21 and their positions are advantageously adapted to the board-shaped structural element which is to be attached to theprofile rail 3. A heavy structural element may e.g. require a larger number of attachment points than a light one, and accordingly, it may be advantageous to use relatively many and closely spaced fastening means for such a structural element. - It is appreciated that the second fastening means
portion 23 of the fastening means 21 may constitute a fastener during the formation of a corresponding nailed joint with a structural element at thesecond flange portion 9 of the profile rail, wherein said structural element may, for example, be constituted by the support upon which the wall structure formed by thewall panel 5 is to be mounted. - It is appreciated that the fastening means 21, in addition to forming fasteners for the nails, also contribute to increasing the bending resistance of the
profile rail 3, both in its longitudinal direction and in its transverse direction. Theweb portions 24 of the fastening means 21 especially contribute to reducing the buckling or bending tendency of theweb portion 10 of theprofile rail 3, whereas the fastening meansportions flange portions profile rail 3. -
Figure 10 shows an alternative embodiment of a fastening means 28 in the form of a flange reinforcer, wherein said fastening means 28 is substantially similar to the above-described fastening means 21, but exhibits substantially planar supportingsections portions - The fastening means 28 is mounted in the
profile rail 3 in substantially the same manner as the above-described fastening means 21, but with the addition that the fastening meansportions sections 29 can be brought into theapertures profile rail 3. - In this embodiment, the
profile rail 3 comprises an adhesive 31, which is applied in a thin layer on theexternal surface 25 of theflange portion 8. The adhesive layer can, for example, be constituted by a glue layer or a double stick tape. -
Figure 11 shows the fastening means 28 mounted in theprofile rail 3. As is evident fromFigure 11 , the fastening means 28 has recovered its original shape after having been inserted into the apertures 17-20. After having mounted the fastening means 28 in theprofile rail 3, the installer moves thestructural element 5 which is to be attached to theprofile rail 3 against theflange portion 8. However, owing to the supportingsections structural element 5 does not get in direct contact with the adhesive 31 at this stage, but can be positioned into the desired position, both in the height direction and laterally, without the adhesive 31 contacting and sticking to thestructural element 5. When the installer has positioned the structural element in the desired position, the installer applies a pressure load to thestructural element 5 so that the supportingsections structural element 5 is allowed to contact and stick to the adhesive 31, as shown inFigure 12 . - Accordingly, the fastening means 28 is elastically deformable to an extent sufficient, on the one hand, to allow mounting in the
profile rail 3, and, on the other hand, to allow the installer to push the supporting sections backwards, but sufficiently rigid to enable the supportingsections 29 to provide a sufficient support during the positioning of thestructural element 5. - When the
structural element 5 has adhered to the adhesive, which can extend along all or portions of the length of theprofile rail 3, anail 27 is driven through thestructural element 5, theflange portion 8 of theprofile rail 3 and the fastening meansportion 22 of the fastening means 21, as described previously and shown inFigure 12 . The fastening means 28 thus enables a combined adhesive and nailed joint to be formed in a simple manner. The use of the adhesive means that the number of nails can be reduced, which may be advantageous in those cases where penetrations of the structural element are to be avoided, at the same time as thenails 27 secure thestructural element 5 in the desired position until the adhesive dries or sets. -
Figures 13 and 14 show a further embodiment of a fastening means 32, which in this case has the form of a so-called end stiffener. The fastening means 32 comprises a first, forward fastening meansportion 33, a second, rearward fastening meansportion 34 and aside wall portion 35 interconnecting the fastening meansportions portions side wall portion 35 is substantially planar and extends substantially orthogonally between the fastening meansportions bottom portion 36, which is substantially orthogonal to both the fastening meansportions side wall portion 35. Also in this case, the fastening means 32 comprises a supportingportion 37, which extends between the fastening meansportions side wall portion 35. - The fastening means 32 generally has a rectangular shape, and has a length and width enabling it to be mounted with an exact fit in a
profile rail 3 by being inserted into the end of theprofile rail 3, as shown inFigure 13 . When the fastening means 32 has been inserted into theprofile rail 3, the fastening meansportions flange portions profile rail 3. More precisely, the first fastening meansportion 33 of the fastening means 32 will abut against, or at least be in close proximity to, theinternal surface 26 of theflange portion 8 of theprofile rail 3, and the second fastening meansportion 34 of the fastening means 32 will, in a corresponding manner, abut against, or at least be in close proximity to theinternal surface 26 of theflange portion 9 of theprofile rail 3, as shown inFigure 14 . At this stage, a structural element (not shown) can be placed on theflange portion 8 and be connected to theprofile rail 3 in the same manner as described above, i.e. by driving a nail (not shown) through the structural element (not shown), theflange portion 8 of theprofile rail 3 and the fastening meansportion 33 of the fastening means 32, wherein the fastening meansportion 33 forms a fastener for the nail in the same manner as the above-described fastening meansportion 22. Alternatively, the structural element can be constituted by a flange portion of an adjoining profile rail, wherein the fastening means 32 can be used for connecting two profile rails to each other, as e.g. shown inFigures 15-17 and discussed more closely below. - In conjunction with driving the nail through wall panel,
flange portion 8 and the fastening meansportion 33, the supportingportion 37, and also theside wall portion 35 andbottom portion 36, contribute to the fastening meansportion 33 being maintained in its position and not being pushed or folded backwards by the force from the penetrating nail. - The
bottom portion 36 allows the fastening means 32 to be attached, by means of a nailed joint or screw joint, to the support on which theprofile rail 3 rests. - As mentioned above, the fastening system according to the invention can also be used for attaching two profile rails to each other. This may be of interest when a vertical profile rail is to be connected to a horizontal profile rail, e.g. to form the type of
frame system 4 or framework shown inFigure 1 . - In the following, a method for attaching a
vertical profile rail 3, or stud, to ahorizontal profile rail 2, or rail, to each other with the aid of the above-described fastening means 32 will be described more closely with reference toFigures 13-17 . - The method comprises the step of inserting the fastening means 32 into the
profile rail 3 so that the fastening meansportions flange portions profile rail 3, as shown inFigures 13 and 14 . - Thereafter, the
vertical profile rail 3 with the mounted fastening means 32 is placed in thehorizontal profile rail 2 so that theflange portions profile rail 3 are caused to abut againstcorresponding flange portions profile rail 2, as shown inFigures 15 and 16 . - In this connection it may be noted that, while the
vertical profile rail 3 has a C-shaped cross-section in order to increase the ability of theprofile rail 3 to resist transverse forces, e.g. caused by a wind load acting on theframe system 4, thehorizontal profile rail 2 has a U-shaped cross-section in order to enable the insertion of theprofile rail 3 into theprofile rail 2, as shown inFigure 16 . - After placing the
vertical profile rail 3 with mounted fastening means 32 in the desired position in thehorizontal profile rail 2, nails 27 are driven through theflange portion 38 of thehorizontal profile rail 2 and theflange portion 8 of thevertical profile rail 3, as well as through theflange portion 39 of thehorizontal profile rail 2 and theflange portion 9 of thevertical profile rail 3, and are caused to hold to the fastening meansportion Figure 17 , wherein theprofile rail 2 is connected to theprofile rail 3 by means of a nailed joint formed by thenails 27. In the same way as described above, the supportingportion 37, and also theside wall portion 35 and thebottom portion 36, contribute to the fastening meansportions -
Figures 18-20 show alternative embodiments of fastening means 40, 41, 42 suitable for use in a fastening system according to the invention. All fastening means 40, 41, 42 exhibit a first fastening means portion 43, a second fastening meansportion 44 and at least one connectingportion 45 supporting and connecting the fastenings meansportions 43, 44 to each other. Like the previously described fastening means portions, the fastening meansportions 43 and 44 are substantially parallel to each other in order to support flange portions of a profile rail in the same manner as described above. -
Figures 21 and 22 shows an alternative embodiment of aprofile rail 50, where the supporting means is integrated into theprofile rail 50. - In this case, the
profile rail 50 exhibits afirst flange portion 51 and a first fastening meansportion 52, which connects to theflange portion 51 and extends behind and in parallel therewith. Theprofile rail 50 further exhibits aweb portion 53, which connects to the first fastening meansportion 52 and forms a substantially right angle therewith. Theprofile rail 50 furthermore exhibits asecond flange portion 54 and a second fastening meansportion 55, which connects to theflange portion 54 and extends behind and in parallel therewith. The fastening meansportion 55 connects to theweb portion 53 and forms a substantially right angle therewith. - The
profile rail 50 furthermore exhibitsreinforcement portions flange portions web portion 53. - As is evident from
Figure 22 , the first fastening meansportion 52 abuts against thefirst flange portion 51 and, in the same manner, the second fastening meansportion 54 abuts against thesecond flange portion 55. Theprofile rail 50 is formed by a metal plate which is folded double at its long sides to form the flange and fastening means portions. Theweb portion 52 is common for both the flange and fastening means portions. Accordingly, the integrated fastening means is formed by the fastening meansportions web portion 53. - The
profile rail 50 is mounted in thehorizontal profile rail 2 in the same manner as has been described above, but with the difference that the fastening means in this case is integrated into the profile rail and thus does not need to be inserted into theprofile rail 50 before it is mounted in thehorizontal profile rail 2. - The
profile rail 50 is attached to theprofile rail 2 in the same manner as has been described above, i.e. in that nails 27 are applied through theflange portions profile rail 2 and through theflange portions profile rail 50 and are caused to hold to the fastening meansportions profile rail 50, as shown inFigure 22 . - In the foregoing, the invention has been described starting from a number of embodiments. However, the skilled person will appreciate that other embodiment examples, or variations thereof, are possible within the scope of the following claims.
Claims (10)
- A fastening system for attaching a structural element (5, 2) to a profile rail (3, 50) by means of a nailed joint, said fastening system comprising said profile rail (3), which comprises:a first flange portion (8; 51) for interaction with the structural element (5; 2);a second flange portion (9; 55) opposite to the first flange portion (8; 51); anda web portion (10; 53) interconnecting the flange portions (8, 9; 51, 53) and extending between the flange portions (8, 9; 51, 53), wherein the first flange portion (8; 51) exhibits a first, external surface (25) for interaction with the structural element (5), and a second, internal surface (26) facing toward the second flange portion (9), and wherein the second flange portion (9; 55) exhibits a first, external surface (25) and a second, internal surface (26) facing toward the first flange portion (8; 51),wherein the fastening system comprises at least one fastening means (21, 28, 32) comprising a first fastening means portion (22, 33; 52), a second fastening means portion (23, 34; 54) and at least one connecting portion (24, 35, 36, 37; 53) supporting and connecting the fastening means portions (22, 23; 33, 34; 52, 54) to each other, wherein said fastening means (21, 28, 32) is disposed in the profile rail (3, 50) so that the first fastening means portion (22, 33, 52) abuts against, or is at least disposed in close proximity to, the internal surface (26) of the first flange portion (8, 51), and so that second fastening means portion (23, 34; 54) abuts against, or is at least disposed in close proximity to, the internal surface (26) of the second flange portion (9, 55), wherein said first fastening means portion (22, 33; 52) forms a fastener for a nail (27) which passes through the structural element (5, 2), the first flange portion (8; 51) and holds to the first fastening means portion (22, 33; 52) to form the nailed joint, characterized in that the at least one fastening means is formed from a folded or bent steel plate having a thickness of 0.7-1.5 mm.
- The fastening system according to claim 1, characterized in that the fastening system comprises a plurality of fastening means (21, 28), which are adapted to be mounted in the profile rail (3) at predetermined positions along the length of the profile rail (3).
- The fastening system according to any one of the claims 1 and 2, characterized in that the profile rail (3) exhibits a plurality of apertures (17-20) for receiving said at least one fastening means (21, 28).
- The fastening system according to claim 3, characterized in that the apertures (17-20) are disposed in sets (13-16), which are positioned at regular intervals along the length of the profile rail (3).
- The fastening system according to claim 4, characterized in that the profile rail (3), at a free edge of the first flange portion (8), comprises a first reinforcement portion (11) extending back toward the second flange portion (9), and that the profile rail (3), at a free edge of the second flange portion (9), comprises a second reinforcement portion (12) extending back toward the first flange portion (8), and that each set (13-16) of apertures comprises a first aperture (17) disposed in the web portion (10) in close connection or close proximity to the first flange portion (8), a second aperture (18) disposed in the first reinforcement portion (11) in close connection or close proximity to the first flange portion (8), a third aperture (19) disposed in the web portion (10) in close connection or close proximity to the second flange portion (9), and a fourth aperture (20) disposed in the second reinforcement portion (12) in close connection or close proximity to the second flange portion (9).
- The fastening system according to claim 5, characterized in that said first and second fastening means portions (22, 23) are substantially planar and substantially mutually parallel, and that said connecting portion (24) is substantially planar and extends substantially orthogonally between the fastening means portions (22, 23) so that the fastening means (21, 28) exhibits substantially a U-shape, wherein said at least one fastening means (21) is intended to be mounted in the profile rail (3) by being inserted into said apertures (17-20).
- A method for attaching a structural element (5, 2) to a profile rail (3, 50) by means of a nailed joint, comprising:a first flange portion (8, 51) for interaction with the structural element (5, 2);a second flange portion (9, 55) opposite to the first flange portion (8, 51); anda web portion (10, 53) interconnecting the flange portions (8, 9; 51, 53) and extending between the flange portions (8, 9; 51, 53), wherein the first flange portion (8; 51) exhibits a first surface (25) for interaction with the structural element (5, 2), and a second surface (26) facing toward the second flange portion (9, 55), and wherein the second flange portion (9, 55) exhibits a first, external surface (25) and a second, internal surface (26) facing toward the first flange portion (8, 51), said method comprising the steps of:arranging, in the profile rail (3), at least one fastening means (21, 28, 32) formed from a folded or bent steel plate having a thickness of 0.7-1.5 mm, comprising a first fastening means portion (22, 33, 52), a second fastening means portion (23, 34, 54) and at least one connecting portion (24, 35, 36, 37, 53) supporting and connecting the fastening means portions (22, 23; 33, 34; 52, 54) to each other, so that the first fastening means portion (22, 33, 52) is caused to abut against, or is at least brought into close proximity to, the internal surface (26) of the first flange portion (8, 51), and so that the second fastening means portion (23, 34, 54) is caused to abut against, or is at least brought into close proximity to, the internal surface (26) of the second flange portion (9, 55);disposing the structural element (5, 2) next to the first surface (25) of the first flange portion (8, 51) of the profile rail (3, 50); anddriving a nail (27) is through the structural element (5, 2), the first flange portion (8, 51) and the first fastening means portion (22, 33, 52) to form said nailed joint, wherein the first fastening means portion (22, 33, 52) forms a fastener for the nail (27).
- The method according to claim 7, comprising the steps of:disposing fastening means (21, 28) in the profile rail (3) at a plurality of positions along the length of the board profile (3); anddriving a nail through the structural element (5), the first flange portion (8) and the first fastening means portion (22) of each fastening means (21, 28) to form said nailed joint.
- The method according to any one of the claims 7 and 8, wherein said structural element (5) is a building board or wall panel.
- The method according to any one of the claims 7 and 8, wherein said structural element (2) is a flange portion of an adjoining, second profile rail.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP23209455.7A EP4296447A1 (en) | 2014-07-03 | 2015-07-01 | Fastening system and method for such a system |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
SE1430100A SE538664C2 (en) | 2014-07-03 | 2014-07-03 | Fastening system and procedure for such |
PCT/SE2015/050773 WO2016003361A1 (en) | 2014-07-03 | 2015-07-01 | Fastening system and method for such a system |
Related Child Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP23209455.7A Division EP4296447A1 (en) | 2014-07-03 | 2015-07-01 | Fastening system and method for such a system |
Publications (4)
Publication Number | Publication Date |
---|---|
EP3164551A1 EP3164551A1 (en) | 2017-05-10 |
EP3164551A4 EP3164551A4 (en) | 2017-12-06 |
EP3164551B1 true EP3164551B1 (en) | 2023-11-22 |
EP3164551C0 EP3164551C0 (en) | 2023-11-22 |
Family
ID=55019730
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP23209455.7A Pending EP4296447A1 (en) | 2014-07-03 | 2015-07-01 | Fastening system and method for such a system |
EP15814426.1A Active EP3164551B1 (en) | 2014-07-03 | 2015-07-01 | Fastening system and method for such a system |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP23209455.7A Pending EP4296447A1 (en) | 2014-07-03 | 2015-07-01 | Fastening system and method for such a system |
Country Status (4)
Country | Link |
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US (1) | US20170138046A1 (en) |
EP (2) | EP4296447A1 (en) |
SE (1) | SE538664C2 (en) |
WO (1) | WO2016003361A1 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2993715B1 (en) | 2014-08-14 | 2018-11-07 | Samsung SDI Co., Ltd. | Battery having cap plate with integrated pin coupled to electrode lead |
EP3959390A4 (en) * | 2019-04-24 | 2023-01-11 | Saint-Gobain Placo | Stiffener for construction elements |
Citations (1)
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WO2008099374A1 (en) * | 2007-02-16 | 2008-08-21 | Kingspan Holdings (Irl) Limited | A framing system of studs and rails connected together by adapter members |
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US2023814A (en) * | 1933-03-06 | 1935-12-10 | Samuel R Lindsey | Metal building construction |
US2950789A (en) * | 1956-08-13 | 1960-08-30 | Davisbilt Steel Joist Inc | Metal structural units |
US3624694A (en) * | 1969-12-04 | 1971-11-30 | Futuristic Building Products I | Reinforced stud construction |
US5325651A (en) * | 1988-06-24 | 1994-07-05 | Uniframes Holdings Pty. Limited | Wall frame structure |
JPH03129031A (en) * | 1989-05-08 | 1991-06-03 | Uniframes Ltd | Metal floor beam |
US5040345A (en) * | 1990-04-27 | 1991-08-20 | Gilmour Michael F | Stud clip for allowing vertical floating movement of a floor or roof structure |
US5079884A (en) * | 1990-06-04 | 1992-01-14 | National Gypsum Company | Extendible interconnected Z-studs |
US5127760A (en) * | 1990-07-26 | 1992-07-07 | Brady Todd A | Vertically slotted header |
US5412919A (en) * | 1993-12-21 | 1995-05-09 | Mitek Holdings, Inc. | Metal wall framing |
US5590505A (en) * | 1994-10-07 | 1997-01-07 | Bogle; D. Dennis | Construction member and assemblies thereof |
AU688207B2 (en) * | 1995-01-31 | 1998-03-05 | Dietrich Industries, Inc | Structural framing system |
IT242513Y1 (en) * | 1996-02-02 | 2001-06-14 | Gianfranco Zuffetti | TELESCOPIC UPRIGHT FOR REMOVABLE WALLS |
DE19612275C2 (en) * | 1996-03-28 | 1999-04-15 | Hilti Ag | Mounting rail |
US5913788A (en) * | 1997-08-01 | 1999-06-22 | Herren; Thomas R. | Fire blocking and seismic resistant wall structure |
US5950385A (en) * | 1998-03-11 | 1999-09-14 | Herren; Thomas R. | Interior shaft wall construction |
US5930963A (en) * | 1998-06-05 | 1999-08-03 | Hon Technology Inc. | Wall panel system |
US6792733B2 (en) * | 2001-05-16 | 2004-09-21 | Flex-Ability Concepts, L.L.C. | Deflection clip |
US6719512B2 (en) | 2001-06-21 | 2004-04-13 | Black & Decker Inc. | Method and apparatus for fastening steel framing with nails |
US8555566B2 (en) * | 2007-08-06 | 2013-10-15 | California Expanded Metal Products Company | Two-piece track system |
US8281552B2 (en) * | 2008-01-16 | 2012-10-09 | California Expanded Metal Products Company | Exterior wall construction product |
US8061099B2 (en) * | 2009-05-19 | 2011-11-22 | Tsf Systems, Llc | Vertical deflection extension end member |
US9045899B2 (en) * | 2012-01-20 | 2015-06-02 | California Expanded Metal Products Company | Fire-rated joint system |
-
2014
- 2014-07-03 SE SE1430100A patent/SE538664C2/en unknown
-
2015
- 2015-07-01 EP EP23209455.7A patent/EP4296447A1/en active Pending
- 2015-07-01 WO PCT/SE2015/050773 patent/WO2016003361A1/en active Application Filing
- 2015-07-01 US US15/323,524 patent/US20170138046A1/en not_active Abandoned
- 2015-07-01 EP EP15814426.1A patent/EP3164551B1/en active Active
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2008099374A1 (en) * | 2007-02-16 | 2008-08-21 | Kingspan Holdings (Irl) Limited | A framing system of studs and rails connected together by adapter members |
Also Published As
Publication number | Publication date |
---|---|
WO2016003361A1 (en) | 2016-01-07 |
EP3164551A1 (en) | 2017-05-10 |
SE1430100A1 (en) | 2016-01-04 |
SE538664C2 (en) | 2016-10-11 |
EP3164551C0 (en) | 2023-11-22 |
US20170138046A1 (en) | 2017-05-18 |
EP4296447A1 (en) | 2023-12-27 |
EP3164551A4 (en) | 2017-12-06 |
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