JP2017042974A - Decorative sheet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a decorative sheet capable of reducing labor of pattern matching between a pattern on a pattern printed layer, an uneven pattern on a transparent thermoplastic resin layer, and a pattern in a luster state of a luster control layer, while achieving a real decorative sheet.SOLUTION: In a decorative sheet 7, the thickness of a transparent thermoplastic resin layer 4 is 20 μm or more and 400 μm or less, and each of a deviation width between a pattern and an uneven pattern 4a, a deviation width between the pattern and a pattern in a luster state, and a deviation width between the uneven pattern 4a and the pattern in a luster state is out of ranges from 0 μm or more to 40 μm or less, or from 100 μm or more to 4,000 μm or less.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a decorative sheet.

  Conventionally, as a decorative sheet, there exists a technique of patent document 1, for example. In the technique described in Patent Document 1, a pattern printed layer on which a pattern is printed, a transparent thermoplastic resin layer covering the surface of the pattern printed layer, and the surface of the transparent thermoplastic resin layer are protected on one surface side of the base sheet. A surface protective layer and a gloss adjustment layer having a pattern with a gloss state synchronized with a pattern are laminated in this order. Thereby, a realistic decorative sheet is realized by the gloss of the pattern printed layer and the gloss adjustment layer.

Japanese Patent Laid-Open No. 09-156064

However, in the technique described in Patent Document 1, a realistic decorative sheet can be realized. However, when it is considered to provide the transparent thermoplastic resin layer with a concavo-convex pattern that synchronizes with the pattern of the pattern printing layer, the pattern of the pattern printing layer. In order to synchronize the concavo-convex pattern of the transparent thermoplastic resin layer with the pattern of the gloss adjustment layer according to the gloss state, a lot of labor may be required.
The present invention pays attention to the above points, and while realizing a realistic decorative sheet, the pattern of the pattern printed layer, the uneven pattern of the transparent thermoplastic resin layer, and the pattern of the gloss adjusting layer depending on the gloss state The purpose of the present invention is to provide a decorative sheet that can reduce the time and effort of matching.

  In order to solve the above-described problems, a decorative sheet according to one embodiment of the present invention includes a pattern printed layer on which a pattern is printed on one surface side of a base sheet, and a transparent thermoplastic resin having a concavo-convex pattern synchronized with the pattern. Layer, a surface protective layer that protects the surface of the transparent thermoplastic resin layer, and a gloss adjusting layer having a pattern according to a glossy state that synchronizes with the pattern in this order, and the thickness of the transparent thermoplastic resin layer is 20 μm or more and 400 μm or less And the deviation width between the pattern and the concavo-convex pattern, the deviation width between the pattern and the pattern due to the glossy state, and the deviation width between the concavo-convex pattern and the pattern due to the glossy state are each 0 μm or more and 40 μm or less, or 100 μm or more and 4000 μm or less. It is in the range.

  According to one aspect of the present invention, it is possible to reduce the labor of pattern matching between the pattern of the pattern printing layer, the concavo-convex pattern of the transparent thermoplastic resin layer, and the pattern due to the gloss state of the gloss adjustment layer while realizing a realistic decorative sheet. be able to.

It is sectional drawing which shows the tuning embossing decorative material which concerns on embodiment based on this invention. It is a block diagram which shows the transparent thermoplastic resin layer forming apparatus. It is a block diagram which shows the glossiness adjustment layer forming apparatus 11.

Next, embodiments of the present invention will be described with reference to the drawings.
Here, the drawings are schematic, and the relationship between the thickness and the planar dimensions, the ratio of the thickness of each layer, and the like are different from the actual ones. Further, the embodiment described below exemplifies a configuration for embodying the technical idea of the present invention, and the technical idea of the present invention is that the material, shape, structure, etc. of the component parts are as follows. It is not something specific. The technical idea of the present invention can be variously modified within the technical scope defined by the claims described in the claims.

(Synchronized embossed cosmetic 1)
As shown in FIG. 1, the synchronized embossed decorative material 1 of the present embodiment has a pattern printing layer 3, a transparent thermoplastic resin layer 4, a surface protective layer 5, and a gloss adjusting layer on one surface side of the base sheet 2. 6 are laminated in this order to form a decorative sheet 7, and a base material 9 is bonded to the other surface side of the base material sheet 2 via a primer layer 8.

(Base material sheet 2)
The base sheet 2 is a sheet-like layer made of a resin film. The resin film is not particularly limited, and a known resin film can be used. For example, a polyolefin resin such as polyethylene, polypropylene, polybutene, polymethylpentene, an ethylene-vinyl acetate copolymer or a saponified product thereof, a polyolefin copolymer such as an ethylene- (meth) acrylic acid (ester) copolymer, Polyester resins such as polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate, polyarylate, polycarbonate, copolymerized polyester (typically known as PET-G, which is a 1,4-cyclohexanedimethanol copolymerized polyethylene terephthalate resin), poly Acrylic resins such as methyl methacrylate, polyamide resins such as 6-nylon, 6,6-nylon, 6,10-nylon and 12-nylon, styrene resins such as polystyrene, AS resin and ABS resin, cell Fiber derivatives such as acetoacetate and nitrocellulose, chlorinated resins such as polyvinyl chloride and polyvinylidene chloride, fluorinated resins such as polyvinyl fluoride, polyvinylidene fluoride, polytetrafluoroethylene, ethylene-tetrafluoroethylene copolymer, etc. Alternatively, two or more kinds of copolymers or mixtures selected from these, mixtures, composites, laminates, and the like can be used. In particular, polyolefin resin is more preferable in view of productivity in a melt extrusion apparatus, environmental compatibility, mechanical strength, durability, price, and the like. Moreover, the resin film is colored by mixing pigments, and a base material color that matches the design of the decorative sheet 7 is set.

(Picture printing layer 3)
The pattern printing layer 3 is a layer on which a pattern for imparting design properties is printed. As the pattern, for example, a pattern suitable for a place where the decorative sheet 7 is used can be selected, such as wood grain, cork, stone, tile, pottery, and abstract pattern. Further, the printing ink is not particularly limited as long as the printability and weather resistance are taken into consideration, and a known printing ink can be used. For example, a printing ink having pigments of isoindolinone, disazo, polyazo, diketopyrrolopyrrole, quinacridone, phthalocyanine, titanium oxide, and carbon black can be used. Moreover, the expression of a pattern can be enriched by mix | blending combining a pigment. Moreover, weather resistance can also be made favorable by adding a ultraviolet absorber, a light stabilizer, etc.

(Transparent thermoplastic resin layer 4)
The transparent thermoplastic resin layer 4 is a sheet-like layer made of a transparent resin through which the design of the design print layer 3 can be seen. The transparent resin is not particularly limited, and a known transparent resin can be used. For example, polyolefin resin such as polyethylene resin, polypropylene resin, polybutene, polymethylpentene, etc., ethylene-vinyl acetate copolymer or saponified product thereof, ethylene- (meth) acrylic acid (ester) copolymer, etc. Polyester resins such as coalescence, polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate, polyarylate, polycarbonate, copolymerized polyester (typically known as PET-G which is 1,4-cyclohexanedimethanol copolymerized polyethylene terephthalate resin) , Acrylic resins such as polymethyl methacrylate, polyamide resins such as 6-nylon, 6,6-nylon, 6,10-nylon and 12-nylon, styrene resins such as polystyrene, AS resin and ABS resin , Fluorine derivatives such as cellulose acetate, nitrocellulose, etc., chlorinated resins such as polyvinyl chloride, polyvinylidene chloride, polyvinyl fluoride, polyvinylidene fluoride, polytetrafluoroethylene, ethylene-tetrafluoroethylene copolymer, etc. Resins and the like, or two or more types of copolymers or mixtures selected from these, mixtures, composites, laminates, and the like can be used. In particular, polyolefin resin is more preferable in consideration of productivity in a melt extrusion apparatus, environmental compatibility, mechanical strength, durability, price, and the like. The thickness of the transparent thermoplastic resin layer 4 is preferably in the range of 20 μm or more and 400 μm or less from the viewpoint of improving both the strength and transparency of the transparent thermoplastic resin layer 4. Furthermore, the design printing layer 3 and the uneven pattern 4a and the gloss adjusting layer 6 described later, which are generated with a thickness of 400 μm or more, appear to be lifted apart, and the design deterioration due to the loss of pattern uniformity can be avoided. . As the thickness of the transparent thermoplastic resin layer 4, for example, the distance from the highest part of the picture print layer 3 to the interface with the surface protective layer 5, that is, the thickness of the thinnest part can be adopted.

Further, on the surface of the transparent thermoplastic resin layer 4 on the surface protective layer 5 side, a concavo-convex pattern 4 a (emboss) that synchronizes with the pattern of the pattern printing layer 3 is formed. As a result, the pattern of the pattern printing layer 3 and the concavo-convex pattern 4a (emboss) of the transparent thermoplastic resin layer 4 can be synchronized to improve the tactile sensation and the three-dimensional effect, and the pattern (wood, cork, stone, tile, ceramic, The realism of the abstract pattern or the like can be improved. Further, the scratch resistance can be improved by the uneven pattern 4a (emboss).
Further, as a method for laminating the transparent thermoplastic resin layer 4, for example, the transparent thermoplastic resin layer 4 is laminated on a laminate (first laminate 18 described later) of the base sheet 2 and the pattern printing layer 3 by laminating. The method can be used.

(Surface protective layer 5)
The surface protective layer 5 is a sheet-like layer made of a transparent resin that allows the pattern of the pattern printing layer 3 to be seen through and protects the surface of the transparent thermoplastic resin layer 4. The transparent resin is not particularly limited, and a known transparent resin can be used. For example, a (meth) acrylate cured resin can be used. Thereby, it can be made hard and tough. In particular, a urethane transparent thermoplastic resin layer is more preferable in consideration of improvement in bending workability.
A gloss adjusting agent can be appropriately added to the surface protective layer 5 as necessary.
Further, the resin constituting the surface protective layer 5 enters the unevenness of the uneven pattern 4 a of the transparent thermoplastic resin layer 4. Thereby, the surface protective layer 5 can be firmly fixed to the transparent thermoplastic resin layer 4.
Furthermore, the thickness of the surface protective layer 5 is within the range of 3 μm or more and 100 μm or less from the viewpoint of obtaining sufficient strength to completely fill the uneven pattern 4 a and protect the surface of the transparent thermoplastic resin layer 4 without impairing the design feeling. It is preferable that it exists in. As the thickness of the surface protective layer 5, for example, the distance from the highest part of the picture print layer 3 to the interface with the gloss adjusting layer 6, that is, the thickness of the thinnest part can be employed.

(Gloss adjustment layer 6)
The gloss adjusting layer 6 has a pattern with a glossy state in which the pattern of the pattern printing layer 3 and the concave / convex pattern 4a of the transparent thermoplastic resin layer 4 are seen through and synchronized with the pattern of the pattern printing layer 3 and the concave / convex pattern 4a. It is a sheet-like layer made of a transparent resin. The transparent resin is not particularly limited, and a known transparent resin can be used. For example, a composition in which a gloss adjusting agent is added to a two-component curable urethane resin can be used. As the gloss adjusting agent, for example, inorganic particles such as silica, alumina (α-alumina, etc.), calcium carbonate, barium sulfate, kaolinite, aluminosilicate, or organic (resin) particles such as polycarbonate, nylon, urethane resin are used. can do. The average particle size of the gloss adjusting agent is preferably in the range of 1 μm to 10 μm. The addition amount of the gloss adjusting agent is appropriately selected according to the pattern depending on the desired gloss state, but it is usually preferably 30% by mass at the maximum. As the two-component curable urethane resin, for example, a urethane resin having a polyol as a main component and an isocyanate as a crosslinking agent (curing agent) can be used. Further, by forming the surface protective layer 5 and the gloss adjusting layer 6 on the transparent thermoplastic resin layer 4, it is possible to improve the tactile sensation, the stereoscopic effect due to reflection, and the durability.

Here, each of the shift width between the pattern of the pattern print layer 3 and the uneven pattern 4a, the shift width between the pattern of the pattern print layer 3 and the pattern due to the glossy state, and the shift width between the uneven pattern 4a and the pattern due to the glossy state are as follows: , 0 μm or more and 40 μm or less, or 100 μm or more and 4000 μm or less. Thereby, it is possible to prevent the pattern from appearing blurred, and to prevent the pattern on the pattern printing layer 3, the uneven pattern 4a on the transparent thermoplastic resin layer 4, and the pattern on the gloss adjustment layer 6 from being glossy. .
That is, the inventors have intensively studied to improve the synchronism between the pattern of the pattern printing layer 3 and the uneven pattern 4a of the transparent thermoplastic resin layer 4 and the pattern of the gloss adjustment layer 6 according to the gloss state. It has been found that if there is a deviation greater than 40 μm and less than 100 μm between the pattern 3 and the pattern of the gloss adjustment layer 6 due to the gloss state, the pattern appears to blur. Further, even if the deviation is not less than 100 μm, if it is not more than 4000 μm, there is a sense of incongruity in the deviation between the pattern of the pattern print layer 3 and the uneven pattern 4 a of the transparent thermoplastic resin layer 4 and the pattern due to the gloss state of the gloss adjustment layer 6. I found that I did not feel.
Therefore, according to the decorative sheet 7 according to the present embodiment, the gloss of the pattern printed layer 3, the uneven pattern 4 a of the transparent thermoplastic resin layer 4, and the gloss adjusting layer 6 is suppressed while preventing the pattern from being blurred. There is no sense of incongruity with the pattern depending on the condition. Therefore, it is possible to relatively easily synchronize the pattern of the pattern printing layer 3 with the uneven pattern 4a of the transparent thermoplastic resin layer 4 and the pattern of the gloss adjusting layer 6 according to the gloss state. In addition, as a pattern, it is more suitable for the grain pattern or the stone pattern than the geometric pattern comprised by the straight line or the curve.

(Primer layer 8)
The primer layer 8 is a sheet-like layer made of resin. The resin is not particularly limited, and a known resin can be used. For example, a thermoplastic resin such as a polyamide resin, an acrylic resin or a vinyl acetate resin, a thermosetting resin such as a thermosetting urethane resin, a two-component curable urethane resin or a polyester resin using an isocyanate as a curing agent may be used. it can.

(Substrate 9)
The base material 9 is a plate-like member made of metal, wood or the like. It does not specifically limit as a metal, wood, etc. A known metal, wood, etc. can be used. For example, aluminum, steel, stainless steel, MDF (medium density fiberboard), and particle board can be used.

(Production device for decorative sheet 7)
Next, the transparent thermoplastic resin layer forming apparatus 10 for forming the transparent thermoplastic resin layer 4 and the gloss adjusting layer forming apparatus 11 for forming the gloss adjusting layer 6 will be described.
(Transparent thermoplastic resin layer forming apparatus 10)
As shown in FIG. 2, the transparent thermoplastic resin layer forming apparatus 10 includes a feeding unit 12, an extruding unit 13, a bonding unit 14, and a winding unit 15. In the present embodiment, the pattern printing layer 3 and the transparent thermoplastic resin layer 4 are formed by separate apparatuses. Therefore, the transparent thermoplastic resin layer forming apparatus 10 of the present embodiment has the stretch detection unit 16 and the tension control in order to synchronize the pattern of the pattern printing layer 3 with the concavo-convex pattern 4a of the transparent thermoplastic resin layer 4. A unit 17 is further provided.
The feeding unit 12 rotates around a first feeding roll 19 around which a laminated body (hereinafter also referred to as “first laminated body 18”) in which the pattern printing layer 3 is laminated on one surface side of the base sheet 2 is wound. Hold it rotatable. Then, the feeding unit 12 feeds the first laminated body 18 (base material sheet 2) from the held first feeding roll 19 at a predetermined speed α and transfers it to the bonding unit 14.

The extrusion unit 13 melts a transparent resin for forming the transparent thermoplastic resin layer 4. Then, the extrusion unit 13 extrudes the molten resin, forms it into a film shape, and supplies it to the bonding unit 14.
The bonding unit 14 sandwiches and bonds the first laminate 18 (base material sheet 2) transferred from the feeding unit 12 and the film-like resin supplied from the extrusion unit 13 with a pair of rollers 14a and 14b. (Extrusion lamination). Thereby, the transparent thermoplastic resin layer 4 is laminated | stacked by the extrusion lamination process on the pattern printing layer 3 of the 1st laminated body 18, and the pattern printing layer 3 and the transparent thermoplastic resin layer are formed in the one surface side of the base material sheet 2. FIG. A laminate in which 4 is laminated is formed. Here, the roller 14a is rotationally driven so as to pull the first laminated body 18 (base material sheet 2) by a frictional force with the first laminated body 18 (base material sheet 2). The roller 14b is urged toward the roller 14a to increase the frictional force between the roller 14a and the first laminated body 18 (base material sheet 2), and the first laminated body 18 (base material sheet 2). It is pulled by and is taken around.

  On the outer peripheral surface of the roller 14a that is in contact with the transparent thermoplastic resin layer 4, a concavo-convex pattern 4a (hereinafter also referred to as “target concavo-convex pattern”) synchronized with the pattern of the pattern printing layer 3 on the transparent thermoplastic resin layer 4 is provided. A printing plate (embossed plate) for forming is provided. In the printing plate, the direction parallel to the direction in which the first laminate 18 is passed (hereinafter also referred to as “paper passing direction”) is 0.02% or more and 3.0% or less than the target uneven pattern 4a. And has a concavo-convex shape in which a direction orthogonal to the paper passing direction (hereinafter also referred to as “width direction”) is reduced within a range of 0.02% or more and 0.9% or less. Here, in the present embodiment, when the transparent thermoplastic resin layer 4 is formed, the elongation in the sheet passing direction of the first laminate 18 is within a predetermined range of 0.02% to 3.0%. The tension of the first stacked body 18 is controlled so as to fall within the range. This means that the first laminate 18 exhibits an elastic behavior with respect to tension, so that the elongation rate can be controlled, and a tension range that does not impair the design feeling due to the extreme elongation of the pattern is used. Therefore, this range is appropriately changed according to the material used. Thereby, even if the 1st laminated body 18 expand | extends in a paper passing direction, the synchronism of the pattern of the pattern printing layer 3 and the uneven | corrugated pattern 4a can be made favorable.

Moreover, the bonding part 14 controls the urging | biasing force to the roller 14a side of the roller 14b according to the instruction | command from the tension control part 17, and controls the press force between a pair of rollers 14a and 14b. Thereby, the frictional force between the roller 14b and the first laminated body 18 is controlled, and the first laminated body 18 (base material sheet 2) is drawn between the pair of rollers 14a and 14b at a speed higher than the set speed α. Then, a tension in the sheet passing direction is generated in the first laminate 18 (base material sheet 2). The pull-in speed is in the range of 100.02% to 103.00% of the set speed α. As a method of increasing or decreasing the urging force of the roller 14b, for example, a rotating shaft of the roller 14b is connected to one end of a swing arm 14c such as an iron plate, and a fixed shaft 14d is connected to the other end of the swing arm 14c. It is possible to use a method of increasing or decreasing the urging force of the roller 14b by controlling the pressing force that presses the side of the 14c with a pressurizing unit 14e such as a hydraulic unit and moving the swing arm 14d in an arc around the fixed shaft 14d. . In addition, although an example of the method to increase / decrease the urging | biasing force of the roller 14b was shown, it is not limited to this method, Another structure can also be employ | adopted.
The winding unit 15 winds a laminated body formed by extrusion laminating (hereinafter also referred to as “second laminated body 20”) to form the second feeding roll 21.

  The stretch detection unit 16 detects the stretch in the sheet passing direction of the first laminated body 18 (base material sheet 2) fed from the first feed roll 19. Specifically, the elongation detection unit 16 includes a first registration mark detection unit 16a, a second registration mark detection unit 16b, and an elongation amount calculation unit 16c. The first registration mark detection unit 16 a is arranged on the upstream side in the paper passing direction from the bonding unit 14 and detects the registration marks of the base sheet 2. The register marks are provided at a predetermined interval in the sheet passing direction at the width direction end of the base sheet 2, that is, at a place where the pattern printing layer 3 and the transparent thermoplastic resin layer 4 are not laminated. Moreover, the 2nd registration mark detection part 16b is arrange | positioned downstream from the bonding part 14, and detects the registration mark of the base material sheet 2. FIG. The elongation amount calculation unit 16c estimates the elongation in the sheet passing direction of the first stacked body 18 based on the detection results of the first registration mark detection unit 16a and the second registration mark detection unit 16b. For example, the time until the registration mark detected by the first registration mark detection unit 16a is detected by the second registration mark detection unit 16b (hereinafter also referred to as “transfer time”) is measured, and the measured transfer time and the first registration mark are detected. From the relationship between the distance between the detection unit 16a and the second registration mark detection unit 16b and the transfer time estimated from the conveyance speed of the first laminate 18 (base material sheet 2), the sheet passing through the first laminate 18 is performed. Estimate direction elongation.

The tension control unit 17 passes the first laminated body 18 in the sheet passing direction so that the elongation in the sheet passing direction of the first laminated body 18 (base material sheet 2) detected by the elongation detecting unit 16 is within a predetermined setting range. Control the tension. Specifically, the elongation in the sheet passing direction of the first laminated body 18 (base material sheet 2) is in the set range (a range of 0.02% or more and 3.0% or less) than when no tension is applied. When it is smaller than the lower limit value, that is, when smaller than 0.02%, a command to increase the pressing force between the pair of rollers 14 a and 14 b is output to the bonding unit 14. Thereby, the frictional force between the roller 14b and the first laminated body 18 is increased, and the elongation of the first laminated body 18 in the sheet passing direction is increased. On the other hand, when the elongation in the sheet passing direction of the first laminated body 18 (base material sheet 2) is larger than the upper limit value of the set range (0.02% to 3.0% range), that is, from 3.0%. If larger, a command to reduce the pressing force between the pair of rollers 14 a and 14 b is output to the bonding unit 14. Thereby, the frictional force between the roller 14b and the first laminated body 18 is reduced, the tension in the sheet passing direction of the first laminated body 18 (base material sheet 2) is reduced, and the first laminated body 18 (base material) The elongation in the sheet passing direction of the sheet 2) is reduced.
Unlike the present embodiment, in the method in which the stretch detection unit 16 and the tension control unit 17 are not provided and the tension in the sheet passing direction of the first stacked body 18 is not controlled, the stretching in the sheet passing direction of the first stacked body 18 is performed. Increases, and the synchrony between the pattern of the pattern print layer 3 and the uneven pattern 4a of the transparent thermoplastic resin layer 4 decreases.

(Gloss adjustment layer forming device 11)
As shown in FIG. 3, the gloss adjusting layer forming apparatus 11 includes a feeding unit 22, a coating unit 23, and a winding unit 24. In the present embodiment, the formation of the pattern printing layer 3 and the formation of the gloss adjustment layer 6 are performed by separate apparatuses. Therefore, the gloss adjusting layer forming apparatus 11 of the present embodiment synchronizes the pattern depending on the gloss state of the gloss adjusting layer 6 in addition to the pattern of the pattern printing layer 3 and the uneven pattern 4 a of the transparent thermoplastic resin layer 4. In addition, an elongation detector 25 and a tension controller 26 are further provided.
The feeding portion 22 is a laminate in which the pattern printing layer 3, the transparent thermoplastic resin layer 4, and the surface protective layer 5 are laminated in this order on one surface side of the base sheet 2 (hereinafter, “third laminate 27”). The third feeding roll 28 around which the shaft is wound is held so as to be rotatable around the axis. Then, the feeding unit 22 feeds the third laminated body 27 (base material sheet 2) from the held third feeding roll 28 and transfers it to the coating unit 23. The transfer speed of the third stacked body 27 is set to a predetermined set speed β.
The coating unit 23 sandwiches the third laminated body 27 transferred from the feeding unit 22 between the pair of rollers 23a and 23b, and coats the resin for forming the gloss adjusting layer 6 so that the pattern printed layer 3 has a pattern. The gloss adjusting layer 6 having a pattern with a glossy state synchronized with is formed. As a result, the gloss adjusting layer 6 is laminated on the surface protective layer 5 of the third laminate 27, and the pattern printing layer 3, the transparent thermoplastic resin layer 4, and the surface protective layer 5 are formed on one surface side of the base sheet 2. And the laminated body on which the gloss adjusting layer 6 was laminated | stacked is formed.

On the outer peripheral surface of the roller 23a to which the resin is applied, a pattern with a glossy state (hereinafter, also referred to as a “pattern with a target glossy state”) synchronized with the pattern of the pattern printing layer 3 is formed on the surface protective layer 5. A printing plate is provided. In the printing plate, the direction parallel to the direction in which the third laminate 27 is passed (hereinafter also referred to as “paper passing direction”) is 0.02% or more and 3.0% or less than the pattern due to the target glossy state. It has a concavo-convex shape that extends within the range and is reduced within a range of 0.02% or more and 0.9% or less in a direction orthogonal to the paper passing direction (hereinafter also referred to as “width direction”). Here, in this embodiment, at the time of forming the gloss adjusting layer 6 (pattern according to the gloss state), the elongation in the paper passing direction of the third laminate 27 is within a predetermined range of 0.02% to 3.0%. The tension of the third stacked body 27 is controlled so as to be within the following range. This means that the third laminate 27 exhibits an elastic behavior with respect to tension, so that the elongation rate can be controlled, and a tension range that does not impair the design feeling due to the extreme elongation of the pattern is used. Therefore, this range is appropriately changed according to the material used. Thereby, even if the 3rd laminated body 27 expand | extends in a paper passing direction, the synchronism with the pattern by the glossiness state of the pattern of the pattern printing layer 3 and the gloss adjustment layer 6 can be made favorable. The coating unit 23 controls the rotational speeds of the pair of rollers 23a and 23b in accordance with a command from the tension control unit 26. Thereby, the third laminated body 27 (base material sheet 2) is drawn between the pair of rollers 23a and 23b at a speed faster than the set speed β, and the tension in the sheet passing direction is applied to the third laminated body 27 (base material sheet 2). Is generated. The pulling rate is in the range of 100.02% to 103.00% of β.
The winding unit 24 winds the laminated body formed by the coating unit 23 (hereinafter also referred to as “fourth laminated body 29”) to form the fourth feeding roll 30.

The stretch detection unit 25 detects the stretch in the sheet passing direction of the third laminated body 27 (base material sheet 2) fed from the third feed roll 28. Specifically, the elongation detection unit 25 includes a first registration mark detection unit 25a, a second registration mark detection unit 25b, and an elongation amount calculation unit 25c. The first registration mark detection unit 25 a is disposed upstream of the coating unit 23 in the sheet passing direction, and detects the registration marks of the base sheet 2. The second registration mark detection unit 25b is disposed downstream of the first registration mark detection unit 25a in the sheet passing direction and upstream of the coating unit 23 in the sheet passing direction, and detects the registration marks of the base sheet 2. To do. The elongation amount calculation unit 25c detects the elongation of the third stacked body 27 in the sheet passing direction based on the detection results of the first registration mark detection unit 25a and the second registration mark detection unit 25b. For example, the time until the registration mark detected by the first registration mark detection unit 25a is detected by the second registration mark detection unit 25b (hereinafter also referred to as “transfer time”) is measured. From the relationship between the distance between the detection unit 25a and the second registration mark detection unit 25b and the transfer time estimated from the conveyance speed of the third laminate 27 (base material sheet 2), the sheet passing through the first laminate 18 is performed. Detect direction elongation.
In the present embodiment, the second registration mark detection unit 25b is disposed between the first registration mark detection unit 25a and the coating unit 23. However, other configurations may be employed. For example, the second registration mark detection unit 25b may be arranged downstream of the coating unit 23 in the sheet passing direction.

The tension control unit 26 passes the third laminated body 27 in the sheet passing direction so that the elongation in the sheet passing direction of the third laminated body 27 (base material sheet 2) detected by the elongation detecting unit 25 falls within a predetermined setting range. Control the tension. Specifically, when the elongation in the sheet passing direction of the third laminate 27 (base material sheet 2) is smaller than the lower limit value of the set range (0.02% to 3.0%), that is, 0 If less than 0.02%, a command to increase the rotation speed of the pair of rollers 23a and 23b is output to the coating unit 23. Thereby, the coating part 23 increases the tension | tensile_strength in the paper passing direction of the 3rd laminated body 27 (base material sheet 2), and increases the elongation of the 3rd laminated body 27 in the paper passing direction. On the other hand, when the elongation in the sheet passing direction of the third laminate 27 (base material sheet 2) is larger than the upper limit of the set range (0.02% or more and 3.0% or less), that is, from 3.0%. If larger, a command to reduce the rotation speed of the pair of rollers 23 a and 23 b is output to the coating unit 23. Thereby, the tension | tensile_strength of the 3rd laminated body 27 (base material sheet 2) is reduced, and the elongation of the 3rd laminated body 27 (base material sheet 2) is reduced.
Unlike the present embodiment, in the method in which the elongation detection unit 25 and the tension control unit 26 are not provided and the tension in the sheet passing direction of the third stacked body 27 is not controlled, the elongation of the third stacked body 27 in the sheet passing direction is increased. Increases, and the synchronism between the pattern of the pattern print layer 3 and the pattern due to the gloss state of the gloss adjustment layer 6 decreases.

(Manufacturing method of the decorative sheet 7)
Next, the manufacturing method of the decorative sheet 7 having the above configuration will be described.
In manufacturing the decorative sheet 7, the first to fifth steps are executed in this order.
(First step: Pattern printing layer forming step)
A feeding roll around which the base sheet 2 is wound is prepared. Subsequently, the base sheet 2 is fed out from the prepared feed roll, and the drawn base sheet 2 is sequentially printed on one surface side of the base sheet 2 through the plate cylinder and the impression cylinder to print the pattern. Layer 3 is formed. Thereby, the 1st laminated body 18 by which the pattern printing layer 3 was laminated | stacked on the one surface side of the base material sheet 2 is formed. Subsequently, the formed first laminated body 18 is wound to form a first feeding roll 19.

(Second step: transparent thermoplastic resin layer forming step)
As shown in FIG. 2, the feeding unit 12 of the transparent thermoplastic resin layer forming apparatus 10 feeds the first laminated body 18 (base material sheet 2) from the first feeding roll 19 at a set speed α and feeds it. The body 18 is transferred to the bonding unit 14. Further, the extrusion unit 13 melts a transparent resin for forming the transparent thermoplastic resin layer 4, extrudes the melted resin, forms it into a film shape, and supplies it to the bonding unit 14. And the bonding part 14 puts the 1st laminated body 18 (base material sheet 2) transferred from the feeding part 12, and the film-form resin supplied from the extrusion part 13 between a pair of rollers 14a and 14b, and pastes them. Match. Thereby, the transparent thermoplastic resin layer 4 is laminated | stacked by the extrusion lamination process on the pattern printing layer 3 of the 1st laminated body 18, and the pattern printing layer 3 and the transparent thermoplastic resin layer 4 are provided in the one surface side of the base material sheet 2. FIG. Is formed. At the same time, the roller 14 a forms a concavo-convex pattern 4 a in synchronism with the pattern of the picture print layer 3 in the transparent thermoplastic resin layer 4.
At that time, when the elongation in the sheet passing direction of the first laminate 18 (base material sheet 2) detected by the elongation detector 16 is smaller than the lower limit value of the setting range, that is, smaller than 0.02%, the tension control is performed. The unit 17 outputs a command for increasing the pressing force between the pair of rollers 14 a and 14 b to the bonding unit 14. Thereby, the bonding part 14 increases the urging force of the roller 14b toward the roller 14 side a, increases the frictional force between the roller 14a and the first stacked body 18, and allows the first stacked body 18 to pass through. The tension in the paper direction is increased, and the elongation in the paper passing direction of the first laminate 18 is increased.

On the other hand, when the elongation in the sheet passing direction of the first laminate 18 (base material sheet 2) detected by the elongation detector 16 is larger than the upper limit value of the setting range, that is, larger than 3.0%, the tension controller 17 However, the command which reduces the press force between a pair of rollers 14a and 14b is output to the bonding part 14. FIG. Thereby, the bonding part 14 reduces the urging | biasing force to the roller 14 side a of the roller 14b, reduces the frictional force between the roller 14b and the 1st laminated body 18, and the 1st laminated body 18 (base The tension in the sheet passing direction of the material sheet 2) is reduced, and the elongation in the sheet passing direction of the first laminated body 18 (base material sheet 2) is decreased. Therefore, the elongation in the sheet passing direction of the first laminate 18 can be within the set range, and the uneven pattern 4a can be appropriately formed by the printing plate (embossed plate) of the roller 14a.
Further, the winding unit 15 winds the laminated body (second laminated body 20) formed by the extrusion laminating process to form the second feeding roll 21.

(Third step: surface protective layer forming step)
For forming the surface protective layer 5 on the transparent thermoplastic resin layer 4 of the second laminated body 20 (base material sheet 2) fed out from the second feed roll 21 and the second laminated body 20 (base material sheet 2). Apply the resin. Thereby, the 3rd laminated body 27 by which the surface protective layer 5 was laminated | stacked on the 2nd laminated body 20 is formed. At that time, the resin constituting the surface protective layer 5 enters the unevenness of the uneven pattern 4 a of the transparent thermoplastic resin layer 4. Thereby, the surface protective layer 5 is firmly fixed to the transparent thermoplastic resin layer 4. Subsequently, the formed third laminated body 27 is wound to form a third feeding roll 28.

(4th step: gloss adjusting layer forming step)
As shown in FIG. 3, the feeding unit 22 of the gloss adjusting layer forming device 11 feeds the third laminated body 27 (base material sheet 2) from the third feeding roll 28 at the set speed β and feeds the third laminated body 27. Is transferred to the coating unit 23. Then, the coating unit 23 applies the resin for forming the gloss adjusting layer 6 to the third laminated body 27 (base material sheet 2) transferred from the feeding unit 22, and synchronizes with the pattern of the pattern printing layer 3. The gloss adjusting layer 6 having a pattern according to the gloss state is formed. As a result, the gloss adjusting layer 6 is laminated on the surface protective layer 5 of the third laminate 27, and the pattern printing layer 3, the transparent thermoplastic resin layer 4, and the surface protective layer 5 are formed on one surface side of the base sheet 2. And the laminated body on which the gloss adjusting layer 6 was laminated | stacked is formed.
At that time, when the elongation in the sheet passing direction of the third laminate 27 (base material sheet 2) detected by the elongation detector 25 is smaller than the lower limit value of the set range (0.02% to 3.0% range). That is, when it is smaller than 0.02%, the tension control unit 17 outputs a command to increase the rotation speed of the pair of rollers 23 a and 23 b to the coating unit 23. Thereby, the coating part 23 increases the tension | tensile_strength of the 3rd laminated body 27 (base material sheet 2) in the paper passing direction, and increases the elongation of the 3rd laminated body 27 in the paper passing direction.

On the other hand, when the elongation in the sheet passing direction of the third laminate 27 (base material sheet 2) detected by the elongation detection unit 25 is larger than the upper limit of the set range (0.02% or more and 3.0% or less). That is, when it is larger than 3.0%, the tension control unit 17 outputs a command for reducing the rotation speed of the pair of rollers 23 a and 23 b to the coating unit 23. Thereby, the coating part 23 reduces the tension | tensile_strength of the 3rd laminated body 27 (base material sheet 2), and reduces the elongation of the 3rd laminated body 27 (base material sheet 2). Therefore, the elongation in the sheet passing direction of the third laminate 27 (base material sheet 2) can be within the set range (range of 0.02% to 3.0%), and the gloss adjusting layer 6 is appropriately Can be formed.
Further, the winding unit 24 winds the laminated body (fourth laminated body 29) formed by the pair of rollers 23 a and 23 b to form the fourth feeding roll 30.
(5th step: primer layer forming step)
The fourth laminate 29 (base material sheet 2) is fed from the fourth feed roll 30, and a resin for forming the primer layer 8 is applied to the other surface side of the fed fourth laminate 29 (base material sheet 2). Work. Thereby, the primer layer 8 was laminated | stacked on the 4th laminated body 29, and the decorative sheet 7 was obtained.

(Effect of this embodiment)
The invention according to this embodiment has the following effects.
(1) In the decorative sheet 7 according to the present embodiment, on one surface side of the base sheet 2, a pattern printing layer 3 on which a pattern is printed, and a transparent thermoplastic resin layer 4 having an uneven pattern 4 a synchronized with the pattern, A surface protective layer 5 for protecting the surface of the transparent thermoplastic resin layer 4 and a gloss adjusting layer 6 having a pattern with a glossy state synchronized with a pattern are laminated in this order. And the thickness of the transparent thermoplastic resin layer 4 is 20 μm or more and 400 μm or less, and the deviation width between the pattern and the concavo-convex pattern 4 a, the deviation width between the pattern and the pattern due to the glossy state, and the pattern due to the concavo-convex pattern 4 a and the glossy state Are in the range of 0 μm or more and 40 μm or less, or 100 μm or more and 4000 μm or less.
According to such a configuration, while realizing a realistic decorative sheet 7, the pattern matching between the pattern of the pattern printing layer 3, the concavo-convex pattern 4 a of the transparent thermoplastic resin layer 4, and the pattern according to the gloss state of the gloss adjustment layer 6 is possible. Time and effort can be reduced.

(2) In the decorative sheet 7 according to the present embodiment, the transparent thermoplastic resin layer 4 is laminated on the laminate (first laminate 18) of the base sheet 2 and the pattern printing layer 3 by extrusion lamination.
According to such a configuration, the adhesive between the transparent thermoplastic resin layer 4 and the picture print layer 3 can be suppressed, and the picture of the picture print layer 3 can be seen more clearly through the transparent thermoplastic resin layer 4. it can.
(3) In the decorative sheet 7 according to the present embodiment, the transparent thermoplastic resin layer 4 is made of either a polyolefin resin or a polyester resin.
According to such a configuration, extrusion lamination can be performed more appropriately.

(4) In the decorative sheet 7 according to this embodiment, the thickness of the surface protective layer 5 is set to 3 μm or more and 100 μm or less.
According to such a configuration, both the strength and transparency of the transparent thermoplastic resin layer 4 can be improved.
(5) The decorative sheet 7 according to the present embodiment is provided with the primer layer 8 on the other surface side of the base sheet 2.
According to such a structure, the adhesiveness to the base material 9 can be made favorable.

Next, examples according to the present invention will be described.
Example 1
In Example 1, the base sheet 2 was provided using a colored polypropylene resin (polypropylene resin 92.2% by weight, inorganic pigment 7.8% by weight). The thickness of the base material sheet 2 was 60 μm. The mass of the base material sheet 2 was 53.8 g / m ² . On the surface of the base sheet 2, an ink (dry weight: 4 wt.%) Of 18.8 wt% inorganic pigment, glitter pigment (pearl pigment), 0.1 wt% organic pigment, urethane resin, 17.5 wt% organic resin. The pattern printing layer 3 was provided by printing a wood grain pattern at ² g / m ² ). A transparent thermoplastic resin layer 4 (transparent polypropylene resin 99.85% by weight, inorganic pigment 0.15% by weight) was laminated on the first laminate 18 of the base sheet 2 and the pattern printing layer 3 by extrusion lamination. The thickness of the transparent thermoplastic resin layer 4 was 70 μm. The mass of the transparent thermoplastic resin layer 4 was 63.0 g / m ² . In the extrusion laminating process, a concavo-convex pattern 4a (embossing) synchronized with the wood grain pattern of the picture print layer 3 was also formed on the surface of the transparent thermoplastic resin layer 4.

Subsequently, the surface of the transparent thermoplastic resin layer 4 on which the concavo-convex pattern 4a was formed was coated with a coating liquid composed of 9.6% by weight of inorganic pigment silica and 90.4% by weight of urethane resin (coating amount 2.5). / m ² ) to provide the surface protective layer 5. The thickness of the transparent thermoplastic resin layer 4, that is, the thickness from the highest part of the pattern print layer 3 to the interface with the surface protective layer 5 was 150 μm. Subsequently, the pattern printing layer 3 is formed on the surface of the surface protective layer 5 by gravure printing (application amount after drying 2.7 g / m ² ) with a resin composed of 0.6% by weight of inorganic pigment silica and 99.4% by weight of urethane resin. A gloss adjusting layer 6 having a pattern with a glossy state synchronized with the wood grain pattern is provided. Here, each of the shift width between the pattern of the pattern print layer 3 and the uneven pattern 4a, the shift width between the pattern of the pattern print layer 3 and the pattern due to the glossy state, and the shift width between the uneven pattern 4a and the pattern due to the glossy state are as follows: In a range of 100 μm or more and 4000 μm or less.
Subsequently, the primer layer 8 is applied to the back surface of the base sheet 2 by gravure coating (dry weight 1.2 g / m ² ) with a coating liquid composed of 30.3% by weight of inorganic pigment silica and 69.7% by weight of urethane resin. A decorative sheet 7 was obtained.

(Example 2)
In Example 2, the shift width between the pattern of the pattern print layer 3 and the uneven pattern 4a, the shift width between the pattern of the pattern print layer 3 and the pattern due to the glossy state, and the shift width between the uneven pattern 4a and the pattern due to the glossy state. Each was stored in the range of 0 to 40 μm. Otherwise, a decorative sheet 7 was produced in the same procedure as in Example 1.
(Example 3)
In Example 3, a polybutylene terephthalate resin (polybutylene terephthalate resin 93.7 wt%, inorganic pigment 5.3 wt%) was used as the base sheet 2, and the base sheet 2 had a thickness of 73 μm and a mass of 91 Adjusted to 3 g / m ² . Otherwise, a decorative sheet 7 was produced in the same procedure as in Example 1.

(Evaluation judgment)
As represented by Examples 1 to 3, on one surface side of the base sheet 2, a pattern printing layer 3 on which a pattern is printed, a transparent thermoplastic resin layer 4 having an uneven pattern 4 a synchronized with the pattern, and transparent When the surface protective layer 5 that protects the surface of the thermoplastic resin layer 4 and the gloss adjustment layer 6 having a pattern with a glossy state that synchronizes with the pattern are laminated in this order, and the range of the present invention is satisfied, the pattern printing layer It was found that the pattern 3 and the pattern according to the gloss state of the gloss adjusting layer 6 were synchronized to form a realistic decorative sheet 7. Moreover, the thickness of the transparent thermoplastic resin layer 4 is 20 μm or more and 400 μm μm or less, and the deviation width between the pattern and the concavo-convex pattern 4a, the deviation width between the pattern and the pattern due to the glossy state, and the pattern between the concavo-convex pattern 4a and the glossy state. Since each of the shift widths is in the range of 0 μm or more and 40 μm or less or 100 μm or more and 4000 μm or less, the pattern of the pattern print layer 3, the uneven pattern 4 a of the transparent thermoplastic resin layer 4, and the pattern due to the gloss state of the gloss adjustment layer 6 It turns out that it doesn't feel uncomfortable.

In addition, JAS specially processed decorative plywood (Japanese plywood standard for Japanese plywood established in February 2003) has physical properties that comply with various surface properties (acid resistance, contamination resistance, weather resistance, etc.) It was also found that the decorative sheet 7 can be used for building materials with good V-cutting properties.
Furthermore, although the width-direction dimension of the base material sheet 2 was 1297 mm before formation of the pattern printing layer 3, it shrunk | reduced 1.5 mm after formation of the uneven | corrugated pattern 4a (emboss), and changed to 1295.5 mm. However, since the embossed plate was shrunk by 0.06% in the width direction, there was no problem with design registration. The measuring instrument used was a 2000 mm straight ruler and SHINWA C-type JIS first grade.

DESCRIPTION OF SYMBOLS 1 Synchronized embossing cosmetic material 2 Base material sheet 3 Pattern printing layer 4 Transparent thermoplastic resin layer 4a Concave and convex pattern 5 Surface protective layer 6 Gloss adjustment layer 7 Cosmetic sheet 8 Primer layer 9 Base material 10 Transparent thermoplastic resin layer forming apparatus 11 Gloss adjustment Layer formation device 16a First registration mark detection unit 16b Second registration mark detection unit 16c Elongation amount calculation unit 17 Tension control unit 25a First registration mark detection unit 25b Second registration mark detection unit 25c Elongation amount calculation unit 26 Tension control unit

Claims (5)

On one surface side of the base sheet, a pattern printed layer on which a pattern is printed, a transparent thermoplastic resin layer having a concavo-convex pattern that synchronizes with the pattern, a surface protective layer that protects the surface of the transparent thermoplastic resin layer, and A gloss adjustment layer having a pattern according to a gloss state synchronized with the pattern is laminated in this order,
The thickness of the transparent thermoplastic resin layer is 20 μm or more and 400 μm or less, and a deviation width between the pattern and the concavo-convex pattern, a deviation width between the pattern and the pattern due to the gloss state, and the concavo-convex pattern and the gloss state The decorative sheet is characterized in that each of the deviation widths from the pattern is in the range of 0 μm to 40 μm or 100 μm to 4000 μm.   The decorative sheet according to claim 1, wherein the transparent thermoplastic resin layer is laminated by extrusion lamination on a laminate of the base sheet and the pattern printing layer.   The decorative sheet according to claim 1 or 2, wherein the transparent thermoplastic resin layer is made of any one of a polyolefin-based resin and a polyester-based resin.   The decorative sheet according to any one of claims 1 to 3, wherein the thickness of the surface protective layer is 3 µm or more and 100 µm or less.   The decorative sheet according to any one of claims 1 to 4, wherein a primer layer is provided on the other surface side of the base sheet.

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