NZ206639A - Bitumen covered cellular panel with removable film - Google Patents
Bitumen covered cellular panel with removable filmInfo
- Publication number
- NZ206639A NZ206639A NZ20663983A NZ20663983A NZ206639A NZ 206639 A NZ206639 A NZ 206639A NZ 20663983 A NZ20663983 A NZ 20663983A NZ 20663983 A NZ20663983 A NZ 20663983A NZ 206639 A NZ206639 A NZ 206639A
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- New Zealand
- Prior art keywords
- barrier
- board
- major surface
- sheet
- porous
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- Laminated Bodies (AREA)
Description
20663
Priority Date(s):
Complete Specification Filed:
Class:
Publication Date: .....
P.O. Journal, No: .
NEW ZEALAND
PATENTS ACT, 1953
No.: Date:
COMPLETE SPECIFICATION
'CONSTRUCTION BARRIER BOARD
e> W. R. GRACE g CO., a corporation of the State of Connecticut, United States of America, of 1114 Avenue of the Americas, New York, New York 10036, United States of America hereby declare the invention for which iofc we pray that a patent maybe granted to j^jg^us, and the method by which it is to be performed, to be particularly described in and by the following statement: -
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The present invention relates to a preformed barrier structure useful in the construction industry.
Barrier protection of structural foundations is conventionally formed by parging the foundation 1s exterior 5 surface with a waterproofing paint or cement or an asphaltic composition. This must be carefully done to assure that it fully covers the foundation surface. When drainage enhancement is desired, this is normally accomplished by placing drainage tile or pipe at the foundation footing 10 and installing gravel or the like over the tile and against the parged foundation wall during backfill. Formation of such a barrier is labor intensive, requires use of heavy material and, therefore, heavy equipment, and the installation of the gravel tends to chip and break the 15 formed waterproofing membrane.
Further it is recognized that structural foundations formed from poured concrete, cinder block and the like do not offer high insulation and therefore do not protect the interior space from exterior temperature 20 conditions. Where the structural design requires the interior space to be useful for any one of various purposes and to be energy efficient, one requires the application of insulation to the walls in addition to waterproofing and drainage.
The roof or upper decking of a structure also requires waterproofing and other protection. Built up roofing has been employed for many years wherein a roof deck supports a membrane which prevents penetration of moisture. Such water impermeable membranes have been 30 formed from conventional asphaltic and bituminous compositions, laminates of the asphaltic or bituminous material with fibrous products, such as roofing felt or
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from rubberized asphalt, synthetic polymeric compositions or by applying sheet waterproofing membranes such as formed from butyl, neoprene or a polymer film supported rubberized asphalt. Conventional roof structures contain 5 insulation within the structure to aid in maintaining constant and comfortable temperature.
More recently, it has been found that installation of insulation on top of the exterior surface of the roof membrane has the advantages of maintaining the 10 applied waterproofing membrane at a more constant temperature causing longer life of the membrane. Such roofing structures have been dubbed."upside down roofs". The conventional manner of forming an upside down roof entails a multiplicity of steps including first applying a waterproof 15 roofing membrane, such as formed from asphalt or bituminous composition, allowing the applied composition to cool and permitting sufficient time for the asphalt to cure by the evaporation of .volatiles. A mastic is then applied to the membrane by spraying or the like to cause adhesion and 20 anchoring of the subsequently applied insulation. A
protective layer is applied over the insulation and then gravel or the like material is placed on top to further aid in anchoring and securing the structure.
Conventional waterproofing membrane materials are 25 not generally used in the installation of upside-down roof structures. Such membranes are weak, tender materials which are required to be in.contact with a support sheet, such as a polyethylene sheet , to enhance the strength of the membrane and to protect it from puncture and the like damage. 30 Such support sheets must be securely adhered to the membrane and,therefore, cannot be removed without tearing and destroying the membrane. The support sheet inhibits adhesion of any subsequently applied layer, such as that of a, porous insulating material, and the installer must, 35 therefore, apply a strong mastic and/or an anchoring cover,
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such as gravel, etc., over the insulation material to maintain its position.
According to the present invention, there is provided a preformed barrier including a porous generally 5 . rigid, board.with a non-porous adhesive sheet adhered. . .to and covering one side of the board and a protective -coating to prevent superimposed layers of the barrier: ■ adhering to one-another prior to installation.
The porous board can have closed pores, making 10 its insulation very effective, or open interconnected ;
pores vAich enhances drainage. The structure is unitary • and easy to apply. It can be used both on roofs and deck structures, where its waterproofing and insulating properties are taken advantage of/and, for instance, 15 at footings and foundations where the insulation,
drainage and waterproofing properties are of use.
Because of its unitary structure it can be applied with minimum labour and time. Preferably a bituminous sheet is used for the adhesive sheet. The adhesive 20 sheet may include reinforcement. There may be channels formed in the face of the board remote from the adhesive sheet to assist water disposal and run-off. A layer of cloth or mat may.be provided to cover the side of the porous board remote from the adhesive 25 sheet. This, particularly for its. open-pore embodiments, helps to ensure that such pores do.not become clogged up.
In order that the invention may be more clearly understood, the following description is given 30 by way of example only with reference, to the accompanying drawings, in which:
Figure, 1 is an oblique view of a first embodiment of barrier of the invention;
Figures 2, 2A and 2B are each an oblique, 35 cut-away .view of a modification of the first embodiment of barrier;
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Figure 3 is an oblique view of the first embodiment with the modification of.an.extended adhesive-bituminous membrane;
Figure 4 is an oblique view of a second 5 embodiment of barrier of the invention;
Figures 4A and 4B are each -an oblique, .cut-' - " away view, of a modification of -.the second embodiment; v Figure 4C is an oblique view of the: second embodiment with the modification of an extended ' 10 ' adhesive-bituminous membrane; .
Figures 5A, 5B and 5C show•possible patterns - for the spaced, continuous channels on the surface of the board in the second embodiment;
Figures 6 and 6A are cross sectional views 15 of the barriers of Figures 1 and 4, respectively, when applied to a structural surface;
Figure 7 is a composite view, of two barriers of the second embodiment of the invention applied to a vertical structural wall with ancillary drainage means; 20 Figures 8 and SA are cross-sectional views of the barriers of Figures 3 and 4C, respectively,
when applied to a structural'surface.
In general, the invention provides a barrier having a porous board with a non-porous adhesive sheet ■ 25 or membrane, attached to one side which provides moisture proofing of the structural surface and by which the barrier is to be attached to a surface. Embodiments where the pores in the board are generally closed are especially suitable for application to exterior surfaces 30 of either subterranean walls or roofs to form a water-
proofing and insulating barrier. Embodiments vAiere open-interconnected pores are provided in the board are especially suited for use as waterproofing and drainage means. In accordance with a preferred feature 35 open channels are provided at the side of the board remote from the adhesive sheet.' The barrier is then
especially suitable for application to the exterior surfaces of. subterranean structural walls, ■ such as --foundation walls and subterranean formations such as, for example, subway tunnels and stations, and underground parking areas to act as a combination of water . barrier, drainage.enhancing-means and as an insulator . .from exterior temperature changes. It is generally known"that such subterranean structural walls require application of a waterproofing barrier to prevent ground water from permeating the pores of the structural wall (usually formed from concrete and/or cinder block) and eventually entering the interior area of the structure. To prevent a build-up of hydrostatic ground water pressure against the walls which causes ground water permeating and passing through the structural walls, drainage means, such as gravel or other.porous material, is conventionally placed adjacent to the walls. Finally, many subterranean structures are required to be maintained within prescribed temperature ' ranges. Thus insulation of the walls of the structure-is required. .... - ; v .
Referring to .Figures 1, 2 and 2A, a barrier structure (1) comprises a porous, substantially planar board member having one of its major surfaces covered with an adhesive sheet material/which is preferably an adhesive bituminous sheet. The porous board is generally rigid and is substantially planar and sheetlike. By the term "rigid" we mean that the board has only a limited amount of flexibility, and may be bent ' .to a small degree by the application of force, the specific amount of flexure depending 'upon the dimensions of the structure, but it will be capable of retaining its planar configuration with respect to its major faces. A planar configuration for the porous board-will permit the barrier of the invention to be placed on and secured to planar structural members,
such as a roof deck or foundation walls. • However, in certain instances, it may be desired to have the .porous board in a predetermined non-planar configuration which conf orms to the configuration; of the structural •5 surface to vAiich it. will be ultimately applied.
The porous board (2) can be formed from any generally rigid open or closed cellular material.
Closed cellular materi als . have cliscrete ;'poresv.( 3) -throughout the board. This type of board is water .10 impermeable and , due to the closed pores, ".forms ;a very . effective insulation material. Closed cellular boards can be formed from such materials as styrene polymer foams, styrene-acrylcnitrile copolymer foams, . .
styrene me thylmeth aery late copolymer foams, polyethylene 15 foams, polyurethane foams, asphaltic compositions, such as polymer (as, for example, styrene, ethylene-acrylate copolymer, ethylene-vinyl acetate, and the like), modified asphaltic foams and the like, and foamed glass.
The closed cell structure is conventionally " 20 formed by supporting the material in its plastic state by external pressure during the formation of the gas bubbles and until the material becomes sufficiently rigid to retain the gas in the cell formed. . Such-structures can also be conventionally formed by - 25 extrusion of a polymeric material containing a blowing agent, such as a fluorinated hydrocarbon or a lower alkane. Upon egress from the extruder the material expands due to decompression and the vaporized:blowing agent is entrapped in the solidified product. 30 Open cellular materials have cells such as cells 3 which are interconnected to" define tortuous paths from surface to surface. Such open cellular materials are cellular polymeric foams including those formed from polystyrene foams having interconnecting 35 voids, urea-formaldehyde, phenol-formaldehyde, and polyurethane. Porous board of an open cellular
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configuration can also be formed from.random fibrous batting such as rigid fiberglass batting or from polymer modified asphalt foams. " '.
The porous board has a first (4) and a second (5) major surface and edges (6). • The porous board may be..of any desired shapes ---It is preferred for the'shape of., the board to be a quadrilateral, preferably a parallelogram, and more. preferably a rectangle' 'or J" -V square. . Boards, and thereby r:; .
barriers, -of any convenient" dimensions for the construction" ::L. industry or for particular applicationstcan be formed, such as boards which are from about 1-to 6 feet (30 cms to 2 m), preferably 2 to ff feet (60 cms to 120 cms) wide and from ' 5\'l to 12 feet (30 cms- to A'"m)- preferably. 2 . to 10 feet ,
(60 cms to 3 m) long. The thickness of the board can -_ vary from about 0. 25 to 10 inches."'(0.6 to 25 cms) preferably from about 0.5 to h inches (1.2 to 10 cms). The barrier,
being normally formed of light materials, can be of large 10 dimensions to cover, in one step, a large expanse of structural surface.
When an' open cellular board is used, it is preferred to have attached to the second major surface (5) which is oppositefte adhesive layer a fibrous cloth or mat 15 (11) formed from woven or non-woven organic or inorganic natural or synthetic fibers. The cloth or mat should have a porosity smaller than that of the. porous board and' sufficient to inhibit intrusion of dirt and gravel particles into the pores of the barrier's board. The mat or cloth : ' 20 can be adhered to the board in known manner, as by heat bonding of thermoplastic materials (where.appropriate) or -.'. by aid of a mastic.
The open cell porous board (2) is securely adhered, to a preformed adhesive non-porous sheet material (7) such; 25 as a preformed adhesive "bituminous sheet material to form a barrier of the present invention. This barrier forms a water drainage enhancer/waterproofing barrier which can be readily applied to structural surfaces such as foundation
walls-and exterior walls to provide a one step installation 30 means.
Similarly, the closed cell porous board is securely self-adhered to a non-porous adhesive sheet material (7) suchas a preformed adhesive bituminous sheet material to '.produce a barrier of - the "present invention. This 35 barrier forms an insulation/water proofing barrier which can
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. - be readily "applied -to"..'roof- 'decks' "to 'form;;an.::upside-down •• type of roof construction or to vertical walls, such as foundation walls and exterior walls, to provide a one step''.; -installation of : a waterproofing barrier and to provide
insulation capacity to: the wall structure.
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is directly adhered to the porous board. (2). The adhesive, sheet will be described herein in terms of the preferred material, an adhesive bituminous membrane. The adhesive \ 10 bituminous membrane cam be formed - from any bituminous ■ : .material which has adhesive -properties at least with . respect to each of' its major surfaces. The terms "bituminous1 and "bituminous composition" mean compositions formed from a bitumen, asphalt, tar or pitch base. Sheet products which
'have adhesive-properties -are known- and 'are, formed from.:: blends of bituminous material and a.natural or/and synthetic rubber or resin. These blends can be formed with a natural or synthetic rubber which is virgin or reclaimed to provide a.smooth mix. "The synthetic rubber can be, for example, styrene-butadiene rubber (SBR) , -acrylonitr ile-butadiene " r ubber " (NBR)~y- chloroprene ruDber -: (CR) ,. isoprene rubber (IR) , butyl rubber (IIR) , ana the like.. The ratio by weight of bituminous material to rubber is generally from about 80:20 up to about 95:5 and preferably from about 85:15 to 95:5. Generally, suitable compositions have a softening point (Ring and Ball method) of 60° to 140° C. and preferably 60® to 110° C. arid a penetration value of 50-to 400, preferably 150 to 300 at 25° C. (100 g. 5 sec. - I.P. method).
The preformed adhesive, sheet material suitable for use in the present invention can. have a laminate structure formed from a multiple of layers provided that the laminae forming each of the major surfaces of the sheet product is formed of an adhesive composition. Further, the adhesive bituminous sheet formed from a single or multiple layers, as described above, can have embedded therein a web or cloth formed from a woven or non-woven organic or inorganic, natural or synthetic fibers (staple or continuous filament) such as glass, hessian, cotton, or synthetic polymers, polyolefins, polyamides, polyesters (polyethylene terephthalate), polyurethane and the like. The web or fibrous cloth should be of a thickness not greater than about half, preferably less than one quarter the thickness of the bituminous sheet material (7).
The bituminous sheet has two major surfaces and edges which define its dimensions. The sheet should be at least 0.01 inch (0.025 cm) thick, preferably 0.025 to 0.2 inch
(0.063 to 0.5 cm) . The" thicker the bituminous sheet the better the waterproofing effect but, in general, a sheet of from 0.025 to 0.15 inch (0.063 to 0.4 cm) thick is • satisfactory for most application - • — - v
- The sheet's first major surface (8). is super imposed on ~ and at least coextensive with the/first major surface (4) of the porous board (2). The sheet (7).is in direct contact with the porous board (2) and the adhesive properties of the first major surface (8) of the sheet causes the composite to be a unitary structure.
The barrier can be stored, transported and sold with a protective sheet coating (10) coextensive and congruent with the second major surface (9) of its adhesive
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bituminous sheet to aid in handling. This surface will, upon removal of the protective coating at the construction site, be applied' to the structural surface to be sealed. The protective coating (10) is in the form of a sheet product such as siliconized paper, cloth, polymer film or the like sheet product treated with a release agent so that it is substantially non-adherent with respect to the adhesive sheet's second major surface (9) ("substantially non-adherent" means herein and. in the appended claims to be readily removable from the adhesive sheet's second major surface without causing damage). 'The release agent used in conjunction with the coating sheet can be any commercial release agent such as a dispersion of a silicon compound, for example , a dispersion of poly (dimethyl.... siloxane).
Alternately, as shown in Figure 2B the subject barrier (1) can be stored, transported and sold with a coating (11C) of a film of a release agent directly applied such as by spraying, brushing or the like to the free surface (5) (the second major surface) of the porous
board or to the fibrous cloth (11) which is adhered to the _ second major surface (5) which is applied to aid in ..inhibiting plugging of" the pores by foreign matter. The /. film can be very thin and .normally, need not. be greater • 5 than about 5 mils thic'kr'"jrGreate"r;:thiclt.ness; may-be applied but normally does not add to' the non-adherent properties. - -The second major surface (9) of the adhesive sheet (7) is thus free for ready application to the construction surface. The release agent can, as above, be any 10 conventional release agent capable of rendering the -surface substantially non-adherent with respect to the adhesive sheet's second major surface, such as a dispersion of a silicon-*compound, as for example, a dispersion of poly (dimethyl siloxane) or the like. When 15 the subject barrier (1) is treated with release agent (11C) on the second major surface (5) of its porous board (2), or on the fibrous coating, the barrier can be stored, transported and sold without problem by stacking the barriers so that the adhesive bituminous sheet of one 20 barrier is coextensive and congruent with the release coating on the porous board free surface of another barrier which in turn is coextensive and congruent to still another barrier in the same manner. The bottom - element of ...the stack should be a release coating treated 25 board or the like without a membrane. The protective coating (11C) is an integral part of the barrier and need not be removed and disposed of at the construction site. The barriers can.be. each removed from the storage stack and directly applied to the structural surface to be 30 sealed.
The adhesive bituminous sheet (7) has dimensions of .length and breath defined.by its edges (12). The sheet may be of a dimension such that it is coextensive and
congruent'with that of the porous board - (2) with which it forms a composite barrier (1) as shown in Figure 1.
. Figure 3', "illustrates a-variation wherein the sheet has dimensions such that it covers~all rof one surface of 5 the porous" board and -extendswith; respect to at least two • edges, beyond that of the coordinate (spacially close and . substantially parallel) edges of the porous board. In this manner the "sheet shall have an overhang with respect to at least two edges and thus provide a means for lOoverlapping at the junctures of the applied barriers over the entire expartse of the structural surface. The two extended edges (12A) of the sheet of any one barrier board can be adjacent edges, "that is edges which meet at one corner area (13) of the barrier. Alternately, (not shown) 15 the extended edges can be parallel to each other (for example, on opposite sides of a quadrilateral parallelogram) or the sheet edges can -extend on all sides with respect to the porous board of the barrier.
The extended portions of a bituminous sheet of any one 20barrier will have the associated extended portion (8A) of its first major surface exposed. To aid in handling during storage, transportation, etc. this exposed portion (8A) of the first major surface should be covered with a coating sheet (14) similar to that described above 25with respect to the coating sheet (10) for the membrane's second major surface (9). The coating (14) should be treated with a release agent, as described above, to - permit its ready removal. This release agent should,
preferably, impart non-adherentproperties to a lesser 30degree in comparision to that used on the protective coating for the membrane's second major surface. Such agent could be, for example, a modified poly (dimethyl siloxane) having a fraction of the methyl groups-replaced by hydrogen, a higher alkyl or a phenyl group.
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When the barrier is supplied■with a protective v " " - ■ - - coating (11C) as an integral part "of the second-major - surface (5) of the porous board (2) and_ the barrier is of a configuration having extended portions (8A) of .-..-4'— 5. .its bituminous, .sheet-, the protective coating, should
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1 which covers the exposed portion. (8A) *of the first : •
. - major surface of the adhesive bituminous sheet. -In ; -
: 10 j^this "manner the extended portion of /'.thebituminous ;
• sheet can drape downwards over the edge surface and even (depending on its dimensions) the protected surface ... " of extended bituminous sheets of lower barriers in a f~~^) stack of barriers during storage, etc- The extended,free
surface of bituminous sheet component of any one barrier will only be in contact with a protective coating (i.e. a release agent coating) providing protection during storage, transportation, etc., providing ready separation and removal of any one barrier from the 20 storage stack and providing ready application without -..requiring removal and disposal of large quantities of ...protective sheet product.
.. .. The adhesive bituminous sheet of the barrier can extend beyond the porous board for about 1 to about . 25 10 inches (2.5 to 25 cms) or more,: preferably from 2 to 8 inches (5 to 20 cms) to permit- overlapping with a sheet of the next applied barrier and to permit extended adhesive to adhesive contact to assure forming a secure watertight seal.
The application of the subject barrier can be readily "done without the need for extensive labour or the use of extensive equipment and material as is normally required in applying a composite roof or wall ... structure.
' - Figures 4, 4A, and 4B and "4C illustrate a •
... second embodiment of - the subject barrier in which the porous -
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. - board component has spaced continuous channels. (15) on its surface 5.' It is preferred that the cellular' ...
structure (3) be of a closed cellular configuration to ; provide, a barrier suitable to provide a combination of 5 waterproofing, insulation and drainage means. ..Figure 4,_ 4A, -4B and 4C of a. second embodiment of the"barrier -\".r ■ correspond .to ;Figures 1, -2i 2B and - 3,
respectively. Elements 1 to 14 are essentially as ^escr.ibedjabove with respect to "Figures 1, 2 and 3... " 10 The second major surface (5) of porous board (2) has;
spaced, open, continuous channels (15) embedded therein. The channels can form any pattern provided that there is at least one open continuous channel path from any point of any one channel which is" provided for by the single 15 channel or through a route .formed by a combination of channels which terminates at each of at least two opposite edges (6) of the porous board (2). Such barriers should be applied to the structural surface so that one of the edges at which the majority of the open channels terminate 20 is orientated at the lowest part of the barrier. It is preferred that there are open continuous channel paths from any point of any one cnannel which terminates at each of the edges of the porous board. With this preferred mode, the barrier can be applied to structural walls in 25 any orientation (sideways or up and down) and readily present an open continuous downwards path by which water can be readily removed. The channels (15) shown in Figure 4 are a series of parallel spaced channels orientated at a diagonal with respect to the edges (6) of 30 the porous board (2) and a second series of parallel spaced channels oriented at a diagonal with respect to the edges (6) of porous board (2) and also oriented at substantially right angle to the first series of
channels. The channels thus form a criss-cross pattern permitting one to follow a path from any point of each channel to each of the four edges. Alternately, each series of channels can be- orient'edjsubstahtially 'parallel -5 to. at least-one "edge -of - the porous board Other patterns can be used. The main criteria with respect to channel : pattern and configuration is that there be at least one. open, continuous channel path from that channel point to the bottom or lowest edge of the porous board when its ' 10 barrier is applied to a structural" wall.
The term "open" as used in the present specification and appended claims when referring to channel
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configuration means that each channel opens out along its whole length onto one major surface of the porous board 15 thus providing a groove in the major surface. The term "continuous" as used in the present specification and appended claims means a continuous, non-segmented channel from one end to the other capable of having a continuous path to provide a descending egress means (alone or in 20 combination with other channels) when the barrier is in a vertical use position.
The channels shall be spaced from each other over, the majority of the major surface upon which they open to thus provide a porous body of maximum thickness over the major 25 portion of the structural surface to which the barrier is applied. The ratio of the channel depth (16) to thickness of the porous board (17) should be such as to (a) provide a ready egress means for water entering the channel under, contemplated use conditions and (b) retain sufficient 30 porous board beneath each channel to sustain board strength. The ratio is normally from,about 0.1 to 0.75 with from 0.25 to 0.6 being preferred. Normally, thicker boards can accommodate higher channel.depth to board
thickness ratios. The width of each channel can be from "'""about 0.5 to "5 times-its depth- thought-higher—or . lower_. , values can be used. ■. -
Channels of a depth greater than normally tolerable .5 with respect to such porous boards can.be formed' m boards .used in the subject barrier. -Although each channel forms Ha line of weakness with respect- to the boards flexural :; strength, such weakness is overcome and the strength enhanced by the overall laminate structure of the 10 barrier. Further, once applied to a structural wall the barrier has enhanced strength even under great loads and the channels permit the subject barrier to conform to any small curvatures or irregularities in the surface of the structural wall to which it.is applied.
Figure 4A is a cut-away perspective view of the subject barrier (1) in which the second major surface (5) and its open channels (10) are covered with a fibrous cloth or mat coating (11). The coating (11) is formed from woven or non-woven organic or inorganic natural or 20 synthetic fibers. The fibers can be formed from any one of the materials described above with respect to the mat embedded in the sheet and as described above for fibrous coating. The cloth or mat should preferably have a porosity "sufficiently small,such as equivalent to 25 about 50 U.S. Standard Mesh or smaller, to inhibit intrusion of dirt and gravel particles into the channels (15) of the barrier's board (2). The mat or cloth can be adhered to the board in known manner, as by heat bonding of thermoplastic materials (where 30 appropriate) or by aid of a mastic.
The barrier (1) is thus a unitary structure in which the porous board's first major surface (4) is in contact and adhered to the first major surface (8) of the preformed adhesive sheet and .the porous board 's second
major surface (5) is in contactand "adhered "to "a "'woven or non-woven fibrous coating (11). . .
. When the structural ..surface has been treated for ' * moisture "proofing by" some .conventional; means / .such as - ■ .5".parging'with ran. asphaltic -^composition .' or. painted", with a '> "waterproofing compo sitiori^the "subject barrier. ^(1) can be . used without" the prefoinned', non-porous- adhesive sheet (7) . The barrier (1) (not shown) would:comprise a porous board ..(2) having spaced," open, continuous channels (10) on at 10 least the board's second major surface (5) which surface is covered with a fibrous cloth or 'mat; (13) / '/This barrier could provide a combination insulation and drainage means when positioned adjacent structural surfaces.
Figure 4b depicts the subject barrier in a 15 preferred mode with a fibrous cloth (11) adhered to the . second major surface (5) of board (2) with a coating (11C). thereon of a non-adherent composition with respect to the adhesive sheet (7) such as of a release agent as described above. The coating (11C) is a film of release agent 20 containing composition applied directly to (11) by conventional application such as by spraying, brushing; / or the like. When the fibrous cloth (11) has porosity which exposes a portion of surface (5), the coating (11C), as applied, is a film over the combination of (5) and (11). 25 The adhesive"bituminous sheet (7) may be of a dimension such that it is coextensive and congruent with that of
■ •the porous board (2) with which it forms a composite barrier (1) as shown in Figure 4 and V; 4A . The' sheet . (7) . may have .dimensions such that-it . -extends beyond' at least-one of the"edges of porous 5"/'board(2) similar " to", that -described"hereinabove. with ; * respect' to Figure 3. It "is preferred, When"using the .. . barrier of"this "second embodiment as a drainage means on subterranean structural walls to.have an extended edge 12A on only one side, which corresponds to the length of (longer side) the barrier. In this manner the sheet shall have an overhang with respect to at least one edge and thus provide a means for overlapping at the junctures of the applied barriers ovec the entire expanse of the structural surface. - The extending edge 12A of sheet 7 should preferably be with respect to the longer or major edge of the barrier. Normally,.the barrier will have a length sufficient to cover the entire height of the structural surface. Placement of the barrier of Figure 4C onto a structural surface with the extended sheet vertically orientated permits, overlapping of the adhesive . sheet with the adhesive sheet of the adjacent barrier to insure waterproof seams.
Figures 5A, 5B and 5C show some of the various alternative patterns which channels (10) can form on the! surface of porous board (2). Each of the channel patterns forms an open,, continuous channel network to present a ready downward egress means for carrying liquid (water) away from the structural surface. Figure 5A illustrates a channel pattern formed by two sets of spaced channels (a ~ set of horizontal spaced channels (16) and a set of vertical spaced channels (17)) which are orientated perpendicular to each other and each set is substantially parallel to a pair of opposite edges of the porous board.
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It is readily seen that one can locate a continuous channel egress from substantially any part of each channel to the "bottomj.pf. the .board. . For example, from point A of :: . " channel 16' .one could trace a horizontal'path to point B .. .
'"5 at the conjunction of channels' 16' and 17 '-and then a ..;. - ^ vertical path to point C. Figure 5B illustrates a channel ^ . pattern formed by two.sets of spaced channels, each set.
being perpendicular to the other and diagonal ,with respect":: to the vertical edges of the porous board. Here again one ; j.0 , can trace a continuous channel egress path from substantially any part of each channel to the bottom of the board. For example, from point D of channel 18 one can form a path (shown by dash lines) among several of the channels of the two sets of channels to arrive at the 15 bottom egress point E. The diagonal pattern permits the liquid to cascade downward and away from the barrier and . ~structural surface it protects and, therefore, is a preferred configuration. Figure 5C is of a similar -channel pattern to that of Figure 5B except that one 20 diagonal set of channels (18) is located on and open to one' major surface of board (2) and the other diagonal set of channels (19) is located on and open to the second major surface of board (2). When channels are located on oppos ite sides of board (2) the channels should be of a 25 depth of greater than half, preferably from 0.51 to 0.75, the thickness of board (2) and be of a pattern such that " each channel on the board's first surface crosses over at ' ~ least one channel, on the board's second surface to thus form an opening (20) between channels 18 and 19 at the 30 points where the channels cross. Such a pattern permits the formation of more channels per board without detracting" from the strength of the composite barrier.
■ Referring to Figure 6 when -the-barrier is ■
supplied in 'the form of a' bituminous sheet and porous board which are coextensive as shown in Figure 2 and 2A, it is 'appliea to the surface (23) of: the structure to_ be -5 protected after- removing the' protective icoating (10). In ■ the same maimer" - the protective - coating on the' sheet of another barrier (l1) is removed to expose its adhesive sheet,..and this barrier is positioned and applied to . ,-r : the'structural surface adjacent the previously applied 10 barrier/ The steps are repeated until the entire surface is covered. :The barriers are placed adjacent to and in contact with previously layed barriers. Such placement of barriers formed causes each of the edge surfaces (12) to butt up against an adjacent edge ; surface (12). Due to 15 the adhesive property of each sheet and the ability to flow to a small.degree even under ambient temperatures, / the abutting edges will self-adhere , form a water-tight / seal and form a unitary waterproofing.membrane structure over the entire structural surface to which it is applied. 20 Referring to Figure 8, the barriers which have two adjacent edges of the sheet extended beyond the porous board as in Figure 3 can be applied to structural surfaces in a manner to cause overlapped seams. Such barriers are applied in the same manner as described above, followed by . 25 removing the protective coating (14) from the extended first major surfaces (8A). One then applies a second barrier (11 ) to the exposed extended first surface (8A) of the sheet (7) of the first barrier (1) and to the adjacent • - .structural - surface so that the porous boards of the first 30 and second barriers are adjacent.to and in contact with each other at seam 18, and so that the /sheet (7") of the second barrier (l1) is adjacent to the porous board (2) of the first barrier (1) at seam 26. The sheets of the first and second barriers will thereby, overlap. The _;T -35 protective. coating of the extended portion of the first
surface of the'-second barrier.' s'-sheet- component .is .removed.. The process is repeated until the surface of .the structure, to be protected is covered. This provides overlap seams betv/een each of the applied barrier sheet components with 5 extended adhesive to adhesive contact to assure waterproof . seair.s. and form 'a unitary membrane-.structure.',.
The barrier of this embodiment can be applied to ... form a substantially flat total structure if the porous... "board of the barrier has edge ' areas (19' ) in which it is ' : 10 less thick. In other words, in: ari area extending for a' . distance aboiit equal to or greater than the extended sheet width dimension, 'as from about 1 to 10 inches. (2.5 to 25ams), from any of the porous board's edges not associated with an extended membrane portion, the second major surface (5') 15 of the porous board is substantially planar but the .first surface is stepped to be in closer spacial relationship at the edge porticn (191 ) than otherwise. This will forrr. an indenture (preferably about equal to the thickness of a sheet component of the barrier' used) to accommodate the 2 0 overlap of the two sheets.
Figure 7 illustrates a typical application of the barrier of the type illustrated by.Figure he, to a structural surface, such as a foundation wall (22). The barrier (1) is placed on the exterior surface (23) of wall 22 with the 25 adhesive sheet (7) of the barrier in contact with "surface (23). The sheets (7) of all of the applied barriers together form a waterproofing coating to the wall, while the porous boards form an exterior•insulation. The exterior surface (adjacent backfill) of the barriers 30 provides, via the grooves (15), drainage and removal of any water forming adjacent to the wall, and prevents buildup of hydrostatic pressure. The water drains to the . bottom of ..the barrier which _is in contact with the base of the wall and where a small amount of gravel (2b) and drain-35 age pipe (25) is placed in conventional manner to carry water away.
Figures 6A and 8a are cross-sectional views of barriers having channels in the porous body surface as applied to structural surfaces as in Figure 7 with the interior surface: being the .lower surface of each figure. 5 Referring first -to Figure 6A-, a barrier having a bituminous ■."-'sheet .and porous board which' aire coextensive "as' '"shown" in,..-Figure :4a is'applied of'the.' structure.
(22) in just the same"-'way" " as'the" barriers shown in . ' Figure 6. ' •:
Any water, collecting adjacent to the wall'
(adjacent coating 11) will.be removed by the channels 15 to prevent the formation of hydrostatic pressure.and .associated damage.
Figure 8A is a -cross-sectional view of the barrier 15-of Figure , with an additional preferred variation,
applied to a surface 23 of structural wall 22. It.is applied in the same way as the barriers of Figure 8 and .: also has the same preferred edge region 19' where the porous board'has lesser thickness as is described above' 20 in connection with Figure 8. -
The barrier may have adhesive sheets, extending beyond the board edges on opposite sides ,or.on all sides. \ They can then be positioned so that one of its sheet's ; extended edges is up to the.porous board of.the previous 25 barrier and so that there is an'overlap seam. The exposed overlap seams can then be covered with filler sections formed from porous board of the same or similar type used to form the barrier. The filler sections should be of a thickness approximately equal to the thickness of the 30 barrier less twice the thickness of the barrier's sheet component. Alternatively, certain filler sections of any one barrier can be supplied as part of a barrier temporarily adhered to half of the extended sheet surfaces. These . sections thereby act as ; a guide to aid in applying the 35 barrier-to adjacent barriers of proper spacing. Each
_ •'«
i-;-.
/' >:■ '
-C" --'A--J">i:
""filler section can be removed to perrr.it rolling of .the .... • overlap adhesive" "sheets to ensure forming, of. a watertight seal therebetween and.then replaced in the vacant space. ::--_ ;;^The -temporary ...adhesion_of -each filler section' to the ' '5 'extended sheet can-be done by applying a release film to
_the/surf ace of' 'the.' filler sectibhrinitially-in,,cohtact with ~ the adhesive membrane and-then reapplying -the, filler7 .. section with '.the release film treated surface away from, the sheet membrane. Other methods ; can be readily determined. 10 The resultant structure will thereby be substantially flat.
'n
Claims (4)
- 206839^ WHAT IS CLAIMED 1. A preformed sheet-like barrier characterized by a unitary structure formed of: (a) a porous, cellular, substantially planar board having a first and a second major surface and edges defining the dimensions of said structure; (b) a non-porous adhesive bituminous sheet having a first and a second major surface and edges defining said sheet wherein the first major surface of said sheet is in contact with and self adhered to the substantial entire first major surface of said porous board; and (c) a coating which is substantially non-adherent with respect to said adhesive bituminous sheet, said coating being a removable sheet which is substantially coextensive and congruent with the second major surface of the adhesive bituminous sheet or said coating being a removable film of substantially non-adherent material applied to at;, least the substantial entire second major surface of said adhesive bituminous sheet.
- 2. A barrier according to claim 1 characterised in that the pores in the board (a) are closed pores.
- 3. A barrier according to claim 1 characterised in that the pores in the board (a) are open interconnected pores.
- 4. The barrier of claim 3 wherein the second major surface of said porous open-celled board is substantially completely covered with a fibrous cloth or mat. c •5S-2U 206639 i D ''Vv 5. A barrier according to claim 2 characterized by board (a) having on at least its second major surface a plurality of spaced, open, continuous channels and having a fiborous cloth or mat covering the second major surface. 6. The barrier of claim 2 or 3 characterised by the major surface of the adhesive sheet (b) being substantially coextensive and congruent with the first major surface of the porous board. 7. The barrier of claim 2 or 3 characterised by two of said edges of the adhesive (b) extend beyond the porous board edges, are in contact with each other at one corner section of said barrier and are substantially parallel to and substantially coextensive with said board edges. 8. The barrier of claim 5 characterised by the first major surface of the adhesive sheet being substantially coextensive and congruent with the first major surface of the porous board. 9. The barrier of claim 5 characterised by two of said edges of adhesive sheet (b) extend beyond the porous board edges, are in contact with each other at one corner section of said barrier and are substantially parallel to and substantially coextensive with said board edges. 10. The barrier of claim 8 characterised by the porous board has a plurality of spaced, open, continuous channels on its first major surface, each of said channels on the first and second surface having a channel depth greater than half the thickness of the porous board. , - ,-: r,:- ^ er i v- . -%?- 206639 11. The barrier of claim 9 characterised by the porous board has a plurality of spaced, open, continuous channels on its first major surface, each of said channels on the first and second surface having a channel depth greater than half the thickness of the porous board and each channel on the board's first surface crossing over at least one channel on the board's second surface. | 12. A barrier according to claim 7,9, or 11 characterised in that, at edges of the board opposite those edges at which the adhesive sheet extends beyond the board, the board is of reduced thickness at an edge area while having a planar face opposite the face on which the adhesive sheet is applied, so as to allow provision of a smooth surface when plurality of boards are laid adjacent one another with the extension of the adhesive sheet of one board underlying the next board. 13. The barrier of claim 12 characterised by the adhesive sheet has embedded therein a woven or non-woven fibrous cloth or web. i str (B) (C) 14. A process of forming a barrier construction on uctural surface characterised by: (A) transporting barriers to a structural surface to be covered, each of said barriers being defined by claims 1, 2,3, 4, 5, 6, 8 or 10; removing the non-adherent coating from the_ second: major surface of the adhesive sheetof a first', barrier; positioning and applying the first barrier onto a structural surface to cause the adhesive sheet's second major surface to be in contact with a portion of the structural surface; removing the non-adherent coating from the second' major surface of the adhesive sheet of a second barrier; positioning and applying the second barrier onto the structural surface adjacent to that of a previously applied barrier in a manner -2^ - 20663§ such that the adhesive sheet of the second barrier is adjacent to the porous board of the previously applied barrier; and (F). repeating Steps (D) and (E) until the structural surface is covered. lb. A process for forming a barrier construction on a structural surface characterised by: (A) transporting'barriers to a structural surface to be covered, each of said barriers being defined by claim 7, 9, 12 or 13; (B) removing the non-adherent' • coating from the second major surface of the adhesive sheet of a first barrier; (C) positioning and applying the first barrier onto a structural surface to cause the adhesive sheet's second major surface to be in contact with a portion of the structural surface; (D) removing a protective coating from the extended portion of the first major surface of the first barrier's adhesive sheet; (E) removing the non-adherent coating from"the second; major surface of the adhesive sheet of a second-barrier; (F) positioning and applying the second barrier onto the structural surface adjacent to that of a previously applied barrier in a manner such that a portion of the second major surface of the adhesive sheet of the second barrier is superimposed on a portion of the extended first surface of the adhesive sheet of the previously applied barrier and the second barrier's porous board is adjacent to the previously appled barrier porous board; and (G) repeating Steps (D) , (E) , and .(F) until th structural surface is covered. I" -2q- 206639 16. A barrier as claimed in any one of claims 1 to 13 substantially as hereinbefore described with reference to the accompanying drawings. 17. A process as claimed in claim 15 when performed substantially as hereinbefore described with reference to any of the accompanying drawings. 18. A barrier construction ori a structural surface prepared by a process as claimed in claim 15 or 17. daitdthlsy" day OF |,^ A. J. PARK & SON PER \f^7/^TAAS^y^~ agents for the applicants
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NZ20663983A NZ206639A (en) | 1983-12-20 | 1983-12-20 | Bitumen covered cellular panel with removable film |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NZ20663983A NZ206639A (en) | 1983-12-20 | 1983-12-20 | Bitumen covered cellular panel with removable film |
Publications (1)
Publication Number | Publication Date |
---|---|
NZ206639A true NZ206639A (en) | 1987-02-20 |
Family
ID=19920624
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
NZ20663983A NZ206639A (en) | 1983-12-20 | 1983-12-20 | Bitumen covered cellular panel with removable film |
Country Status (1)
Country | Link |
---|---|
NZ (1) | NZ206639A (en) |
-
1983
- 1983-12-20 NZ NZ20663983A patent/NZ206639A/en unknown
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