This is a National Stage application of PCT/GB2016/053724, filed Nov. 28, 2016, which claims priority to United Kingdom Patent Application No. 1617039.1, filed Oct. 7, 2016, and United Kingdom Patent Application No. 1520909.1, dated Nov. 26, 2015, the disclosures of which are incorporated herein by reference.
This invention relates to support apparatus for a roof, in particular for a fragile roof.
In many locations around the world, some buildings are built having a roof formed from corrugated roof sheets. The roof is typically a pitched roof. Many of these corrugated roofs are fragile and formed from concrete-fibre corrugated roof sheets which can deteriorate over time. The corrugated roof sheets are fixed to purlins which run longitudinally along the roof pitch of the building. The troughs in the corrugated roof sheets are arranged to run transverse to the direction of the purlins. The roof also typically comprises rafters which run transverse to the direction of the purlins and support the purlins in the roof structure. Therefore, a single trough in a corrugated roof sheet will be fixed to several purlins. However, the corrugated roof panels themselves are not designed to support the weight of a person and falls onto a roof panel can cause the roof panel to fail, sending the person and broken parts of the roof panel down through the roof. The typical spacing between adjacent purlins is greater than would be necessary to provide a safety structure to prevent a person falling through the roof. Falls from height can be fatal.
It is known to use a trellis mat resting on spars to prevent falls through fragile concrete-fibre roofs.
The present invention provides at least an alternative to solutions of the prior art.
In accordance with an aspect of the present disclosure, there is provided a railing post adaptor for a roof support apparatus. The roof support apparatus comprises an elongate member having a plurality of longitudinal sides. The railing post adaptor comprises: a roof support apparatus connector for securing the railing post adaptor to the roof support apparatus. The roof support apparatus connector comprises: a first connection portion arranged to engage, in use, with a first set of the plurality of longitudinal sides; and a second connection portion, movably mounted to the first connection portion and arranged to engage, in use, with a second set of the plurality of longitudinal sides, the second set being different from the first set. The railing post adaptor further comprises a railing connection portion extending from the roof support apparatus connector for detachably securing a proximal end of a railing post to the roof support apparatus via the railing post adaptor. The first set and the second set each comprise at least two longitudinal sides. The first connection portion and the second connection portion are together configured to substantially prevent rotation of the railing post adapter about a longitudinal axis of the elongate member by engagement with the first set and second set of longitudinal sides.
Thus, a railing post can be attached to a roof support apparatus by means of a temporarily attached railing post adaptor. When the railing posts are not required on the roof support apparatus, the railing post adaptor can also be removed, meaning the roof support apparatus is suitable for a wide range of roofing tasks. For example, a connection component which is permanently attached to the roof support apparatus may present a trip hazard when the roof support apparatus is to be used without railing posts secured thereto. When the railing posts are required, the railing post adaptor can be secured to the roof support apparatus in a safe working location (for example, on the ground), and the roof support apparatus can then be deployed in position with the railing post adaptor already attached thereto. The railing post can be secured to the roof support apparatus via the railing post adaptor once the roof support apparatus is in position. In this way, the safe assembly of a roof support apparatus including a railing can be completed at height by separate transport of the roof support apparatus and the railing onto the roof. Furthermore, it may be difficult to access some parts of the roof support apparatus once it is in place on a roof, and so the installation of the railing post adaptor on the roof support apparatus after the roof support apparatus has been installed in position on a roof may be difficult. For example, access to or around the underside of the roof support apparatus in situ may be difficult.
In use, the elongate member may be located between the first connection portion and the second connection portion. Thus, the first connection portion and the second connection portion are configured to substantially surround the elongate member. In embodiments, the first connection portion and the second connection portion may be configured to substantially clamp the elongate member therebetween.
Although in embodiments, some of the longitudinal sides included in the first set may also be included in the second set, in a preferred embodiment, each of the longitudinal sides included in the first set may not be included in the second set. Thus, the first set may be completely different from the second set.
The railing post adaptor may be arranged to be secured to an elongate member having a predetermined size. In embodiments, the elongate member having a predetermined size may be the only size of elongate member to which the railing post adaptor can be secured. It will be understood that this does not impose any limitation on a size of the railing post which can be secured to the railing post adaptor.
The first connection portion may have defined therein a locating opening. The second connection portion may comprise a locating protrusion sized to fit within the locating opening. When the locating protrusion is within the locating opening, the first connection portion may be substantially fixed relative to the second connection portion in any direction transverse to an axial direction of the locating opening. The locating protrusion may extend from the second connection portion by only a thickness of the first connection portion at the locating opening. The locating protrusion may be sized to fit substantially exactly within the locating opening.
The first connection portion may have defined therein an elongate slot. The second connection portion may comprise a protrusion sized to fit within the elongate slot. When the protrusion is within the elongate slot, the first connection portion may be slidably mounted to the second connection portion, whereby to vary a spacing between a first connection surface of the first connection portion and a second connection surface of the second connection portion. The first connection surface and the second connection surface may be for engagement with a respective one of the first set and the second set of longitudinal sides. The protrusion sized to fit within the elongate slot may extend away from the second connection portion beyond a thickness of the first connection portion at the elongate slot. The protrusion sized to fit within the elongate slot may be substantially cylindrical. The elongate slot may have a length of at least 20 millimetres. The elongate slot may have a length at least 5 times a diameter of the protrusion sized to fit within the elongate slot.
The protrusion may be a threaded protrusion. The railing post adaptor may further comprise a threaded fastener having internal threads for engagement with the threaded protrusion to secure the first connection portion to the second connection portion. The threaded fastener may be a wing-not or any other suitable fastener.
It will be understood that the elongate slot and the protrusion sized to fit within the elongate slot may alternatively be positioned on the second connection portion and the first connection portion respectively. Similarly, the location opening and the locating protrusion may alternatively be positioned on the second connection portion and the first connection portion respectively.
The elongate member may have a substantially rectangular cross-section in a direction transverse to the longitudinal direction. Thus, the elongate member may be any standard box section conventionally used for roof support apparatus.
The first connection portion and the second connection portion may each be formed from sheet metal. It will be understood that alternative materials may be used.
The first connection portion may extend around only a part of a one of the longitudinal sides of the first set, in a direction transverse to the longitudinal direction of the elongate member. In an embodiment, the first connection portion may extend around less than half of the one of the longitudinal sides of the first set. Thus, the roof support apparatus connector can be easily secured to the elongate member without requiring full separation of the first connection portion from the second connection portion.
The second connection portion may not engage with the one of the longitudinal sides of the first set. Thus, the securement of the roof support apparatus connector to the elongate member may be even easier.
The railing connection portion may extend from the first connection portion. The railing connection portion may be connected to the first connection portion by a welded connection. It will be understood that the railing connection portion may instead extend from the second connection portion.
The railing connection portion may be for detachably securing the proximal end of the railing post to the roof support apparatus such that a longitudinal axis of the railing post is offset in a direction transverse to the longitudinal axis of the elongate member. Thus, the railing post is positioned off-centre from the elongate member. In embodiments, the railing post adaptor is configured to be reversible whereby the railing post can be detachably secured on either side of the longitudinal axis of the elongate member, in use.
The railing connection portion may comprise a first side wall extending away from the roof support apparatus connector and a second side wall, spaced from the first side wall, and extending away from the roof support apparatus connector. The first side wall and the second side wall may be configured for detachably securing the proximal end of the railing post therebetween.
The first side wall and the second side wall may extend substantially transverse to the longitudinal axis of the elongate member. Thus, the railing post can be prevented from rotation about an axis substantially transverse to the longitudinal axis of the elongate member by the first side wall and the second side wall. Further, the railing post may be easily secured between the first side wall and the second side wall by an operator standing on the roof support apparatus.
The first side wall and the second side wall may each have defined therein an elongate slot, open to a boundary of the respective first side wall and the second side wall. The elongate slots may be for engagement by locating members extending transversely from the railing post. Thus, the railing post can be easily secured between the first side wall and the second side wall and rotationally fixed.
At least one of the first side wall and the second side wall may have defined therein a mutually spaced plurality of further locating holes, spaced from the elongate slot, for engagement with a connection member of the railing post, whereby to vary a pitch of the railing post relative to the roof support apparatus connector. Thus, the pitch of the railing post can be easily adjusted by selective engagement between the railing post and a one of the further locating holes.
The railing post may further comprise a bracing leg. Thus, the railing post can be prevented from rotating about an axis transverse to a longitudinal direction of the railing post by the bracing leg. Even when the roof support apparatus is not arranged to resist rotation about the axis transverse to the longitudinal direction of the railing post, the railing post may still resist rotation about the axis transverse to the longitudinal direction of the railing post due to the bracing leg. The bracing leg may be pivotably connected at a proximal end thereof to the proximal end of the railing post. Thus, the bracing leg can rotate into a deployed configuration and brace the railing post against a roof surface or a further member of the roof support apparatus.
At least one of the first side wall and the second side wall may have defined therein a leg support opening for engagement with a connection member of the bracing leg, whereby to secure the bracing leg at a predetermined angle relative to the railing post. In one embodiment, the predetermined angle is substantially 90 degrees.
The railing post adaptor may further comprise the railing post.
The railing post may comprise at least one barrier connection member for connecting the railing post to a barrier member spanning adjacent railing posts connected to the roof support apparatus. Thus, multiple railing posts may be connected together via one or more barrier members. The barrier member may be a railing pole configured to be arranged substantially parallel to a roof in use. The barrier member may be a railing pole configured to be arranged substantially transvers to the railing post in use. The railing pole may be telescopically extendable.
The barrier connection member may be a loop member. The loop member may be arranged to surround a circumference of the railing pole in use, whereby to retain the railing pole against the railing post.
A pivotable foot may be provided at a distal end of the bracing leg. The pivotable foot may be arranged to conform to a surface of the roof, or to a surface of a further member of the roof support apparatus.
The disclosure extends to a kit of parts for a roof support apparatus. The kit of parts comprises: a first elongate member having a first plurality of longitudinal sides; a second elongate member having a second plurality of longitudinal sides; a link member to space the first spar from the second spar such that the first spar and the second spar are mutually parallel; and a railing post adaptor comprising a roof support apparatus connector for securing the railing post adaptor to the first elongate member. The roof support apparatus connector comprises: a first connection portion arranged to engage, in use, with a first set of the first plurality of longitudinal sides; and a second connection portion, movably mounted to the first connection portion and arranged to engage, in use, with a second set of the first plurality of longitudinal sides. The second set is different from the first set. The railing post adaptor further comprises a railing connection portion extending from the roof support apparatus connector for detachably securing a proximal end of a railing post to the roof support apparatus via the railing post adaptor. The kit of parts further comprises the railing post. The first set and the second set each comprise at least two longitudinal sides. The first connection portion and the second connection portion are together configured to substantially prevent rotation of the railing post adapter about a longitudinal axis of the first elongate member by engagement with the first set and second set of longitudinal sides.
In accordance with another aspect of the present disclosure there is provided a support apparatus for a corrugated roof. The support apparatus comprises a first spar and a second spar parallel to the first spar. The support apparatus further comprises at least one connection member extending from the support apparatus in a first direction substantially normal to a plane intersecting the first spar and the second spar. The at least one connection member is configured to connect the support apparatus to a support platform. The support apparatus further comprises a link member connecting the second spar to the first spar and spacing the second spar from the first spar.
Thus, there is provided a support apparatus where the first spar and second spar are linked, whereby to constrain the separation distance between the spars, preventing an operative from inadvertently installing an unsafe roof support. Furthermore, the support apparatus is quick to install because an operative need not measure the separation between troughs in a corrugated roof or carry each spar up to the roof separately. Any reduction in the time spent to set up the safety equipment on the roof decreases the chances of a fall through the roof occurring during setup of the safety equipment.
The support apparatus may be a roof support apparatus as described hereinbefore.
The link member may be movable relative to at least one of the first spar and the second spar whereby to vary the spacing of the second spar from the first spar. Thus, the support apparatus is suitable for use with a range of different corrugated roofs, each having a different spacing between adjacent troughs of the undulating shape of the corrugated roof.
In one embodiment, the link member may pivotably connect the first spar to the second spar. Additionally or alternatively, the link member may extensibly connect the first spar to the second spar.
The link member may have defined therein an elongate slot arranged to engage with a corresponding pin provided on the second spar. Thus, the first spar and the second spar can be moved apart by moving the location of the corresponding pin in the elongate slot. The slot may have a slot length of greater than 50 millimetres. The slot may have a slot length of greater than 100 millimetres. The slot may have a slot length of less than 300 millimetres. The slot may have a slot length of less than 200 millimetres.
The corresponding pin may be the connection member. Thus, the same pin which is used to engage in the elongate slot of the link member may also be used to connect the support apparatus to the support platform.
An end of the link member may be configured to be extensibly fixed relative to the first spar.
The connection member may be a pin. The pin may comprise a first section extending from the support apparatus and having a first diameter and a second section extending from the first section and having a second diameter greater than the first diameter. Thus, the pin can be arranged to retain the support platform on the support apparatus, in use. The pin may have a length extending from the support apparatus of greater than 30 millimetres.
In embodiments, the connection member may be configured to only retain the support platform against translational movement of the support platform in a lateral plane of the support platform. Thus, the support platform can be removed from the support apparatus by lifting, without removal of the connection members. Further, the support platform can be easily installed on the support apparatus without requiring a user to spend a long time in a dangerous position on a fragile roof.
The first spar and the second spar may extend at least partially from the link member in a second direction, opposite the first direction. Thus, the first spar and the second spar are arranged to extend in a trough-wards direction of the corrugated roof, in use, and the link member is arranged to pass over intervening troughs in the corrugated roof, in use. The first spar and the second spar may each have a length in the second direction of greater than 35 millimetres. The first spar and the second spar may each have a length in the second direction of greater than 50 millimetres. The first spar and the second spar may each have a length in the second direction of less than 100 millimetres. The first spar and the second spar may each have a length in the second direction of less than 70 millimetres.
A length of the first spar and the second spar may be longer than a length of the link member. The length of the first spar and the second spar may be greater than 1 metre. The length of the first spar and the second spar may be less than 3 metres. The length of the link member may be greater than 300 millimetres. The length of the link member may be less than 90 centimetres.
The support apparatus may comprise a plurality of link members. The support apparatus may comprise at least two link members. The support apparatus may comprise exactly two link members.
Each of the first spar and the second spar may have extending therefrom at least one connection member. Each of the first spar and the second spar may have extending therefrom at least two connection members. The support apparatus may comprise exactly four connection members.
The connection members may be connected to the link members. Thus, the link members are connected to the spars by the same components which are configured to connect the support platform to the support apparatus.
At least one of the first spar and the second spar may comprise a joining member configured to join the support apparatus to a further support apparatus.
The joining member may be a sleeve member arranged to fit over an end of the first spar or the second spar.
The support apparatus may further comprise a support platform configurable to be connected to the support apparatus by the connection member.
The support platform may be a trellis mat.
Embodiments of the invention are further described hereinafter with reference to the accompanying drawings, in which:
In some embodiments, the first spar 202 and the second spar 204 have defined on the top surface a plurality of holes whereby the connection members 208 may be repositioned. In such cases, the link members 206 would also change position with the connection member 208.
In some embodiments, the first spar 202 and the second spar 204 have defined on each side surface a plurality of joining holes whereby the support structure 200 may be connected to a further support structure. An inner surface of a spar on one of the support structure or the further support structure is provided against an outer surface of a spar on the other of the support structure or the further support structure. A bolt or other fastener is used to fix the support structure to the further support structure, whereby to provide a combined support structure having a length greater than the length of a single support structure but less than twice the length of the support structure.
In the illustrated embodiments, the spars 202, 204 have a cross-sectional height of approximately 62 millimetres and a cross-sectional width of approximately 38 millimetres. The link members 206 have a thickness of 6 millimetres. The connection members 208 extend above the link members by a distance of approximately 50 millimetres.
To assemble the support apparatus, both the trellis mat 220 and the support structure 200 are configurable to be transported to the roof in a compact arrangement in which each is easy to handle. On the roof, a first support structure 200 is moved into the deployed arrangement and positioned such that each spar 202, 204 sits at the base of a respective parallel trough on the corrugated roof. An operative need not measure or even know about minimum spacing between the spars 202, 204 because it is impossible to space the first spar 202 and the second spar 204 a greater distance apart than the length of the link members 206. Once the first support structure 200 is placed in position, a trellis mat 220 is positioned on the support structure 200. If a larger support apparatus is required in a direction transverse to the direction of each trough, a further support structure 200 is positioned adjacent the first support structure 200 and spaced by the same distance as the distance between the first spar 202 and the second spar 204. This can easily be achieved by an operative by counting the number of empty troughs between the first spar 202 and the second spar 204 and ensuring that the further support structure also leaves the same number of empty troughs in the corrugated roof beyond the first support structure. Similarly, if a larger support apparatus is required in a direction along the roof troughs (for example beside a walkway up the pitch of a roof), multiple support structures can be linked together using the joining members as described previously.
In this example, the first facing portion 358 has further defined therein two circular locating openings 368 for engagement with two circular locating protrustions 370 provided on the facing surface of the second facing portion 360. The locating protrusions 370 extend only a thickness of the first facing portion 358, whereby to sit substantially flush with the first facing portion 358 when located within the locating openings 368.
Returning to
In this example, the railing post adaptor is formed substantially from sheet metal, in particular sheet steel, but it will be appreciated that alternative materials may be used.
The elongate member 410 comprises a connection member for connecting the railing post 400 to further railing posts or other safety barrier members. In this example, the connection member is in the form of three hoop members 418, 420, 422. A first hoop member 418 is provided at the proximal end 412 of the elongate member 410. A second hoop member 422 is provided at the distal end 414 of the elongate member 410. A third hoop member 420 is provided between the first hoop member 418 and the second hoop member 422. Each of the hoop members 418, 420, 422 is adjustable such that a horizontal railing pole (not shown) can be secured to the elongate member 410 in the region of each of the respective hoop members 418, 420, 422. In this way, the hoop members 418, 420, 422 can be used to attach the railing post 400 to further railing posts via horizontal railing poles. The horizontal railing poles will be described more fully in relation to
The railing post 400 further comprises a support leg 440. The support leg is pivotably connected to the proximal end of the elongate member 410. In this example, the support leg 440 is pivotably connected about a pivot axis which runs through the protuberance 416. The support leg 440 comprises a proximal end 442 at which the support leg 440 is pivotably connected to the elongate member 410 and a distal end 444 provided with a foot 446 for supporting the support leg 440 on a surface, such as a roof surface. In this example, the foot 446 is pivotably connected to the distal end 444 of the support leg 440. In this way, the foot 446 can pivot to conform to the contour of a roof and to support the support leg 440 on substantially any angle of underlying surface, for example any part of the undulations on a corrugated roof. The proximal end 442 of the support leg 440 also has defined therein a securing opening 448. In use, the support leg 440 is pivotably rotated away from the elongate member 410 to an angle of approximately 90 degrees (depending on the pitch chosen for the elongate member 410 relative to the roof support apparatus). The securing opening 448 is aligned with the corresponding leg locating holes 344 in the first and second side walls 332, 334. The second drop-nose pin 348 is used to secure the support leg 440 in position in the railing post adaptor 300. In a similar way to that for the first drop-nose pin 346 discussed previously, although the securing opening 448, the leg locating holes 344 and the second drop-nose pin 348 are described as being used to secure the support leg 440 in position on the railing post adaptor 300, it will be understood that alternative connection means could be used, such a spring loaded pins extending from the support leg 440, a nut and bolt replacing the second drop-nose pin 348, or any other suitable alternative. Any openings need not be circular, and other shapes of opening and fastener can be used (for example square, or rectangular.
Although the support leg 440 is described as being pivotably connected to the elongate member 410, it will be appreciated that the support leg 440 may instead be provided as a separate component to connect separately to the railing post adaptor 300. In this case, further connection points between the support leg 440 and the railing post adaptor 300 may be required.
It will be understood that the railing post adaptor 300 is configured such that it can be used to secure a railing post 400 thereto whilst only having access to an upper side of the roof support apparatus 200.
In use, the railing post adaptor 300 is typically connected to the first spar 202 (or the second spar 204 of the roof support apparatus 200, and in the required position, before the roof support apparatus 200 is moved onto the roof. In this way, the roof support apparatus 200 is still lightweight, even with the railing post adaptor(s) connected thereto. The trellis mat 220 is also lightweight and is carried onto the roof separately and positioned onto the roof support apparatus 200. After this, the railing post(s) 400 are positioned in and secured to the railing post adaptors 300 to provide a safe working platform. This minimises the danger to a user using this roof support system to access a roof.
It will be understood that the roof support apparatus disclosed herein can be used on any type of roof and is not limited to use on a corrugated roof or to a fragile roof. A roof support apparatus is taken to include any support frame to be positioned directly on a roof and allowing a user to perform maintenance, building or other roof-based tasks therefrom.
In summary, there is provided a railing post adaptor (300) for a roof support apparatus (200). The roof support apparatus (200) comprises an elongate member (202, 204) having a plurality of longitudinal sides (231). The railing post adaptor (300) comprises a roof support apparatus connector (310) for securing the railing post adaptor (300) to the roof support apparatus (200). The roof support apparatus connector (310) comprises a first connection portion (312) arranged to engage, in use, with a first set of the plurality of longitudinal sides (231), and a second connection portion (314), movably mounted to the first connection portion (312) and arranged to engage, in use, with a second set of the plurality of longitudinal sides (231), the second set being different from the first set. The roof support apparatus connector (310) further comprises a railing connection portion (330) extending from the roof support apparatus connector (310) for detachably securing a proximal end (412) of a railing post (400) to the roof support apparatus (200) via the railing post adaptor (300). The first set and the second set each comprise at least two longitudinal sides (231). The first connection portion (312) and the second connection portion (314) are together configured to substantially prevent rotation of the railing post adapter (300) about a longitudinal axis of the elongate member (202, 204) by engagement with the first set and second set of longitudinal sides (231).
Throughout the description and claims of this specification, the words “comprise” and “contain” and variations of them mean “including but not limited to”, and they are not intended to (and do not) exclude other integers or steps. Throughout the description and claims of this specification, the singular encompasses the plural unless the context otherwise requires. In particular, where the indefinite article is used, the specification is to be understood as contemplating plurality as well as singularity, unless the context requires otherwise.
Features, integers or characteristics described in conjunction with a particular aspect, embodiment or example of the invention are to be understood to be applicable to any other aspect, embodiment or example described herein unless incompatible therewith. All of the features disclosed in this specification (including any accompanying claims, abstract and drawings), 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. The invention is not restricted to the details of any foregoing embodiments. The invention extends to any novel one, or any novel combination, of the features disclosed in this specification (including any accompanying claims, abstract and drawings), or to any novel one, or any novel combination, of the steps of any method or process so disclosed.
Clauses:
1. A support apparatus for a corrugated roof comprising:
2. A support apparatus as described in clause 1, wherein the link member is movable relative to at least one of the first spar and the second spar whereby to vary the spacing of the second spar from the first spar.
3. A support apparatus as described in clause 2, wherein the link member pivotably connects the first spar to the second spar.
4. A support apparatus as described in clause 2 or clause 3, wherein the link member extensibly connects the first spar to the second spar.
5. A support apparatus as described in clause 4, wherein the link member has defined therein an elongate slot arranged to engage with a corresponding pin provided on the second spar.
6. A support apparatus as described in clause 5, wherein the corresponding pin is the connection member.
7. A support apparatus as described in any of clauses 2 to 6, wherein an end of the link member is configured to be extensibly fixed relative to the first spar.
8. A support apparatus as described in any preceding clause, wherein the connection member is a pin.
9. A support apparatus as described in any preceding clause, wherein the first spar and the second spar extend at least partially from the link member in a second direction, opposite the first direction.
10. A support apparatus as described in any preceding clause, wherein a length of the first spar and the second spar is longer than a length of the link member.
11. A support apparatus as described in any preceding clause, wherein the support apparatus comprises a plurality of link members.
12. A support apparatus as described in any preceding clause, wherein each of the first spar and the second spar has extending therefrom at least one connection member.
13. A support apparatus as described in clause 12, wherein the connection members are connected to the link members.
14. A support apparatus as described in any preceding clause, wherein at least one of the first spar and the second spar comprise a joining member configured to join the support apparatus to a further support apparatus.
15. A support apparatus as described in clause 14, wherein the joining member is a sleeve member arranged to fit over an end of the first spar or the second spar.
16. A support apparatus as described in any preceding clause, wherein the support apparatus further comprises a support platform configurable to be connected to the support apparatus by the connection member.
17. A support apparatus as described in clause 16, wherein the support platform is a trellis mat.
Number | Date | Country | Kind |
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1520909 | Nov 2015 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/GB2016/053724 | 11/28/2016 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2017/089829 | 6/1/2017 | WO | A |
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Number | Date | Country | |
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20180328054 A1 | Nov 2018 | US |