This application claims the benefit and take priority of European Patent No. 22182050.9, filed on Jun. 29, 2022, the contents of which are herein incorporated by reference in its entirety as part of the present application.
The present invention relates to a smoke seal to prevent smoke from passing around the edges of a curtain, in particular a fire curtain, a smoke curtain or a fire and smoke curtain.
Smoke curtains are used primarily to channel smoke to a suitable vent, for example in a wall or roof. Such curtains may, once deployed, extend all the way from ceiling to floor, or just part of the way to the floor.
Fire or fire and smoke curtain are used to block the passage of fire and smoke from one area into another, stopping or slowing the spread of the fire, and additionally may be used to channel smoke to a suitable exit or vent. Such curtains can be used to block an entrance, for example into a room or space.
A curtain on a roller may be provided, with edges of the curtain being contained within side guides. Equally, the curtain may be provided in concertina form, again with edges of the curtain being contained within side guides. While the curtain prevents or significantly reduces the flow of smoke through the opening, a known issue is that it is usually possible for at least some smoke to flow through the side guides and thus still enter the room or space. Equally it is known that smoke can pass over or around the curtain roll or concertina support, which are generally provided in a head box. This applies to smoke curtains, fire curtains and fire and smoke curtains.
Various attempts have been made to create seals for preventing smoke from passing through a side guide. Side guides are often generally C-shaped channels, albeit with straight rather than curved sides, and with in-turned lips. Edge formations on the smoke and/or fire curtains prevent removal of the curtain from the narrowed entrance to the side guide.
In some attempts to provide a smoke seal nylon brush formations have been attached on the inside of the side guide to form a partial seal, preventing or further significantly reducing the passage of smoke through the side guide. In other cases, formations have been added to the edge formations of the smoke curtain to contact the side guides, again with the aim of forming a seal, seen for example in WO 2021/245421.
However, none of these attempts have fully solved the problem of smoke passage through the side guides. While nylon brush formations are effective at low temperatures, such brushes melt at approximately 200° C. and thus are no longer effective above these temperatures. As the temperature of a fire in a building will typically exceed this temperature, such seals do not offer much protection against smoke passage. Similarly, formations, such as flaps, positioned on the edge formations of the curtains can melt at elevated temperatures, and additionally, the movement of the curtain within the side guides e.g., under smoke/fire pressure can disengage the flaps from the side guides, allowing smoke to pass.
While ensuring smoke does not pass through a side guide or headbox is particularly important for smoke curtains, it is also very relevant to fire curtains, and of course to fire and smoke curtains. Thus, there is a need for a smoke seal that prevents, or essentially prevents, smoke passage through the side guide and/or headbox.
An object of the invention is to prevent passage of smoke through a side guide and/or headbox of a smoke and/or fire curtain.
According to the invention there is provided a smoke seal for a smoke, smoke and fire, or fire curtain comprising:
In use, when a fire, fire and smoke or smoke curtain passes between the sides, the strip of fire-proof material lies thereagainst, preventing the passage of smoke around the curtain.
Due to the flexibility of the strip, contact will be maintained with the curtain even when there is some movement of the curtain, for example as a result of fire pressure. Equally, as the strip is made from a fire-proof material the strip will not fail at temperatures at which the fire, fire and smoke or smoke curtain does not fail.
The strip is generally resilient yet flexible and angled so that it engages the deployed curtain and is urged into contact with the curtain material, forming a seal. At the point of contact with the curtain the strip bends into line with the curtain and makes contact with the curtain over at least a portion of the strip, usually an edge portion, forming the seal.
The length of the strip is essentially that of the channel, although the strip may not extend the full length of the channel if, for example, the channel extends into a floor. The width of the strip is sufficient to contact a curtain between the sides of the channel and maintain contact therewith and thus may be approximately 70-150% of the distance between the sides, preferably 80-140%, and most preferably 80-120% of the distance between the sides.
The channel may be used as a side guide for extending down the sides of the curtain when deployed. When used as a side guide, the channel will typically include a back connecting the sides at an opposite end from the opening.
Alternatively, the channel may be used to form a seal in the head box and thus extend along the width of the curtain. Here no back will be provided to enable the curtain the extend therethrough on deployment.
The strip may be in the form of a single strip, a double strip, i.e., two strips, or may be doubled back on itself to produce a loop. Where the strip is in the form of a loop, both ends may be secured to the side. Usually, the width of the strip used to form a loop will be at least substantially twice the width of a single strip, so that when it is doubled back the width of the loop is the same as that of a single strip. It has been found that as fireproof material is a thick and strong material, often incorporating woven metal, it is resistant to folding and particularly forming a folded, shape edge. Consequently, such material retains a loop formation even when pressed upon. When used in this arrangement, the width of the strip will generally be between approximately 140-400% of the distance between the sides, preferably 150-300%, and most preferably 180-200% of the distance between the sides.
While a single strip extending from one side will be sufficient to prevent, or at least significantly reduce smoke passage around a curtain, usually strips are provided extending from each side.
The smoke seal may be part of an assembly comprising:
Edges of the curtain are suitably provided with means for retaining the curtain in the side guides. Typically, the retaining means may be studs. Usefully, these may include projections sized so as not to pass through an opening formed between the guide lips.
In use, the curtain is retained within the pair of side guides, and the strips are pressed into contact with the curtain, preventing the passage of smoke through the side guides. While one strip may be provided from one side of the side guide, usually each side guide will be provided with a pair of strips, one extending from each side thereof, and angled towards each other and towards the opening. For each side guide, it is thus preferred there is a pair of strips, angled together and overlapping with each other along the line of the curtain when deployed. The strip is pressed onto the curtain on each side, forming a seal along each side of the curtain and providing back-up sealing compared with using just single strip on one side only. Where the strip is provided as a loop, the loop may provide a stronger force against the curtain,
Strip material is suitably flexible, resilient and fire-proof and can be made of conventional materials meeting this specification.
Advantageously, the or each strip may be made of the same material as the curtain, namely a fire proof material having resilience.
The strips may be provided as a single strip, two strips or may be turned back to itself to form a loop.
Usually, the side guide will have a straight back, a pair of opposing sides, a pair of front members angled into the side guide and towards each other, leaving a small gap (or opening) therebetween for passage of the curtain, and extension portions turned into towards the opposing sides.
The strips may be provided with additional stiffening, to allow them to flex but return to their original shape to ensure contact with the curtain when deployed.
Typically, the strip will be sealingly attached to the side guide, e.g., by rivets, but may be attached by screws, or other fitting means that will be slow to melt of fail in the heat of a fire.
Conveniently, carriers may be provided within the guide to hold an end or ends of the or each strip. The carrier may additionally support extension portions or lips of the sides.
Generally, the side guide will be made from steel, but may alternatively be made from aluminium. Typically, the or each carrier may be made from aluminium.
Side guides are usually provided having sides having a depth greater that their width. This allows for more than a minimum width of curtain to be contained within the side guide and to allow for any misalignment resulting from imperfect rolling to be accommodated without damaging the curtain.
The provision of one or more strips facing away from the lips provides additional contact between the strip(s) and the curtain, providing an improved seal. This is the case whether the curtain is central between a pair of side guides, or not.
Preferably, the strip(s) are attached to the sides adjacent the lips, providing the longest possible contact between the strip(s) and the curtain.
Preferably, the assembly usually further comprises a headbox holding the roller from which the curtain can be unrolled for deployment and re-rolled for storage and having an opening through which the curtain passes.
In some embodiments, a headbox may be provided incorporating the smoke seal of the invention, and the side guides may include no smoke seal or a smoke seal of a different type.
The head box may advantageously contain a further smoke seal, within the head box and above the opening, to prevent smoke from passing through the head box. The smoke seal may comprise:
As the curtain will pass though the channel, no back will be provided.
While one strip may be provided from one side of the channel, usually each side will be provided with a strip, one extending from each side thereof, and angled towards each other and towards the opening. It is thus preferred to provide a pair of strips, angled together and overlapping with each other along the line of the curtain when deployed. The strip is pressed onto the curtain on each side, forming a seal along each side of the curtain and providing back-up sealing compared with using just single strip on one side only.
Strip material is suitably flexible, resilient and fire-proof and can be made of conventional materials meeting this specification.
Advantageously, the or each strip may be made of the same material as the curtain, namely a fire proof material having resilience and some flexibility.
The strip may be a single strip, two strips or a single piece folded around and back on itself to form a loop.
The strips may be provided with additional stiffening, to allow them to flex but return to their original shape to ensure contact with the curtain when deployed. However, this is usually found to be unnecessary.
Typically, the strip will be sealingly attached to the side guide, e.g., by rivets, but may be attached by screws, or other fitting means.
Conveniently, carriers may be provided within the seal hold an end of the or each strip. The carrier may additionally support extension portions of the side guides. Typically, such carried may be made of extruded aluminium securable to the or each side of the seal, having an indentation into which the strip can be secured. For example, the strip may be secured with grub screws. While the strip may be continuously secured into the channel, there may be a distance between securing point. Generally, with the distance between securing points may be 200-400 mm, preferably 250-350 mm.
Advantageously, the side guides can be connected to the smoke seal in the headbox creating a seal on three edges of the curtain. Thus, the sides of the side guides can be connected to the sides of the headbox smoke seal. The seal can be one long section, bent between the side guides and headbox smoke seal, having a back when a side guide and not back when a headbox smoke seal. Alternatively, the sides of the side guides may be welded to the side of the headbox smoke seal. The fourth edge, when deployed being the ground, with the weight of the curtain, and/or a bottom bar forming a seal.
While usually an arrangement for a smoke curtain, a smoke and fire curtain or a fire curtain, will include a smoke seal in the sides guides and in the head box, some arrangement may include a smoke seal in the side guides but not in the headbox, and in other a smoke seal may be provided in the headbox but not in the side guides.
Equally, the arrangement of the strip will not necessarily be the same in both the side guides and headbox (even when provided in both). For example, the strip may be used as a single layer in the side guides, while may be provided in the form of a loop in the headbox, and equally may be provided as a loop in the side guides and a single layer in the headbox.
To help understanding of the invention, a specific embodiment thereof will now be described by way of example and with reference to the accompanying drawings, in which:—
Extending down from the head box 2 are a pair of side guides 8 which each provide a vertical channel to guide edges 10 of the curtain 6 down from the roller 4 when deployed to or towards the floor. The side guides 8 extend the length of the deployment of the curtain 6, as shown to the floor 12.
The bottom 14 of the curtain 6 is provided with a bottom bar 16 for weighting the curtain 6 easing deployment and resisting movement of the curtain when deployed. The bottom bar 16 also provides a closure to the headbox 2.
The curtain 6 is provided with formations 18 along its edges 20 for retention in the side guides 8. The formations may be studs, but other elements can be used.
Details of the side guides are shown more clearly in
Turning initially to
To prevent smoke from passing around the edges of the curtain through the side guides 8, a sealing strip 38 of resilient, fire-proof material is attached to each side 26 of the side guides 8, the strips being angled towards each other, and on meeting are directed away from the opening 36 towards the back 24. The strips meet at a central point, and thus along a central line where the curtain is anticipated to hang down when deployed. The strips press against each other when there is no curtain and onto respective sides of the curtain when the curtain is deployed. The length of the strip is essentially that of the side guide, and the width of the strip as show is approximately the distance between the sides 26 of the side guides 8. However, the width of the strip may be between approximately 70 and 150% of the distance between the sides.
As can be seen, the side guide has a great depth than width, i.e., the sides 26 are longer than the back 24. This provides enables more than the minimum width of curtain 6 to be held therein. This allows for any misalignment of the curtain, for example due to imperfect rolling, to be accommodated, without damage to the curtain. In addition, it allows for greater possible contact between the strip(s) and the curtain, thus provided a better quality of sealing.
This arrangement ensures that the strips 38 remain in contact with the curtain 6 when deployed, even when there is sideways movement in the curtain, for example as a result of asymmetric fire pressure as well as movement while the curtain is in the process of being deployed. The contact between the strips 38 and the curtain ensures that smoke cannot pass around the edges 20 of the curtain 6 though the side guides.
While one strip on one side of the side guide will be sufficient to prevent smoke passage, usually strips are provided on each side, as shown in
The strip is attached to a carrier 40 held on the side 26 of the side guide 8.
The curtain 6 may be made from any fireproof material, such as EFP2/1000S material available from Coopers Fires Limited, of Waterlooville, Hampshire, UK. The strips 38 are also made of this same material, although they may be made of an alternative fire-proof material. A double layer of the material may be used to form the strips 38, although the flexibility of a single layer is advantageous in maintaining contact between the strip and the curtain even when there is movement in the curtain due to fire pressure or other air movements in the vicinity.
To prevent smoke from passing around the edges of the curtain through the side guides 108, a sealing strip 138 of resilient, fire-proof material is attached to each side 126 of the side guides 108, the strips being looped so that both ends 139 of the strips 139 are held together, with the loop 140 thereby created being directed across the width of the guide. The loops 140 meet at a central point within the guide, and thus along a central line where the curtain is anticipated to hang down when deployed. The strips press against each other when there is no curtain and onto respective sides of the curtain when the curtain is deployed. The length of the strip is essentially that of the side guide, and the width of the strip as show is approximately the distance between the sides 126 of the side guides 108. However, the width of the strip may be between approximately 140-300% of the distance between the sides to ensure that there is good contact between the loop and the curtain when deployed.
This arrangement ensures that the strips 138 and loops 140 remain in contact with the curtain 106 when deployed, even when there is sideways movement in the curtain, for example as a result of asymmetric fire pressure as well as movement while the curtain is in the process of being deployed. The contact between the strips 38 and the curtain ensures that smoke cannot pass around the edges 120 of the curtain 106 though the side guides.
While one strip on one side of the side guide will be sufficient to prevent smoke passage, usually strips are provided on each side, as shown in the
The strip is attached to a carrier 142 held on the side 126 of the side guide 108.
Turning now to
Above the opening, is provided a smoke seal 62 of the invention, comprising a pair of sides 64 having in turned lips 66 on their inner ends 68—creating a narrowed entrance 70 to the channel 72 between the sides 64. Extending from each lip 66 is a strip of material 78. As shown, the strip 78 has been rolled back on itself to form a loop 80 (as described in reference to
Typically, the strip 78 is made of the same material as the fire curtain 6. This material is a fire-resistance or fire-proof material and thus is thick for a fabric and typically contains some woven metal. As a result, it is resistance to forming sharp edges or creases when folded. Consequently, the curtain retains the loop 80 formation even when urged against the curtain.
The loop 80 formation may provide better contact with the curtain 6 in use and thus a better seal, and may be urged more strongly against the curtain.
The width of the loop 80 will be approximately twice the width of the strip 38 to approximately twice the distance between the sides 56 of the guide. However, they may be approximately 140-300% of distance between the sides.
The embodiment as shown provides the strips 78 in the form of loops 80. However, the strips 78 may also be provided not looped, but as a strip as shown in
The application is not intended to be limited to the details of the above embodiment.
For example, a strip can be provided on one side of the side guide only. In addition, the side guides can be used with other forms of curtain having other deployment means, for example with folded or concertina curtains.
Number | Date | Country | Kind |
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22182050.9 | Jun 2022 | EP | regional |