RELATING TO FIRE RATED MOVEMENT JOINTS

Abstract

The present disclosure is directed toward a fire rated movement joint (100) for an internal compartment wall. The joint (100) comprises a wall track (112), a wall board (116) arranged at least partially overlapping the wall track (112) with a gap (124) therebetween, a fire barrier (132). The fire barrier (132) comprises an intumescent (126) and a scrim (134) enclosing the intumescent (126). The intumescent (126) is at least partly arranged within the gap (124) between the wall board (116) and the wall track (112), and the scrim (134) comprises a gusset (136) into which the intumescent (126) expands when reacting to heat.

Claims

1. A fire rated movement joint for an internal compartment wall, comprising: a wall track; a wall board arranged at least partially overlapping the wall track with a gap therebetween; a fire barrier comprising an intumescent and a scrim enclosing the intumescent, wherein the intumescent is at least partly arranged within the gap between the wall board and the wall track, and the scrim comprises a gusset into which the intumescent expands when reacting to heat.

2. The fire rated movement joint of claim 1, wherein the fire barrier is positioned on a surface of the wall track proximate to a gap provided between the wall board and ceiling or between the wall board and floor.

3. The fire rated movement joint of claim 1, wherein the scrim allows for at least partial expansion of the intumescent through the scrim.

4. The fire rated movement joint of claim 1, wherein the gusset is sized to force reverse expansion of the intumescent after an initial forward expansion of the intumescent into the gusset.

5. The fire rated movement joint of claim 1, wherein the scrim is formed from glass cloth.

6. The fire rated movement joint of claim 1, wherein the scrim comprises a reinforcement layer.

7. The fire rated movement joint of claim 6, wherein the reinforcement layer is aluminium.

8. The fire rated movement joint of claim 1, wherein at least one of the scrim and intumescent are attached to the wall track.

9. The fire rated movement joint of claim 8, wherein the at least one of the scrim and intumescent attached to the wall track are attached by adhesive with a melting temperature above the temperature at which the intumescent reacts to heat.

10. The fire rated movement joint of claim 1, wherein the gusset is provided in a part of the scrim that is not directly attached to the wall track.

11. The fire rated movement joint of claim 1, wherein a shape of the gusset is maintained by adhesive with melting temperature substantially the same as the reaction temperature of the intumescent.

12. The fire rated movement joint of claim 1, wherein the scrim comprises one or more anchor sections for attaching the scrim to at least one of a ceiling, a floor, or the wall track.

13. The fire rated movement joint of claim 1, wherein the wall board forms one side of a wall cavity, and the wall track is configured to fit within the wall cavity.

14-20. (canceled)

21. The fire rated movement joint of claim 12, wherein a first of the one of more anchor sections is secured between the wall track and ceiling or floor.

22. The fire rated movement joint of claim 21, wherein a second of the one or more anchor sections is secured to the ceiling or floor.

23. The fire rated movement joint of claim 1, wherein the wall board is plasterboard.

24. The fire rated movement joint of claim 1, wherein the wall track is substantially U shaped.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] For a better understanding of the present disclosure reference will now be made by way of example only to the accompanying drawings, in which:

[0015] FIG. 1 shows a prior art fire rated movement joint substantially at installation;

[0016] FIG. 2 shows a prior art fire rated movement joint during a fire;

[0017] FIG. 3 shows an example improved fire rated movement joint; and

[0018] FIG. 4 shows an example improved fire rated movement joint during a fire.

DETAILED DESCRIPTION

[0019] FIG. 1 shows a prior art fire rated movement joint 10 for an internal compartment wall (only the top section of the wall is shown). The joint 10 is defined by the relation between a head of wall track 12, ceiling 14, wall 16 (comprising planarly aligned boards, or sheets, 18 and stud(s) 20), and gaps 22, 24 provided to allow for relative motion between the components: Gaps 22a,b are provided between the head of wall track 12 and wall boards 18a,b, respectively, while gaps 24a,b are provided between the wall boards 18a,b and the ceiling 14.

[0020] Intumescent material 26 is inserted inside the wall 16 in between the wall boards 18, stud 20, and head of wall track 12. In some implementations the intumescent material 26 is sandwiched between layers of compressible foam. In another implementation a mineral fibre is impregnated with intumescent material. The chosen intumescent material is typically spherical graphite.

[0021] As demonstrated by FIG. 2, in a fire situation the intumescent material 26 expands to fill the internal space of the wall 16 to close a channel 28 joining compartments 30a & 30b via the gaps 22, 24 and wall 16, thereby forming a fire seal 32.

[0022] Almost all intumescent materials contain some amount of organic compounds (often rubber based) as well as an active (expansion causing) ingredient such as spherical graphite. When exposed to fire, the organic compounds combust which leads to an organic burn out spike in the temperature on the cold face of a fire seal (i.e. the face away from the fire). Thus heat may be transferred across the fire seal from the hot to the cold face: this is what’s known as insulation failure.

[0023] Insulation failure from an organic burn out spike is particularly problematic in the area around the head of wall track 12, due to the usually metallic construction of the head of wall track 12. The (failed) fire seal 32 will aid in conduction of heat between the hot and cold faces of the head of wall track 12 which, as an already good thermal conductor, greatly increases the risk of the fire spreading across compartments.

Improving the Fire Seal

[0024] FIG. 3 shows an improved fire rated movement joint 100 (as applied to a header section of a partition). As with the prior art example, the joint 100 is defined by the relation between a head of wall track 112, ceiling 114, a wall 116, and gaps 122, 124 provided to allow for relative motion between the components.

[0025] Generally, the wall 116 may be any kind of wall suitable for use in a movement joint. Consistent with the prior art example, here the example wall 116 is a stud/partition/dry wall that comprises two boards 118a,b aligned (vertically) perpendicular to the ceiling 114. The wall 116 may be secured to a building superstructure via a floor of the building, leaving the top (i.e., part proximate to the ceiling 114) floating to form part of the movement joint 100. Studs 120 may be provided to secure board 118a to board 118b. The boards 118a,b may be formed of plaster board or other suitable construction material, and may even be of different construction materials. In some examples, the wall 116 may only comprise one board 118a, such as when the wall 116 / movement joint 100 is being used in conjunction with a sturdier construction wall, such as a breezeblock or brick (e.g., outer) wall.

[0026] The head of wall track 112 is provided along the ceiling 114 by suitable securing means such as adhesive, nuts and bolts, etc. The track 112 is configured to fit within a cavity of the wall 116 defined by the internal separation of the boards 118a,b so that the track 112 locates the top of the wall 116 to the ceiling; or put another way, the wall boards 118a,b overlap the head of wall track in the (vertical) plane of the wall 116 (so that the head of wall track 112 stops any horizontal motion causing the wall to fall over). The head of wall track 112 is provided in a U shape to limit heat conduction from one compartment facing surface 113a to the opposite compartment facing surface 113b, and is preferably made from steel or some other robust metal.

[0027] Gaps 122a,b are provided between the head of wall track 112 and wall boards 118a,b, respectively, while gaps 124a,b are provided between the wall boards 118a,b and the ceiling 114. The gaps 122, 124 are typically small, on the order of millimetres of centimetres, but are sufficiently sized to allow for the expected variation in ceiling 114 / head of wall track 112 / wall 116 motion from e.g., thermal expansion, seismic movement, and so on.

[0028] A fire barrier 132 is provided which is designed to seal the gaps 122, 124 during a fire situation. In this example, two essentially identical, but oppositely oriented, fire barriers 132a,b are provided which are able to act separately to close off the left (a labels) and right (b labels) sides of the movement joint 100. In a fire situation, one or both of the fire barriers 132 deploy to create a seal, depending on the extent the fire; e.g., proximity, temperature, and so on. The fire barrier is positioned on a surface of the head of wall track 112 which is exposed to a compartment 130, making the fire barrier easy to fit and inspect. Importantly, the fire barrier 132 so positioned in its undeployed state does not prevent the function of the movement joint 100; that is, the gaps 122, 124 remain at least partly open and therefore functional when the barrier 132 is installed but undeployed.

[0029] The fire barrier 132 comprises an intumescent material 126, preferably in the form of a thin strip as will be familiar to those in the art. The intumescent 126 is provided on an exterior (i.e., compartment facing) section of the head of wall track 112. More specifically, for the barrier 132a, the intumescent material 126a is arranged on the compartment facing surface 113a in such a way that the intumescent material 126 is at least partly within the gap 124a between the board 118a and head of wall track (/surface 113a). Similarly, for the barrier 132b, a strip of intumescent material 126b is arranged on the compartment facing surface 113b at least partly within the gap 124b between the board 118b and head of wall track 112 (/surface 113b). Intumescent materials expand in a linear fashion when exposed to heat, and so suitably the intumescent 126a,b is provided such that its direction of expansion is towards the gap 122a,b.

[0030] The fire barrier 132 also comprises a scrim 134 (i.e., a net like structure with small holes in it) enclosing the intumescent material 126. The scrim 134 is preferably formed from glass cloth of the sort that will be familiar to those in the art. In some examples the scrim 134 comprises a reinforcement layer, which provides the scrim 134 with greater flexibility to move without breaking compared to a scrim without reinforcement. Preferably the scrim 134 is reinforced with aluminium, although other suitably malleable metals could also be used.

[0031] In one example, enclosing the intumescent 126 comprises wrapping (i.e., encasing) the intumescent 126 in the scrim 134 (prior to, or during, installation in the movement joint 100) so that the scrim 134 is in contact with the head of wall track 112 and attached thereto, and the intumescent 126 is attached to the scrim 134. In another example, enclosing the intumescent 126 comprises covering the intumescent 126 in the scrim after the intumescent 126 has been attached to the head of wall track 112. In other words, a back surface of the intumescent 126 (or at least a part thereof) may be directly contactable with the head of wall track 112 and attached thereto, while the remaining (otherwise exposed) surfaces of the intumescent are covered in scrim 134. The scrim 134 in this example may be suitably attached directly to the intumescent 126 and/or head of wall track 112.

[0032] Attaching the scrim 134 and/or intumescent 126 (to each other and/or the head of wall track 112) may be achieved through suitable means such as adhesive, spikes/nails, nuts & bolts, and so on, as will be familiar to those in the art. If an adhesive is used, it is desirable to use an adhesive with a melting temperature above the temperature at which the intumescent 126 reacts to heat.

[0033] The scrim 134 comprises a gusset 136, or otherwise pleated section - i.e., a section of the scrim 134 that is folded in/over on itself at least once, and preferably several times - which allows for expansion of the intumescent (during a fire).

[0034] The gusset 136 is provided in a part of the scrim that is not directly attached to the head of wall track 112. The gusset 136 is preferably provided on a part of the scrim 134 that is in the direction in which the intumescent 126 will expand. Suitably, in this example, the gussets 136a,b are provided in a section of the respective scrim 134a,b that faces the respective gap 122a,b.

[0035] A shape of the gusset 136 (preferably substantially two dimensional along a surface of the scrim 134) may be maintained by applying adhesive to the gusset 136 (e.g., between folds of the gusset), so that it does not inadvertently open, or billow, after installation of the fire barrier 132. In such an example the adhesive used to seal the gusset 136 closed should have a melting temperature substantially the same as, or just below, the reaction temperature of the intumescent 126. The type of adhesive used can be readily varied to allow for use of the fire barrier at different temperatures (e.g., specifically adapted for different types of fire).

[0036] In some examples, the scrim also comprises one or more anchor sections 138, 140, which is a part of the scrim 134 pressed to be substantially two dimensional (i.e., leaf like) and which provide additional attachment points to support the scrim 134 in its position in the movement joint 100. A first anchor section 138 may be provided which is attached to both the head of wall track 112 and ceiling 114; put another way, the first anchor section 138 may be pinched between the wall track 112 and ceiling 114. A second anchor section 140 may be provided which extends in an opposite direction to the first anchor section 138 - i.e., away from the head of wall track 112 - which may be suitably attached to the ceiling 114 to provide another anchor area. Moreover, in example implementations with a second anchor section, the gusset 136 may be provided as an extension of the second anchor section 140 - i.e., down from the ceiling. As before, the anchor sections 138, 140 may be attached to the ceiling 114 / wall track 112, as appropriate, by suitable means such as adhesive, spikes/nails, nuts & bolts, and so on; if an adhesive is used, it is desirable to use an adhesive with a melting temperature above the temperature at which the intumescent 126 reacts to heat.

[0037] FIG. 4 shows the fire rated movement joint 100 in a fire situation, specifically a fire in compartment 130a.

[0038] When the fire causes the intumescent 126a to reach its reaction temperature, the intumescent expands (in a generally linear fashion). The part of the intumescent 126 which was positioned within the gap 124a expands until it hits the wall board 118a, and compresses against it, thereby sealing the gap 124a, and so preventing the flow of smoke, hot air, and potentially combustible material through the movement joint 100 to compartment 130b.

[0039] The part of the intumescent 126 not confined within the gap 124a expands into the gap 122a. While the majority of the expansion is at first directly outward away from the track 112, there is also some nonlinear expansion, meaning the intumescent also rises up to the ceiling and blocks any possible channel between compartments 130a,b via any gaps between the head of wall track 112 and ceiling 114. Also, the weight of the intumescent which expands into gap 122a causes the angle of expansion to change downwards towards the floor of the compartment. This exposes more of the intumescent 126 to the fire which is beneficial in creating additional surface for insulating char. The ‘downward’ expansion is also aided by the fact that the part of the intumescent in the gap 124a is somewhat shielded from the fire by the wall board 118a, and so there is a temperature difference between the top and bottom of the intumescent which causes the top (expanding into gap 122a) to expand faster.

[0040] The gusset 136a provides room in the scrim 134 for the intumescent 126 to expand into the compartment 130a (e.g., via a concertina effect), while still allowing the scrim 134 to support the intumescent 126 to keep it protecting the movement joint 100. Without the scrim 134, there is a possibility that the intumescent 126, in particular the insulating char surface, could break apart where it is has expanded through gap 122 into compartment 130 due to a lack of support. A size of the gusset 136 (i.e., the amount of expansion space in the scrim 134 the gusset 136 provides, possibly based on a number of folds in the gusset 136) is based on a degree to which it is desired to allow the intumescent to expand so as to allow the change in angle past the wall board 118a to take place, and so may be suitably adapted for use in a specific movement joint (e.g., specific arrangements / separations of walls, head of wall tracks, ceiling). In general, a larger expanded intumescent pocket 126 provides higher thermal insulation than a smaller one. Also, if insufficient space is provided in the gusset 136 then the scrim 134 may split and stop providing support for the insulating char.

[0041] While the gusset 136 initially allows space for expansion of the intumescent, eventually the gusset 136 begins to constrain the intumescent 126 as it expands towards the floor. At this stage, continued expansion of the intumescent 126 (as it continues to react to the fire) results in the direction of expansion reversing course back towards the ceiling, further aiding in ceiling any gaps/channels between compartments 130a and 130b at the ceiling 114. Put another way, once the gusset 136 has been filled by intumescent 126 from ‘normal’ forward expansion, the gusset 136 beneficially forces the intumescent 126 to be pushed backwards towards the ceiling 114; it will be appreciated that such beneficial reverse expansion would not be achievable with conventional fire barriers. The choice of gusset 136 size therefore similarly adjusts the degree to which reverse expansion of the intumescent may be achieved to seal ceiling gaps. Put another way, the gusset 136 is suitably sized for a given intumescent to force reverse expansion of the intumescent at some stage in the fire after an initial forward expansion of the intumescent into the gusset 136.

[0042] The intumescent 126 also expands partially through the small holes in the scrim 134, which ensures a tight seal wherever the intumescent 126 pushes up against another surface (e.g., at the wall board 118a, or ceiling 114). Put another way, the choice of scrim 134 is based upon selecting a scrim with sufficiently small holes so that the scrim 134 provides good reinforcement, but not so small that the intumescent 126 can’t expand through the holes. In the case where the scrim 134 is reinforced, the reinforcement layer beneficially burns away leaving the scrim 134 intact and allowing the expansion of the intumescent through the scrim 134.

[0043] The position of the fire barrier 132 on the outer surface of the head of wall track 112, exposed to the gap 122, results in the intumescent 126 heating up to reaction temperature sooner than prior art techniques which put the intumescent within the wall cavity; thus the channel between compartments through the movement joint is sealed at an earlier stage of a fire (thereby improving the fire rating of the joint 100).

[0044] Moreover, the expanded intumescent 126 acts as heat insulation, thereby better shielding the (usually steel) head of wall track 112 from the fire and minimising the possibility of heat conduction from the hot side of the wall track 112 to the cold side. Beneficially the need for separate insulation to protect the head of wall track is negated.

[0045] It will also be readily apparent that the seal created by the fire barrier 132 does not join the hot and cold sides of the head of wall track 112 or cavity wall 116. Thus there is no risk of an organic burn out spike causing insulation failure of the fire seal.

[0046] While the above examples have focussed on a movement joint 100 at the top of a wall separating two internal compartments of a building, it will be readily appreciated that the above techniques could be applied to other arrangements of movement joint. For example, where the movement joint is used at a perimeter of a single compartment, not a joint between two compartments, only a single fire barrier 132a may be required (e.g., only the left hand side ‘a’ numerals of FIGS. 3 & 4 is present). Also, the above description may be readily applied to a movement joint provided around a bottom of wall track instead of a head of wall track.

[0047] In summary then, exemplary embodiments of an improved fire rated movement joint, and more specifically a new form of fire barrier used therein, have been described.

[0048] The fire barrier for the fire rated movement joint may be manufactured industrially. An industrial application of the example embodiments will be clear from the discussion herein.

[0049] Although preferred embodiment(s) of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes may be made without departing from the scope of the invention as defined in the claims.

[0050] Attention is directed to all papers and documents which are filed concurrently with or previous to this specification in connection with this application and which are open to public inspection with this specification, and the contents of all such papers and documents are incorporated herein by reference.

[0051] All of the features disclosed in this specification, and/or all of the steps of any method or process so disclosed, may be combined in any combination, except combinations where at least some of such features and/or steps are mutually exclusive.

[0052] Each feature disclosed in this specification may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. Thus, unless expressly stated otherwise, each feature disclosed is one example only of a generic series of equivalent or similar features.

[0053] The invention is not restricted to the details of the foregoing embodiment(s). The invention extends to any novel one, or any novel combination, of the features disclosed in this specification, or to any novel one, or any novel combination, of the steps of any method or process so disclosed.