CA1248321A - Roofing plate, a proofing strip for a roofing plate, and a method of producing a roofing plate - Google Patents

Roofing plate, a proofing strip for a roofing plate, and a method of producing a roofing plate

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Publication number
CA1248321A
CA1248321A CA000483356A CA483356A CA1248321A CA 1248321 A CA1248321 A CA 1248321A CA 000483356 A CA000483356 A CA 000483356A CA 483356 A CA483356 A CA 483356A CA 1248321 A CA1248321 A CA 1248321A
Authority
CA
Canada
Prior art keywords
plate
roofing
roofing plate
proofing
strip
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
CA000483356A
Other languages
French (fr)
Inventor
Verner Leth
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Dansk Eternit Fabrik AS
Original Assignee
Dansk Eternit Fabrik AS
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Filing date
Publication date
Application filed by Dansk Eternit Fabrik AS filed Critical Dansk Eternit Fabrik AS
Priority to CA000483356A priority Critical patent/CA1248321A/en
Application granted granted Critical
Publication of CA1248321A publication Critical patent/CA1248321A/en
Expired legal-status Critical Current

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Abstract

ABSTRACT

A roofing plate (10), such as a corrugated, interlocking tile, is at its upper side surface provided with a proofing strip (27) arranged extending across the corrugations of the roofing plate at the upper edge thereof. The proofing strip (27) is constituted by a strip of upright synthetic fibres, such as a combination of polyamide fibres of a length of 3 mm and of a length of 5 mm and of thickness of 0.05 mm (22 dtex). The strip (27) is adapted to provide a barrier when it is clamped between the upper side surface of the roofing plate and the lower side surface of an adjacent roofing plate, and the barrier permits the passage of air from the inside of a loft defined below the roofing plates and out and from the outside and into the loft and further permits the passage of water from the inside of the loft and out, and blocks the passage of water and dust from the outside and into the loft. A further proofing strip (29) may be arranged along one of the edges of the roofing plate extending along the corrugations thereof.

The proofing strip (27) may be provided as a single component adapted to be arranged on the upper or lower side surface of a roofing plate prior to the arrangement of the roofing plate overlap-ping another roofing plate on the roof and may comprise a base layer having a glue layer and a slip paper, if desired.

The proofing strip (27) may be applied to the roofing plate (10) in an electrostatical application process (Flock application) and retained in a glue layer of the roofing plate. (Fig. 1).

Description

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A ROOFING PLATE, A PROOFING STRIP FOR A ROOFING PLATE, AND A METHOD OF PRODUCING A RC)OFING PLATE

The present invention re1ates to a roofing plate having opposite side 5 surfaces and comprising at least one proofing strip arranged on at least one side surface of the roofing plate and extending thereacross.

It is generally known to mount roofing plates, e.g. plates of metal, plastics, slate, fibrous cement or a similar material or tiles, parti-cularly tiles made from concrete, clay or fibrous cement, on a roof 10 construction made from rafters, especially wood rafters, the roofing plates being arranged in an overlapping relationship in such a way that one roofing plate overlaps an adjacent roofing plate. Normally, the roof construction on which the roofing pl~tes are mounted, has a pitch so that the roofing plates are arranged in such a way that one 15 roofing plate overlaps a lower roofing plate. By this pitch snow and water do not collect on the upper surface of the roofing plates, but run down the sloping roof surfaces of the roof construction owing to the effect of gravity.

Hitherto, in connection with tiled roofs, i.e., roofs made from tiles of 20 concrete, clay or fibrous cement, the transitions between the indivi-dual roofing plates of the roof have most often been proofed by pointing, e.g. by putty or filler material, particularly a foamed filler material, e.g. polyurethane foam, being mounted in the gaps between the roofing plates from the inside of the loft under the roof. It is 25 further known to use proofing strips for proofing the gaps between the individual roofing plates of the roof, as well as to mount a so-called roofing underlay, e.g. of cardboard or plastics material, under the roof rafters to produce a substantially hermetic seal of the loft in relation to the environment.

30 These known roof proofing methods, however, suffer from a number of disadvantages. Thus, pointing of a tiled roof is both a difficult P~V F3764 JB F3764/HSN/lPkb 19~4 09 14 3~

and a timeconsuming operation, and particularly when foamed filler material, e.g. polyurethane foam, is used, the connection between the individual roofing plates of the roof tends to yive leaks after a fairly short time, primarily due to the influence of frost and thaw. It has 5 also proved difficult to establish a weatherproof connection with long term stability between roofing plates by the use of known proofing strips .

A disadvantage of the roof proofing methods of the known art is, however, that the provision of a hermetic sealing of the roof in 10 relation to the environment causes formation of condensed water in the loft under the roof, and the formation of condensed water in-volves a risk of rot or dry rot occurring in the wood construction of the roof. The reason for the occurrence of this problem is first of all the hermetic sealing of the roof in relation to the environment, but 15 the problem has obviously become more pronounced in later years, after the houses have become better insulated. Previously, hsat leaks to the loft caused a suction effect providing ventilation away of the humid air before it condensed on the bottom surface of the roofing plates of the roof. Although, to obtain a certain venting of the loft, 20 venting ducts, particulariy in the form of venting roofing plates, have been provided in connection with the known roof constructions, but it has turned out that these venting ducts have not been able to compensate sufficiently for the increased risk of formation of conden-sed water as a result of the more efficient thermal insulation, and at 25 the same time been able to provide the required proofing of the inside of the roof against rain, snow and dust from the outside.

It is thus an object of the present invention to provide a roofing plate of the above type which renders possible a labour-saving mount-ing of roofing plates on a roof as well as eliminates the above disad-30 vantages with regard to the formation of condensed water and anyconsequent rot or dry rot attacks on the wood construction of the roof .

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According to the presant invention ther0 is provided a corrugated interlocking tile roofing plate having opposite side surfaces and comprising proofing strip means on at least one of said surfaces and extending thereacross for providing a substantially watex impervious barrier while generally providing an air and humidity permeable passageway, said plate being adapted to be arranged on a roof partly overlapping and partly being overlapped by adjacent roofing plates, said roof defining an attic thereunder, and said proofing strip means including a strip of upright synthetic fibres located on said plate on regions thereof which are overlapped by adjacent plates to provide a fibrous barrier between said side surface of said roofing plate and the opposite side surface of one of said adjacent roofing plates which permits the passage of air in and out of said attic and further permits the passage of humidity to escape to outside said attic but substantially blocks the passage of water and dust from the outside from coming into said attic when said strip of upright synthetic fibres is situated in abutment with said adjacent plate.

Thus, the roofing plate according to the invention to a great extent eliminates the use of separate venting ducts which, as mentioned above, have proved not to be sufficiently efficient, and at the same time eliminates the risk of rot or dry rot attacks on the wood construction of the roof as a result of the barrisr forming effect of the proofing strip, which on one side provides the required venting of the loft and ont he other side prevents the ingress of water in the form of rain as well as snow, and dust from the outside.
The mounting of the roofing , 3a plate of the invention on a roof further eliminates the necessity of establishing a roofing underlay or of subse~uent pointing such as has hitherto been necessary particularly in connection with tiled roofs.
In a preferred embodiment of the invention, the proofing strip is constituted by a strip of upright synthetic fibres, e.g. fibres of plastics, polyamides, polyester, etc. The synthetic fibres permit displacement of the roofing plates in relation to each other as a result of thermal expansion of the roofing plates and of the underlying wood construction, and simultaneously form the barrier characteristic for the invention.
Dependent on the material of the roofing plate and of the free distance between the roofing plates when they are mounted on a roof, the sunthetic fibres may have a free length of about 1-30mm, preferably about 3-8 mm. Dependent on the ' '`'" " . ' ' :~Z~8~

fibre length the synthetic fibres may have a thickness of about 0.01-0.5 mm, preferably about 0.05 mm. Normally, the characteristics of the synthetic fibres are specified in units of dtex, i.e. the weight in grams of a predetermined length, e.g. 10.000 m, of the fibre is 5 specified. Obviously the fibre thickness and the fibre length must be adapted to each other in such a way that the resulting synthetic fibre has sufficient mechanical strength to provide a mechanically stable proofing strip. To increase the barrier forming effect of the proofing strip, the synthetic fibres thereof may form a maze pattern. Alter-10 natively, the proofing strip may be composed of fibres of differentlengths and/or of different thicknesses.

In another embodiment of the roofing plate according to the invention the proofing strip is constituted by knobs which are of a hydrophobic material and which form a maze pattern. Due to their hydrophobic 15 material, the knobs permit free passage of water, but the maze pat-tern of the knobs blocks the passage of water and dust f rom the outside into the loft.

In this embodiment of the roofing plate of the invention the knobs may be made of any hydrophobic material able to withstand the mech-20 anical loads due primarily to thermal influences, from the roofingplates of the roof, but in accordance with one embodiment of the roofing plate of the invention the knobs are latex knobs impregnated with silicone, The knobs which are made of a hydrophobic material and form a maze 25 pattern, must of course, like the above synthetic fibres, have a free height which corresponds substantially to the free distance between the roofing plates when they are mounted on a roof. In accordance with the invention the knobs may have a free height of about 1-30 mm, preferably about 3-15 mm, more preferably about 3-8 mm, thus 30 satisfying the requirement both to the mechanical strength and to the barrier effect characteristic for the invention.

Conventionally, the roofing plate is of a substantially rectangular configuration having pairs of opposite edges constituting vertical and P~V F3764 jB F376~/HSN/lPkb 1984 09 14 z~

horizontal edges of the plate when the plate is arranged on the roof.
In order to provide proofing of the loft in relation to the environment in accordance with the principles of the present invention, the proof-ing strip may extend along one of the horizontal edges of the plate.

5 In a first embodiment of the roofing plate of a substantially rectan-gular configuration and provided with the proofing strip extending along one of the horizontal edges of the plate, the proofing strip is arranged on the side surface of the plate constituting the upper side surface when the plate is arranged on the roof. Alternatively, the 10 proofing strip may be arranged on the side surface of the plate constituting the lower side surface when the plate is arranged on the roof .

Whereas the above described proofing strip extending along one of the horizontal edges of the plate provides proofing between a roofing 15 plate and another roofing plate arranged below or above the first mentioned roofing plate in the above described overlapping relation-ship, a further proofing strip arranged extending along one of the said vertical edges of the plate of a substantially rectangular con-figuration may further provide proofing between any two roofing 20 plates arranged horizontally beside each other on the roof. Although the further proofing strip may be arranged on the upper side surface or, alternatively, on the lower side surface of the roofing plate fulfilling the proofing requirernents in accordance with the teaching of the present invention, it is, however, from a productional point of 25 view, preferred to provide the proofing strip extending along said horizontal edge of the plate and the further proofing strip extending along one of said vertical edges of the plate on the same upper or, alternatively, lower side surface of the plate, as the proofing strips may be arranged on the roofing plate without providing access to 30 more than one of the side surfaces of the roofing plate, e.g. without turning the roofing plate upside down.

In an alternative embodiment of the roofing plate of a substantially rectangular configuration, a first proofing strip may be arranged on said upper side surface of the plate at the uppermost horizontal edge P~V F3764 jB F3764/HSN/l Pkb 1984 09 14 ., .
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thereof, and the second proofing strip may be arranged on said lower side surface of the plate at the lowermost horizontal edge thereof. Although this embodiment of the invention provides proofing in accordance with the teaching of the present invention, it suffers form the above described protectional drawback, viz. that proofing strips have to be arranged on opposite side surfaces of the roofing plated comprising a number of production steps involving tha provision of access from both side surfaces or turning the roofing plate upside down.
A further object of the present invention is to provide a proofing strip for use in connection with a roofing plate having opposite side surfaces and being adapted to be arranged on a roof partly overlapping an adjacent roofing plate and partly being overlapped by another adjacent roofing plate, which renders possible a labour-saving mounting of roofing plates on a roof and eliminates the above dascribed disadvantages with regard to the formation of condensed water and any consequent rot and dry rot attack on the wood construction of the roof.

In another aspect of the present invention there is provided a proofing strip for use in connection with a corrugated interlocking tile roofing plata ha~ing opposite side surfaces and being adapted to be arranged on a roof partly overlapping and partly being overlapped by adjacent roofing platas, said roof defining an attic thereunder, and said proofing strip comprising means for substantially blocking passage of water while permltting passage of air and humidity, said means including a base layer and a strip of synthetic fibres located on said plate in a region which is overlapped by ad~acent plates, said fibres standing upright form said base layer to provide a barrier which permits the passage of air in and out of said attic and further permits the passage of humidity from the inside to escape said attic but substantially blocks the passage of water and dust from the outside from coming into said attic when said proofing strip is clamped between opposite side surfaces of adjacent roofing plates.

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The proofing strip according to the invention may be shaped in accordance with any of the principles o~ the above embodiments of the roofing plate according to the invention and further cGmbined therewith, and may thus be constituted by a strip of synthetic fibres extending upright from the base layer, or by knobs placed on the base layer and being of a hydrophobic material and forming a maze pattern.
The invention further relates to methods of producing a roofing plate according to the present invention.
In another aspect of the present invention there is provided a method of producing a roofing plate including the steps of casting the plate in a mold with a groove, arranging a proofing strip in the groove in the mold, and filling the mold with hardening material.
Preferably, the synthetic fibres are transferred to an adhesive layer on the roofing plate and are retained on the roofing plate in the adhesive layer which is then cured.
When this method according to the invention is employed, the synthetic fibres may be transferred to the roofing plate in a simple mechanical way, e.g~ by so-called vibration application.
In accordance with a particular embodiment of the method according to the invention, the synthetic fibres are transferred to the adhesive layer in an electrostatically charged state of a high potential, and the adhesive layer is maintained at a .. - -- - - ~ :

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7a polarity opposite to the polarity of the fibres. The electrostatic charging of the fibres causes them to repel each other electrostatically, and consequently the fibres will arrange themselves standing substantially upright from the adhesive layer of the roofing plate.

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I n accordance with this aspect of the method of the present inven-tion, the adhesive layer may be a layer of glue. Consequently, the proofing strip formed by synthetic fibres may be provided on a roofing plate which is precast or prefabricated, the synthetic fibres 5 being glued to the roofing plate by means of a layer of glue applied thereto. This method may be carried out on a building site, if desired, so that prior to the mounting of the roofing plates on a roof, the roofing plates have a layer of glue applied and then a synthetic fibre proofing strip is applied electrostatically, whereafter 1Q the layer of glue is cured.

In accordance with a special embodiment of the method of the inven-tion, the roofing plate is of a curable material, and the synthetic fibres are transferred to the roofing plate before the latter is cured, and are retained in a surface layer of the roofing plate, said layer 15 constituting the adhesive layer. I n accordance with this embodiment, the synthetic fibres constituting the proofing strip according to the invention are cast into the material of the roofing plate itself, pro-viding a particularly simple method of production.

The invention will now be further described with reference to the 20 drawing, wherein Fig. 1 is a perspective view of a first, presently preferred embodi-ment of a roofing plate according to the invention having proofing strips according to the invention arranged on the upper side surface of the roofing plate, 25 Fig. 2 a vertical sectional view through the first embodiment of the roofing plate according to the invention shown in Fig. 1 arranged on a corresponding roofing plate mounted on a supporting wood rafter, Fig. 3 a perspective view corresponding to Fig. 1 of a second em-bodiment of a roofing plate according to the invention havlng proofing 30 strips according to the invention arranged on the lower side surface of the roofing plate, Fig. 4 a vertical, sectional view corresponding to Fig. 2 through the second embodiment of the roofing plate according to the invention shown in Fig. 3 arranged on a corresponding roofing plate mounted 35 on a supporting wood rafter, P~V F3764 jB F3764/HSN/lPkb 19~4 09 14 Fig. 5 a vertical sectional view through a slightly modified embodiment of the first embodiment of the roofing plate shown in Fig. 1 arranged on a corresponding roofing plate mounted on a supporting wood rafter, 5 Figs. 6, 7, 8 and 9 perspective views of a third, a fourth, a fifth and a sixth embodiment, respectively, of a roofing plate according to the invention having a proofing strip according to the invention arranged on the upper side surface of the roofing plate, Figs. 10 and 11 vertical, sectional views corresponding to Figs. 2, 4 10 and 5 of alternative embodiments of the second embodiment of the roofing plate shown in Figs. 3 and 4, Fig. 12 a sectional view at right angles to the vertical sectional view of Fig. 2, Fig. 13 a sectional view corresponding to Fig. 12 through the second 15 embodiment of the roofing plate shown in Figs. 3 and 4, Fig. 14, a sectional view corresponding to Figs. 12 and 13 through the fifth embodiment of the roofing plate according to the invention shown in Fig. 8, Figs. 15 and 16 schematical views illustrating production plants for 20 carrying out methods of producing roofing plates according to the invention in accordance with the teaching of the present invention, Fig. 17 a schematical top view of a production plant presently con-stituting the preferred embodiment for carrying out the presently preferred embodiment of the method of producing roofing plates 25 according to the invention, and Fig. 18 a diagram illustrating proofing characteristics of a conven-tional roofing plate and of the roofing plate according to the invention shown in Figs. 1 and 2.

In Figs. 1, 2, 3, 4 and 5, a roofing plate 10 is shown which is a 30 corrugated tile made from concrete, clay or fibrous cement. In Fig.
1, a first side surface is shown, viz. the side surface facing out wards from a roof, whereas in Fig. 3, the second side surface is shown, viz. the side surface facing towards a loft defined within or below the roof. It is to be understood that the terms indicating 35 directions, such as upper, lower, vertical, horizontal, etc. used in the present context, refer to the conventional orientation of the roofing plates or tiles when mounted on a roof supporting wood con-P~V F3764 jB F3764/HSN/lPkb 1984 U9 14 32~

struction of a predetermined pitch. As is evident from Fig. 3, thecorrugated roofing plate or tile 10 is provided with a bead 12 at its lower side surface and at its uppermost edge extending transversely across the corrugations. As is evident from Figs. 2, 4 and 5 the bead 5 12 is adapted to catch behind a supporting wood rafter 34, when the roofing plate or tile 10 is mounted on a bearing wood construction. At its lower side surface, and at the lowermost edge thereof, and oppo-site to the bead 12, the roofing plate 10 has three beads 18, 20 and 22 extending substantially across the corrugations and further two 10 grooves 24 and 26 defined between said three beads and also extend-ing substantially across the corrugations. The roofing plate or tile 10 is a so-called interlocking tile, i . e. it is provided with projections 14 and grooves 16 extending at the vertical outer edges of the tile along the corrugations thereof which are adapted to cooperate with corre-15 sponding grooves and projections, respectively, of an adjacent roofingplate or tile.

In the first, presently preferred embodiment of the roofing plate or tile according to the invention shown in Fig. 1, a first proofing strip 27 constituting a proofing strip according to the invention is arranged 20 on the upper side surface of the roofing plate or tile at the upper-most edge thereof and extending across the corrugations of the plate or tile. On top of the outermost bead 14 shown in the left hand side of Fig. 1, a second proofing strip 29 constituting a further proofing strip according to the invention is arranged and is provided with a 25 proofing strip extension 29a which is arranged at the vertical side surface of the roofing plate or tile at the lowermost edge thereof. The proofing strip extension 29a is adapted to cooperate with one or more of the left hand ends of the beads 18, 20 and 22, shown in Fig. 3.
The proofing strips 27 and 29 and the proofing strip extension 29a 30 are constituted by synthetic fibres, e.g. plastics or nylon fibres, preferably of a thickness of about 0.05 mm (22 dtex) and of a free length of about 3-8 mm . I n the preferred embodiment, the synthetic fibre proofing strips 27, 29 and the synthetic fibre proofing strip extension 29a are made from a composition of synthetic fibres of a 35 length of 3 mm and of a length of 5 mm. The proofing strips 27 and 29 and the proofing strip extension 29a exhibit the unique character-P~V F3764 jB F376~/HSN/lPkb 1984 09 14 ~Z~7~
ll istic that they permit air to pass from the inside of the loft and out and from the outside and into the loft and further permit water to pass from the inside of the loft, but block the passage of water and dust from the outside and into the loft. Instead of the single proofing 5 strip 29 arranged on top of the outermost bead 14, a proofing strip of basically identical construction may, alternatively or further, be arranged on the central or the innermost bead extending along the corrugations of the roofing plate or tile or in any of the grooves 16 defined between the beads 14.

10 In Fig. 2 the roofing plate or tile 10 shown in Fig. 1 is mounted above and overlapping another roofing plate 32 which is completely identical to the roofing plate 10 and which is arranged in the above described manner having its bead 12 catching behind the roof rafter 34. Furthermore, the roof plate 32 is fastened to the rafter 34 by 15 means of a roof hook 36. As is evident from Fig. 2, the proofing strip 27 is clamped between the lower side surface of the roofing plate or tile 10 and the upper side surface of the roofing plate or tile 32 providing the above described venting and blocking characteristics and further providing an optimum venting of the loft below the roof, 20 which further eliminates the risk of rot or dry rot attacks on the wood construction of the roof (the roof rafter 34) caused by the formation of condensed water in the loft.

I n Fig . 3 a second embodiment of a roofing plate according to the invention is shown. This second embodiment differs from the above 2~ described first, presently preferred embodiment of the roofing plate according to the invention in that the proofing strips 27 and 29 and the proofing strip extension 29a are omitted. Instead a proofing strip 28 is arranged on the lower side surface of the roofing plate or tile 10 in the groove 24 extending transversely across the corrugations of 30 the roofing plate or tile, and a proofing strip 30 is further arranged at the lower side surface of the roofing plate or tile 10 in the central groove 16 extending along the corrugations of the roofing plate or tile. Obviously, instead of a singie proofing strip 28 arranged in the groove 24, another or a further proofing strip may be arranged in .

P~V F3764 jB F3764/HSN/lPkb 1984 09 14 ` , 332~L

the groove 26 (not shown on the drawing), and alternatively orsupplementary, one or more proofing strips may be arranged on one or more of the beads 18, 20 and 22 extending across the corrugations of the roofing plate or tile. Furthermore, instead of the single proof-5 ing strip 30 arranged in the central groove 16, a further or alterna-tive proofing strips may be arranged in the left-hand and the right-hand grooves 16 and on one or more of the beads 14 in the left-hand side lock of the roofing plate or tile 10.

In Fig. 4, which basically corresponds to Fig. 2, the second embodi-10 ment of the roofing plate according to the invention shown in Fig. 3 is shown mounted above and overlapping the above described roofing plate 32 which is completely identical to the roofing plate 10 shown in Fig. 3. As is evident from Fig. 4, the proofing strip 28 is clamped between the lower side surface of the roofing plate or tile, viz. the 15 groove 24, and the upper side surface of the roofing plate or tile 32 providing the above described barrier characteristics.

In the above described first and second embodiments of the roofing plate according to the invention, the proofing strips, i.e. the proof-ing strips 27 and 29 and further the proofing strip extension 29a, 20 and the proofing strips 28 and 30 are of a basically identical configu-ration. However, the proofing strips may obviously be of a different configuration, i.e. have synthetic fibres of different thickness, length or different compositions of fibres, and furthermore, the proofing strips extending along the corrugations of the roofing plate 25 or tile 10 may alternatively be constituted by a proofin~ strip of a different type and/or of a different materiale, e . g . an elastic and completely humidity-impermeable proofing material, such as a massive latex strip impregnated with silicone.

In Fig. 5 an alternative or combined embodiment of the above 30 described first and second embodiments of the roofing plate according to the invention is shown. In this combined embodiment, the roofing plates or tiles 10 and 32 are each provided with a total of four proof-ing strips, viz. the above described proofing strips 27-30 which cooperate in pairs so that the proofing strips extending across the 35 corrugations of the roofiny plates or tiles, i.e. the proofing strips 27 P~V F3764 jB F3764/HSN/lPkb 1984 09 14 ' ., ~, .

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and 28, cooperate, and so that the proofing strips extending along the corrugations of the roofing plates or tiles, i . e. the proofing strips 29 and 30, or the above mentioned proofing strips in cooperat-ing grooves and beads of the interlock, cooperate with each other.
5 These cooperating proofing strips may provide a burr-like locking.

In Figs. 6, 7, 8 and 9 a third, fourth, fifth and sixth embodiment, respectively, of the roofing plate according to the invention is shown.
In the embodiments shown in Figs. 6-9, the proofing strip is con-stituted by knob-shaped bodies 40 which are made from a hydrophobic 10 material, preferably latex impregnated with silicone, and which form a maze pattern and thus produce the barrier which, in accordance with the teaching of the invention, permits the passage of air and water from the inside of the loft and out and permits the passage of air from the outside and into the loft, but blocks the passage of water 15 and dust from the outside and into the loft. The proofing strip con-stituted by knob-shaped bodies 40 is arranged on the upper side surface of the roofing plate or tile 10 opposite to the bead 12. How-ever, the proofing strip constituted by the knob-shaped bodies 40 may alternatively be arranged at the lower side surface of the roofing 20 plate or tile, and a proofing strip, e.g. of a different type and/or of a different material, such as an elastic and completely humidity-im-permeable proofing strip of the above described type may further be arranged in one or more of the grooves 16 or on one or more of the beads 14. Like the embodiment shown in Fig. 5 in which the synthetic 25 fibres constituting the proofing strips 27-30, preferably have a free length of 1-30 mm, preferably about 3-o mm, the knobs 40 in the embodiments shown in Figs. 6-9 have a corresponding length, i.e. a free length of about 1-30 mm, preferably about 3-8 mm.

In Figs. 10 and 11 vertical sectional views basically corresponding to 30 the vertical sectional views of Figs. 2, 4 and 5 are shown illustrating a seventh and eighth embodiment of the roofing plate according to the invention. In the embodiment shown in Fig. 10, the proofing strip 28 shown in Fig. 4 has been replaced by a proofing strip 42 which is cast into the roofing plate 10 in a bead 44 which is broader compared 35 to the bead 18. The proofing strip 42, which is produced as a separate unit and then cast into the roofing plate as will be explained P~V F3764 jB F3764/HSN/lPkb 19O4 09 14 , ~ - .- .

3~l -below, comprises a base layer 46, e. g . a plastic foil base layer or a gauze strip base layer from which the barrier forming part 48 of the proo'ing strip 42 protrudes. In the embodiment shown in Fig. 10, the barrier forming part 48 of the prool:ing strip 42 constitutes a combi-nation of the above embodiments, as this barrier forming part 48 is constituted by upright synthetic fibres like the proofing strips 27-30 of the first and second embodiments of the roofing plate shown in Figs. 1-5, but the synthetic fibres in the barrier forming part 48 form a maze pattern like the knob-shaped bodies 40 in the third, fourth, fifth and sixth embodiments shown in Figs. 6-9.

A slightly modified eighth embodiment is shown in Fig . 11, in which the proofing strip 42, instead of a gauze strip base layer, has a base body 50 on which the synthetic fibres which form the barrier forming part of the proofing strip, are arranged prior to the casting of the base body 50 into the roofing plate 10.

The embodiments shown in Figs. 10 and 11 may be modified by replac-ing the synthetic fibres of the barrier forming part 48 of the proofing strip 42 with latex knobs basically corresponding to the knob-shaped bodies 40 shown in Figs. 6-9 impregnated with silicone and forming a maze pattern.

In Fig~ 12 a horizontal sectional view through the above described first, presently preferred embodiment of the roofing plate according to the invention cooperating with the adjacent roofing plate is shown, i.e. a sectional view perpendicular to the sectional view of Fig. 2. In Fig. 12, the above described dual length proofing strips 27 and 29 are shown providing the proofing and barrier characteristics in accordance with the teaching of the present invention.

In Figs. 13 and 14, horizontal sectional views basically corresponding to the above described sectional view of Fig. 12 are shown. In Fig.
13 an embodiment of the roofing plate according to the invention is shown basically of the construction shown in Figs. 3 and 4. However, the proofing strip 30 extending along the corrugations of the roofing plate or tile and arranged in the central groove 16 is omitted. In-P~V F3764 jB F3764/HSNilPkb 1984 09 14 :

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stead, the innermost of the projections 14 of the roofing plate lO is provided with a proofing strip 52 constituting a separate unit which is arranged on the roofing plate lO prior to the arrangement of the roofing plate in the above described overlapping relationship with the adjacent roofing plate 32. The proofing strip 52 has a base layer 54, which is preferably a plastic foil or a gauze strip, and a proofing strip forming part 56. As is evident from Fig. 13, the part 56 may be constituted by synthetic fibres or instead be a hydrophobic elastic mass .

Preferably, the base layer 54 has a layer of glue protected by a slip paper which is removed before the proofing strip is arranged on the roofing plate 10, and apart from the base layer 54 shown in Fig. 13, the proofing strip 52 may be provided with a further base layer arranged opposite to the base layer 54 and adapted to adhere to the roofing plate 32 within the groove 16.

As, in the embodiment shown in Fig. 13, the proofing strip 30 shown in Fig. 3 has been replaced by a separate proofing strip 52 to be arranged on the roofing plata 10 prior to the arrangement of the roofing plate 10 in the overlapping relationship with the roofing plate 32, the proofing strip 28 shown in Figs. 3, 4 and 5 may be replaced by a separate proofing strip which is also arranged on one of the projections 18, 20 and 22 or in one of the grooves 24 or 26 prior to the arrangement of the roofing plate 10 in the overlapping relation-ship with the roofing plate 32.

This separate proofing strip in replacement of the proo~ing strip 28 shown in Figs. 3, 4 and 5 may also on both sides have a base layer and a glue layer, preferably protected by removable or tearable slip paper or slip papers to be removed as explained above prior to the arrangement of the strips on the roofing plate or tile, for making the proofing strip adhere to the lower side surface of the roofing plate or tile 10 and to the upper sids surface of the roofing plate or tile 32.

Apart from synthetic fibres for forming the batrier in accordance with the teaching of th0 present invention, this separate proofing strip P~V F3764 jB F37~4/HSN/lPkb 1984 0~ 14 .

33~

may have knobs o-f a hydrophobic material corresponding to the knobs shown in Figs. 6-9 and arranged in a maze pattern. Such a separate proofing strip having maze :>attern forming knobs may, like the above described separate proofing strip having synthetic fibres, have a 5 single and two base layers with associated glue layers for adhering to the lower side surface of the roofing plate or tile 10 and to the upper side surface of the roofing plate or tile 32, respectively.

In Fig. 14 a sectional view basically corresponding to the sectional view shown in Fig. 13 is shown through an embodiment slightly 10 modified in relation to the fifth embodiment of the roofing plate according to the invention shown in Fig. 8. In Fig. 14 the roofing plate 32 thus, instead of two grooves 16, has a single broader groove 58 in which two proofing strips 60 and 62 are arranged. The proofing strips 60 and 62 may be constructed in accordance with the teaching 15 of the present invention, e.g. be of any of the above described types, i.e. they may be constituted by upright synthetic fibres or be made from an elastic, hydrophobic material forming a maze pattern.

Figs. 15 and 16 diagrammatically show plants for producing roofing plates corresponding to the above embodiments in accordance with the 20 methods of the present invention.

The piant shown in Fig. 15 comprises a number of stations A-l through which a mould or form 72 is passed by means of continously operating conveyor means 70. In the first station A, the mould or form 72, which has a shape complementary to the desired roofing 25 plate shape, is cleaned. In station B, proofing strips 74 and 76 are arranged in grooves in the mould or form 72. Station C serves to transport the mould or form with the proofing strips 74 and 76 arranged in it on to a station D in which the mould or form is filled with casting material, which may be e.g. concrete, clay or fibrous 30 cement. From station D, the mould or form having proofing strips arranged in it and casting material arranged on it is passed via a station E to a station F in which the casting material is cured. From the station F, the roofing plate which is substantially finished, is passed via a station G to a station H, in which the mould or form 72 P~V F3764 jB F3764/HSN/lPkb 1984 09 14 :`

Z~L

is separated from the finished roofing plate 10. In station 1, the finished roofing plate 10 is passed to a store, while the mould or form 72 is retu rned to the station A, whe.reupon the above production process is repeated. It should be noted that the proofing strips 74 5 and 76 are cast into the roofing plate 10 in accordance with the method of producing roofing plates described above with reference to Fig . 15.

The plant shown in Fig. 16 differs from the plant shown in Fig. 15 in that the proofing strips of the roofing plate are not applied to or 10 arranged on the roofing plate until after the latter has been produced and is substantially finished. From a station J, the roofing plate 10 is passed to a station K in which the areas of the upper side surface or the lower side surface of the roofing plate on which proofing strips are to be applied, are cleaned, and a binder in the form of an ad-15 hesive layer or glue layer is applied.

From the station K the roofing plate 10 is passed to a station L inwhich the proofing strips of the roofing plate 10 are applied. While the proofing strips 74 and 76 described above with reference to Fig.
15 may be of any of the above types, preferably, however, compris-20 ing a base layer corresponding to the embodiments shown in Figs. 10and 11, a strip of synthetic fibres constituting the proofing strip according to the invention is applied directly to the roofing plate or tile 10 in station L. The synthetic fibres are passed from a reservoir 78 to a charging chamber 80 in which the fibres are charged electro-25 statically to a negative polarity and from which the fibres may onlyescape through a nozzle 82. The roofing plate 10 is passed over the charging chamber 80 and the nozzle 82. As shown in Fig. 16, a positive pole plate 84 attracting the fibres electrostatically charged to negative polarity is arranged on the side of the roofing plate 10 30 opposite to the fibre reservoir 78 and the charging chamber 80. The electrostatic fibres leave the nozzle 82 at great speed and are retain-ed in the adhesive layer or glue layer applied in station K. In a station M, the excess fibres are cleaned off. Alternatively, the syn-thetic fibres may be charged to a positive polarity, the pole plate 84 35 then being maintained at negative polarity.

:
PV F3764 jB F3764/HSN/lPkb 1984 09 14 3~

Furthermore, apart from being operated at opposite polarity, the electrostatical application station L may be turned upside down so that the fibres are applied from a nozzle above the roofing plate or tile.
Consequently, the roofing plate or tile has its side surface to be provided with the synthetic fibre proofing strips facing upwards instead of downwards as in the embodiment shown in Fig. 16.
Furthermore, the station M serving the purpose of removing excess fibres may advantageously be modified into a suction station.

The plant shown in Fig. 16 may, in accordance with the invention, be modified by the roofing plate 10 shown in the station J being a cast by as yet unhardened roofing plate or tile of e.g. clay, concrete or fibrous cement. I n this modified method of producing roofing plates, the synthetic fibres are retained directly in the surface of the still wet and unhardened roofing plate or tile 10. Consequently, the use of an adhesive layer or glue layer to be applied in the station K may be avoided .

In Fig. 17, a schematical top view of a production plant for producing roofing plates or tiles according to the invention is shown. From production or casting stations in which precast or prefabricated roofing plates or tiles are provided, a conveyor 100 receives the roofing plates or tiles to be provided with proofing strips in accordance with the teaching of the present invention or to be trans-ferred to a store as indicated by an arrow at the right hand end of the conveyor 100. The conveyor 100 cooperates with a transfer station 102 in which the roofing plates or tiles are transferred from the conveyor 100 to four parallel conveyors 103, 104, 105 and 106 and if necessary turned upside down so that the upper side surfaces of the roofing plates or tiles 10 to be applied with proofing strips are facing upwards. From the transfer station 102 which constitutes the station J
shown in Fig. 16, the conveyors 103, 104, 105 and 106 make the roofing plates or tiles advance at a speed of approximately ten roofing plates or tiles per minute on each of the conveyors providing a total production speed or capacity of approximately fourty roofing plates or tiles per minute.

- P~V F3764 jB F3764/HSN/lPkb 1984 09 14 . ~

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The roofing plates or tiles are advanced intermittantly by means of the conveyors 103-106 in a direction indicated by an arrow 120 and are transferred to the glue application station K in which -wo glue applicators 108 and 110 apply glue to the areas of the upper side 5 surfaces of the roofing plates or tiles to have the proofing strips 27 and 29 and the proofing strip extension 29a shown in Fig. 1 arranged thereon while the roofing plates or tiles are intermittantly stopped below the glue applicators 108 and 110. The glue applicators 108 and 110 apply layers of water-based and acrylic basis glue and of a thickness corresponding to a glue consumption of 300-500 g/m2.

From the discharge end of the glue application station K, the roofing plates or tiles 10 are transferred from the intermittantly operated conveyors 103, 104, 105 and 106 to continuously operated conveyors 111, 112, 113 and 114, respectively. The conveyors 111-114 are moving continuously at a speed of approximately 4-5 m/min. They serve the purpose of moving the preglued roofing plates or tiles to the synthetic fibre application station L and to a glue drying station N. The synthetic fibre application station L is divided into two sub-stations designated L1 and L2, respectively. The substations L1 and L2 serve the purpose of applying synthetic fibres of a length of 3 mm and 5 mm, respectively, to the preglued roofing plates or tiles. The synthetic fibres are preferably of polyamide of the type 22 dtex and are pretreated for electrostatical application. In the fibre application stations L1 and L2, synthetic fibres are charged to a potential of approximately 50-100 kV of negative polarity relative to earth and the roofing plates or tiles are maintained at opposite, i.e. positive po-larity. Each of the synthetic fibre application stations L1 and L2 comprise two parallel applicators 116, 117 and 122, 123, respectively, and a single excess fibre removing device 118 and 124, respectively, constituted by vacuum suction devices which are connected to the applicators 116, 117 and 122, 123, respectively, through return conduits 119 and 125, respectively.

From the synthetic fibre application stations L1 and L2, the roofing plates or tiles 10 having the synthetic fibres arranged standing upright from the outer side surfaces thereof and adhering in the glue P~V F3764 jB F3764/H8NilPkb 1984 09 14 layers are transferred to the glue drying station N comprising infra-red radiators 128 and 129. In the IR drying station N the glue layers of the roofing plates or tiles are cured so that the synthetic fibres arranged standing upright therefrom are fastened to the roofing plates or tiles . From the I R drying station N the finished roofing plates or tiles are transferred to a further conveyor 130 by means of which the finished roofing plates or tiles are transferred to the above mentioned store as indicated by an arrow at the lower end of the conveyor 130. Alternatively, the conveyor 130 may transfer the finished roofing plates or tiles to a packing station O shown in the lower right-hand side of Fig. 17.

EXAM P LE

A solid concrete tile of the configuration shown in Fig. 1 and measur-ing approximately 42 cm x 33 cm along the corrugations and at right angles to the corrugations, respectively, was provided with proofing strips basically corresponding to the proofing strips 27 and 29 and the proofing strip extension 29a shown in Fig. 1. The width of the proofing strip extending across the corrugations at the uppermost end of the tile, i.e. the proofing strip corresponding to the proofing strip 27 shown in Fig. 1 was 25 mm. A two component polyurethane basis glue was applied manually to the upper side surface of the roofing plate or tile providing a layer of glue of a thickness of approximately 0.5 mm. The proofing strips were constituted by a combination of 3 mm and 5 mm, 22 dtex polyamide fibres which had been pretreated for electrostatic appiication (pretreated for Fiock applica-tion). The polyamide fibres were applied to the upper side surface of the tile by means of a test laboratory Flock application apparatus, and there-after, the glue was cured.

In order to investigate the barrier characteristics of the roofing plate according to the invention, a number of corrugated sidelock tiles of the above described type, i.e. of the type shown in Fig. 1 and described in the above example were tested by the New Technology and Product Development Centre of Redland Technology Ltd., :
P~V F3764 jB F3764/HSN/l Pkb 1984 09 14 , .

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Graylands, Horsham, Sussex, England, and compared to basically identical tiles without proofing strips according to the invention. The tiles with proofing strips and the tiles without proofing strips were tested in a comparison test in which very rough weather conditions 5 were simulated. A test group set-up of each of the two kinds of tiles, i.e. the tiles with proofing strips and the tiles without proofing strips, included a total of three courses each including three and a half tiles per course. The overlap of the tiles was 75 mm, and the tiles were not nailed to the supporting roof construction. The roof 10 construction defined a pitch of 30 in relation to the horizon and exposed the outer side surface of the test group set-up to wind and rain generated by wind and rain generators. The wind speed was 13.4 m/s and the rain fall rate was 38 mm/h. A perspect box was arranged below the test group set-up. By reducing the pressure 15 within the perspect box, i.e. at the lower side surface of the test group set-up, a kind of suction effect was produced resulting in an increase in the amount of water penetrating through the tile con-struction to the lower side surface thereof. During test, the lower side surface pressure was reduced in increments of 10 Pa and the 20 amount of water penetrating through the tile construction during a 5 min. period was measured. The measuring results were converted into an amount per hour and a graph was plotted illustrating the amount of water penetrating through the tile construction as a function of the reduced pressure at the lower side surface of the test group set-up.
25 For a more detailed explanation of the test conditions, the test set-up and the relevance of the test procedure, reference is made to report No. 3518-02 dated May 1984 from the above New Technology and Product Development Centre of Redland Technology Ltd.

The graph of the measuring results are shown in Fig. 18. A first 30 curve designated S illustrates the response obtained with regard to the tiles without proofing strips, and a second curve designated V
illustrates the measuring results obtained with regard to the roofing plates according to the invention, i.e. the tiles with proofing strips.
These measuring results were obtained at a rig pitch of 30. By 35 reducing the rig pitch of the test groĆ¹p set-up of the tiles with proofing strips -~rom 30 to 20 a further curve T was obtained. A

P~V F3764 jB F3764/HSNJlPkb 1984 09 14 .

332~L

fourth curve designated U is an extrapolation of the initial measuring results obtained with regard to the tiles with proofing strips and is a compensation of the discontinuity of the V curve. This discontinuity is believed to be caused by a "slug" effect, i.e. the water pene-5 trating to the lower side surface of the tiles is not dripping butcreaping down the lower side surface of the tiles, and is consequently not measured.

In a further test, the amount of water penetrating to the lower side surfaces of the tiles during one hour was recorded, at a non-reduced 10 pressure at the lower side surface of the test group set-up.

By comparing the curves S and V or U, it is evident that the provi-sion of the proofing strips at these extreme rough weather conditions results in a highly improved proofing of the roof.

Although the invention has been described with reference to the 15 drawing illustrating a number of embodiments of the invention, the invention is not limited to these embodiments. Thus the principles of the invention may also be used in connection with roofing plates which are not corrugated, e.g. plates of metal, plastics or a similar material, and at the same time the synthetic fibres of the proofing 20 strip may advantageously, as mentioned above, form a maze pattern to further increase the barrier forming effect.

`, P~V F3764 jB F3764/HSN/lPkb 1984 09 14

Claims (23)

WE CLAIM:
1. A corrugated interlocking tile roofing plate having opposite side surfaces and comprising proofing strip means on at least one of said surfaces and extending thereacross for providing a substantially water impervious barrier while generally providing an air and humidity permeable passageway, said plate being adapted to be arranged on a roof partly overlapping and partly being overlapped by adjacent roofing plates, said roof defining an attic thereunder, and said proofing strip means including a strip of upright synthetic fibres located on said plate on regions thereof which are overlapped by adjacent plates to provide a fibrous barrier between said side surface of said roofing plate and the opposite side surface of one of said adjacent roofing plates which permits the passage of air in and out of said attic and further permits the passage of humidity to escape to outside said attic but substantially blocks the passage of water and dust from the outside from coming into said attic when said strip of upright synthetic fibres is situated in abutment with said adjacent plate.
2. A roofing plate according to Claim 1, wherein said synthetic fibres have a free length of about 1-30 mm and a thickness of about 0.01-0.5 mm.
3. A roofing plate according to Claim 2, wherein said synthetic fibres have a free length of about 2-15 mm.
4. A roofing plate according to Claim 3, wherein said synthetic fibres have a free length of about 3-8 mm.
5. A roofing plate according to Claim 2, wherein said synthetic fibres have a thickness of about 0.05 mm.
6. A roofing plate according to Claim 1, wherein said synthetic fibres form a maze pattern.
7. A roofing plate according to Claim 1, wherein said plate is of a substantially rectangular configuration having pairs of opposite edges constituting vertical and horizontal edges of said plate when said plate is arranged on said roof, and said proofing strip means extends along one of said horizontal edges of said plate.
8. A roofing plate according to Claim 7, wherein said proofing strip means is arranged on said side surface of said plate constituting the upper side surface when said plate is arranged on said roof.
9. A roofing plate according to Claim 8, further comprising another proofing strip means is arranged extending along one of said vertical edges of said plate.
10. A roofing plate according to Claim 7, wherein said proofing strip means is arranged on said side surface of said plate constituting the lower side surface when said plate is arranged on said roof.
11. A roofing plate according to Claim 10, further comprising another proofing strip means is arranged extending along one of said vertical edges of said plate.
12. A roofing plate according to Claim 1, further including a first proofing strip means arranged on an upper side surface of said plate at its uppermost horizontal edge thereof, and a second proofing strip means arranged on a lower side surface of said plate at its lowermost horizontal edge thereof.
13. A proofing strip for use in connection with a corrugated interlocking tile roofing plate having opposite side surfaces and being adapted to be arranged on a roof partly overlapping and partly being overlapped by adjacent roofing plates, said roof defining an attic thereunder, and said proofing strip comprising means for substantially blocking passage of water while permitting passage of air and humidity, said means including a base layer and a strip of synthetic fibres located on said plate in a region which is overlapped by adjacent plates, said fibres standing upright form said base layer to provide a barrier which permits the passage of air in and out of said attic and further permits the passage of humidity from the inside to escape said attic but substantially blocks the passage of water and dust from the outside from coming into said attic when said proofing strip is clamped between opposite side surfaces of adjacent roofing plates.
14. A proofing strip according to Claim 13, wherein said synthetic fibres have a free length of about 1-30 mm and a thickness of about 0.01-0.5 mm.
15. A proofing strip according to Claim 14, wherein said synthetic fibres have a free length of about 2-15 mm.
16. A proofing strip according to Claim 15, wherein said synthetic fibres have a free length of about 3-8 mm.
17. A proofing strip according to Claim 14, wherein said synthetic fibres have a thickness of about 0.05 mm.
18. A proofing strip according to Claim 13, wherein said synthetic fibres form a maze pattern.
19. A method of producing a roofing plate including the steps of casting the plate in a mold with a groove, arranging a proofing strip having synthetic fibres in the groove in the mold, and filling the mold with hardening material.
20. A method of producing a roofing plate according to Claim 19, wherein the synthetic fibres are transferred to an adhesive layer on the roofing plate and are retained on the roofing plate in the adhesive layer which is then cured.
21. A method according to Claim 20, wherein the synthetic fibres are transferred to the adhesive layer in an electrostatically charged state of a high potential, and the adhesive layer is maintained at a polarity opposite to the polarity of the fibres.
22. A method according to Claim 21, wherein the adhesive layer is a layer of glue.
23. A method according to Claim 22, wherein the roofing plate is formed from curable material, and the synthetic fibres are transferred to the roofing plate before the latter is cured, and are retained in a surface layer of the roofing plate, said surface layer constituting the adhesive layer.
CA000483356A 1985-06-06 1985-06-06 Roofing plate, a proofing strip for a roofing plate, and a method of producing a roofing plate Expired CA1248321A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CA000483356A CA1248321A (en) 1985-06-06 1985-06-06 Roofing plate, a proofing strip for a roofing plate, and a method of producing a roofing plate

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CA000483356A CA1248321A (en) 1985-06-06 1985-06-06 Roofing plate, a proofing strip for a roofing plate, and a method of producing a roofing plate

Publications (1)

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CA1248321A true CA1248321A (en) 1989-01-10

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CA000483356A Expired CA1248321A (en) 1985-06-06 1985-06-06 Roofing plate, a proofing strip for a roofing plate, and a method of producing a roofing plate

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