JPH11509896A - METHOD AND APPARATUS FOR FIXING A SUBSTRATE ON A SUBSTRATE - Google Patents

Abstract

(57) Abstract The fabric (22) passes through a coating unit (23) and receives a coating of an acrylic resin to which an elasticizer has been added. The woven strip then passes through a blower (24), which heats from a tape (29) that initially carries a substance such as mineral particles or metallizing film onto a coating that receives the substance. This is for adjusting the fluidity of the coating when transferring the substance by the press (28). This operation (33), or a part thereof, can be repeated at least once. The strip then passes through a press (38) for applying a plastic protective film, which itself is also initially carried on a tape (39). It is used in particular to give textiles and leathers an aesthetic effect like a traditional icon, in particular an aesthetic effect like gold, copper or silver plating.

Description

DETAILED DESCRIPTION OF THE INVENTION A method and apparatus for anchoring a substance to a substrate, and the resulting article The present invention relates to the application of at least one substance to a substrate, especially a flexible substrate such as textiles or leather. It relates to the method of fixing. The invention also relates to an apparatus for performing the method. The invention also relates to the article obtained by this method. The present invention is a novel aesthetic effect which cannot be obtained by a method known in the field of fabrics and leathers used for clothes, decoration, furniture, decorative cords, stationery, wall linings, moquettes, etc. The purpose is to obtain. However, this substrate may be rigid or semi-rigid, especially in the case of furniture, certain clothing articles, jewelry such as glasses and jewelry, theatrical decorations, car bodies and the like. The invention is particularly applicable to diversified metallic effects, in particular to the appearance of surfaces coated with one or more precious metals, which are randomly or routinely superposed, in particular the appearance of a traditional Greek icon (sacred image). The purpose is to obtain. The invention further provides for the manufacture of clothing with, for example, prophylactic and therapeutic substances, and other articles which are useful but which must be coated with a foreign substance to the substrate of the article. Useful for The prior art methods have very mediocre results with regard to the resulting appearance and / or the permanence of the manufactured articles, if they are to be used to achieve the above effects. In accordance with the present invention, articles, particularly articles used as garments, decorations, or linings, comprise a substrate, such as woven fabric, leather, and / or the like, which is characterized by That is, the material is connected (joined) to at least one material having a microstructure by a binder. The microstructure may be a uniform or fragmentary thin layer in the form of a film or a deposit, or may be a powder. The binder is a gel, an adhesive, a resin, or the like. In a first embodiment, at least one side of the substrate is provided with a flexible coating as a binder, so that the microstructured material is visible from the side of the coating opposite the substrate. Is fixed to the substrate. In a preferred embodiment, the article comprises at least two coating layers, each coating layer anchoring at least one material, the upper coating layer and the material to which it anchors at least partially the material anchored by the lower coating layer. It looks like. In a particularly preferred embodiment, the present invention implements lithotherapy, such as clothing or building linings made of at least one mineral-immobilized substrate having a therapeutic effect. Provide unique goods. In a particularly advantageous embodiment, a plurality of microstructural substances are arranged in a plurality of areas of the garment corresponding to a plurality of preferably dispersed areas of the front of the upper part of the garment wearer. In the method of the present invention for producing the article, at least one mixture of a powder and a binder constituting a material having a fine structure is prepared. The mixture is placed on the sieve and the substrate is placed under the sieve, then creating a relative movement between the substrate and the sieve on one hand and the scraper pressed on the sieve on the other hand. The mixture is then passed through a sieve and onto a substrate. In another method, a binder is placed on a substrate, and then the powder is dispersed and deposited on the binder by passing the substrate under a spraying device that sprays the powder. In yet another method, a substrate is produced from a yarn previously immersed in a mixture of a powder containing a microstructured substance and a binder. The present invention also provides a method of fixing at least one substance to a substrate, the method comprising the steps of: a) applying a coating to the substrate; and b) supporting the coating on a support. Depositing a deposit of a substance on the surface of the coated substrate and allowing the substance to separate from the support and settle on the coating while the coating exhibits at least some fluidity at the surface , And. Preferably, the deposition of the deposit is performed under pressure and under heating. By contact, and possibly by pressure and heat, the coating in a suitable flow state captures and / or absorbs substances that were initially fixed to the support, for example a plastic film. During the application of the coating, the coating is pre-bonded to the surface of the substrate and is possibly penetrated to some extent (especially if the substrate has a porous surface such as a woven fabric). As such, the material that has at least partially penetrated into the coating will eventually settle on the substrate. The support may be, for example, a metallized plastic film of gold, silver, copper or other metal, the metallization being at least partially captured by the coating in a flowable state. If the substrate is flexible, the coating is preferably a material or material that exhibits sufficient elasticity after drying to allow the original flexibility of the substrate to remain substantially unchanged without cracking or Use a mixture of substances. In accordance with the present invention, a particularly suitable coating can be formed from an acrylic gel structure of the type commercially available to painters as forming a thick coating on a canvas or other pictorial support. This is an emulsion containing a thickener and an acrylic polymer. The use of this gel in the present invention is novel because it is not sold for use under heat or pressure. Preferably, the gel includes an elastomeric material such as a latex or a silicone compound (eg, those sold under the trademark RUBSON as "high modulus mastic silicone elastomers"), especially when the substrate is flexible. The imparting agent is added in an amount of 20 to 33% by volume, preferably 25% by volume. To enhance the mechanical strength after drying of the coating, 3-20%, preferably 5%, of acrylic resin can be further added, which is added in addition to what is already contained in the commercial gel. You. The amount used increases as the final product is exposed to mechanical attack. Depending on the decorative effect sought, the coating may further be added with appearance modifiers, for example pigments, mineral or metal powders such as pyrite, or various objects such as mica chips, plant debris, etc. it can. To achieve a special effect similar to a moiré (corrugated) finish, distribute the coating heterogeneously on the substrate or, after forming a uniform coating, scraping or fluffing for uniformity. May be destroyed. To apply the coating, the blade can be used like a scraper or spatula. In order to form a non-homogeneous coating, the blade is given a special movement during the painting and / or irregular or uneven defects are present on the edges adjacent to the substrate to be coated. Use a moped blade. Preferably, after the coating is applied, the coated surface is passed under a drying blower to control the percentage of moisture in the subsequent material capture step by the coating, and thus the flowability of the coating. Depending on the nature of this material, the original support, together with the proportion of water that the coating should contain, so that the operation is as effective as possible with regard to the aesthetic effect obtained and the persistence of the fixing of the material to the substrate by the coating. The test determines the pressure and temperature to be applied when transferring the substance from the body to the coating. A coating that is too liquid will peel off from the substrate and will create irregularities when pressing the material. A coating that lacks fluidity may refuse to trap the substance because it cannot overcome the original bond between the substance and the support, or may permanently anchor the substance to the substrate. Will not be able to. Before or after partial drying, and before or after fixing the substance to the substrate by coating, paint or the like is applied to the coating by a brush or spray over the whole or a part of the surface to form or form a pattern. Can not. Instead of applying the coating with a blade and using a gel, the coating can be applied by spraying, especially also using an acrylic coating. As described above, an elasticity-imparting agent can be added to the coating as needed. The temperature used to transfer the substance onto the coating is usually between 60 and 120 ° C, although higher temperatures up to 600 ° C can be used. The higher the temperature used, the shorter this time must be applied for a given material to avoid degradation of the substrate and / or coating (generally, the material to be transferred must Is more durable). Certain materials, especially particulate materials, are more easily transferred at high pressures, for relatively long times, and at relatively low temperatures. Rather, other materials having the properties of a film or foil transfer more easily at short pressures and high temperatures and adhere quickly to surfaces. Once these operations have been performed, the product can be stabilized by applying a varnish or protective plastic film and / or by further waterproof spraying. When the substrate is flexible, the flexibility of the substrate can be better maintained by the waterproof spray. However, instead of directly sending to the above-mentioned final protection application step, it is possible to send to another heating press in advance to apply other substances. These other materials are applied in principle such that the material applied on the underlying layer is not completely covered, so that the material applied is at least partially visible. Prior to the application of each new substance, the application of the coating is in principle renewed and then dried to control the flowability of the coating. In each step, a coating different from the coatings in other steps can be selected depending on the substance to be fixed. Also, before the first transfer of the substance, it is possible to form two different coatings, for example of two different colors, which are only partially covered. Also, after the initial press, it is only possible to apply a coating or paint having a special aesthetic effect. To fix a film-like substance such as a metal coating, it may be sufficient to apply a thin coating, for example by spraying. Conversely, particulate matter requires a certain thickness of coating to be properly embedded in the coating. According to a third aspect of the present invention, an apparatus for performing the above method comprises: means for unwinding a flexible substrate; coating means for applying a coating to the substrate; Pressing means for pressing a support coated with the resulting material onto the surface of the coated substrate. Preferably, the pressing means is heated. Preferably, a controlled drying device is provided between the coating means and the pressing means. Other features and advantages of the present invention will become more apparent from the following description of two non-limiting embodiments. In the accompanying drawings: FIG. 1 shows the fabric (woven fabric) of the present invention; FIG. 2 schematically shows the device of the present invention; FIG. 3 is a schematic view of the clothes of the present invention; 5 is a schematic side view illustrating another method of the present invention; FIG. 5 to FIG. 7 are schematic cross-sectional views illustrating the method of the present invention; In the embodiment shown very schematically and merely by way of example in FIG. 1, a fabric having a warp 1 and a weft 2 receives a first coating layer 3, which is coated on one side of the fabric. , And partially penetrates the warp yarn 1 and the weft yarn 2 over a part of the thickness of the fabric. The substance 4 in the form of particles (for example pyrite or gemstone particles) has penetrated the coating 3 in the vicinity of the side 6 of the coating 3 opposite the fabric. On said surface 6 of the coating 3, a second coating layer 13 is formed. On the surface 16 of the coating 13 opposite to the yarns 1 and 2, a sheet metal 14 (for example, gold foil) is fitted. Since the coating 13 is transparent, particles 4 appear between the lamellas 14 that are not aligned with each other. The coating 13 and the surface 16 of the sheet 14 are continuously covered by a varnish 17. In the embodiment shown in FIG. 2, the apparatus for producing a flexible strip according to the invention comprises: means 21 for feeding a strip 22; coating means for applying a coating on the upper surface of the strip. 23; a blower 24 for controlled drying of the coating until the coating exhibits the desired residual fluidity; a spraying unit 26 for spraying the acrylic paint on the coating; A heat press 28, for example of the heat roller type, for pressing the surface of the film against the upper surface of the coated substrate for a predetermined period of time, wherein the coated substrate between these rollers, on the one hand, Adjacent to the plastic tape 29 (on one side of the plastic tape, a uniform or heterogeneous deposit of particles, Further comprises a, which now passes uniform or heterogeneous deposits formed thereon while being tightened are supported) is the metallization of. One or more assemblies (e.g., an assembly 33 comprising a coating unit 23, a blower 24, a coating unit 26, and a press 28, as shown by the discontinuities 30 and 32 in the Alternatively, by disposing an assembly consisting of at least one of the four components of the assembly 33, it is only necessary to supplement the drying, to provide an additional color coating, or to additionally apply paint. Or any other material transferred by pressing, or even in each of the additional assemblies, such as 33, any desired combination of these four operations or portions thereof can be performed. The substrate then passes through a press 38, similar to the press 28, and a plastic film is placed on the coated surface of the strip to protect and stabilize the whole. This plastic film is initially held on the support tape 39. The completed fabric is taken up by a collection drum 41. In the embodiment shown in FIG. 3, the invention relates to a number of works, in particular, but not exclusively, the Dictionary of Stones Used in Lithotherapy (Reynald Georges BOSCHIERO 1994, Edition Vive Soleil, Inc.). , CH-1225 Schöneburg) as applied to therapeutic clothing utilizing the knowledge of lithotherapy. Lithotherapy uses selected minerals in selected areas of the human body (especially the lower spinal column, genital area, abdominal area, celiac plexus, anterior base area. (Considered to be easy to use) teaches that a therapeutic effect in a broader sense can be obtained, i.e., an equilibrium effect in general in psychiatric medicine. In the embodiment of FIG. 3, the garment comprises a woven substrate formed of natural fibers or yarns selected from flax, cotton, silk, and wool, and the garment has a powdered 4 Different minerals are settled into four regions 42, 43, 44, 45, respectively, corresponding to the four regions of the human body described above, and especially in front of the upper body of the garment wearer. In the illustrated example only, the garment is in the form of a combination with short sleeves and legs. This garment covers the upper body, which may be closed at the front, or in any case, the vertical part of the front of the upper body, which constitutes the part most susceptible to stone action in each anterior region of the human body as defined above. It is desirable not to have an opening on the central axis with a fastener made of a metal slide fastener device or other material (for example, a man-made material considered to be detrimental to the action of the stone). The back of the garment may or may not be coated with minerals. In particular, the area 42 or 43 can be covered by a special mineral acting on the area corresponding to the base of the spine. At least one area of the garment can be covered by a mixture of at least two minerals. FIG. 4 shows a first method for producing a woven fabric carrying a mineral powder. This method is inspired by a known method called "frame-type" which is used to produce heavily colored foulards and fabrics. The base material 46 made of a band material such as a fabric intermittently moves on the table 47 while passing below the frame 48. The bottom of the frame is covered by a sieve 49, which is formed by a perforated plate in a region 51 of the substrate 46 in the shape of the region where the desired substance is to be deposited. According to the present invention, instead of placing the coloring composition on the sieve 49, a mixture 52 of the gel and the mineral powder is placed on the sieve. In FIG. 4, the mixture 52 is schematically cut away to show a part of the sieve 49. A scraper 53 capable of reciprocating (arrow 54) is provided inside the frame 48 along the upper surface of the sieve 49 so as to pass at least a part of the mixture 52 across the perforations 51. I have. The mixture that has passed through the perforations 51 reaches the base material 46. The movement of the scraper 53 occurs when the movement of the substrate 46 is interrupted. Although not shown, the frame 48 can be lifted when the substrate 46 is moving. A plurality of assemblies including the frame 48, the sieve 49, and the scraper 53 are provided along the path of the base material 46, and a plurality of different mixtures can be deposited on a selected region of the base material 46. The resulting fabric can then be cut to form a garment as shown in FIG. In the embodiment shown in FIG. 5, the substrate 46 is fed between a lower drum 54 constituting an anvil and a perforated upper drum 56, inside which is described in connection with FIG. The stored mixture 52 is stored. The scraper 57 is pressed against the inner wall of the drum 56 so as to face the region of the drum 56 that contacts the substrate 46. Since the drums 54 and 56 rotate in opposite directions, they have the same transport direction in the area where they contact the substrate 46 passing between them. The perforations in the drum 56 may be distributed regularly so that a fabric uniformly coated with a predetermined powder is formed at the outlet, or perforations may be provided only in specific areas. In the latter case, the substrate 46 can be sequentially passed through a plurality of pairs of rollers 54 and 56 to deposit different mixtures on different regions of the substrate. Conversely, if the perforations are evenly distributed on the drum 56, the resulting fabric will be uniformly coated with a powder or a mixture of predetermined powders. Thereafter, a garment uniformly coated with the powder or powder mixture can be formed, or additionally, floor or wall linings for building interiors, such as waiting rooms and consultation rooms in clinics and hospital facilities, Or a curtain can be formed. It is also possible to form garments having different regions carrying different minerals by forming a plurality of fabrics uniformly coated with different materials and combining cuts of such different fabrics. It is also possible to provide a chair with a coating carrying a different mineral for each of the seat, the back and the armrest, or to further provide a bedspread with a band corresponding to the different regions of the human body as described above. You can also. The embodiment of FIG. 6 shows a method for producing a uniformly coated fabric. The base material 46 continuously advances first under the binder coating device 58 and then under the powder sprinkling device 59, and the mineral powder 61 permeates the binder previously applied on the base material. In the embodiment shown in FIG. 7, the yarn 62 passes through a bath 52 of the mixture and is impregnated with a binder containing mineral powder. Upon leaving the bath, the yarn 62 passes between two squeeze rollers 63 to remove excess mixture prior to drying. The yarn then passes through a drying device 64. The yarn thus obtained is used for manufacturing a woven fabric carrying the mineral powder of the present invention, and a moquette or a wall lining is manufactured by, for example, weaving or needling. Of course, the present invention is not limited to the embodiments described and illustrated above, but includes various variants that can be envisaged through the disclosure of the specification.

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁶ Identification symbol FI B44C 1/17 B44C 1/17 F (81) Designated country EP (AT, BE, CH, DE, DK, ES, FI, FR, GB, GR, IE, IT, LU, MC, NL, PT, SE), OA (BF, BJ, CF, CG, CI, CM, GA, GN, ML, MR, NE, SN, TD, TG) , AP (KE, LS, MW, SD, SZ, UG), UA (AM, AZ, BY, KG, KZ, MD, RU, TJ, TM), AL, AM, AT, AU, AZ, BB, BG, BR, BY, CA, CH, CN, CZ, DE, DK, EE, ES, FI, GB, GE, HU, IL, IS, JP, KE, KG, KP, KR, KZ, LK , LR, LS, LT, LU, LV, MD, MG, MK, MN, MW, MX, NO, NZ, PL, PT, RO, RU, SD, SE, SG, SI, SK, TJ, TM, TR, TT, UA, UG, US, UZ, VN

Claims (1)

[Claims] 1. Substrates such as textiles, leather, and / or the like (1,2; 22; 46) An article, particularly used as clothing, decoration or lining, comprising: The material is connected to at least one microstructured substance (14; 61) by a binder Articles characterized by being done. 2. The binder (3, 13) is a small binder such as latex or silicone. It is based on an acrylic resin to which at least one type of elasticity-imparting agent has been added. An article according to claim 1 wherein: 3. Articles particularly used as clothing, wherein at least one surface of the substrate is bound A flexible coating (3, 13) as If the material of the fine tissue is the surface (6, 16) of the coating opposite to the substrate (1, 2) Is fixed to the substrate so that it can be seen through the coating Goods. 4. At least two coats, each coating layer anchoring at least one substance. Coating layer (3, 13), the upper coating layer and the material to which it is fixed Makes the material fixed by the lower coating layer at least partially visible Article according to claim 3, characterized in that: 5. 5. The material according to claim 1, wherein the substance having a fine structure is a powder. Based goods. 6. The article according to claim 5, wherein the powder is a mineral powder. 7. The yarn (62) constituting the base material is individually bonded to the powder by a binder. Article according to claim 5 or 6, characterized in that: 8. The material of the microstructure includes a substance having a therapeutic effect. Articles based on any of 1 to 7. 9. 9. The article according to claim 1, wherein the article is clothing. Goods. 10. A plurality of regions (42, 43) of the garment corresponding to predetermined regions of the body of the garment wearer. , 44, 45) wherein a plurality of types of microstructured substances are arranged. Articles based on 9. 11. The garment covers at least the upper body, and the predetermined area is the upper half. Article according to claim 10, distributed at the height of the body. 12. The garment is closed by a portion covering the front part of the upper body. Articles based on 10 or 11. 13. The base material is a natural fiber fabric such as flax, cotton, silk, and wool. An article according to any one of claims 1 to 12, characterized in that: 14． 2. The article according to claim 1, wherein the article is a lining for an inner wall of a building. Articles based on any of the eight. 15. 15. A method for producing an article according to any of the preceding claims, comprising the steps of: Removing at least one mixture (52) of a powder and a binder constituting the material of the tissue; Prepare, place mixture on sieve (49, 56) and place substrate (46) under sieve And then on one side between the substrate (46) and the sieve (49, 56) and on the other side Creating relative movement between the substrate and the scrapers (53, 57) pressed against the sieve, Passing the mixture through a sieve onto a substrate. 16. A method for producing an article according to any of the preceding claims, comprising a substrate (46) Spraying by placing a binder on top and then spraying a substance (61) with a fine structure Pass the substrate (46) under the device (59) and put the substance (61) on the binder A method comprising depositing in a dispersed state. 17． 15. A method for producing an article according to any of the preceding claims, comprising the steps of: The yarn (6) pre-soaked in a mixture (52) of a powder containing a tissue substance and a binder 2) A method characterized in that a substrate is produced from the method. 18. A method of fixing at least one substance to a substrate,   a) applying a coating (3, 13) to a substrate (1, 2; 22);   b) depositing said substance deposits (4, 14) on a support (29); Applied to the surface of the coated substrate (1, 2; 22) so that the coating has at least The material is separated from the support while exhibiting some fluidity on the surface and coated. The process of fixing to A method comprising: 19. The step of depositing a deposit of material is performed under pressure. A method according to claim 18. 20. The step of depositing a deposit of material is performed under heating. Method according to 18 or 19. 21. 21. The device according to claim 18, wherein the support is a tape (29). Method based on any of the above. 22. Said substances (4, 14) are heterogeneously dispersed on a support (29); A method according to any of claims 18 to 21, characterized in that: 23. Coating (3, 13) is applied heterogeneously on the substrate (1, 2; 22) A method according to any of claims 18 to 22, characterized in that: 24. Characterized by applying the coating by a blade used like a spatula 24. A method according to any of claims 18 to 23. 25. 25. The blade according to claim 24, wherein the blade used has a non-straight edge. Based method. 26. The coating used is formed from an acrylic gel. A method based on any of claims 18-25. 27. The coating used is an elasticity-imparting agent such as silicone or latex 27. The method according to claim 18, wherein the gel structure is formed from a gel structure to which is added. A method based on the nickname. 28. 28. The method according to claim 26, wherein an acrylic resin is added to the gel. How to follow. 29. 29. The method according to claim 18, wherein the coating is applied by spraying. Method based on any of the above. 30. The second deposition (13, 14) reduces the material (4) deposited first At least one of said steps a) and b) 30. The method according to any one of claims 18 to 29, wherein one of the steps is performed at least twice. Way. 31. Before applying the coating to the substrate (1,2; 22) 31. The method according to claim 18, wherein the compound is added to the ting (3, 13). Crab based method. 32. Characterized in that the appearance modifying component is selected from mineral powder, mica, metal powder The method according to claim 31. 33. Reduce the flowability of the material prior to step (28) of applying the substance to the coating To partially dry the coating after the coating is applied (2 Method according to any of claims 18 to 32, characterized in that item 4). 34. By spraying with a brush or paint in the process after coating is applied 34. The method according to claim 18, wherein a pattern is formed on a substrate. Based method. 35. After capturing said substance (4,14) by coating (3,13) In the process, a fixing film (17) is attached to the coated substrate surface 35. A method according to any of claims 18 to 34. 36. The base material (1,2; 22) is flexible like a woven fabric or leather and has cracks. Enough to allow the original flexibility of the substrate to be maintained almost unchanged without occurring Claims: Use of a coating (3, 13) exhibiting elasticity after drying. A method based on any of paragraphs 18 to 35. 37. Apparatus for performing a method according to any of claims 18 to 36. hand: Means (21) for feeding out a flexible substrate (22); Coating means (23) for applying a coating to the substrate; -Coating the support (29) coated with a substance which can be Pressing means (28) for pressing against the surface of the coated substrate (22); With the device. 38. 38. The method according to claim 37, wherein the pressing means (28) is heated. Equipment based. 39. Controlled drying between the coating means (23) and the pressing means (28) Device according to claim 37 or 38, comprising a device (24).