MX2007000132A - Flooring system having sub-panels with complementary edge patterns. - Google Patents

Abstract

Laminated flooring planks include decorative motifs, mechanically embossed-in??-registration surface textures, recessed perimeters, and locking mechanisms. Adjacent planks substantially aligned allow embossed-in-registration patterns to be substantially continuous across adjacent flooring panels. The recessed perimeter prevents the edges of the flooring panel from prematurely wearing. Individual planks within the flooring system may comprise at least one partial sub-panel having a decorative motif and/or embossed surface texture (i.e., pattern)that is complementary with a pattern of a neighboring partial sub-panel or plank. Each plank may include edge patterns adjacent a portion of an edge of the plank and at least one bulk pattern adjacent the edge patterns. Edge patterns within a plank and of planks within a flooring system are substantially identical to each other. Bulk patterns form a substantially continuous pattern within an individual plank when adjacent a plank.

Description

ENTARIMATE SYSTEM THAT HAS SUB-PANELS WITH COMPLEMENTARY EDGE PATTERNS This application incorporates by reference the application with serial number 10 / 689,510, filed on October 21, 2003, entitled "Parquet System having Sub-panels with Complementary Edge Patterns", which is a continuation in part of the application for the number of series 10 / 374,751, filed on February 27, 2003, tiíulada "ENTARIMADO SYSTEM THAT HAS COMPLEMENTARY SUB-PANELS" (proxy number 5724.017.22), which is a continuation in part of the Cooperate application serial number 10 / 352,248, filed on January 28, 2003, entitled "ENTARIMATE SYSTEM THAT HAS ADDITIONAL SUMPANELS" (proxy number 5724.017.21), which is a continuation in part of the Cooperativa application 10 / 137,319, presented on May 3 , 2002, tiíulada "SYSTEM OF PANEL PRINTED IN REGISTRATION" (Proxy ID number 5724.007.00), and incorporates by reference the cooperative application, serial number 09 / 903,807, filed on July 31 lio, 2001, entitled "PROCEDURE FOR THE MANUFACTURE OF PRINTED STAMPING" (Proxy number 5724,016.00), and US Patent No. 6,401,415, filed on December 13, 1999, entitled "DIRECT LAMINATED FLOOR", for All purposes are mentioned here completely.

BACKGROUND OF THE INVENTION FIELD OF THE INVENTION The present invention relates to laminated materials. More particularly, the present invention relates to a parquet system of closed laminate materials having decorative motifs and surface textures that are stamped mechanically in register with their decorative motifs.

DISCUSSION OF THE RELATED TECHNIQUE Due to their appearance and perception, traditional finishing and construction finishing materials such as fine woods, slate, granite, stones, brick, and concrete are generally preferred by customers. However, such traditional building and finishing parquet materials tend to be expensive to produce and install. For example, while a solid wood floor has a highly valuable luxurious appearance, the materials and work required to install such floors can be prohibitively expensive. Many alternatives for traditional building materials and finishing parquet are available, including laminates such as high pressure laminates (HPL), direct pressure laminates (DPL), and continuous pressure laminates.

(CPL), However, such alternatives typically do not possess the realistic appearance and texture of traditional building materials and finished parquet. For example, most alternatives that have an external surface with a wood motif look false and can be easily identified as something different from autentic wood. In addition, high quality HPL, DPL, or CPL tables can visually look like wood, their textures easily reveal that they are not. A problem with most alternatives of traditional building materials and finished parquet is that their surface textures do not fit their decorative motifs. For example, visual illustrations of wood nodes in alternate parquet materials do not fit with surface texture characteristics of wood nodes. Therefore the attraction of these alternative materials is significantly reduced. An aspect used to couple the surface texture of alternative parquet materials to their decorative motifs includes a technique known as chemical stamping. In chemical printing, the surface texture of the alternative material is developed by chemically reacting a tin that forms the decorative mill with an agent added to a layer of its surface. While somehow successful, the resulting surface texture tends to lack the textual acuity and three-dimensional characteristics of traditional materials.

As an alternative to traditional construction materials and finishing parquet, laminate materials can be mechanically stamped to produce a surface texture. See, for example, the patent application of E.U.A. 09 / 903,807 and the patent of E.U.A. No. 6,4014,415, which are incorporated herein by reference. Such methods produce laminated printed materials that have decorative motifs and that are coupled to high quality three-dimensional textures. Laminated stamped registration materials require accurate registration of mechanical stamping and decorative motif. An advantage of laminated materials stamped on the register is that they can reproduce the appearance and perception of traditional products in a real way. Regardless of which type of flooring system is used, the flooring system should be easily moved to a work site while it is easy and quick to install. Up to this point, the assembly and mechanisms wanted to be able to be incorporated into the parquet systems to facilitate on-site installation. One type of assembly and locking mechanism is the tongue and groove system used to connect panels. It is understood that such tongue and groove systems are discussed in Cherry, U.S. Patent No. 2,057,135, and in Urbain U.S. Patent No. 2,046,593. For example, Figure 1 can be interpreted to illustrate a tongue and groove system 11 that uses fasteners 12 to secure the panels together.

Another type of assembly and closing mechanism is understood to be described in Chevaux, US Patent No. 3,946,529 wherein a flooring system 13 appears to be connected using a tongue and groove system disposed under the floor, reference to Figure 2 Even another assembly and closing mechanism is thought of in Kajiwara, US Patent No. 5,295,341. Here, it is understood that the laminated boards are provided with an adjustment system such as a tongue-groove joint. As a result laminated boards can be assembled without glue. Referring to Figure 3, it is provided in the laminated tables as a closure means in the form of a slot connector 16, and a tongue connector 18. The slot connector 16 has slots protruding forward 20, while the tongue 18 is provided with a pair of forwardly diverging side walls 22 and 24 which are separated by an elongated slot 26. The side walls include rear closure surfaces 28 and 36. The side walls can be compressed to allow closure. Another type of assembly and closing mechanism is the adjustment joint suggested in Mártensson, part of E. U. A. No. 6,101,778. As shown in Figure 4, it is understood that the laminated boards are provided with a closure means comprising a slot 6 and a tongue 7 that form a tongue-groove assembly. The groove 6 and the tongue 7 can be made of water-tight material and adjusted with a proportion 9 that fits in the slot 4. While the aforementioned assembling and closing mechanisms have proved useful, they have not been used with laminated systems stamped in register in which the decorative motifs stamped in register or graphics are aligned through the joints between the laminates stamped on individual records. This deviates significantly from the visual texture impression of systems composed of laminated boards stamped on register. Therefore, a new laminated system stamped in register in which the visual and text patterns cross joints while retaining the aspects stamped on records would be beneficial. Even more beneficial would be a fixed laminate system in a composite register of laminated bars stamped on a closure register in which the visual and texture patterns cross joints while retaining patterned aspects in register. In addition, the aforementioned flooring systems have a relatively low capacity to withstand wear. While you do not want to be a union to any particular theory, it is hypothetical that premature aging (wear) begins at or near the perimeter edges and / or along the tongue and groove lines. The aforementioned flooring systems have a substantially fixed surface texture (level) such as the center and perimeter of each of the panel count users (e.g., peaíones) an equal amount. The perimeter of each panel, however, is substantially weaker than the center of the panel and therefore it deteriorates first. In addition, parquet systems typically have no decorative motifs or pattern designs that are longer than the length of a plank. For example, in a timber system designed to reproduce a wooden floor that has wood strips, the length of the wood strip pattern is typically equal to or shorter than the length of an individual tremor. This is desirable in parquet systems of the related art because it does not require the installer to plan more than one plank beyond the plank being installed. Accordingly, there is a need for a workable method of manufacturing alternate construction or finishing materials wherein the alternatives have realistic appearance and feel of traditional products and have an increased capacity to withstand premature wear, in which the minimum number of planks is used maintained while still being able to create design motifs or pattern elements with a length greater than that of an individual plank.

BRIEF DESCRIPTION OF THE INVENTION Accordingly, the present invention is directed to a recorded system recorded in a register that subliminally evidences one or more of the problems due to limitations and disadvantages of the related art.

One advantage of the present invention provides a register stamped parquet system including individual adjacent parquet planks having decorative motifs stamped in register wherein at least one texture surface and decorative motif is substantially aligned on adjacent parquet planks. Another advantage of the present invention provides a fixed registration floor system that includes enclosed parquet planks having decorative patterns stamped in register in at least one surface texture and decorative pattern are substantially aligned between adjacent floorboards such as patterned patterns on the floor. Substantially continuous recordings that are formed through closed parquet planks. Another advantage of the present invention provides a registration system for example, which may include parquet planks where a surface of a perimeter of each individual parquet plank can be depressed so that an upper surface of the perimeter of the parquet planks This is below a portion of an upper surface of the parquet planks surrounded by the perimeter. Another advantage of the present invention provides a board comprising a plurality of sides defining a perimeter; a plurality of edge patterns disposed proximate to a first perimeter portion, wherein at least two of the plurality of edge patterns are substantially identical; and to minus one bulky pattern disposed adjacent the plurality of edge patterns and close to at least one second perimeter portion, wherein at least one pattern of luminous and one edge pattern adjacent to at least one bulky pattern forms a substantially substantial pattern. Another advantage of the present invention provides a parquet system, comprising at least two planks adjoining one another along a predetermined direction, wherein each plank comprises: a plurality of sides defining the perimeter; a plurality of edge patterns disposed proximate to a first portion of the perimeter, wherein at least two of the plurality of edge patterns are substantially identical; and at least one bulky pattern disposed adjacent the plurality of edge patterns and close to at least one second perimeter portion, wherein at least one bulky pattern and an edge pattern adjacent to at least one bulky pattern forms a substantially continuous pattern.; here the edge patterns of at least two planks form a substantially continuous pattern. * Another advantage of the present invention provides a floor panel, comprising a plurality of sides defining a perimeter; a surface having a decorative motif thereon, said decorative motif comprising at least two edge patterns adjacent to each of the panel sides and at least one bulky pattern on the inside of the panel and adjacent to the edge pattern on each side , where at least one edge pattern along on the one hand it is substantially identical to the edge pattern in a corresponding position along an opposite side; wherein at least a portion of the decorative pattern along one side is substantially different from the corresponding portion of the decorative pattern along an opposite side. Additional features and advantages of the invention are mentioned in the description that follows, and in part will be apparent from the description, or may be learned by practice of the invention. This and other advantages of the invention will be realized and obtained by the structure particularly indicated in the written description and the claims, also starting from the attached drawings. It is understood that both the foregoing general description and the following detailed description are illustrative and explanatory and are intended to provide further explanation of the invention as claimed.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide another understanding of the invention and are incorporated and constitute a part of its specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention. In the drawings: Figure 1 illustrates an assembly and closing mechanism of the related art; Figure 2 illustrates another assembly and closing mechanism of the related art; Figure 3 illustrates even another assembly and closing mechanism of the related art; Figure 4 illustrates even another assembly and closing mechanism of the related art; Figure 5 illustrates a perspective view of components in a parquet board stamped in register in accordance with the principles of the present invention; Figure 6 illustrates a pressure machine capable of manufacturing plank boards stamped in register in accordance with the principles of the present invention; Figure 7 illustrates a parquet board stamped in register in an aspect of the present invention; Figure 8 illustrates a top view of a system of parquet planks stamped into register of another aspect of the present invention; Figure 9 illustrates a cross-sectional view along line 9-9 shown in Figure 8; Figure 10 illustrates a top view of a system of parquet planks stamped into register even in another aspect of the present invention; Figure 11 illustrates a cross sectional view throughout of line 11-11 shown in Figure 10; Figures 12A and 12B illustrate schematic views including a perimeter surface portion of a floorboard in accordance with the principles of the present invention; Figures 13A and 13B illustrate a parquet system even in another aspect of the present invention; Figures 14A-14C illustrate an illustrative plan view of an enlarged system even in another aspect of the present invention; and Figures 15A-15E illustrate an illustrative method of formation patterns in the parquet plank according to the principles of the present invention. Figures 16A-16E illustrate an illustrative method of forming parones on a parquet board according to the principles of the present invention. Figure 17 illustrates an alternative illustrative method of forming patterns on a parquet board in accordance with the principles of the present invention. Figure 18 illustrates an alternative illustrative method of forming patterns on a parquet board in accordance with the principles of the present invention. Figure 19 illustrates an alternative illustrative method of forming patterns on a parquet board in accordance with the principles of the present invention.

DETAILED DESCRIPTION OF ILLUSTRATED MODALITIES Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Figure 5 generally illustrates components of a floorboard in accordance with the principles of the present invention. Referring to Figure 5, a parquet system embossed in register can, for example, include at least one parquet plank. In one aspect of the present invention, each plank board may include a board substrate 34 made of a substrate material (eg, a medium or high density fiber paper, chipboard, etc.), at least one sheet of bases 36 (for example, a sheet of craft paper) impregnated with predetermined resins and disposed on and / or under the paperboard substrate 34, a sheet of decorative paper 38 about 0.15 mm. Thick and impregnated with a polymerizable resin (e.g., phenols such as melanin) disposed on the paperboard substrate, and at least one protective cover sheet 30 disposed on the decorative paper sheet 38. In one aspect of the invention, each Protective cover sheet 30 can be formed from a tough paper impregnated with a melanin solution containing corundum (AI2O3), silicon, etc. In . In another aspect of the present invention, different papers may be disposed between the decorative paper sheet 38 and the thread sub-layer 34. In one aspect of the present invention, at least one protective cover sheet 30 and the base sheet 36 can be impregnated with a resin. In the aspect of the present invention, the resin impregnating at least one protective cover sheet 30 and the base sheet 36 may be different in the melanin resin used to impregnate the decorative paper sheet 38. In one aspect of the present invention , the parquet planks inside a parquet system can be manufactured substantially the same paper, resin, etc. For example, the aluminum planks of the filing systems can be made using paper made from the same paper fibers (which have, for example, substantially the same ash content, color, and orientation) the same or the same paper. paper making machine. In addition, parquet planks within a parquet system can be fabricated using paper that originates from a single, continuous section in the fabrication reel. All of the aforementioned paper use restrictions that can be employed in the manufacture of parquet planks of a parquet system ensure that the impregnated papers will always have substantially the same final dimensions after they were pressed and cured. In one aspect of the present invention, the storage of the paper used for the parquet boards manufactured within a parquet system can be controlled so that the time, temperature, and humidity at which the paper is stored is Maintain to facilitate consistent parquet plank dimensions. In another aspect of the present invention, the floorboards within a flooring system can be made using cellulose pulp made from the same manufacturer. In yet another aspect of the present invention, parquet planks within a sizing system can be manufactured by using resins made from the same manufacturer. Even in another aspect of the present invention, the resins may contain powder that originate substantially from the same source, have substantially the same chemical and physical qualities, and are mixed in the same reactor. In addition, parquet planks within a parquet system can be manufactured using resins having a substantially constant solid content. All of the aforementioned resin use restrictions that can be employed in manufacturing the floorboards ensure that the impregnated papers will always have substantially the same final dimensions after they are prived and cured. Even in another aspect of the present invention, each of the floorboards within a flooring system can be manufactured using substantially the same impregnation process. For example, when several sheets of paper are immersed in melanin resin, the paper will undergo a steady, uniform charge of melanin. In addition, a band tension and oscillation of the impregnation machine must be precisely controlled while influencing the degree to which the impregnation is impregnated. several sheets of paper with the resin. In accordance with the principles of the present invention, the aforementioned sheets and subscripts can be manufactured in a stamped parquet system which includes a plurality of closed floorboards. To produce such a parquet system, a pressure machine, such as the pressure machine shown in Figure 6, can be used to mechanically stamp each parquet board in register with a decorative pattern disposed on the sheet of decor paper 44. Referring to Figure 6, the pressure machine can as an example, include a base 42, an upper pressure 54, and an upper pressure plate 56. In an aspect of the present invention, the upper pressure plate can include a pairing of embossed (for example, a textured surface three-dimensionally). Accordingly, the stamping pad can, for example, include several raised rims such as points, depressions, etc., of any design capable of being aligned with a decorative mill formed in the decorative paper sheet 44. In accordance with the principles of the present invention, the impregnated decorative paper sheet 44 disposed on the cardboard substrate 40 must be positioned in an exact manner relative to the pattern of embossing of the top pressure plate to allow a parquet board stamped into register. In one aspect of the present invention, the alignment between the pattern of stamping of the pressure plate and the decorative pattern must be ensured when the pressure It is in a closed position and the cardboard is under pressure. The degree of control required may vary depending on the type of decorative motif used. For example, the alignment of a motif stamped on the wood grade record through parquet planks stamped on adjacent register requires a higher degree of alignment than the pattern motif stamped on wood grain register other than a parquet countable line adjacent. The alignment between the decorative pattern and the decorative paper sheet 44 and the embossing pattern on the upper pressure plate 56 can be achieved by removing from 2 to 3 mm. The material around the perimeter of the paperboard substrate 40 in a grinding process thereby generates several reference planes (e.g., cardboard edges) and the cardboard substrate having tightly controlled dimensions. Next, an impregnated decorative sheet of paper 44 having outer dimensions of about 8 to 10 mm smaller than the fleece substrate 40 is disposed on the paperboard substrate 40. In one aspect of the present invention, the sheet of decorative paper impregnated 44 can be disposed in the cardboard substrate 40 that uses the cardboard edges as the alignment means. In one aspect of the present invention, the alignment markings may be arranged on a cardboard substrate 40 and may be aligned with alignment marking provided on the decorative paper sheet 44.

In one aspect of the present invention, the decorative paper sheet 44 can be attached to the paperboard substrate 40 through static electricity. After it is joined, the decorative paper sheet 44 and the cardboard substrate 40 are arranged in a carriage that feeds the pressure machine. Static electricity can substantially prevent the decorative paper sheet 44 from accidentally moving while the cardboard substrate 40 moves with the carriage. In one aspect of the present invention, the carriage can be stopped just before it enters the pressing machine so that the decorative paper sheet 44 can be precisely arranged in the carden sub-frame 40 using, for example, pliers (no. shown). In another aspect of the present invention, the pliers can be used to accurately arrange the decorative paper sheet 44 in the floss subtraction 40 disposed in the lower pressure plate. In an aspect of the present inventionThe decorative paper sheet 44, at least one protective cover sheet 46, and the optional base sheet 48 can be disposed on the paperboard substrate 40 before being placed inside the pressure machine. After the decorative paper sheet 44 is disposed on the paperboard substrate 40, the carriage can move out of the press machine. Next, an alignment system substantially aligns the decorative paper sheet 44 / paperboard substrate system 40 with the pattern of embossing on the top pressure plate 56. In one aspect of the present invention, the alignment system can use two cardboard edges to substantially align the decorative mill 44 with the swaging shank in the upper pressure plate 56. The pressing machine can be operated after it completes the alignment. In one aspect of the present invention, after the components illustrated in Figure 5 are arranged within the pressing machine and aligned with the stamping pattern, the various sheets and sub-strands can be pressed and cured for a predetermined amount of time. until the resins settle, which generates a board of hard-wearing and extremely hardboard. For example, after insertion into the pressure machine and aligning with the embossing pattern, the fondant sub-frame 40, decorative paper sheet 44, protective cover sheet 46, and optional base sheet 48 can be heated to a temperature of about 160-220 ° C and press together under a pressure of approximately 20-40 Kg for approximately 20 to 60 seconds. Accordingly, the upper pressure 54 presses the embossing pattern of the upper pressure plate 56 into the decorative paper sheet 44 and the structure of the cardboard structure 40. The combination of applied heat and pressure fuses the decorative paper sheet 44 and the subtraction of caríón 40 junios. The alignment system ensures that the decorative paper sheet 44 substantially aligns with the pattern of embossing on the top pressure plate 56. Accordingly, the melanin resin within the various sheets can be cured and a stamped plank can be produced in registry.

In one aspect of the present invention, the porosity within the fused part can be minimized by slowly curing the resins (e.g., melanin). Accordingly, while the operating temperature is reduced, the time during which several sheets inside the pressure machine are pressed increases. The other aspect of the present invention, while the pressure plate 56 is heated to approximately 160-220 ° C, the embossing pattern included within the expansion plate may expand. Accordingly, the pattern of embossing on the pressure plate 56 can be provided to compensate for pattern expansion. Therefore, the dimensions of the embossing pattern are provided to correspond substantially to the design of the decorative pattern when the resins within the components of Figure 5 are cured. In accordance with the principles of the present invention, a mechanically stamped surface texture can be imparted to an individual parquet truck having a decorative motif. In one aspect of the present invention, the mechanically stamped surface texture can be provided registration with the decorative motif. Accordingly, a parquet plank stamped in register can be manufactured. In another aspect of the present invention, a plurality of parquet planks of stamps in register can be joined to form a parquet system stamped in register. Even in another aspect of the present invention, at least a portion of the patterned patterns in The record of adjacent plank floorboards can be substantially aligned with one another to form substantially continuous stamped patterns through the adjacent floorboards of the flooring system. While the above-described stamping process is suitable for stamped surface textures, there are at least approximately deeper surface textures, 0.2 mm deep, which can be problematic. Embossing patterns capable of imparting deep surface textures, for example, require relatively large pressure plate protrusions that tend to disturb the homogeneity of pressure applied across the cardboard surface. This pressure interruption can cause distortions in the final product. In one aspect of the present invention, the patterned surface textures may be formed greater than about 0.2 mm in depth by piercing the paperboard substrate 40 at locations where surface textures of depth are desired. In an aspect of the present invention, the piercing process may be performed before, during, or after the perimeter of the paperboard substrate 40 is milled as described above. In another aspect of the present invention, the cardboard edges may be used to locate the boundaries of the recessed portions of the subframe of the cariron 40. Referring to Figure 7, an engraving panel is printed in register 60, manufactured in accordance with the procedure. described above may optionally include a protective filler layer 50 on one side. The mechanically patterned surface texture is recorded with the decorative pattern 68 of the decorative paper sheet 44. By registration, this means that the surface texture is substantially submerged with the decorative moire of the decorating paper sheet 44. By providing a Enlarged plank stamped in register, a realistic representation of a natural material can be provided for individual plank floorboards. While the decorative motif illustrated in Figure 7 realistically represents the image and texture of a wood grain, it should be appreciated that other designs stamped on the register such as ceramic planks, concrete, marble, etc. can be produced. In accordance with the principles of the present invention, each of the individual floorboards can, for example, include at least one locking mechanism. In one aspect of the present invention, the closing mechanisms may be incorporated within the cardboard substrate 40 before the pattern of embossing is imparted to the surface of the carden substrate 40 in register with the decorative pattern. Accordingly, the closure mechanisms can be manufactured within the individual cardboard substrates 40. Thereafter, the closure mechanisms can be used to join individual cardboard substrates together to form a plank structure. The structure of the plank can then be inserted in the pressure 54.

After the scribing pattern is uneven to the plank structure and the functional components are fused together, the plank structure is removed from the pressure 54. Then, the parquet planks stamped in 60th step of the fused plank structure are separated. when opening the closing mechanisms. In an aspect of the present invention. The cutting tools can be used to assist in separation and to ensure that the decorative motif is not damaged. In another aspect of the present invention, the closing mechanisms may be incorporated within the paperboard substrate 40 after the pattern of embossing is imparted to both surfaces of the paperboard substrate 40 in the register with the decorative pattern. Accordingly, a paperboard substrate 40 having relatively large dimensions of, for example, 4 'x 8', may be squeezed by pressure 54. Then, the stamped substrate may be corrugated into a plurality of stamped parquet planks. individual registers 60. In one aspect of the present invention, the edges of the individual register patterned planks 60 may be smooth edges and precise dimensions. In one aspect of the present invention, the cutting can be carried out using pointed tools, grinding tools, coring tools, division tools, etc. In one aspect of the present invention, the cardboard substrate can be cut by the pressing machine. Accordingly, the cardboard structure 40 can be cut into units (e.g.

Liras) having dimensions of, for example, 300 x 300 mm, 400 x 400 mm, 600 x 600 mm, 1,200 x 300 mm, 1,200 x 400 mm, etc. Then, the closing mechanisms may be incorporated within the individual register stamped floorboards 60. In one aspect of the present invention, the locking mechanisms may be hidden under the surface of the floorboards or may be visible. In accordance with the principles of the present invention, the closing mechanisms may be incorporated within the individual scoring boards of the individual register 60 to align at least one of the cardboard edges, alignment markings, decorative patterns, and surface textures of the substrate. parquet plank with a grinding tool. By aligning the grinding tool with any of the aforementioned alienable characteristics, the closing mechanisms can be ground on the sides of the cardboard substrates 40 so that, when the floorboards 60 join at least a portion of the decorative patterns form a continuous pattern of at least a portion of the patterned patterns on registration of a substantially continuous surface texture through the adjacent parquet planks. In accordance with the principles of the present invention, the parquet board stamped in register 60 may include the closure mechanism 64 (eg, at least one of a tongue and groove closure system, a fastening system of adjustment, etc.). .) what it extends along the four sides of stamping laminate in register 60. For example, an adjustment closure system can be added to all four sides of the parquet plank stamped in register 60 and used to connect to multiple parquet planks stamped in register 60 in the recorded system marked to register 300 (as shown in Figure 8). The number and location of the closing mechanisms may depend on the desired configuration of the parquet system stamped into register. For example, when a stamping-in-register floor system confines to a corner, only two locking mechanisms are required (along the sides). Referring to Figure 8, the parquet planks stamped on registers A and B can, for example, include locking mechanisms along any one side (eg, along junctions J1, J2, J3, and J4). ). The parquet planks stamped in registers C and D can, for example, include locking mechanisms along four sides (for example, along the junctions J1, J2, J3, and at another unmasked junction). Parquet boards stamped in register including the aforementioned locking mechanisms can be securely joined with or without glue to form the stamping laminate system in register 300. The multiple parquet boards stamped in register can be joined to obtain any desired shape for parquet, plank, or similar. The parquet planks stamped in register can be joined one with another so that at least the portions of the patterned patterns on the adjacent plank floorboards substantially align with each other and form a substantially conical image and surface texture stamped across floorboards within a flooring system. Figures d and 9 illustrate a stamped parquet system in pictorial register 300 that incorporates a type of locking mechanism in each of the individual register stamped floorboards 60. Figure 9 illustrates a stamped parquet system in an illustrative register that includes Enlarged boards that incorporate a tongue and groove locking mechanism. In one aspect of the present invention, the adjustment type tongue and groove locking mechanism can be integrated into the side walls of each register stamping laminate 60 to ensure that patterns stamped on the register of the adjacent floorboards are aligned substantially one with another and are substantially continuous within the parquet system. Figure 9 illustrates a cross-sectional view of the Figure 8 hillock along line 9-9. As shown, the closing mechanism can be manufactured by forming a slot 230, a tongue 200, a channel 210, and a lip 220 along the edges of the parquet planks stamped on register 60. The locking mechanisms in the stamping parquet planks in register 60 can joining by inserting the tongue 200 into the slot 230 of a parquet board stamped into adjacent register 60. Subsequently, the lip 220 is secured within the channel 210, by attaching the stamped floorboards to adjacent register 60 in a stamped parquet system in register 300. In one aspect of the present invention, the parquet boards stamped in register 60 labeled A, B, C and D may be joined with or without glue. It should be appreciated that other types of locking mechanisms may be incorporated within the sides of the individual register stamped floorboards 60. Referring again to Figure 8, each of the parquet planks stamped in register 60 may, for example, exhibit a ceramic plank motif stamped on G1 register. The ceramic plank motif may comprise a plurality of planks in the form of squares, rectangles, triangles, circles, ovals, any other shape or designs that are separated by lines of grouts. In one aspect of the present invention, the grout line thicknesses Wh, Wv, and the interior grout thickness W can be substantially equal. When the tongue-and-groove locking mechanism is fitted to the planar boards scribed in register 60 in grout thickness adjacent to joints J1, J2, J3 and J4 in each laminate stamped in register A, B, C, and D they are approximately half the thickness of internal grout W. For example, the thickness of vertical plank grout (Wv) through junction J1 form the lines of grout in stamped laminates or in register A, B, C and D, so that when the laminates printed in register A, B, C and D join in J1 the vertical grout thickness (Wv) is approximately equal to (W). Accordingly, the grout thickness on any individual parquet board stamped 60 adjacent to a joint is the milad of the internal grout thickness (W). In another aspect of the present invention, the horizontal and vertical grout thicknesses Wh and Wv can be controlled to be substantially equal to the dimensions of the internal grout thickness W. It should be noted, however, that the dimensions of the grout thicknesses on the parquet planks stamped in register depend on the type of built-in closing mechanism and the decorative motif displayed. In addition to the grout lines, many other decorative motifs may be used in the stamping-in-register system of the present invention. Referring to FIGS. 10 and 11, a decorative molar exhibits, for example, a wood grain surface G2 substantially aligned with joints J5 and J6 of adjacent parquet planks may be provided. In accordance with the principles of the present invention, the wood grain patterns generally include more elements (eg, wood grain lines, wood node 423, ele.) That extend to the perimeters of the floorboards that They need to align themselves to the ceramic plank motifs. Therefore, align the wood grain motif it is generally more difficult to align the grout line portions of the ceramic plank motifs. For example, aligning a first position of a wood 423 on the parquet board stamped on register E with a second portion of wood node 423 on the parquet plank stamped in register F is generally more complex than aligning the line thicknesses of the slurry. through the joints of the adjacent parquet planks. Therefore, when making a closure mechanism, consideration should be given to all graphic elements (eg, wood grain lines and wood knots 423) to ensure or stamped parquet system is realistic record 400. In one aspect of the present invention, at least a portion of the decorative pattern to be used as an alignment mark that ensures the consistent alignment of adjacent parquet planks. In another aspect of the present invention, individual floorboards within the register stamped flooring system 400 can be joined with a mechanical adjustment type system as illustrated in Figure 11 illustrating a cross-sectional view of Figure 10. along line 11-11. Again, the alignment techniques used in the fabrication of the closure mechanism such as the stamp-stamping laminate system 400 has a surface texturing surface 423 that is substantially continuous through the joints, J5 and J6. Optionally, the laminates laminated in register 60 have a protective filler layer 70 under the base sheet 48. Figures 12A and 12B illustrate schematic views of a floorboard plank in accordance with the principles of the present invention. Referring to FIGS. 12A and 12B, an upper surface on the perimeter, P, of each parquet plank stamped in register can be depressed under a top surface in the portions of the enlarging board surrounded by the perimeter. An object O (for example a user's shoe, a wheel, etc.) that contacts the larger surface, Ms, of a parquet plank does not generally contact the perimeter surface, Ps, due to the depressed surface of the perimeter. In one aspect of the present invention, the perimeter may include a portion of the floorboard plank extending from the edge of the floorboard plank approximately 3,175 mm toward the center of the floorboard plank. In another aspect of the present invention, the depth at which the surface of the perimeter of the parquet plank is depressed is approximately 0.749 mm. In another aspect of the present invention, the surface of at least one perimeter portion of a floorboard may not be depressed, as will be discussed in more detail below with reference to Figure 13. Consequently, the pattern stamped on the register may provided to the edges of the parquet plank may be aligned with patterns stamped in register formed on adjacent plank floorboards while the edges of each plank of Individual floorboards can prevent premature wear. Although it was shown in Figures 8 and 10 that the individual floorboards within a flooring system are substantially the same size and shape and are joined with each other so that each side of the floorboard joins only one floorboard plank adjacent, it should be appreciated that individual floorboards within a flooring system may vary in size (eg, thickness and / or length) and shape (eg, rectangular, square, triangular, hexagonal, etc.). In one aspect of the present invention, the individual floorboards can have complementary shapes capable of assembling similar to a puzzle or mosaic. In addition, one aspect of the present invention contemplates that the sides of the individual floorboards can contact more than one adjacent floorboard plank. In accordance with the principles of the present invention, the floorboards within a flooring system may be arranged so that at least one side of each floorboard includes at least one sub-panel adjacent to at least two other sub-panels. I In another aspect of the present invention, each board may include, either fully or partially, at least one sub-panel, as will be described in greater detail below. In Figure 13A, for example, the partial sub-panel 134A of the heel 130A may be a sub-panel complementary to the partial sub-panel near 136B of plank 130B, adjacent plank 130A. With this arrangement, the sub-sub-panels 134A and 136B can be made to have a unitary sub-panel. Referring also to Figure 13A, each of the boards 130A-F may comprise at least three sub-panels where at least one of the sub-panels is a unitary sub-panel and at least two of the sub-panels are partial sub-panels. For example, 132A is a unitary sub-panel and 134A and 136A are partial subpanels. In one aspect of the present invention, the single sub-panel 132A can provide a complete decorative moire with or without a patterned surface texture that may or may not be in register with the decorative motif. In another aspect of the present invention, the partial sub-panels 134A and 136A of a plank can provide separate, incomplete decorative patterns with or without stamped surface textures that may or may not be in register with the decorative motifs. In one aspect of the present invention, the adjacent partial sub-panels of adjacent planks may be complementary to one another to provide a substantially complete decorative pattern and / or surface texture and appearance as a substantially continuous, unitary sub-panel. In one aspect of the present invention, the complementary sub-sub-panels may have complementary decorative patterns and / or patterned surface textures. Accordingly, when the partial sub-panels complementary adjacent planks are properly aligned, a substantially continuous (ie, complete) decorative pattern and / or patterned surface texture can be formed through close complementary subpanels. In an aspect of the present invention, sub-panels within a board may or may not substantially comprise the same decorative pattern and / or patterned surface texture. Figure 13B illustrates a schematic view of an illustrative board 130 such as that shown in Figure 13A. In one aspect of the present invention, the portions of the surface of each perimeter of each board can be depressed in locations where the neighboring subpanels are not complementary. In another aspect of the present invention, the portions of the perimeter surface of each board may not be depressed in locations where the neighboring subpanels are complementary. Referring to Figure 13B, the portions of the upper surface of the perimeter "P" of each of the panels 130 indicated by the reference number 138A may be slightly depressed compared to the larger surface of each of the boards (see also Figure 12B) to prevent premature wear of each of the boards. further, the portions of the upper perimeter surface of each of the boards 130 indicated by the reference number 138b may not be depressed and substantially coplanar with the larger surface of the subpanels. The depression only of the portions of the Perimeter surface of each of the planks in positions not occupied by decorative motifs and / or surface textures stamped from partial sub-panels of a plank allows the complementary sub-subpanels to appear as a part of a unitary sub-panel while not they depart significantly from the total durability of each of the boards. Even in another aspect of the present invention, the portions of the surface of each board can be depressed in locations where the subpanels of a board are adjacent to each other. Referring to Figure 13B, the portions of the upper surface of each of the boards 130 indicated by the reference number 138C can be depressed slightly compared to the larger surface of each of the boards (see also Figure 12B) to provide a visual effect and texture that each of the sub-panels of the plank are not part of the same plank. Figures 14A-14C show an illustrative plank of a parquet system even in another aspect of the present invention. Referring to Figures 14A-14C, similar to the plank shown in Figures 13A and 13B, the portions of the upper surface of the perimeter "P" of each of the boards 130 indicated by the reference number 138A can be chamfered to prevent premature wear. from each of the boards. In addition, the upper surface of the perimeter portions of each of the boards 130 located by the reference number 138b may not bevel to be substantially coplanar with the larger surface of the sub-panels. Beveling the perimeter surface of each of the planks in positions corresponding to the decorative motifs and / or surface textures of partial subpanels of a plank allows the complementary subpanels to appear as a part of a unitary sub-panel while do not detract significantly from the total durability of each of the boards. In yet another aspect of the present invention, the portions of the surface of each board may be provided with a slot in locations where the subpanels of a board are adjacent to each other. Figures 14B and 14C illustrate cross-sectional views of the board 130 taken along the lines l-l 'and ll-ll', respectively. With reference to Figures 14B and 14C, the portions of the upper surface of each of the boards 130 indicated by the reference numeral 138c can be chamfered to form a groove. In this way, the groove provides a visual and textual effect that the sub-panels of a board are separated. In one aspect of the present invention, bevelling at 138 can produce a groove having a substantially B-shaped groove. It is appreciated, however, that beveling can produce other groove topographies (e.g., U-shaped grooves, ele). In an aspect of the present invention, bevelling of each of the boards 130 in the perimeter surface portion 138a creates a slot between the adjacent boards. By Accordingly, the groove formed between the adjacent planks, through the bevelling at 138a, substantially has the same thickness and lopography as the grooves formed within the boards, through beveling at 138c. The pattern and / or surface texture present on the depressed surface of the perimeter of each plank may or may not correspond to the surface pattern / texture present on the main surface of a corresponding plank. In that way, the substantially continuous motive and / or surface texture may or may not be present through the surfaces of the perimeter and the interior of any individual plank. Marking or marking marks (not shown) can be used for auto aligned decorative motif on the boards. In one aspect of the present invention, the patterned pattern on record can be a free form or custom design. It is understood that substantially any pattern stamped on registration and any decorative motif can be realized by applying the principles of the present invention. In an aspect of the present invention, the alignment of the planks can be done visually by joining them together. Accordingly, the alignment of the planks 138 can be formed by using the decorative grit and / or patterned surface texture of each of the boards. Although it has been illustrated that the boards in Figures 13A, 13B, and 14A-14C are substantially rectangular, the principles of the present invention allow the boards within the flooring system to have other shapes and sizes (e.g. geometric, free form, etc.) or different or similar dimensions so that the floorboards can be assembled in a "mosaic" type position or another rectangular, semi-repeating, or random arrangement of panels. In addition, while illustrating that each board comprises an identical sub-panel design, the principles of the present invention allow the boards within the flooring system to have other sub-panel designs (eg, other forms of sub-panels). , sizes, etc.). The individual planks within the parquet system can be divided from a board such as the joints between the parquet flooring panels are not visible. In addition, the boards within the unlatched parquet system in Figures 13 and 14 can be joined with or without glue. Furthermore, while it was discussed that the patterned surface texture is substantially aligned with a fundamental decorative motif, it should be understood that substantially any patterned surface texture can be imparted to the boards of the present invention, regardless of the fundamental decorative motif. In addition, the decorative patterns and / or patterned surface texture of a plank may not be aligned or even remotely similar in appearance and / or texture to decorative motifs and / or patterned surface textures of adjacent planks. In accordance with the principles of the present invention, any of the aforementioned decorative patterns and / or patterned surface textures that may or may not be stamped on registration with the decorative motifs (collectively referred to herein as "patterns") can be applied to any of the aforementioned boards to form a substantially continuous pattern through adjacent planks disposed along a predetermined direction to form each of the pattern patterns. plank that uses at least one bulky pattern and at least one border pattern. In one aspect of the present invention, each edge pattern may be present in a perimeter portion of the plank extending along a portion of at least one edge of each plank. In another aspect of the present invention, each edge pattern may extend a predetermined distance (e.g., approximately one millimeter, approximately 2.54 cm. Etc.) into the interior of the plank, away from the perimeter of the plank. In another aspect of the present invention, at least one bulky pattern can be arranged adjacent to at least one edge pattern, wherein a pattern presents at the bulky pattern edge adjacent to the edge pattern can form a substantially continuous visual / texture pattern with a pattern present at the edge of the edge pattern adjacent to the bulky pattern. In one aspect of the present invention, the individual plank patterns, disposed adjacent one of the ear along a predetermined direction in a planar system, can complement adjacent plank patterns (i.e., form substantially continuous patterns through the planks). adjacent planks) when the edge patterns of the adjacent planks form a subancially conyinuous pin. Wherein the parquet system described above comprises a plurality of adjacent planks arranged along the predetermined direction, and wherein the edges of each plank are disposed adjacent to edge patterns of other planks along the predetermined direction, patterns of edge of adjacent planks are identical or substantially identical. The identical edge patterns are substantially identical from adjacent planks allowing a continuous pattern to form across the adjacent planks. For example, with reference to Figure 15A, an illustrative plank pattern of plank 150 may comprise two edge patterns 152 substantially identical to each other and a bulky pattern 154. As shown in Figure 15A, the two substantially identical edge patterns 152 are present in a perimeter portion of the plank 150, which extends along a portion of the opposite edges of the plank, and extends a predetermined distance inside the plank 150. Still referring to Figure 15A, the pattern present at the edge of the bulky pattern 154 adjacent the edge patterns 152 forms a subsynchronist pattern with the shank present in the edge patterns 152 adjacent to the bulky pattern. Referring now to Figure 15B, a plurality of boards 150A, 150B, 150C, etc., such as those illustrated in FIG.

Figure 15A can be arranged adjacent to one another within a flooring system along a predetermined direction so that the edges of each board are disposed adjacent the edges of other boards along the predetermined direction (e.g., an edge of the plank 150A is adjacent to the edge of the plank 150B, an edge of the plank 150C is adjacent to an edge of the plank 150D, etc.). As mentioned above, a substantially continuous pattern can be formed through an individual board 150 because the bulky pattern 154 is substantially aligned with the edge patterns 152. In one embodiment of the invention, the predetermined direction in which the planks are arranged based on the adjacent edge patterns 152 on the boards, so that only when ordering the planks in the predetermined direction the pattern formed is continuous and natural looking. In this mode, inverting a plank or changing a plank will result in a discontinued pattern. However, it is understood that in another embodiment, the edge pattern along a portion of the perimeter can be selected to invert, change or otherwise rearrange the planks so as not to interrupt the plank, i.e. the pattern is continuous. In another mode, the predefined direction is based on the closing mechanism that joins adjacent planks, so that the planks do not fit properly if they are arranged in a different direction than the predetermined direction. An example of such a locking mechanism is a tongue and groove system without glue, in which the tongue is formed along at least one edge of the groove is formed along the opposite side. Even in another embodiment, the predetermined direction is based on both the edge patterns 152 and the glueless closing mechanism. In accordance with the principles of the present invention, the bulky patterns 154A-154F may or may not be the same. In one aspect of the present invention, each of the bulky patterns 154 within a parquet system may be unique. In addition, according to the principles of the present invention, the edge patterns of individual planks can be substantially identical. Therefore, the edge patterns of adjacent planks in an embedded system, from which a palear is formed subsurfacely along the predetermined direction are also substantially identical. A substantial pattern may be provided through board 150A because the bulky pattern 154A and edge patterns 152A align with each other to produce a substantially continuous pattern. The substantially continuous patterns can be provided individually through the boards 150B, 150C, etc., because their respective bulky patterns 154B, 154C etc., and edge patterns 152B, 152C, etc., are similarly aligned one with the other for produce a pallet subsancially with conininus. Because the edge patos of the 150A-150F irons Within the parquet system illustrated in Figure 15B are identical, the edge pattern 152A forms a subsyrically continuous pattern with the edge pattern 152B, the edge pattern 152C forms a substantially substantial pattern with the edge pattern 152D, and so on. . Accordingly, a substantially continuous pattern may be formed through the boards 150A and 150B, through the boards 150C and 150D, and so on. The boundary between the edge pattern 152A and the edge pattern 152B is substantially not visible, or the appearance of the presence of the boundary or bond is minimized. Similarly, the boundary or bond between the edge pattern 152C and the edge pattern 152D is substantially not visible, or the appearance of the presence of the boundary or bond is minimized. The boundary between the edge pattern 152E and the edge pattern 152F is substantially not visible, or the appearance of the presence of the limit or union is minimized. In one embodiment of the present invention, in which the edge patterns 152 are substantially identical, any of the boards 150A-150F can replace any other plank within the spanning system while still maintaining the presence of a substantially continuous slug through the slab. the planks disposed adjacent one another along the predetermined direction. This is because all the bulky patterns of the plank are substantially aligned with their respective edge patterns to form substantially continuous patterns in a plank and because all the The edge patterns of the planks adjacent to one another within a flooring system are identical, ie they form substantially substantially continuous patterns of planks adjacent to each other along the predetermined direction. In another embodiment, the planks may have substantially identical right and left border patterns 152, while the opposite left and right border patterns 152 are not. For example, in Figure 15C the unit sub-panel 132 of the board 150 may have a pattern provided by a bulky pattern 154G, part sub-panel 134 may have a pattern provided by the bulky pin 1541 and edge pattern 152, and sub Partial panel 136 may have a pattern provided by the bulky pattern 154H and edge pattern 152, where the bulky patterns 154G-154I may or may not be the same. As previously mentioned, however, the edge pattern 152, present on the perimeter of the partial sub-panel portions 134 and 136 of the board 150 and extending along a portion of the edges of the board 150, are identical with each other. Accordingly, in view of Figure 13A, when, for example, the boards 130A and 130B are arranged adjacent to one another along the predetermined direction, the edge patterns 152 of the complementary sub-panels 134A and 136B are substantially identical to one another and a substantially continuous pattern can be formed through the adjacent planks, where the bulky patterns of the sub-panels Complementary elements become part of a substantially coninuous pattern that appears, visually and / or as a unitary subpanel. In addition, referring now to Figures 15C and 15D, flooring systems incorporating planks such as those illustrated in Figures 13A-14C can be provided with substantially continuous patterns through planks adjacent to one another along predetermined directions by applying the techniques described above with reference to Figures 15A and 15B. Figure 15D shows the planks having a wood grain pattern in the arrangement shown in Figure 15B. Because the edge pattern 152A is substantially identical to the adjacent edge pattern 152B, the boards 150A and 150B have the appearance of a substantially continuous wood grain pattern running interrupted across the boundary or bond between the edge pattern 152A and the edge pattern 152B of the board adjacent. In addition, because the edge patterns 152A and 152B do not run along the entire length of the boundary or join between the boards 150A and 150B, but only along the portion corresponding to the height of the partial board in half lower of the planks, the pattern is not continuous through that portion of boundary between planks 150A and 150B that correspond to the height of the complete boards to the upper half of the planks. As mentioned above, within the system of floorboard incorporating the planks illustrated in Figures 13A-14C and 15C, the bulky patterns within the sub-panels of the boards may or may not be the same. In one aspect of the present invention, each of the bulky patterns within the parquet system may be unique. Figure 15E shows an embodiment of the invention in which the edge patterns of the planks are identical (or substantially identical) in each plank. Specifically, Figure 15E shows four planks, 150A 150B, 150C, and 150D arranged so that plank 150A is adjacent to the left edge of plank 150B and adjacent to an upper edge of plank 150C. The plank 150D is adjacent to the right edge of the plank 150C and adjacent to the lower edge of 150B. In this mode, the decorative paper of each plank has a wooden design. However, it is understood that other designs of natural appearance other than wood are contemplated by this invention as well. The wood design on the 150A plank includes, for example, a complete table or stripe 155A in an upper half of the table, an incomplete table with row 151A and a long incomplete table 153A. Each of the rings has a grain pattern of wood. In addition, incomplete short and long tables 151A and 153A have an edge pattern 152 that runs along a portion of the perimeter of the board corresponding to the thickness of incomplete tables 151A and 153A, and may extend a small distance ( such as centimeters, for example) inside the boards. The edge patterns 152 of incomplete tables 151A and 152A are identical. The edge pads 152 may also not be extended inside the boards. Slimilarly, planks 150B, 150C, and 150D, have full tables 155B, 155C, and 155D, respectively, running at plank length, and short boards 151B, 151C, and 151D that are adjacent to long boards 153B, 153C, and 153D, respectively. Each of the long and corbels may have an identical edge pattern 152 along a portion of the perimeter of the plank corresponding to the thickness of the short and long boards. All the short boards 151A-D, long rows 153A-D and complete rows 155A-D have wooden grain pads that are different from each other or some identical with one another. Only the edge patterns 152 in the incomplete tables are identical in this particular example. In addition, the edge pattern and interior wood grain pattern of each incomplete table form a continuous pattern. In other words, there is a conical wood grain pattern in each of the short boards and long boards that are all different from one another, despite the fact that the edge patterns 152 are the same. When planks 150A and 150B are placed adjacent to one another as shown in Figure 15E, full tables 155A and 155B will be adjacent to one another, and long board 153A and short board 151B will be adjacent. The complete lines 155A and 155B appear as separate tables and the grain pattern of Wood is discontinued through them, because the adjacent edges of the complex lines are different. But because the edge pads 152 on long leg 153A and short leg 151B are the same, the only wood grain patterns of 153A and 151B appear to form an individual continuous board with a unique wood grain pattern that runs through planks 150A and 150B. In addition, the appearance of a complete and continuous board with a unique wood grain pattern running in tables 153A and 151B through the planks minimizes the visibility or appearance of the boundary junction between the planks. Similarly, the pattern of wood grain through tables 153C and 151D is continuous. In another embodiment, the boards 150A, 150B, 150C, and 150D may have a surface texture that is stamped in register with the grain design on the decorative paper. Because the edge patterns 152 are part of the wood design and can be the same or substantially identical in each plank, the stamping surface will appear continuous along incomplete planks of adjacent planks in the manner discussed above. Even in another embodiment, the embossing surface texture in register may include bevels to indicate seams between tables, such as in the board 150A, for example, the entire board 155A would have a bevel that runs along its perimeter, which includes the boundary between table 155A and incomplete tables 151A and 153A. Incomplete tables 151A and 153A they would have a bevelling where they are adjacent, but the incomplete boards would not have a bevelling along the portion of the perimeter of the plank 150A, where the edge patterns 152 are located. In this way a pattern of continuous wood grain and corresponding to surface texture are for the record can run continuously through the planks 150A and 150B uninterrupted by beveling. This would also reduce the appearance of boundary between planks. By having all the identical edge patterns 152, the present invention allows any of the boards to fit together in the predetermined direction in which a long board 153 is adjacent to a short board 151 of another board, because the edge patterns 152 always align to form the appearance of a continuous wood grain pattern that runs through the adjacent long and short boards of the two planks. For example, if the positions of the boards 150A and 150B were reversed (so that the plank 150B was adjacent to an upper edge of a plank 150C), the edge pattern 152 of the long board 153B would not engage or align with the pattern of edge of short board 151A, forming a continuous wood grain pattern in tables 153B and 151A through planks 150B and 150A. The present invention reduces the complexity involved in installing a laminate floor, because it does not matter which planks are placed adjacent to each other in the predetermined direction. The patterns will line up. In another modality, the 150 patterns are they provide a tongue system and a non-glued locking groove in which the tongue is formed on two adjacent perimeter edges of the board and the groove is formed on the two opposite adjacent perimeter edges so that the boards can be adjusted together in a direction that they will align long tables 153 with short tables 151, for example, where edge patterns 152 are found. In the illustrative embodiment discussed above, decorative motifs and design pattern elements such as strips of wood run through adjacent planks separated. However, the wood strip motif has a length equal to the length of the plank, in order to allow the exchange of planks, which ensures easy installation. Figure 16 illustrates another illustrative embodiment of the present invention. In this mode, a parquet system that includes at least two different boards 160 and 161 is a wood grain mill that includes design moiives that imitate wood strips. The parquet system has wood strip motifs that run through adjacent planks and that can have a total length or equal to twice the length of an individual plank. In particular, the parquet system illustrated in Figure 16 includes a first board 160 and a second board 161. The first board 160 includes a top wood strip 164 and a bottom wood strip 165. On a first edge of the top strip 164 is an edge pattern 162 chosen to continue the wood grain pattern of the wood strip 164 on an adjacent board. The strip of upper wood 165 includes an edge pattern 163 at the edge of the strip on the side of the plank opposite the edge of the plank where the edge pattern 162 in the upper strip 164 is placed. The edge pattern (also referred to as "continuous pattern") 163 similarly continues the wood grain pattern of the lower strip 165 through an adjacent plank. In alternative aspects of this embodiment, the edge patterns 162 and 163 may be different or may be identical. As noted above, a variety of materials can be used to make the boards of the present invention. The materials may include real wood, wood or plastic compounds such as a particle board, pieces board, or laminates. The planks can also include a decorative paper or a hardwood veneer that includes the decorative patterns. In alternate modalities, the planks can be made of a kind of solid wood with different species of solid wood veneer on the surface that is precisely dimensioned so that the edge patterns are aligned as discussed here. The wood strips have bulky patterns on the different strip portions at the edges. The bulky pattern corresponds to the fundamental design pattern. In other words, the bulky pattern can be a grain of wood, stone, marble, or some other pattern. The edge patterns 162 and 163 are continuous with the bulky pattern so that the edge pattern and the bulky pattern form a continuous pattern. Sewing pads 168 and 169 are not coninuous with the bulky pattern, but more than that they are discontinuous, to increase the appearance of a discontinuity between the adjacent bulky patterns that have the discontiguous pattern between them. The second plank 161 includes an upper strip 166 and a lower strip 167. The upper strip 166 includes the edge pattern 162 at the plank edge opposite the edge where the edge pattern 162 is located on the upper strip 164 of the first plank 160. Similarly, the lower strip 167 includes an edge pattern 163 along the edge of the plank 161 opposite the edge where the edge pattern 163 is located on the first board 160. In other embodiments, strips in addition to the upper and lower strip. The first wooden strip 160 includes a decorative pattern intended to represent a seam between the decorative motifs of the wooden strips. In the upper strip 164 there is a seam pattern 168 on the edge of the plank opposite the edge where the edge pattern 162 is located and there is a complete seam pattern 169 between the upper strip 164 and the lower strip 165. In addition, there is a sewing pattern 168 at an edge of the lower strip 165 opposite the edge of the lower strip where the edge pattern 163 is located. Simultaneously, in the second plank 161 there is a seam pattern 168 on the edge of the plank opposite the edge where the edge pattern 162 is located and there is a seam pattern 168 on the edge of the plank opposite the edge where the seam is located. pattern Seam 163. In addition, a seam 169 runs between the upper strip 166 and the lower strip 167. The seams 168 can be full thick seams, that is, their thickness can be the same as the thicknesses of the seam pattern 166 or, in one Alternatively, the thickness of the seam pattern 169 may be half the thickness thickness of the seam pattern 169 so that when two adjacent seam patterns 168 are placed adjacent one another form a seam pattern whose thickness is equal to the thickness of the seam pattern. sewing pattern 169. When the plank board 160 is placed adjacent to the parquet plank 161 the lower strips 165 and 167 are adjacent to each other and the edge patterns 163 at the edges of the plank at the opposite ends of the wood strips 165 and 167 are limited to one another to form a continuous wood strip design that flows through wood plank 162 and wood plank 161 that creates a strip of wood whose length is d Sometimes the length of the wooden planks 160 or 161. The wooden strip runs from one section of the plank 160 through the trailing edge of the second plank 161. If a first additional floorboard 160 is placed on the other side of the second parquet board 161 then the upper parquet board 166 of the second parquet board 161 would be adjacent to the upper wooden strip 164 of the first enlarging board 160 so that the edge struts 162 and the upper liras 166 and 164 confine one to another with it creating a strip of wood that flows through the upper paries of the adjacent enlarimado boards 161 and 160 which is twice the length of the individual floorboards. Thus, using only two different planks of the parquet system of the present invention is capable of reproducing a wood strip design in which the length of the wood strip motif is twice the length of the plank. In alternative aspects of the pattern, the seam patterns 168 at the edges of the plank are replaced by a pattern inconsistent with the bulky pattern at the center of the strip as it aligns the corresponding discontinuity pattern on the adjacent plank. The present invention is not limited to wood grain patterns, but also contemplates wood and marble patterns as well as artificial or artistic designs. In another illustrative embodiment that uses a marble pattern rather than a wood grain pattern, the edge patterns 162 and 163 may be portions of marble that are aligned with the corresponding edge pattern of an adjacent plank to form continuous marble through of plank, which creates the effect of a strip of marble or mosaic larger than the physical length of the plank. In other embodiments, the present invention includes beveled edges and surface textures embossed in register in addition to the decorative pattern. In particular, a beveling can be stamped or cut upwards of the sewing patterns 168 and 169 so that the beveling has the same thickness as the sewing pattern, thereby also increasing the optical effect of separate tables. In addition, boards 160 and 161 may also have a surface texture embossed in register with the decorative pattern so that the patterned texture in register includes corresponding surface textures for edge patterns 162 and 163. In this manner, the surface textures stamped on register continue through one board to the next. In addition, because the parquet system only has two different planks, the installation of the plank is simple. The planks are installed in an alternating manner so that the plank board 160 alternates with the planar board 161 in a horizontal direction to create strips of wood whose length is twice the length of a plank plank so that the wooden strips in the upper part and the lower part of the planks are spaced. The present invention contemplates other modalities for the illustrative embodiment illustrated in Figure 16B in which the flooring system includes at most four distinct floorboards. These four floorboards include the first and second floorboards 160 and 161 illustrated in Figure 16A as well as two additional floorboards 171 and 172. The third floorboard 171 includes an upper strip 173 and a lower strip 174. Here, the upper strip 173 has a seam pattern 168 on both edges of the plank while the lower strip 174 has the edge pattern 173 on both ends of the plank. In addition, the fourth board 172 has an upper strip 175 and a lower strip 176 in which the upper strip 175 has the edge pattern 162 in both plank ends but only the lower strip 176 is limited by sewing patterns 168. On these boards of the parquet system may be placed adjacent one another provided to have sewing patterns 168 that will be adjacent to each other on a strip and pattern of edge 162 or 163 that will be adjacent to two planks as well as when the two planks are placed adjacent to each other. As noted above, sewing patterns 168 can be replaced by patterns other than seams that are discontinuous from the bulky pattern at the center of the strip. In this illustrative embodiment, shown in Figure 18B, the board 160 can be placed adjacent to the parquet planks. 171 or 161 on a first side of planks 171 and 161 (the left side in Figure 16B) or can be placed adjacent planks 161 and 172 on a second side of planks 161 and 172 (the right side in Figure 16B) . Similarly, the parquet board 171 may be placed adjacent to the boards 160 and 161 on the first or left side or may be placed adjacent to the other board 171 on any first (left) or second (right) side. Board 161 may be placed to the right of board 160 or board 171 or to the left of board 172 and 160. Finally, board 172 may be placed to the right of board 161 or to the right of the board board. 172 or to the left of the plank 160 or to the left of the other plank 172. This provides a number of combinations and arrangements of the four plank planks thereby providing a number of wood strips in the total parquet pattern design that has different lengths greater than or equal to the length of an individual parquet plank. For example, if planks 160, 171, 161 and 172 are placed adjacent to one another in the manner illustrated in Figure 16B then the resulting parquet design will include strips of wood of equal length to the length of a single plank on the planks. of parquet 171 and the bottom of plank 172. However, the parquet design will also include those strips of wood whose length is equal to three times the length of a plank plank such as the strip of wood that runs from the lower strip of the plank 160 through the lower strip plank 171 and through the end of the lower strip of the plank 161 of the distal end of the plank 161. In addition, the planks 171 or 172 can be retracted adjacent each other as frequently as desired to further increase the length of the wooden strip in the flooring design at several multiples of the length of an individual plank. This is possible because the planks 171 and 172 provide wooden strips 174 and 172 respectively that are not limited anywhere by discontinuous sewing patterns 168 or 169, but more than that have the same edge pattern 163 or 162 in any side. In this way the parquet system illustrated in Figure 16B, which has the floorboards 160, 161, 171 and 172, is capable of providing variable length long wood strips without increasing the complexity of the total floorboard plank system.

Specifically, the installer is able to install any plank of wood adjacent to any other parquet plank so that there is an edge pattern or discontinuity pattern (such as seam pattern 168) on the upper strip or the lower strip that is adjacent to the corresponding pattern on the corresponding strip of the adjacent board. In this way the installer has the ability to design a parquet pattern that uses the four different planks of the system that knows the complexity of the installation that does not increase beyond the requirement that the sewing patterns 168 be placed adjacent to each other. of sewing 168 or that a sewing pattern 169 is placed adjacent to the other pattern 169. The parquet system can be further simplified to require only three distinct planks: 160 planters, 161, and any of the boards 171 or 172. For example, in an embodiment with boards 160, 161, and 171, any number of boards 171 may be placed between boards 160 and 161, as shown in Figure 16B for create a very long strip of wood formed by adjacent lower strips 165, multiple 174, and 167. In addition, the boards 160 and 161 may also be placed adjacent one another. To create wood strip patterns of length equal to twice the length of a plank through either of the two upper or two lower strips of wood. Also, because in this mode only the edge patterns are required to be identical, the interior patterns of the full, long and Short planks can be different, which provides a more natural looking floor. The number of planks in the parquet system can also be reduced to the two planks. Figure 16C illustrates another embodiment having two boards 181 and 182. The first board 181 includes a discontinuous pattern 183, patterned as a seam, an upper edge pattern 184 corresponding to the upper wood strip of plank 181, and lower edge patterns 185 on opposite sides of the lower wooden strip. The second plank 182 includes an edge pattern 184 on the upper strip of the plank at the opposite edge of the edge pattern location 184 on the first plank 181. A discontinued pattern 183 is located on the opposite plank edge that is where the plank edge is located. located at the edge payroll 184. The lower edge of the board 182 includes edge struts 185 on the opposite sides of the board 181 with two adjacent discontinuous patterns located on the inside of the lower strip between the edge patterns 185. When the first and second The planks are placed adjacent one another in a horizontal direction so that the edge patterns 184 and 185 of different strips are adjacent to each other, the result is a spaced pattern of strips of wood whose length is twice the length of the plank. In another embodiment, illustrated in Figure 16D, two planks 186 and 187 have an arrangement of border patterns 184 and 185 and discontinuous patterns 183 different from those of the two planks of Figure 16. In particular, the first plank 186 has edge patterns 184 of both ends of the upper strip with adjacent discontinuous patterns 183 between them, and edge patterns 185 on both ends of the lower strip also with adjacent disconynous pads 183 between they. The second plank 187 as a top strip with edge patterns 184 at both ends of a lower strip with edge patterns 185 at both ends. The second strip 185 does not include any of the discontinuous patterns. By placing adjacent planks 186 and 184 and alternating with each other, the result is a plank layout with spaced planks of wood whose length is twice the length of the plank. In addition, because in this embodiment the plank 187 has no discontinuous patterns, the multiple planks 187 can be placed adjacent one another to extend the length of the wooden strips to any multiple of the length of the plank. It is shown in the embodiments of Figures 16C and 16D that the edge patterns 184 and 185 may be the same or may be different. In addition, it is understood that planks are not required to have more than one strip as part of their design pattern. For example, Figure 16E illustrates a modality having two planks 188 and 189 each having only a portion of a strip. The plank 188 has a discontinuous pattern 183 at a first end of the plank and a continuous edge pattern 184 at the second opposite end of the plank. The plank 189 has a discontinuous pattern 183 at the second end and the coninuous border pairing 184 at the first end. end of the plank. In that way, planks 188 and 189 can be placed adjacent to each other in the horizontal direction to create an individual strip design in which the length of the strip is twice the length of the plank, and the thickness of the strip is equal to the thickness of the plank. Another illustrative embodiment, illustrated in Figure 17, includes boards 188 and 189 as illustrated in Figure 16E, but also includes third board 190 and fourth board 191. Third board 190 Includes parallel patterns 183 along iodine. the edges of the plank, and the fourth plank 191 includes the continuous edge patterns 184 at both ends of the plank. With four such different planks, the plank design may have strips of length substantially equal to the length of a plank, two planks, or three or more planks, depending on the number of planks of duplicate third planks that are placed adjacent to each other . In an illustrative layout, the boards are placed adjacent to each other in multiple rows of the order of the first plank 188, second plank 189, fourth plank 191, and third plank 190. Four planks 188-191 have another advantage in that planks can be manufactured using a decorative paper that is pressed and cut into planks that are then packed into cartons to ship and sell. The decorative paper has a sufficient thickness to accommodate four planks. It is reasonable to have four different planks on an individual decorative paper. Thus, the planks are pressed on a board, stamped, cut into planks together, and shipped together in the same cardboard. Figure 18 illustrates an embodiment of the invention in which the flooring system includes four floorboards. The parquet system includes four planks, 200, 202, 204, and 206 each having a plank surface design that includes long horizontal strips. Boards 200, 204 and 206 have similar strip arrangements. On the lower portion of the planks is a single complete strip 205 with discontinuous edge patterns 203 on either side of the lyre at the ends of the plank. The particular pattern, such as a wood grain pattern, of the individual complete strips 205A, C, and D may be the same or different on each of the boards 200, 204, and 206, respectively. In the upper portion of the planks are two incomplete strips 208 and 209, adjacent to one another, separated by a discontinued pattern 207 that resembles a seam or a seam. The particular pattern, such as a wood grain pattern, of the incomplete strips 208A, C, and D and the incomplete strips 209A, C, and D may be the same or different on each of the boards 200, 204, and 206, respectively. Some portion of the edge or end of the plank, where the incomplete strips 208 and 209 satisfy the end of the plank, is a continuous edge pattern 201 which is the same as the four planks 200, 202, 204 and 206. The edge pattern continuous 201 is contiguous and continuous with the overall pattern, or bulky, of the strips 208 and 209, however, while the bulky patterns of the incomplete strips 208A..208C, 208D, 209A, 209C, and 209D may be different, the continuous edge pattern is the same. Of that form, when any of the boards 200, 202, 204 and 206 are placed adjacent to one another, the continuous edge patterns of the adjacent incomplete strips of different boards, such as 209A and 208C for example, are aligned to create the appearance of a complete, individual strip that runs through the upper portion of more than one plank. The discontinuous pattern 207 may be the same as the discontinuous pattern 203, may be similar to the two discontinuous patterns 203 placed adjacent to each other, or may be completely discontinuous pattern 203. Boards 200, 204, and 206 differ in position horizontal of the discontinuous pattern 207 along the upper portion of the planks. In other words, the length of the incomplete strip pairs, 208 and 209, may differ on each of the boards 200, 204, and 206. For example, the lengths of the incomplete strips 208C and 209C of the board 204 are different from the lengths of incomplete strips 208D and 209D of plank 206. Therefore, while planks 200, 204, and 206 have the same arrangement of continuous edge patterns 201, discontinuous edge patterns 203, incomplete and complete strips 208 and 209, the length of those incomplete strips is different. In this way, a floor made of planks 200, 202, 204 and 206 will appear to have a more random and natural appearance due to the different lengths of full strips formed by placing incomplete strips adjacent to each other. As illustrated in Figure 18, the parquet system may also include a plank 202 having a full strip 205B in the lower portion of plank 202 bounded at the ends of the plank by the discontinued edge pattern 203 and an individual incomplete strip 210 in the upper portion of plank 202 that incorporates within this the edge pattern continued at a portion near the edge of the plank. The plank 202 can be used to extend the apparent length of the incomplete strip by a plank length. For example, if planks 200, 202 and 204 are placed adjacent to each other, they will create the appearance of three full length strips of equal length with a long full strip on them. further, because the placement of the discontinuous pattern 207 is different on the boards 200 and 204, the length of that long full plank will not be equal to a multiple of the plank length. Figure 19 illustrates another alternate embodiment of the invention, in which the floorboard system includes four planks 220-223. Three of the planks, 221-223, each include a discontinuous pattern 224 in a different position in its decorative pattern, thereby forming two incomplete strips 226A and 227A, 226B, and 227B and 226C and 227C, respectively. The length of the incomplete strips 226 and 227 differs between the planks due to the different placement of the discontinuous pattern 224. One plank, plank 220, does not include the discontinuous pattern 224, and therefore has a pattern decorative that only forms an incomplete individual strip. A portion of the decorative pattern near the edge of the plank forms a continuous edge pattern 225 which is the same on both sides of the four planks 220-223 in the flooring system. The continuous border pattern is contiguous and part of the decorative pattern on the plank and when placed adjacent to another edge pattern on the other plank, the decorative pattern continues uniformly from one plank to the next. By using the parquet system having the four different planks illustrated in Figure 19, a parquet pattern can be created in which the wooden strips can have a variety of lengths, including lengths that are greater than one or more lengths of wood. plank, but that may not be multiples of a plank length. It will be apparent to those skilled in the art that various modifications and variations may be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention cover the modifications and variations of this provided invention that come within the scope of the appended claims and their equivalents.

Claims (22)

1. CLAIMS 1. - A parquet system comprises: a plurality of different parquet planks, at least a first and second plank of said plurality has a first edge pattern along a portion of one edge of the plank and a second edge pattern that runs along the remainder of the portion of that edge of the plank, wherein the first and second edge patterns are placed on the side of the first plank opposite the side where the first edge pattern and the second edge patterns are located at the second plank, wherein the positions of the first and second edge patterns on one edge of the first plank are different from the positions of the first or second edge patterns on the opposite edge of said first plank. 2. The parquet system according to claim 1, further comprising a bulky pattern in an interior region of said first plank. 3.- The parquet system according to the claim 1, wherein the first edge plank further comprises a portion of a continuous decorative pattern with said bulky pattern and wherein the second edge pattern comprises a disconynous pattern. 4.- The parquet system according to the claim 2, wherein the decorative pattern of the first edge pattern is a pattern of wood grain and wherein the discontinuous pattern is a seam. 5. The parquet system according to claim 1, further comprising a third plank, wherein the third plank has the first edge portion running along the same portion on both edges of the plank and a second portion. of edge that runs along the same another portion of both edges of the planks. 6.- The parquet system according to the claim 4, which further comprises: a fourth parquet plank having a first edge pattern along the portion of both edges of the plank, said different portion of the portions of the third plank where the second edge pattern is located. 7. The parquet system according to claim 1, wherein the first edge pattern and the second edge pattern are different from one another. 8. The flooring system according to claim 1, wherein the first edge pattern and the second edge pattern are of the same height but are on opposite sides of the first and second floorboards. 9. A parquet system comprising a plurality of planks, each of said planks having a plurality of edge patterns disposed along edges of the plank board. floorboard so that each of said edge patterns is positioned along opposite edges of the floorboards so that the edge patterns at any one of said plurality of boards align with the edge blocks of at least two sides of the floorboards. said plurality of enlarging boards when said two other planking planks are placed adjacent to said first planking plank. 10. The enlarged system according to claim 9, wherein at least one of said plurality of different planks has an arrangement of said edge patterns in which the arrangement of the plurality of edge patterns on one side of the plank it engages the arrangement of the edge patterns on the opposite side of the plank. 11. The flooring system according to claim 9, wherein at least one of said plurality of distinct planks includes an arrangement of said edge patterns on a side of the plank that is opposite to the arrangement of said edge patterns in the opposite side of the board. 12. A system of parquet comprising: a first plank; a second board; a first edge plank in a portion of a first edge of said first plank and in a portion of a second opposite edge of said second plank; and a second edge pattern on a portion of the second edge of said first plank and in a portion of the first edge of said second plank. 13.- The parquet system according to the claim 12, further comprising: the second edge pattern on a portion of the first edge of said first board sub-substantially opposite the portion of the second edge of said first board where said second edge pattern is located. 14. The parquet system according to claim 13, further comprising: the first edge pattern in a portion of the second edge of said first board substantially opposite the portion of the first edge of said first board where said board is located; first edge pattern. 15.- The parquet system according to the claim 13, which further comprises: a discontinuous pattern between said second edge patterns of said first plank. 16. The parquet system according to claim 12, wherein said first edge pattern is a discontinuous pattern. 17. The parquet system according to claim 15, further comprising: a discontinuous pattern between said first edge patterns of said first plank. 18.- A construction panel system, comprising: a plurality of different planks having an interior decorative pattern; each of said planks has a first edge and a second edge opposite said first edge; a continuous edge pattern on at least a portion of said first edge of at least two of said plurality of different boards; a continuous edge pattern on at least a portion of said second edge of at least two of said plurality of different boards; a discontinuous edge pattern on at least a portion of said first edge of at least two of said plurality of different planks; and a discontinuous edge pattern on at least a portion of said second edge of at least two of said plurality of different planks. 19. The construction panel system according to claim 18, wherein at least one plank other than said plurality of different planks has a continuous edge pattern along the first and second full edges of said plank. 20. The construction panel system according to claim 18, said distinct planks further comprising a third edge and a fourth edge opposite said third edge, wherein a continuous edge pattern is along at least a portion of said third edge. 21. - The construction panel system according to claim 20, further comprising: a continuous edge pattern along at least a portion of said fourth edge, wherein none of said continuous edge patterns in said first, second , third, or fourth edges are adjacent to any other conirous border payroll on a different edge. 22. The construction panel system according to claim 18, wherein said construction panel system is a framing panel system, and said framing boards are framing boards.