Classifications

• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
  • E04F13/00—Coverings or linings, e.g. for walls or ceilings
  • E04F13/07—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor
  • E04F13/08—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor composed of a plurality of similar covering or lining elements
  • E04F13/0801—Separate fastening elements
  • E04F13/0803—Separate fastening elements with load-supporting elongated furring elements between wall and covering elements
• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
  • E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
  • E04B1/62—Insulation or other protection; Elements or use of specified material therefor
  • E04B1/92—Protection against other undesired influences or dangers
  • E04B1/94—Protection against other undesired influences or dangers against fire
  • E04B1/945—Load-supporting structures specially adapted therefor
• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
  • E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
  • E04B1/62—Insulation or other protection; Elements or use of specified material therefor
  • E04B1/92—Protection against other undesired influences or dangers
  • E04B1/94—Protection against other undesired influences or dangers against fire
  • E04B1/941—Building elements specially adapted therefor
  • E04B1/943—Building elements specially adapted therefor elongated
• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
  • E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
  • E04B1/62—Insulation or other protection; Elements or use of specified material therefor
  • E04B1/92—Protection against other undesired influences or dangers
  • E04B1/94—Protection against other undesired influences or dangers against fire
  • E04B1/947—Protection against other undesired influences or dangers against fire by closing openings in walls or the like in the case of fire
• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04C—STRUCTURAL ELEMENTS; BUILDING MATERIALS
  • E04C3/00—Structural elongated elements designed for load-supporting
  • E04C3/02—Joists; Girders, trusses, or trusslike structures, e.g. prefabricated; Lintels; Transoms; Braces
  • E04C3/12—Joists; Girders, trusses, or trusslike structures, e.g. prefabricated; Lintels; Transoms; Braces of wood, e.g. with reinforcements, with tensioning members
  • E04C3/127—Joists; Girders, trusses, or trusslike structures, e.g. prefabricated; Lintels; Transoms; Braces of wood, e.g. with reinforcements, with tensioning members with hollow cross section
• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
  • E04F13/00—Coverings or linings, e.g. for walls or ceilings
  • E04F13/007—Outer coverings for walls with ventilating means
• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
  • E04F13/00—Coverings or linings, e.g. for walls or ceilings
  • E04F13/07—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor
  • E04F13/072—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor composed of specially adapted, structured or shaped covering or lining elements
• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
  • E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
  • E04B1/62—Insulation or other protection; Elements or use of specified material therefor
  • E04B1/70—Drying or keeping dry, e.g. by air vents
  • E04B1/7069—Drying or keeping dry, e.g. by air vents by ventilating
  • E04B1/7076—Air vents for walls
• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
  • E04F2290/00—Specially adapted covering, lining or flooring elements not otherwise provided for
  • E04F2290/04—Specially adapted covering, lining or flooring elements not otherwise provided for for insulation or surface protection, e.g. against noise, impact or fire
  • E04F2290/045—Specially adapted covering, lining or flooring elements not otherwise provided for for insulation or surface protection, e.g. against noise, impact or fire against fire

Definitions

• the Rainscreen is most often used and may be referred to as rear-ventilated curtain façades or ventilated façades.
• the system possesses good protection for the load-bearing wall or building structure cladded therewith as well as providing ventilation and drainage.
• Rainscreen systems are arranged onto a building structure or a load-bearing wall and comprises the façade cladding and a supporting sub-structure which carries the façade cladding onto the building structure.
• the system forms a rear ventilated cavity between the façade cladding and the building structure for ventilation, drainage, and pressure equalizing.
• the ventilated façade cladding system is thus a two-step weather protective building envelope construction. It comprises the façade cladding or rainscreen cladding outermost, in combination with a fixing frame structure for carrying cladding attached to it, a windbreaker and inner temperature insulating layer of the building structure.
• Rainscreens are generally cost effective, lightweight, and easy to install, maintain and replace. Most system cladding panels are secured by rivets or screws for code compliance, while some apply fewer rivets or screws by applying their own weight (gravity support). They can be used on new build and refurbishment projects.
• cladding refers to components that are attached to the primary structure of a building to form a non-structural, external surface, either direct or via a supporting and levelling grid of rails or battens often referred to as the façade cladding sub-structure. This is different from buildings where the external surfaces are formed by structural elements, such as masonry walls, or applied cladding such as render or brick-slips.
• the main function of the cladding is to protect the building body from climate stresses and mechanical damage. It is common to use a frame of load-carrying metal rails or wood battens to carry the cladding onto the building structure.
• the plurality of battens when cross-laid in vertical and horizontal direction one over another, create an air cavity between the cladding and the building structure that allow venting, draining and pressure equalisation (Rainscreen).
• the cladding acts as a rain shield. Water penetrating the cladding is drained down and the cavity dries out due to air circulation within it.
• a semi-open membrane commonly referred to as windbreaker.
• Drained and ventilated Rainscreen cladding systems may allow any penetration of moisture to drain inside cavity, evaporate or vented back to the outside. It must allow air in the cavity to be pressurised to the same pressure as caused by wind-gust hitting the cladding. With no pressure difference across cladding, a Rainscreen minimise water penetration into cavity via joints. It also prevents water from being forced through the windbreaker.
• Rainscreen cladding or façade cladding can be fabricated from metal sheeting such as aluminium, stainless steel, zinc, copper and so on, or can be formed from metal composites materials. Other materials such as terracotta, brick slips, stone, timber and so on are also used. The use of timber and wooden panels gets increasing popularity globally.
• the ventilated façade offers great design freedom and versatility.
• the selection of suitable fastening solutions is therefore diverse.
• Rainscreens must be securely anchored to the load-bearing building structure (building structure).
• the fixing parts ensure all system components, such as insulation, substructure and façade cladding are joined in a lasting and secure way.
• battens which carries the load of the façade cladding onto the building structure and provides the air cavity between the façade cladding and the building body.
• Battens are most commonly a strip of solid material of wood, but can also be of plastic, metal, fiberglass, or other composites.
• the strip of solid material may be attached to the building structure in vertical and horizontal direction on top of each other to provide a grid of load bearing structure having two vertical planes established by respective vertical and horizontal battens.
• the grid structure provides the air cavity for ventilation and drainage, and cross-laid battens provide venting and draining of cavity by two parallel two-dimensional planes.
• the criss-crossing of battens provide support for fastening the façade cladding and provides the air cavity (gap) for drainage and ventilation. Ventilation openings are made at the bottom and top of the wall so air can naturally rise through the cavity. Building structure penetrations including windows and doors require special care to maintain the ventilation. In a pressure-equalized system, the ventilation openings must be sized to allow air pressure equalization across the cladding. The size depends on volume of enclosed cavity, air tightness of cladding and opening dimensions.
• the Rainscreen keep out the rain, and the inner layer (building structure) to provide thermal insulation, prevents excessive air leakage and acts as wind damper.
• the Rainscreen breaths like a skin while the inner layer reduces energy losses.
• the structural frame of the building is kept dry, as water do not reach it or the thermal insulation.
• Publication JPH 0721816 U discloses a fire spread prevention structure comprising a fire spread prevention material for preventing the propagation of flames.
• the structure is a longitudinal structure comprising ventilation openings and the fire spread preventing material to close off the openings in the event of a fire.
• the longitudinal structure is adapted to be mounted in an air cavity between cladding and inner wall structure.
• Cavity barriers resembling JPH 0721816 U make up one of the three most common categories on the market.
• the other and most widespread common cavity barrier category do not have a steel profile and the expanding material in fire is fixed to one side of the cavity, leaving rest of cavity open.
• the most recent category is mesh encapsulated cavity barriers which block instant flame attack and retain expanded material inside the encapsulated volume.
• Publication JP2004162517A discloses an interior uninsulated drywall comprising passage for air to the attic of a building structure to remove moisture, or hot air from inside the building structure.
• a fire spread prevention arrangement is located in the internal wall air transfer openings for preventing flames to spread from one floor to another inside the building.
• the fire prevention arrangement comprises top and bottom plates on studs with air transfer openings covered with a flame-proof net-like body which has the function of ensuring wall ventilation during non-fire, and to prevent fire from passing through the wall ventilation passage when fire spreads.
• the drawback of these systems is that they are added to the sub-structure and must be tailor-fitted to rails and studs.
• the drawback of the system described in publication JP2004162517A is that the fire safety is designed for interior walls of the building structure, i.e. inside of the insulating external wall.
• the system requires modification of the full size top and bottom plates of the drywalls.
• the drywall sheathing itself is not fire resistance rated.
• a fire can still spread in the air cavity in the exterior façade cladding, i.e., chimney effect, in the event of exterior fire spread.
• the timber construction elements of the wall frame structure of require major modifications of the interior walls of the building and needs to be pre-made during setup of the new building to obtain fire protection performance.
• the system modifies the load-bearing plates or studs of room compartmentation.
• Another drawback is that the internal wall structure may reduce the inside living area and are therefore not practical or economical.
• Another object of the present invention is to provide a ventilated building façade system that has ventilation and drainage properties in addition to fire protection and which can be achieved with a cost-effective and simple configuration that increase fire protection performance and the level of fail-safety. In addition, it shall allow module pre-fabrication.
• the present invention is related to a ventilated and fire-resistant sub-structure of a façade system.
• the façade system comprising cladding and the sub-structure of one or more battens attached to the building load-bearing structure to support the cladding onto the building structure and to create a cavity between the load-bearing structure and the cladding.
• the ventilating and fire-resistant batten allows air to pass through the one or more through openings into and/or out of the cavity and adapted to block for air passage and/or fire penetration through the one or more openings when exposed to fire.
• the sub-structure replaces both the traditional criss-cross furring system and cavity fire barriers.
• the one or more through openings may be arranged through a cross-section of the one or more batten.
• the through opening or openings may be perpendicular to the longitudinal direction of the batten or it may be in any angle relative to the longitudinal direction.
• the through opening may also be referred to as an air transfer opening.
• the one single longitudinal element may further comprise recesses, cut-ins, slits, slots, gripping means, holding means, or supports for fixing the ventilating barriers or retain them in position in or adjacent the openings.
• the ventilating fire barrier may be removably connected to the batten and may extend continuously beyond the through opening in the longitudinal direction of the batten.
• the one or more spacer elements may be any one of a: spacer screw, block, wedge, bracket or any combination thereof.
• the one or more spacer elements may be made from any materials such as: wood, metal, plastic, composite, or any combination thereof.
• the one or more spacer elements may be located at a centre between the first and second longitudinal elements, or it may be located at any side, or any combination thereof.
• the space between the first and second elements may be a longitudinal space having a longitudinal opening defined by edges of the first and second longitudinal elements, and wherein the one or more ventilating fire barriers may be arranged in the opening or adjacent the opening such that it may block the longitudinal opening when exposed to heat.
• the one or more longitudinal space has openings at either longitudinal side for air and moisture passage in either direction through said space.
• the first and second longitudinal elements may be of same shape and same thickness, or they may have different shapes and different thickness. They may have a rectangular cross-section with longitudinal sides with small surfaces and wide surfaces, wherein the first and second longitudinal elements may be placed in parallel with the wide faces facing each other and with the spacer elements located in between.
• the longitudinal space is defined by the size of the one or more spacer elements, such that smaller and larger spaces can be used based on requirements for ventilation, drainage, pressure control, or fire safety.
• the one or more spacer elements may be arranged between the first and second longitudinal elements such that it allows the one or more cavity fire barriers to extend past the one or more spacer elements in the longitudinal direction of the one or more longitudinal spaces, to provide a "seamless" and continuous barrier.
• This means that the one or more spacer elements may be shorter than a length (depth) of the one or more through openings, providing space for attaching the one or more cavity barriers, and that the one or more cavity barriers may be one longitudinal barrier extending continuously beyond or past the one or more spacer elements.
• the one or more spacer elements may be arranged along a longitudinal side of the first and second longitudinal elements, or the one or more spacer elements may be arranged along a longitudinal short side.
• the spacer element may comprise a collar or an edge extending into the opening between the first and second longitudinal elements to support the first and second longitudinal elements and to create the space between said elements.
• the one or more cavity fire barriers may comprise a heat reactive device adapted to react by changing physical property when exposed to heat from the fire such that it becomes gas tight.
• the one or more cavity fire barriers may comprise a mesh structure with intumescent.
• Such products are readily available on the market.
• Preferred performances in façades are fire resistance during the open state, expanding graphite and encapsulating mesh of a fixed volume for optimized expanded material compaction and no loss of material by fall out.
• the one or more cavity fire barriers may be a removeable device adapted to be inserted into, or extracted from, the one of more through opening.
• the one or more cavity fire barriers may be flexible such that it can be easily shaped and be squeezed into the one or more through openings.
• the one or more battens may comprise a slot or recess for receiving the one or more cavity fire barriers.
• the one or more cavity barriers may be fastened by nails, screws or brackets and may be removably attached to the one or more battens.
• the one or more cavity fire barriers may be easy to shape and may be cut to fit smaller sections.
• the one or more cavity fire barriers is a passive fire-resistant device, which preferably instantly can prevent fire from spreading via the air passage (through openings) to other areas or spaces.
• a preferred embodiment of the cavity fire barrier is to prevent fire spreading by heat convection, by heat conduction and by heat radiation during the entire fire resistance period.
• the ventilating and firesafe batten according to the present invention provide loadbearing and/or support of façade cladding, ventilation, drainage, and fire resistance in one unit.
• Prior art battens are solid, and they need to be cross-laid one over another to create the cavity and make the rising air stream bouncing in slalom-mode as the cavity spans in two vertical planes. This leads to the ventilating fire barriers being installed separately, adding manhours and becoming sensitive to poor workmanship.
• the ventilating and fire-resistant batten may be assembled having symmetric cross-section.
• the symmetric cross-section may be provided by a spacer element placed at centre and with a fire barrier arranged at either side, or the fire barrier may be arranged at the centre and the spacer elements at either side.
• the symmetric batten is easy to mount either way, up or down, in or out, and by such avoid mis-mounting.
• the one or more battens may be attached to the building structure in any vertical and/or horizontal direction. By the one or more battens all having same width they are in one vertical plane in parallel to the building structure plane and always spanning tight across cavity.
• the cavity fire compartmentation is established by the sub-structure which sub-divides the cavity to align with the room fire compartmentation of the building interior.
• battens of solid materials may be applied to support cladding where window framing is not sufficient, although not part of the compartmentation. Compartmentation is made up of the fire resistance rated cladding and sub-structure battens only.
• the one or more battens according to the present invention are easy to fabricate and to setup and its simple construction avoids mis-mounting. In addition, its easy construction allows it to be easy cut in smaller sections to fit mounting, and for easy replacement in case of repair or damage.
• the ventilating batten according to the present invention is practically maintenance-free.
• the ventilating and fire-resistant batten has ventilating and fire-resisting properties in one single unit.
• the one or more battens may have same width such that a depth of the cavity is defined by the width from the one longitudinal side to the opposite longitudinal side of the one or more battens.
• the one or more battens one lies in one vertical plane in parallel to the building structure plane.
• the one or more battens may further comprise at least any one of a:
• the ventilating batten may have same dimensions and configuration as the ventilating and fire-resistant batten without the one or more cavity fire barriers.
• the ventilating batten may constitute one single longitudinal element with trough holes for ventilation, or it may comprise first and second longitudinal elements with a spacer element.
• the present invention may also be directed to a ventilating batten comprising a through opening for drainage and ventilation and wherein the ventilating batten may be transformed to a ventilated and fire resisting batten by adding a cavity fire barrier at or adjacent the through opening, and vice versa.
• the transformation may be performed on site when the battens are already fixed to the wall structure.
• the ventilating batten may constitute one longitudinal element with trough openings, or it may comprise two elements with spacer elements, according to the embodiments described above.
• the solid batten may have the same dimensions as the ventilating and fire-resistant batten but are without the through openings and without the one or more ventilating fire barriers.
• the solid batten may be one single longitudinal element.
• the battens may be made from any materials such as: wood, metal, composite, rock wool, concrete, or combination thereof, as long as they provide the required time of fire resistance.
• Typical Rainscreen cavity barriers are 30 min rated despite cladding being capable of less, typically 2-10 min.
• the present invention lends itself as a homogenous fire rated exterior building envelope, rated at 30 min or 60 min or more and having cavity fire compartmentation as well as ventilating compartmentation either covering the same cavity volumes or having independent layouts.
• a defined area in the cavity may be enclosed by a combination of solid battens, ventilating battens and/or ventilating and fire-resistant battens (the one or more battens) to form a cavity fire compartment within the cavity having corresponding fire resistance time in case of fire.
• a cavity fire compartment may be created in the cavity by a plurality of the one or more battens arranged at a perimeter of the cavity fire compartment.
• the cavity fire compartment is a space or group of spaces within the cavity between the façade cladding and the building structure with fire resistant properties.
• the cavity fire compartment defined by the one or more battens may comprise; sides, top and bottom, and wherein the ventilating and fire-resistant battens are arranged at any sides, top and/or bottom consistent with room fire compartmentation layout or layout specified by project specific fire strategy.
• the cavity may be sub-divided into one or more cavity fire compartments and wherein the cavity comprises a continuous number of said cavity fire compartments. Meaning that several cavity fire compartments may be arranged adjacent to each other in the cavity. The several cavity fire compartments being arranged with ventilation and/or fire resistance between each other, or they may not, depending on the project specific fire strategy.
• the façade cladding may be made from any materials suitable for use as a building façade.
• the materials may be, but not limited to any one of a: wood panel, PV panel, sandwich panel, fibre cement plates, calcium silicate panel, stone, slate, brick, ceramic element and brick tie, or any combination thereof. They can all be easily attached to the ventilating and fire resistance rated batten (alone or in combination with other battens) which in turn are fastened to timber construction or to other type of load-bearing construction of the building structure.
• the cladding can be rated equal to the one by cavity battens, i.e., the cavity compartment resistance to exterior fires.
• the façade cladding may comprise a plurality of boards interconnected, and wherein each board comprises one or more fire expanding materials in connection joints between the plurality of boards, such that the board obtains a same fire protecting property as the cavity fire compartment.
• Cavity fire compartmentation is similar to building fire compartmentation, except the cavity compartments become “flat volumes” rather than “cubic” as interior room compartments. To fully exploit the present invention, the cavity compartments align with the profile of interior compartments.
• the cladding system thus represents the fourth wall of room compartments, so the non-fire resistance rated windbreaker, sheathing, insulation, and room cladding, actually become content of the combined room + cavity compartment.
• the present invention thus allows the listed content to be combustible and prevent fire spread inside out, outside in and between compartments above, under or to the sides. This is not possible by code compliant façade systems, as there is no equal fire resistance rating of the full enclosure of cavity compartment.
• the cavity fire compartment is considered including those areas. This means that in case of fire, the fire compartment may burn out during the time for which it is rated, without spreading the fire to façade or to neighbouring compartments (side, above or below). This means also that surface requirements for rear cladding, battens, and windbreakers, all have the same requirements for ignition- and fire spread properties as for interior of room fire compartment (less stringent than facade surface requirements).
• a horizontal batten has burn-through time of 60 min. and cladding 30 min; then an interior fire may burn out through the cladding in 30 min, and in again into another compartment through the cladding in another 30 min, the total burn time is 60 min, which is also the fire compartment burn-through time rating. Burn-through time for an exterior fire spreading to the interior through the cladding is 30 min.
• the present invention describes a self-supporting and easy fixed fire resistance rated Rainscreen, without use of fire-retardant additives, that prevents fire from spreading rapidly from exterior to interior, or inside to outside, or between fire compartments.
• the system comprises a suspension system of structural battens without fire-retardant additives.
• the suspension system may constitute a one-plane system without the traditional cross-laying of the battens.
• the system may comprise a plurality of battens having same outer dimension but may have different properties such as solid (airtight) or ventilated with or without fire resistance rating.
• the fire protection designer or contractor may consider where to establish cavity fire compartments and how each compartment can be effectively isolated in the event of fire.
• the rear ventilated building system of the present invention prevents two-sided fire exposure to cladding, by preventing the fire to propagate into the air cavity.
• the fire on wood cladding surface self-extinguishes when fire source burns out or extinguish and prevents hidden fire, so firefighting can take place on the outside of the building structure where the fire is active.
• a rear ventilated building system of the present invention allows cavity fire compartments in the cavity to become part of a room fire compartment it corresponds to within the building. Hence, fire requirements for materials in climate walls and air cavity/cavity fire compartments will then be waived. Hidden fire spread in multi-level air cavities (greatest challenge in case of fire in facades today) may be prevented and fire stop around windows may not be needed.
• the system according to the present invention protects people in building from exterior fire by fire rated compartmentation, regardless of fire resistance in the climate wall. This protects persons in buildings from smoke as well, be it from exterior fire or interior fire breaking out.
• the present invention may be related to a method of constructing a cavity fire compartment in a cavity located between a building structure and its façade cladding.
• the method comprises the steps of:
• the step of attaching the façade cladding onto the one or more battens may also be performed before the step of mounting the one or more cavity fire barriers.
• the flexibility of the system allows for easy change of layout or construction of fire cavity compartments, in that the compartments can be opened or closed by the one or more cavity fire barriers.
• the present invention may also be related to a method of manufacturing a prefabricated ventilating and fire resistance rated batten, wherein the method comprises the step of:
• the method further comprises the step of attaching the one or more cavity fire barriers after the step of attaching the second longitudinal element to the one or more spacer elements, step iii) after step iv).
• the present invention may also be related to a method of constructing a Rainscreen comprising a ventilated and fire resistance rated air cavity arranged between an inner and outer structure of a building.
• the method comprises the step of:
• Fig. 1 shows a ventilated façade cladding system 1 according to the present invention.
• the system comprises a building structure 2, a façade cladding 3, and a plurality of battens 4 attached to the building structure 2.
• the plurality of battens may be a combination of solid batten 9 (with no ventilating openings), ventilating battens 8 and ventilating and fire-resistant battens 7.
• the plurality of battens are attached to the building structure 2 and adapted to carry the façade cladding 3 onto the building structure 2. This means that the façade cladding 3 is attached to the plurality of battens 4 and that its weight is entirely carried or supported by the plurality of battens 4.
• the plurality of battens 4 are attached at one longitudinal side (inner surface) to a surface of the building structure 2, and opposite longitudinal side (outer surface) to the façade cladding 3.
• the vertical batten 4 is a solid batten 9 arranged such that it prevents air to move between vertical sections of the cavity 5.
• the horizontal battens 4 may be ventilating battens 8 and/or ventilating and fire-resistant battens 7, consistent with room fire compartmentation layout or layout specified by project specific fire strategy.
• FIG 2 shows the system from above and including a window opening in the ventilated façade cladding system 1.
• the vertical battens 4 are solid battens 9 which is also framing the window opening.
• Horizontal battens 4 may be ventilating battens 8 and/or ventilating and fire-resistant battens 7. According to room fire compartmentation layout, the horizontal battens 4 around window opening may be a ventilating and fire-resistant batten 7, to "close off" the window opening in the event of a fire. If a window is within the perimeter of a cavity fire compartment the framing may not require fire-resistant battens 7 nor any ventilating battens 8.
• Fig. 3 shows the system 1 from below.
• the façade cladding 3 comprises a plurality of boards 21 interconnected, and wherein each board 21 comprises one or more fire expanding materials at joints 22 between the plurality of boards 21, such that the boards 21 obtain the same fire resistance rating as the cavity fire compartment 20.
• the end joints of each board 21 may comprise a longitudinal slot 22 containing the fire expanding material. In the event of fire, the fire expanding material will react to the heat and cause the material to expand and thereby fire sealing the longitudinal gaps between the boards 21. This allows the façade cladding 3 to have the same fire-resistance rating as the cavity fire compartment 20.
• Figs. 4a )-c) shows different ventilating battens 8 each made from one single longitudinal element.
• the one single longitudinal element comprises one or more through openings (holes) 11 to provide ventilation through the batten 8.
• the through openings 11 may be in any angle through a cross-section of the longitudinal batten 8.
• the figures show through openings 11 provided perpendicular to the longitudinal direction of the longitudinal batten 8.
• the one single longitudinal element may be any one of a: wood element, plastic element, metal element or composite element, and the through opening 11 may be created by casting or moulding, or drilling, carving, cutting through the body of the one longitudinal element.
• the one or more through openings 11 may be circular, oval, rectangular, square shaped or any combination thereof.
• the through openings 11 may constitute a plurality of holes as shown in fig. 4a ), or they may be one or more through holes/openings 11 having circular edges or angled corners shown in respective figs. 4b) and 4c ).
• the ventilating batten 8 in figs. 4a )-c) may be transformed into a ventilating and fire-resistant batten 7 by adding the cavity fire barriers 12 into and/or adjacent the through openings 11 (not shown).
• Fig. 5 shows, as an embodiment, a connection point between a vertical batten 4 and a horizontal batten 4, wherein the horizontal batten 4 is a ventilating and fire-resistant batten 7 and the vertical batten 4 is a ventilating batten 8 or ventilating and fire-resistant batten 7 (the cavity fire barrier not shown).
• the batten 4 comprises a first longitudinal element 13, a second longitudinal element 14 and a spacer element 15 arranged between them so that through openings 11 are provided between the first and second elements 13,14.
• the openings 11 may also be referred to as spaces or gaps.
• the one or more through openings 11 are one or more through-holes, gaps, spaces, or volumes provided between the first and second longitudinal element 13,14.
• the size or length of the spacer elements 15 defines the size of the gap, space and volume of the through openings 11.
• the one or more spacer elements 15 may be any one of a: spacer screw, block, wedge, bracket or any combination thereof.
• the one or more spacer elements 15 may be made from any materials such as: wood, metal, plastic, compressed stone wool, composite, or any combination thereof.
• Figure 5 shows that the spacer elements 15 may be wooden blocks having a height which is less than the height of the through opening 11 to provide enough space in the gap for the cavity fire barrier 12.
• a ventilating batten 8 as described above may be transformed into a ventilating and fire-resistant batten 7 by adding the cavity fire barrier 12.
• the cavity fire barrier 12 is arranged between the first and second longitudinal elements 13,14 such that it allows air to pass through the one or more opening or spaces 11 and block for air passage or fire penetration through the one or more openings or spaces 11 when exposed to heat, such as in the event of fire.
• the one or both two battens 4 may be a solid batten 9, or at least one is solid batten 9 and one is a ventilating and fire-resistant batten 7, or both is a ventilating and fire-resistant batten 7.
• the cavity fire barriers 12 of the vertical battens 4 meets the cavity barrier 12 of the horizontal batten 4 to provide a complete seal at the joints.
• the vertical batten 4 may be joined to the horizontal batten and interconnected at any location along the horizontal batten 4.
• FIG 6 shows a prefabricated ventilating and fire-resistant batten 7 according to the present invention.
• the prefabricated batten 4 may be provided as a ventilating batten 8, or complete as a ventilating and fire-resistant batten 7.
• the battens 7, 8 are easy to fabricate and to set up and its simple construction avoids faulty installation. In addition, the construction allows it to be easily cut into smaller sections to fit mounting, and for easy replacement in case of repair or damage.
• the batten 7, 8 according to the present invention is practically maintenance-free.
• the ventilating and/or the ventilating and fire-resistant batten 8, 7 may also be assembled on site. They can be delivered in one piece (one single longitudinal element) provided with openings 11 (as shown in figs. 4a )-c)), or they may be delivered on site as components as shown in figure 6 .
• the method of assembling and installing the ventilating batten 8 at sight may comprise the steps of:
• the method includes these steps: iv) inserting and fix one or more cavity fire barriers 12 into the one or more longitudinal spaces or openings 11.
• Figs. 7 a)-c) show different cross-sections of ventilating and fire-resistant battens 7 or a view in any direction from a cross-section of the longitudinal ventilating and fire-resistant batten 7.
• the cavity fire barrier 12 may also be referred to as a ventilating and fire blocking fire barrier
• the cavity fire barrier 12 may have different shapes and located at different positions in the gap, space, opening 11. It may have oval shape or circular or a material strip that can be shaped and fitted into the gap, space, opening 11 to provide a tight seal in any position inside and/or adjacent the gap 11.
• Fig. 7 c) shows two cavity fire barriers 12 arranged on either side of the spacer element 15 to provide a symmetric batten 7 that can be used in any of the two directions to prevent faulty installation.
• the cavity fire barrier 12 allows water to be drained through the barrier 12 and allows air to pass through the barrier 12 and operate as a reactive vent in case of a fire.
• Figs. 8 a)-c) shows a ventilating and fire-resistant batten 7 according to an embodiment of the present invention during situations of ventilating a), draining b) and fire blocking c).
• Fig. 8 a shows the ventilating and fire-resistant batten 7 in the assembled state comprising first and second longitudinal elements 13,14 and the spacer elements 15 in form of a sleeve of a spacer screw 18.
• the spacer screw 18 comprises a screw head for fastening the sleeve between the first and second longitudinal elements 13,14, and such that the space, gap, opening 11 is provided between said longitudinal elements 13,14.
• the spacer screw 18 may comprise two screw heads, with male and female threads, located on opposite sides of the batten for tightening the sleeve between first and second longitudinal elements 13,14.
• the ventilating and fire-resistant batten 7 may be a prefabricated unit such that it is ready to use, or it can be assembled at site using the spacer screws 18.
• the cavity fire barrier 12 is located in the gap, space, opening 11, and may be removably mounted into the said gap, space, opening 11.
• Fig. 8 b show that under normal (everyday use), the batten 4,7 provides necessary drainage for water down in the vertical direction.
• the upper surface of the batten 4 may have a bevel cut, thus providing an inclination towards the through opening 11 for leading water through the opening 11in vertical direction.
• the batten may comprise the same inclination (may be parallel to the one above) providing a centred drip edge so droplets fall onto next barrier and do not wet cavity surfaces.
• the cavity fire barrier 12 also provides necessary ventilation in that it allows air to circulate through the opening 11 in any direction.
• the one or more cavity fire barriers 12 may comprise a heat reactive device adapted to react by changing physical or chemical properties when exposed to heat from the fire such that it becomes fire sealed.
• Fig. 8 c) shows that in the event of fire, the heat reactive device reacts similar to a reactive slit valve.
• the arrangement controls the flow of air in the cavity by allowing air to naturally flow during its open state, which is in everyday use, but in the event of a fire and when exposed to heat, the "valve" reacts by blocking the fire and closing the air flow.
• the defined cavity fire compartment 20 will be sealed from the fire to avoid and resist the fire from propagating into the compartment 20 and to resist fire spread to adjacent compartments.
• the one or more cavity fire barriers 12 may comprise a mesh structure with intumescent. Such products are readily available on the market. Preferred performance in façades are fire resistance during the open state, expanding graphite and encapsulating mesh of a fixed volume for optimized expanded material compaction and no loss of material by fall out.
• FIG. 9 shows a cross sectional view from a side of the ventilated façade cladding system 1 (or Rainscreen) according to an embodiment of the present invention.
• the system comprises a building structure 2 (or a load-bearing wall 2) and a draining and ventilating and fire-resistant batten 7 attached to the building structure 2 for carrying a façade cladding 3 at a distance defined by the batten 7 from the building structure, and such that a cavity 5 is provided between the building structure 2 and the façade cladding 3.
• the entire weight of the façade cladding 3 is supported by the plurality of battens 4 (not shown), which according to the present invention may be any one of a: solid batten 9, draining and ventilating batten 8 or draining and ventilating and fire-resistant batten 7.
• the figure 9 shows a lower section of the Rainscreen where the lowermost batten 4 is a ventilating and fire-resistant batten 7 arranged for providing the necessary ventilation, draining, and fire-retardant properties.
• the batten 7 is one of a plurality of battens 4 that together defines the perimeter of a cavity fire compartment 20 within the cavity 5.
• Figs. 9 shows the system in the case of an exterior fire located on the ground where the cavity fire barrier 12 is activated due to the heat from the fire and such that the ventilation though the opening 5 is closed-off, to provide fire blocking and prevent the fire to propagate into the cavity fire compartment 20.
• Figure 10 shows another fire ventilated façade cladding system 1 according to the present invention from a side view of a building comprising two floors.
• a defined area in the cavity 5 may be enclosed by a combination of solid battens (not shown), draining and ventilating battens 8 and/or draining and ventilating and fire-resistant battens 9 to form a cavity fire compartment 20 within the cavity 5 having corresponding fire resistance time in case of fire.
• the cavity fire compartment 20 is created by the ventilating and fire-resistant batten 7 arranged at the top and bottom of the cavity fire compartment 20. Located between the top and bottom ventilating and fire-resistant battens 7, are two ventilating battens 8. According to the present invention, different extent of the cavity fire compartment 20 can be created by transforming the ventilating batten 8 into a ventilating and fire-resistant batten 7, or vice versa.
• the cavity 5 may thus be sub-divided into one or more cavity fire compartments 20 and wherein the cavity 5 may comprise a continuous number of cavity fire compartments 20.
• Each cavity fire compartment 20 may be constructed based on room fire compartmentation layout or layout specified by project specific fire strategy.
• FIG 11 shows a front view of a building structure 2 comprising a plurality of battens 4, but without the façade cladding 3 attached.
• the battens 4 may be any combination of solid batten 9, drained and ventilating batten 8 and/or drained and ventilating and fire-resistant batten 7.
• a cavity fire compartment 20 may be provided by arranging a combination of solid battens 9 (no ventilation) and ventilating and fire-resistant battens 7, at the perimeter of the cavity fire compartment 20.
• FIG 11 shows an embodiment where the vertical battens 4 are solid battens 7 for closing off different section of the cavity 5.
• the term "close-off" means that there will be no air allowed to cross the batten 7.
• a plurality of ventilating battens 8 are arranged horizontally for providing ventilation and drainage in the cavity 5.
• the ventilating and fire-resistant batten 7 are arranged at the top and bottom of the area to provide a cavity fire compartment 20 within the cavity 5.
• the cavity fire compartment 20 comprises solid battens 9 at the sides and ventilating and fire-resistant batten 7 at top and bottom.
• the ventilating and fire-resistant batten 7 may also be arranged around window openings together with the solid batten 8 to close off the cavity fire compartment 20 around the window if required by code or building fire strategy.
• the system allows great design freedom and versatility in that different areas can be opened to be included in the cavity fire compartment 20, or the cavity fire compartment 20 may be reduced by moving or limiting the perimeter of the cavity fire compartment 20. This can be easily done by adding or removing a cavity fire barrier to/from a ventilating batten 8.
• FIG. 13 shows a ventilating and fire-resistant batten 4,7 according to one embodiment of the present invention.
• the ventilating and fire-resistant batten 4,7 comprises one or more through openings 11 (space 11, gap 11) provided between the first longitudinal element 13 and the second longitudinal element 14.
• the through openings 11 or space 11 is provided by a spacer element 15 arranged between or into the through opening 11.
• the spacer element 15 is a bracket arranged at the longitude short side of the first and second longitudinal elements 13,14 and comprises an edge protruding into the opening or space 11. The two edges of the bracket keep the first and second longitudinal elements 13,14 in a desired distance from each other, thus defining the through opening 11, space 11 or gap 11.
• the ventilating and fire-resistant batten 4,7 comprises one or more cavity fire barriers 12 arranged in or adjacent to the one or more through openings 11, wherein the ventilating and fire-resistant batten allows air to pass through the one or more through openings 11 or gap 11 and adapted to block for air passage and/or for fire penetration through the one or more openings 11 when exposed to fire.
• the one or more cavity fire barriers 12 may comprise a heat reactive material adapted to react by changing physical or chemical properties when exposed to heat from the fire such that it becomes fire sealed. Flame blocking during the open state of vent may feature baffles, labyrinths or mesh designed to quenching gap 11.
• the cavity fire barriers 12 of the present invention can be easily mounted (sliding into) or extracted from the through opening, space or gap 11. This allows easy construction and replacement of the cavity fire barriers 12.

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