EP0875618B1 - Method for the continuous production of sheets for wall coverings with attachment backing made of non-woven fibreglass fabric and sheets produced - Google Patents
Method for the continuous production of sheets for wall coverings with attachment backing made of non-woven fibreglass fabric and sheets produced Download PDFInfo
- Publication number
- EP0875618B1 EP0875618B1 EP98106875A EP98106875A EP0875618B1 EP 0875618 B1 EP0875618 B1 EP 0875618B1 EP 98106875 A EP98106875 A EP 98106875A EP 98106875 A EP98106875 A EP 98106875A EP 0875618 B1 EP0875618 B1 EP 0875618B1
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- European Patent Office
- Prior art keywords
- adhesive
- particles
- backing
- sheets
- woven
- 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.)
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05D—PROCESSES FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05D1/00—Processes for applying liquids or other fluent materials
- B05D1/40—Distributing applied liquids or other fluent materials by members moving relatively to surface
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05D—PROCESSES FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05D1/00—Processes for applying liquids or other fluent materials
- B05D1/30—Processes for applying liquids or other fluent materials performed by gravity only, i.e. flow coating
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06N—WALL, FLOOR, OR LIKE COVERING MATERIALS, e.g. LINOLEUM, OILCLOTH, ARTIFICIAL LEATHER, ROOFING FELT, CONSISTING OF A FIBROUS WEB COATED WITH A LAYER OF MACROMOLECULAR MATERIAL; FLEXIBLE SHEET MATERIAL NOT OTHERWISE PROVIDED FOR
- D06N7/00—Flexible sheet materials not otherwise provided for, e.g. textile threads, filaments, yarns or tow, glued on macromolecular material
- D06N7/0002—Wallpaper or wall covering on textile basis
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06Q—DECORATING TEXTILES
- D06Q1/00—Decorating textiles
- D06Q1/10—Decorating textiles by treatment with, or fixation of, a particulate material, e.g. mica, glass beads
Definitions
- This invention relates to a method for the continuous production of sheets for wall coverings with an attachment backing made of non-woven fibreglass fabric, and also to the sheets produced by said method.
- the walls of domestic dwellings are often decorated with smooth plaster, or with paint or wallpapers.
- the decoration of vertical walls raises many problems depending on the various ways it is carried out. These problems can be grouped in two fundamental categories:
- Fibreglass fabrics used for sticking to walls.
- the problem with the use of these glass fabrics is the dangers created in the environments where the glass is made into a fabric, by reason of the microscopic fibres released into the air.
- Fibreglass fabric also has the disadvantage of not being "strippable", i.e. it cannot easily be removed from the wall, partly because the fabric is so tough and partly because of the powerful adhesion offered to the adhesives by the square holes of the weave.
- All currently known wall-covering sheets are very delicate, tearable and have poor resistance to rubbing, owing to their surface having the weak cohesion of rubbery plastics such as the vinyls and the polyurethanes.
- the generality of coverings are in any case very thin in order to keep costs down to compete on the market; this fact has the drawback that irregularities on the surfaces of the walls on which these coverings are hung cannot be hidden; it also leads to the formation of blisters, which may be the consequence either of inexpert work by the painter or the internal moisture of the walls.
- DE 19602218A relates to a process for manufacturing wall coverings.
- a backing made of paper, fabric or non-metal mat is partially coated with a polymer adhesive dispersion or solution according to an ornamental design.
- a powdery or granular material is poured on the coated backing.
- the powdery or granular material being made of a thermoplastic polymer. The excess material is removed by suction and the backing is then heated.
- EP-A-0506253 discloses inlaid sheet materials comprising a fibrous, felted or matted backing. At least an adhesive layer is selectively applied to the backing by using e.g. a rotary screen. Spherical or essentially by spherical particles are randomly applied over the surface of the adhesive layer. The particles can be made from any one, or a combination or mixture of mica, ceramics, metals, rubbers, and polymeric and resinous compositions. The excess particles are vacuumed away from the backing prior to adhesive gelling.
- WO 9527007A relates to resilient inlaid products and methods for making such products.
- the methods involve the use of a fibrous or non-fibrous backing and the uniform adhesive coating of such backing. Thereafter chips, flakes or granules are uniformly deposited on the adhesive backing for subsequent adhering and embedding therein.
- the deposition is effected by passing the backing through a hopper-like feeder. Thereafter excess deposition material is removed and then the coated backing is subjected to consolidation, gelation and fusion.
- the chips, flakes or granules are made of plastics or of a metal foil, such as aluminium, which have been coated with a vinyl coating composition.
- Patent Abstracts of Japan Vol. 014, no. 331 (M-0999), 17 July 1990 JP 02 113934A 26 April 1990 discloses a method wherein granulated foamable resin particles are poured on a backing on which an adhesive is applied discontinuously by a rotary screen press.
- Another object is to devise a method of producing sheets for wall coverings with different visible structures such as to present differing capacities to absorb paint and create bitonal chromatic effects from a single coloration.
- the backing is preferably MICROLITH-FF-125/2-B6 sold by Schuller Company and has a thickness of approximately 0.7 mm.
- equally good results suitable for specific requirements could also be obtained with backings having a weight per unit area of between 100 and 150 g/m 2 .
- the term "opacified” is used in the industry to indicate an optical whitening treatment in which the backing is spread with an ordinary mixture of acrylic resin and titanium dioxide.
- a tube 7 is mounted inside said printing cylinder 6 to supply the adhesive for printing; said adhesive emerges uniformly along the entire length of the tube 7 in order to offer to a fixed squeegee 8 an amount suitable for spreading on the densely perforated inside surface of the printing cylinder 6 as the cylinder rotates 9.
- Thin discs 10A (Fig. 2) of adhesive 25 are extruded from these minuscule holes and deposited on the surface of the non-woven backing.
- Said backing is travelling in a direction 11 with a speed equal to the peripheral speed of a back pressure drum 5, in contact with the surface of the printing cylinder 6 through the interposed backing 1.
- the discs 10A after undergoing compression, then tend to expand and join together along their short contacting generatrices. This joining together will be more complete the more liquid the adhesive 25 of which they are composed; however, the more completely they join together the more the printed adhesive will form a continuous and impermeable film, which would nullify the desired porosity or breathability of the resulting printed sheet.
- the adhesive must possess a viscosity such that the abovementioned joining together is incomplete on a microscopic level so that pinholes 28 are left through which the normal moisture found in walls can breathe.
- the adhesive 25 has a dynamic viscosity measured with a Mettler RM180 Rheomat instrument of between 0.93 and 1.80 Pa.s at a temperature of 25.5°C and with a shear gradient of 200 1/s using the "33" measuring system.
- the non-woven backing After receiving the adhesive in shapes representing a desired printed design 14 which includes areas 24 of the non-woven backing that are visible, the non-woven backing arrives at a turn roll 15 that deflects it downwards, where it passes around the roll 12, turning through an arc of approximately 180° before travelling back up towards another turn roll 16 from which it passes on to a further roll 17 which guides it towards an ordinary drying oven (not drawn), after an ordinary blower 26 has first removed any residual particles that have not stuck to the adhesive. By following this path the backing 1 exposes its freshly printed surface 1A to a shower of sand (i.e., quartz) particles 18 dropped through a slot 19 in the bottom of a hopper 20.
- sand i.e., quartz
- This slot is adjustable automatically or manually to suit the forward speed of the fabric, that is to say so as to release the optimum quantity of particles. Most of these particles however fall onto the roll 12 which, since it is rotating in a direction 21, transfers them onto the said printed surface 1A, into which they sink under the pressure of the same roll 12 through an arc of approximately 180°.
- the passage around the roll 12 has the advantage that it enables less fluid adhesives to be used, thus promoting the formation of the abovementioned microholes 11 and reducing the possibility of its working its way through the thickness of the non-woven backing 1. Indeed, were the adhesive to permeate through the backing there would be major production problems as the adhesive would come into contact with the turn rolls 22, 15, 12, 16, 17 and foul them, which would quickly degrade their operation.
- the abovementioned solution of forced "squeezing" of the sand particles 18 into the relatively viscous adhesive 25 avoids the dangerous alternative necessity of entrusting the adhesion of the particles to the fluidity of the adhesive 25.
- the ratio of the thickness of the adhesive screen-printed onto the backing 1 to the general diameter of the sand granules or particles is approximately 0.85:1. In other words about 15% of each particle 18 projects above the surface of the adhesive.
- This has the advantage of giving the sheet 23 (according to the invention) a visible surface largely composed of hard material which is therefore well able to offer great resistance to rubbing, especially as most of the volume of the particles is buried in an adhesive 25 which, once dry, is very tough.
- top surface of the sheet 23 is largely composed of hard sand material is due, obviously, in part to the uniformity and density with which the particles 18 are laid on the backing 1, and indeed they lie side by side in contact with each other, occupying as much as possible of the surface to which they are bonded.
- the achievement of maximum density, and in consequence of uniformity, is the result of using a shower of particles 18 in slight excess, i.e. above the capacity of the adhesive to capture it all upon itself.
- the problem of this excess is then eliminated by the present method by providing underneath a trough 27 with powerful suction means operating at its sides to collect all the particles that have not stuck to the adhesive and return them to the hopper 20 in accordance with known methods.
- Particles 18 for this invention are grains of sand, i.e. of quartz with a diameter of approximately 0.2 mm.
- the non-woven fabric suggested as preferred in the said method is of the type made up of short glass fibres laid in perpendicular layers. While from certain points of view to do with the properties of the finished product the nature of a non-woven fabric offers undoubted advantages, nonetheless in other respects to do with its simple structure it could present the drawback that its fibres are poorly bonded together and therefore liable to be lost, that is, to be rubbed or pulled out by the very printing cylinders themselves, which as a result would no longer be able to operate properly.
- the non-woven fibreglass fabric Before the non-woven fibreglass fabric is used, it is put through a preparatory impregnation with an acrylic resin modified by a well-known technique. This is in order to compact the non-woven so as to make it able to withstand the tearing compression exerted by the hard surface particles and so prevent the escape of microfibres into the air, increase its tensile strength and enhance its strippability.
- the choice of the "clothing" of the printing cylinder i.e. of the usual densely perforated cylinder made in thin nickel-chromium steel sheet that is used to create the printing matrix.
- This clothing is usually treated with photosensitive gelatins spread by a special axially moving ring and treated by familiar techniques so as to leave certain perforated areas open, through which the squeegee can squeeze the printable adhesive 25, and to block other areas through which no adhesive is to pass; the shape of this area defines the shape deposited or printed on the backing.
- the quantity of adhesive deposited represents a point of equilibrium between multiple factors connected with the intrinsic properties of the printable adhesive, the mechanical strength of the squeegee, the mechanical strength of the perforated plate, the thickness of this plate (because the greater the thickness the holes pass through, the more adhesive they can hold and release), and the thickness of the covering on the outside of the clothing formed by the gelatins which then set into a very hard resin.
- the thickness of the outer covering affects the distance between the clothing and the surface to be printed with the adhesive 25 pressed by the squeegee 8 and variously absorbed by adhesion by the printable surface of the backing 1 owing to the action of the back pressure drum 15.
- nickel-chromium clothings having a thickness of 210 microns and a 100 "mesh” perforation. It also uses two layers of masking gelatin (for creating the design to be printed) so as to give "non-inking" thicknesses on the outside of the clothings that are very great and compatible with the relatively high density of the adhesive 25.
- Said adhesive is preferably of acrylic type (e.g. that known by the trade mark ACRONAL 290 D from BASF), but the method can also be carried out with other adhesives, such as vinyl type adhesives.
- the high viscosity of the printable adhesive creates the manufacturing problem of a gradual accumulation of the adhesive at the open ends of the clothing (i.e. of the printing cylinder 6): such an accumulation creates "rings" of adhesive which ooze out at the sides and can be picked up simply by the movements of parts around the outside of the clothing. This would cause the rings to become flattened onto the backing 1, which would thereby be soiled - in other words continuously ruined, causing immense damage.
- the method provides for the elimination of this potential event by employing two dedicated suction pumps, preferably of the diaphragm type; these pumps are positioned at the two open ends of the clothing and close to the two ends of the squeegee 8 in order to remove the adhesive that would tend to ooze out of said printing cylinder or clothing.
- the resulting product has the advantage of being thick, semirigid and composed primarily of mineral substances. In addition it is suitable for hanging definitively while yet being easy to remove (strippable) when required. Since its surface is made with different materials and porosities (1, 24; 25, 18) it has the advantage that bitonal chromatic effects can be obtained with a single coat of paint.
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- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Laminated Bodies (AREA)
- Chemical Or Physical Treatment Of Fibers (AREA)
- Adhesives Or Adhesive Processes (AREA)
- Application Of Or Painting With Fluid Materials (AREA)
- Finishing Walls (AREA)
Abstract
Description
- This invention relates to a method for the continuous production of sheets for wall coverings with an attachment backing made of non-woven fibreglass fabric, and also to the sheets produced by said method. As is known, the walls of domestic dwellings are often decorated with smooth plaster, or with paint or wallpapers. The decoration of vertical walls raises many problems depending on the various ways it is carried out. These problems can be grouped in two fundamental categories:
- the category of ecological problems;
- the category of functional problems.
- With regard to the ecological problems connected with current methods of decorating walls, the most serious are those to do with the use of conventional wallpapers, as these have a structure of polyvinyl chloride-based plastics materials. This material is well known as a potential carcinogenic factor, raising problems in both the production environment and in the environment in which it is dumped after being removed for replacement. This kind of plastic covering, like other very common plastic coverings with a polyurethane structure, also has the drawback of being highly impermeable, so that, by its retention of the moisture of the domestic environment on itself, it prevents the wall from "breathing" in the natural and healthy way. This impermeability is furthermore the cause of local detachment along the join lines between the sheets, the moisture in the walls attempting to find a way out and managing to do so where this is easiest.
- Also very popular are fibreglass fabrics used for sticking to walls. The problem with the use of these glass fabrics is the dangers created in the environments where the glass is made into a fabric, by reason of the microscopic fibres released into the air. During the fabric-making process, what happens is that the glass fibres come under much stress and rubbing resulting in the formation of microfibres suspended in the air. Fibreglass fabric also has the disadvantage of not being "strippable", i.e. it cannot easily be removed from the wall, partly because the fabric is so tough and partly because of the powerful adhesion offered to the adhesives by the square holes of the weave.
- As far as technical problems are concerned the present trend for the familiar smoothing of walls to be abandoned in favour of sticking them with a covering designed to be painted, as if it were itself a wall, must be considered. Normal coverings of this type have also, besides the advantages that have justified their use, major drawbacks, of which the following may be cited. Where these coverings are of the very common fibreglass fabric type, there is the drawback that two successive coats of paint are necessary because of their surface roughness. These coats of paint, moreover, can only be applied once the adhesive with which the fabric has been hung on the walls has completely dried, as otherwise the porosity of their warp-weft structure will allow the adhesive to permeate back onto the visible surface. Coverings of fibreglass fabric are aesthetically unsatisfactory because they can give the applied paint a simply monochromatic appearance, due to the uniformity of the fabric surface. Even what ornamental designs are possible are very limited owing to the much greater difficulty of weaving glass than of weaving normal yarns.
- All currently known wall-covering sheets are very delicate, tearable and have poor resistance to rubbing, owing to their surface having the weak cohesion of rubbery plastics such as the vinyls and the polyurethanes. The generality of coverings are in any case very thin in order to keep costs down to compete on the market; this fact has the drawback that irregularities on the surfaces of the walls on which these coverings are hung cannot be hidden; it also leads to the formation of blisters, which may be the consequence either of inexpert work by the painter or the internal moisture of the walls.
- DE 19602218A relates to a process for manufacturing wall coverings.
A backing made of paper, fabric or non-metal mat is partially coated with a polymer adhesive dispersion or solution according to an ornamental design. A powdery or granular material is poured on the coated backing. The powdery or granular material being made of a thermoplastic polymer. The excess material is removed by suction and the backing is then heated. - EP-A-0506253 discloses inlaid sheet materials comprising a fibrous, felted or matted backing. At least an adhesive layer is selectively applied to the backing by using e.g. a rotary screen. Spherical or essentially by spherical particles are randomly applied over the surface of the adhesive layer. The particles can be made from any one, or a combination or mixture of mica, ceramics, metals, rubbers, and polymeric and resinous compositions.
The excess particles are vacuumed away from the backing prior to adhesive gelling. - WO 9527007A relates to resilient inlaid products and methods for making such products. The methods involve the use of a fibrous or non-fibrous backing and the uniform adhesive coating of such backing. Thereafter chips, flakes or granules are uniformly deposited on the adhesive backing for subsequent adhering and embedding therein. The deposition is effected by passing the backing through a hopper-like feeder. Thereafter excess deposition material is removed and then the coated backing is subjected to consolidation, gelation and fusion. The chips, flakes or granules are made of plastics or of a metal foil, such as aluminium, which have been coated with a vinyl coating composition.
- Patent Abstracts of Japan Vol. 014, no. 331 (M-0999), 17 July 1990 JP 02 113934A 26 April 1990, discloses a method wherein granulated foamable resin particles are poured on a backing on which an adhesive is applied discontinuously by a rotary screen press.
- It is an object of the present invention to devise a method for the continuous production of sheets for wall coverings involving the use of materials capable of giving the sheets special qualities not possessed by currently known sheets. Another object is to devise a method, as above, of producing sheets for coverings using very hard materials for the surface. Another object is to devise a method, as above, of effecting an association of the said hard materials with binders having sufficient elasticity to allow the sheets to be wound into rolls. Another object is to devise a method, as above, of producing sheets with their visible surface decorated with designs of any shape. Another object is to devise a method of producing painted sheets. Another object is to devise a method of producing sheets for wall coverings that can have decorations in relief. Another object is to devise a method of producing sheets for wall coverings with different visible structures such as to present differing capacities to absorb paint and create bitonal chromatic effects from a single coloration. These other objects will be seen to have been achieved upon reading the following detailed description explaining the concise account given in the accompanying claims.
- The invention is illustrated, purely by way of non-restrictive example, in the appended sheets of drawings in which:
- Fig. 1 shows a greatly enlarged view in section of an area of a wall-covering sheet produced by the method described;
- Fig. 2 shows a greatly enlarged view of an example showing the compressed deposition of adhesive performed on the non-woven fabric by rotary screen printing; and
- Fig. 3 schematically shows the paths followed by a non-woven backing made of fibreglass in which the backing is screen-printed with the adhesive and the granules of hard material are stuck to the adhesive.
- Referring to the abovementioned Fig. 3, a continuous non-woven backing made of
fibreglass 1, travelling aroundordinary turn rolls 2, 3, 4, arrives underneath ascreen printing cylinder 6. The backing is preferably MICROLITH-FF-125/2-B6 sold by Schuller Company and has a thickness of approximately 0.7 mm. However, equally good results suitable for specific requirements could also be obtained with backings having a weight per unit area of between 100 and 150 g/m2. In order to enable said backing to perform its covering role effectively it is "opacified", by known means, prior to its printing. The term "opacified" is used in the industry to indicate an optical whitening treatment in which the backing is spread with an ordinary mixture of acrylic resin and titanium dioxide. With this opacifying primer the covering is able to conceal even large differences of chromatic tonality, to such an extent that even a single coat of paint will be found sufficient as a finishing for the covered wall. As in the prior art, atube 7 is mounted inside saidprinting cylinder 6 to supply the adhesive for printing; said adhesive emerges uniformly along the entire length of thetube 7 in order to offer to afixed squeegee 8 an amount suitable for spreading on the densely perforated inside surface of theprinting cylinder 6 as the cylinder rotates 9.Thin discs 10A (Fig. 2) of adhesive 25 are extruded from these minuscule holes and deposited on the surface of the non-woven backing. Said backing is travelling in adirection 11 with a speed equal to the peripheral speed of aback pressure drum 5, in contact with the surface of theprinting cylinder 6 through the interposedbacking 1. Thediscs 10A, after undergoing compression, then tend to expand and join together along their short contacting generatrices. This joining together will be more complete the more liquid the adhesive 25 of which they are composed; however, the more completely they join together the more the printed adhesive will form a continuous and impermeable film, which would nullify the desired porosity or breathability of the resulting printed sheet. To prevent this from happening, the adhesive must possess a viscosity such that the abovementioned joining together is incomplete on a microscopic level so thatpinholes 28 are left through which the normal moisture found in walls can breathe. This must continue to be the case even following the compressions to which the adhesive, initially in the form ofdiscs 10A, will be subjected in the subsequent processing phases bymany turn rolls - After receiving the adhesive in shapes representing a desired printed design 14 which includes
areas 24 of the non-woven backing that are visible, the non-woven backing arrives at aturn roll 15 that deflects it downwards, where it passes around theroll 12, turning through an arc of approximately 180° before travelling back up towards another turn roll 16 from which it passes on to afurther roll 17 which guides it towards an ordinary drying oven (not drawn), after anordinary blower 26 has first removed any residual particles that have not stuck to the adhesive. By following this path thebacking 1 exposes its freshly printedsurface 1A to a shower of sand (i.e., quartz)particles 18 dropped through aslot 19 in the bottom of ahopper 20. The width of this slot is adjustable automatically or manually to suit the forward speed of the fabric, that is to say so as to release the optimum quantity of particles. Most of these particles however fall onto theroll 12 which, since it is rotating in adirection 21, transfers them onto the said printedsurface 1A, into which they sink under the pressure of thesame roll 12 through an arc of approximately 180°. - The passage around the
roll 12 has the advantage that it enables less fluid adhesives to be used, thus promoting the formation of the abovementioned microholes 11 and reducing the possibility of its working its way through the thickness of thenon-woven backing 1. Indeed, were the adhesive to permeate through the backing there would be major production problems as the adhesive would come into contact with the turn rolls 22, 15, 12, 16, 17 and foul them, which would quickly degrade their operation. The abovementioned solution of forced "squeezing" of thesand particles 18 into the relatively viscous adhesive 25 avoids the dangerous alternative necessity of entrusting the adhesion of the particles to the fluidity of the adhesive 25. - The ratio of the thickness of the adhesive screen-printed onto the
backing 1 to the general diameter of the sand granules or particles is approximately 0.85:1. In other words about 15% of eachparticle 18 projects above the surface of the adhesive. This has the advantage of giving the sheet 23 (according to the invention) a visible surface largely composed of hard material which is therefore well able to offer great resistance to rubbing, especially as most of the volume of the particles is buried in an adhesive 25 which, once dry, is very tough. - The fact that the top surface of the
sheet 23 is largely composed of hard sand material is due, obviously, in part to the uniformity and density with which theparticles 18 are laid on thebacking 1, and indeed they lie side by side in contact with each other, occupying as much as possible of the surface to which they are bonded. The achievement of maximum density, and in consequence of uniformity, is the result of using a shower ofparticles 18 in slight excess, i.e. above the capacity of the adhesive to capture it all upon itself. The problem of this excess is then eliminated by the present method by providing underneath atrough 27 with powerful suction means operating at its sides to collect all the particles that have not stuck to the adhesive and return them to thehopper 20 in accordance with known methods. -
Particles 18 for this invention are grains of sand, i.e. of quartz with a diameter of approximately 0.2 mm. - The non-woven fabric suggested as preferred in the said method is of the type made up of short glass fibres laid in perpendicular layers. While from certain points of view to do with the properties of the finished product the nature of a non-woven fabric offers undoubted advantages, nonetheless in other respects to do with its simple structure it could present the drawback that its fibres are poorly bonded together and therefore liable to be lost, that is, to be rubbed or pulled out by the very printing cylinders themselves, which as a result would no longer be able to operate properly.
- Before the non-woven fibreglass fabric is used, it is put through a preparatory impregnation with an acrylic resin modified by a well-known technique. This is in order to compact the non-woven so as to make it able to withstand the tearing compression exerted by the hard surface particles and so prevent the escape of microfibres into the air, increase its tensile strength and enhance its strippability.
- In the present method a fundamental role is played by the interdependence of many parameters because the importance of any one of them involves the characteristics of others. One example of this is the choice of the "clothing" of the printing cylinder, i.e. of the usual densely perforated cylinder made in thin nickel-chromium steel sheet that is used to create the printing matrix. This clothing is usually treated with photosensitive gelatins spread by a special axially moving ring and treated by familiar techniques so as to leave certain perforated areas open, through which the squeegee can squeeze the
printable adhesive 25, and to block other areas through which no adhesive is to pass; the shape of this area defines the shape deposited or printed on the backing. The quantity of adhesive deposited represents a point of equilibrium between multiple factors connected with the intrinsic properties of the printable adhesive, the mechanical strength of the squeegee, the mechanical strength of the perforated plate, the thickness of this plate (because the greater the thickness the holes pass through, the more adhesive they can hold and release), and the thickness of the covering on the outside of the clothing formed by the gelatins which then set into a very hard resin. - The thickness of the outer covering affects the distance between the clothing and the surface to be printed with the adhesive 25 pressed by the
squeegee 8 and variously absorbed by adhesion by the printable surface of thebacking 1 owing to the action of theback pressure drum 15. - One practical example that offers an equilibrium between the factors cited, and enables the method to be carried out satisfactorily, employs nickel-chromium clothings having a thickness of 210 microns and a 100 "mesh" perforation. It also uses two layers of masking gelatin (for creating the design to be printed) so as to give "non-inking" thicknesses on the outside of the clothings that are very great and compatible with the relatively high density of the adhesive 25. Said adhesive is preferably of acrylic type (e.g. that known by the trade mark ACRONAL 290 D from BASF), but the method can also be carried out with other adhesives, such as vinyl type adhesives.
- The high viscosity of the printable adhesive, necessary for the implementation of the method, creates the manufacturing problem of a gradual accumulation of the adhesive at the open ends of the clothing (i.e. of the printing cylinder 6): such an accumulation creates "rings" of adhesive which ooze out at the sides and can be picked up simply by the movements of parts around the outside of the clothing. This would cause the rings to become flattened onto the
backing 1, which would thereby be soiled - in other words continuously ruined, causing immense damage. - The method provides for the elimination of this potential event by employing two dedicated suction pumps, preferably of the diaphragm type; these pumps are positioned at the two open ends of the clothing and close to the two ends of the
squeegee 8 in order to remove the adhesive that would tend to ooze out of said printing cylinder or clothing. - The resulting product has the advantage of being thick, semirigid and composed primarily of mineral substances. In addition it is suitable for hanging definitively while yet being easy to remove (strippable) when required. Since its surface is made with different materials and porosities (1, 24; 25, 18) it has the advantage that bitonal chromatic effects can be obtained with a single coat of paint.
Claims (9)
- Method for the continuous production of sheets (23) for wall coverings, wherein a non-woven backing (1) of fibreglass is printed with ornamental designs including large areas (24) without adhesive (14) by rotary screen printing of an adhesive (25), capable of incorporating particles (18), poured onto it uniformly in controllable quantities (19), and particles (18) lying on areas of the non-woven backing that are not covered with the printable adhesive (25) are removed by suction and subsequent blowing (26) before the processed sheet (23) passes into an oven for drying of the above-mentioned adhesive characterised in that the particles (18) are grains of sand, i.e. quartz and the particles (18) are poured when the printed non-woven backing is about to pass around a low roll (12) in a 180° turn, thereby forming a recess for collecting the falling particles (18) and forcibly embedding them by the contact pressure of the non-woven backing on the semicylindrical surface of the turn roll (12).
- Method according to the previous claim, characterized in that it employs a nickel-chromium clothing or printing cylinder (6) having, a thickness of 210 microns and a 100 mesh perforation, the said clothing being treated with two layers of gelatin, the second layer of gelatin, which may for example contain epoxide, being spread on the already-hardened first layer in an axial movement in the opposite direction to that in which the first layer was applied, in order to render the thickness more uniform.
- Method according to the previous claims, characterized by a long rectangular tank (27), for collecting excess particles (18) falling onto the pressing roll (12), being placed below the latter roll and extending beyond its ends, in order to collect particles that have not remained attached to the adhesive (25) and allow two suction nozzles located at the ends of this tank to carry them away and return them to a hopper (20) for reuse.
- Method according to the previous claims, characterized by striking the surface of the sheet (23), already provided with the particles (18), with a jet of blown air (26) capable of removing weakly attached particles before the sheet enters the adhesive-drying oven.
- Method according to the previous claims, characterized by a printing roll or clothing (6) equipped at its open ends, at the bottom of the sides of the squeegee (8), with suction inlets for a positivepositive-displacement pump, preferably of diaphragm type, for removing the adhesive (25) as it collects at each end of the squeegee, in order to prevent it from oozing out at the sides and reaching and so damaging the front surface on contact with the non-woven backing (1) that is being printed.
- Method according to the previous claims, characterized by a process of screen printing performed with an equilibrium between the viscosity of the adhesive (25), the printing contact pressure (5, 6), the adhesion to the backing (1), the size of the holes of the clothing, the thickness of the clothing and the thickness of the masking gelatin, which is such as to allow deposition of the adhesive (25) forming pinholes (28) between the extruded discs (10A) of adhesive even after deposition (19) and compression (12) of the particles (18), in order to give the final sheet (23) an appropriate permeability or breathability.
- Method according to the previous claims, characterized by a: layer of adhesive (25) whose thickness is such that, after the particles (18) have been pressed in, their tops project from it by approximately 15% of their general diameter.
- Sheets for wall coverings produced by the method according to the previous claims, comprising a base structure of a non-woven backing (1) of fibreglass printed for ornamental purposes by a rotary screen printing method using an adhesive (25) subject to hardening for the incorporation and fixing of particles (18), projecting from the level of the adhesive attaching it to the non-woven backing (1), which ornamental print includes large areas (24) without adhesive that are therefore capable of permitting great permeability or breathability, characterised in that the particles are grains of sand, i.e. quartz.
- Sheets according to Claim 8, characterized by the structure of a non-woven fibreglass fabric preimpregnated with an opacifying primer, said primer preferably consisting of a compound based on acrylic resin and titanium dioxide.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
ITBG970019 | 1997-04-16 | ||
IT97BG000019A IT1297842B1 (en) | 1997-04-16 | 1997-04-16 | PROCESS FOR CONTINUOUS CREATION OF SHEETS FOR WALL COVERINGS WITH ANCHORAGE BASE IN FIBERGLASS-NON-WOVEN FABRIC AND |
Publications (3)
Publication Number | Publication Date |
---|---|
EP0875618A2 EP0875618A2 (en) | 1998-11-04 |
EP0875618A3 EP0875618A3 (en) | 1999-07-28 |
EP0875618B1 true EP0875618B1 (en) | 2002-09-11 |
Family
ID=11336514
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP98106875A Expired - Lifetime EP0875618B1 (en) | 1997-04-16 | 1998-04-16 | Method for the continuous production of sheets for wall coverings with attachment backing made of non-woven fibreglass fabric and sheets produced |
Country Status (4)
Country | Link |
---|---|
EP (1) | EP0875618B1 (en) |
AT (1) | ATE223982T1 (en) |
DE (1) | DE69807776T2 (en) |
IT (1) | IT1297842B1 (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
PT1254984E (en) | 2001-05-04 | 2010-12-16 | Johns Manville Europe Gmbh | Volumetric effect glass fiber wallcoverings |
DE102005058788A1 (en) * | 2005-12-09 | 2007-07-05 | Weiss, Wilfried | Laminar paper-based decorative wall material has layers of different elasticity incorporating irregular folds |
CN115044312B (en) * | 2022-07-08 | 2023-06-23 | 浙江雅琪诺装饰材料有限公司 | EVA (ethylene-vinyl acetate copolymer) laminated self-adhesive seamless wall cloth and preparation method thereof |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2613641B2 (en) * | 1988-10-24 | 1997-05-28 | ダイニック株式会社 | Spraying foam wallpaper |
KR960006787B1 (en) * | 1991-03-28 | 1996-05-23 | 타켓트 인코포레이팃드 | Inlaid sheet materials having a selectively applied decorative adhesive matrix and method of production thereof |
CA2186393A1 (en) * | 1994-04-05 | 1995-10-12 | Anthony N. Piacente | Resilient inlaid products and methods for making such products |
DE19602218A1 (en) * | 1995-02-01 | 1996-08-14 | Optiplast Ges Fuer Kunststoffs | Prodn. of patterned wallpaper with structured surface |
-
1997
- 1997-04-16 IT IT97BG000019A patent/IT1297842B1/en active IP Right Grant
-
1998
- 1998-04-16 AT AT98106875T patent/ATE223982T1/en not_active IP Right Cessation
- 1998-04-16 EP EP98106875A patent/EP0875618B1/en not_active Expired - Lifetime
- 1998-04-16 DE DE69807776T patent/DE69807776T2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
DE69807776T2 (en) | 2003-05-15 |
ITBG970019A0 (en) | 1997-04-16 |
EP0875618A2 (en) | 1998-11-04 |
DE69807776D1 (en) | 2002-10-17 |
ATE223982T1 (en) | 2002-09-15 |
IT1297842B1 (en) | 1999-12-20 |
EP0875618A3 (en) | 1999-07-28 |
ITBG970019A1 (en) | 1998-10-16 |
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