JP3162170B2 - Cosmetic material - Google Patents
Cosmetic materialInfo
- Publication number
- JP3162170B2 JP3162170B2 JP10000992A JP10000992A JP3162170B2 JP 3162170 B2 JP3162170 B2 JP 3162170B2 JP 10000992 A JP10000992 A JP 10000992A JP 10000992 A JP10000992 A JP 10000992A JP 3162170 B2 JP3162170 B2 JP 3162170B2
- Authority
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- Japan
- Prior art keywords
- curves
- group
- difference
- curve
- function
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Landscapes
- Laminated Bodies (AREA)
- Printing Methods (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、化粧材に関し、特に天
然の木材が持つ「照り」を表現することのできる化粧材
に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a decorative material, and more particularly to a decorative material capable of expressing the "shine" of natural wood.
【0002】[0002]
【従来の技術】天然木材は、固有の光沢すなわち、「照
り」を有している。それは、木材が平行に積み重ねられ
た細胞で出来ており、それが鉋で削られることにより細
胞内こうの凹状の内表面群が現れ、個々の細胞が微小な
凹面鏡になったような光沢を持つためといわれている。
図1a、bはその状態をモデル的に示しており、図1a
のように繊維10に平行に光を当てた場合は細胞内こう
に入った光の多くが正反射(鏡面反射)して出てくるの
に対し、繊維に直角方向に光が入った場合には図1bの
ように細胞側壁で光が散乱し、強い反射は生じない。す
なわち、木材表面に光を当てたときに照りを生じた(明
るく照った)部分は、光を反射している、つまり光を当
てた方向と木材繊維の方向がー致している部分であり、
また、照りを生じなかった(暗く影になった)部分は細
胞内こうで乱反射している、つまり光を当てた方向と繊
維方向が異なる部分といえる。BACKGROUND OF THE INVENTION Natural wood has an inherent luster, or "shine". It is made of cells that are stacked in parallel on wood, and when it is scraped with a plane, a concave inner surface group appears inside the cells, giving each cell a luster like a small concave mirror It is said to be good.
1a and 1b schematically show the state, and FIG.
When light is applied in parallel to the fiber 10 as described above, much of the light that has entered the cell comes out as specular reflection (mirror reflection), whereas when light enters the fiber at right angles. As shown in FIG. 1b, light is scattered on the cell side wall, and strong reflection does not occur. In other words, the part that illuminated (brightly lit) when light was applied to the wood surface is the part that reflects light, that is, the direction in which the light is applied and the direction of the wood fiber are aligned. ,
In addition, a portion where no light is generated (shadowed darkly) is irregularly reflected in the cell, that is, a portion in which the direction of light is different from that of the fiber.
【0003】一般に、波状木理や節まわりにおいては、
木材繊維が複雑な曲線を描いているため、上記のような
明るく照った部分と暗く影になった部分とは光の入射方
向の変化あるいは見る人の位置の変化等によって微妙に
変化し、木材それぞれに特徴ある照りを発現させると共
に、見る人に「照り」の移動感を与えている。木目模様
を持つ化粧材を作成する場合、普通に印刷された木目模
様にこのような照りを表現させることは困難であり、こ
のことが見る人に対して天然の木材と印刷された木目模
様を持つ化粧材との間の無意識的識別感を与えているも
のと考えられる。[0003] Generally, in wavy grain and around nodes,
Because the wood fiber draws a complicated curve, the brightly lit part and the darkly shaded part slightly change due to a change in the light incident direction or a change in the position of the viewer, The characteristic shine of each piece of wood is exhibited, and the viewer is given a sense of movement of "shine". When creating a decorative material with a wood grain pattern, it is difficult to express such shine on a normally printed wood grain pattern, which makes it difficult for viewers to use natural wood and printed wood grain patterns. It is considered that it gives an unconscious distinction between the material and the cosmetic material.
【0004】[0004]
【発明が解決しようとする課題】木目印刷模様の化粧材
に上記のような照りの表現を持たせることにより天然木
に近い感性を見るものに与えるようにする努力がなされ
てきている。例えは、光沢のある印刷インキ(パールイ
ンキ等)を用いて印刷を行う方法、あるいは平行曲線群
のパターンからなるエンボス凹凸模様を透明樹脂シート
に形成しそれを基材に積層する方法等がある(特開平4
−175742号公報)。前者のものは特定の方向(角
度)においては全体に照りが発生するが他の方向では照
りが生しないものであり、ある特定の光源と観察者との
組合せに対応して特有の模様状の照りの出る箇所と出な
い箇所とが生じ、見る方向あるいは光の方向の違いによ
り照りが発生する箇所及び発生しない箇所が移動し、照
りの模様が変化するといういわゆる照りの移動感は生じ
得ないものである。また、後者のものはラワン、マホガ
ニーのように光沢縞が木目の年輪模様方向(本発明にお
いては以下木目の走る方向という)とほぼ平行ないわゆ
る縦照りに対してはある程度の照りの表現はできるもの
の、光沢縞が木目の年輪模様方向とほぼ直交する方向換
言すれば木目の走る方向に直交する方向の照り(横照
り)を表現することはできず、木材の種類によっては天
然木材に近い照りの表現をだすことが困難であった。Efforts have been made to provide a decorative material having a wood grain print pattern with the above-described expression of shine to give a sense of sensation close to that of natural wood. For example, there is a method of printing using a glossy printing ink (pearl ink or the like), or a method of forming an embossed concavo-convex pattern composed of a pattern of parallel curves on a transparent resin sheet and laminating it on a substrate. (Japanese Unexamined Patent Publication No.
-175742). In the former case, in the specific direction (angle), the entire surface is illuminated, but in the other direction, no illumination is generated. There are places where shine does not occur and places where no shine occurs, and so-called illuminating movement feeling that the illuminated pattern changes due to the difference in the viewing direction or the direction of light, and the illuminated pattern does not occur. Things. In the latter case, a certain degree of shimmer can be expressed with respect to so-called vertical shimmer, such as Lauan and Mahogany, in which glossy stripes are substantially parallel to the direction of the annual ring pattern of the grain (hereinafter referred to as the direction in which the grain runs) in the present invention. However, the direction in which the glossy stripes are almost perpendicular to the direction of the annual ring pattern of the wood grain In other words, it is not possible to express shine (horizontal shine) in the direction perpendicular to the direction in which the wood grain runs, and depending on the type of wood, shine close to natural wood Was difficult to express.
【0005】すなわち、木理の内で交差木理と波状木理
とが材面の視覚特性と関係が深いといわれており、その
うち、波状木理は繊維が波状に蛇行しているものであっ
て、材面に繊維が斜めに切断された箇所にでき、横方向
に濃淡模様(波状杢)としての照りが生じかつ照りの移
動を見るものに与えている。しかし、前記のように従来
のものは特にこの横照りの表現が不充分であり、メイプ
ル、サテンウッド、サペリ、ブビンカ、トチノキ、カエ
デ、トネリコ、カバ、オニグルミ、等のように特有の横
照り示す木材の木目模様を持つ化粧材を作ることはでき
なかった。[0005] That is, it is said that the cross grain and the wavy grain are deeply related to the visual characteristics of the surface of the wood, of which the fiber is meandering in a wavy manner. Thus, it is formed at a position where the fiber is obliquely cut on the surface of the material, and shine occurs as a light and shade pattern (wavy heather) in the lateral direction, and the movement of the shine is given to the viewer. However, as described above, the conventional ones are particularly insufficient in the expression of this side-light, and show a specific side-light such as maple, satin wood, sapele, bubinka, horse chestnut, maple, ash, hippo, onigiri, etc. It was not possible to make a decorative material with a wood grain pattern.
【0006】本発明は上記のような従来の技術では未だ
解決できなかったより天然木材に近い照りの表現を持つ
化粧材、特に、天然木材の持つ横照りとその移動感とを
見るものに感じさせ得る化粧材を得ることを目的として
いる。The present invention makes it possible to feel a cosmetic material having an expression of shine close to that of natural wood, and in particular, to those who see the lateral shine of natural wood and the feeling of movement thereof, which could not be solved by the conventional techniques as described above. The purpose is to obtain a cosmetic material that can be obtained.
【0007】[0007]
【課題を解決するための手段】上記の目的を達成するた
めに、本発明は、基材シート上に、少なくとも木目印刷
模様と波状曲線群からなるエンボス凹凸模様とを設けて
なり、かつ、該木目の年輪模様の走る方向と該波状曲線
群の走る方向とが同方向となるようにしたことを特徴と
する化粧材を開示する。木目印刷模様と波状曲線群から
なるエンボス凹凸模様とは、それぞれ異なった基材シー
トに形成して各基材シートを積層するようにしてもよ
く、また、同一の基材シートに形成してもよいものであ
る。In order to achieve the above-mentioned object, the present invention provides at least a wood grain print pattern and an embossed concavo-convex pattern consisting of a group of wavy curves on a base sheet. Disclosed is a decorative material characterized in that the running direction of the annual ring pattern of the wood grain and the running direction of the wavy curve group are the same. The wood grain print pattern and the embossed concavo-convex pattern consisting of a group of wavy curves may be formed on different base sheets and laminated on each base sheet, or may be formed on the same base sheet. Good thing.
【0008】基材シートとしては、透明又は半透明なシ
ートであれば特に制限なく使用でき、セロハン、アセテ
ート、ポリエチレン、ポリプロピレン、ポリエステル、
ポリ塩化ビニル、ポリ塩化ビニリデン、ポリスチレン、
ポリカーボネート、ポリビニルアルコール、ポリアミド
等よりなるものを使用できる。基材シートに木目模様を
印刷するには従来知られた任意の手法、例えは、同一出
願人の出願に係る特開平3−8477号公報、特開平4
−64443号公報等に記載の手法を用いることができ
る。As the base sheet, any transparent or translucent sheet can be used without any particular limitation. Cellophane, acetate, polyethylene, polypropylene, polyester,
Polyvinyl chloride, polyvinylidene chloride, polystyrene,
Those made of polycarbonate, polyvinyl alcohol, polyamide and the like can be used. Any method known in the art for printing a grain pattern on a substrate sheet is known in the art, for example, Japanese Patent Application Laid-Open Nos.
For example, a method described in JP-A-64443 can be used.
【0009】波状曲線群からなるエンボス凹凸模様は木
目模様を印刷した基材シートの該印刷面に加工してもよ
く、本出願人と同一人の出願人に係る特開平3−847
7号公報公報に開示したように印刷面とは反対側の面に
加工してもよい。また、同じく本出願人と同一人の出願
人に係る特開平4−64443号公報公報に開示したよ
うに木目模様を印刷した基材シートとは別の基材シート
を用意しそこにエンボス加工をした後に、両シートを適
宜の接着手段を介して積層するようにしてもよい。木目
模様の印刷面あるいはエンボス凹凸模様を加工する面に
光輝性ベタ印刷層を形成しておくこともできる。The embossed concavo-convex pattern consisting of a group of wavy curves may be processed on the printed surface of a substrate sheet on which a wood grain pattern is printed.
As disclosed in Japanese Unexamined Patent Publication No. 7-1995, the surface may be processed on the side opposite to the printing surface. Also, as disclosed in Japanese Unexamined Patent Application Publication No. 4-64443, which is assigned to the same applicant as the present applicant, another base sheet having a grain pattern printed thereon is prepared and embossed thereon. After that, both sheets may be laminated via an appropriate bonding means. A glittering solid printing layer can be formed on the printing surface of the wood grain pattern or the surface on which the embossed uneven pattern is processed.
【0010】波状曲線群からなるエンボス凹凸模様は前
記した照り及び照りの移動感を発現させる要素となるも
のであるが、波状曲線群は図2に示すように凹部の幅d
1 と凸部の幅d2 が1〜1000μmである凹凸形状を
なすものであることが好ましく、これらの曲線群は正弦
波曲線、サイクロイド曲線、円弧等の曲線単位を連結し
たものを複数本平行移動して配列したものが代表的なも
であるが、好ましくは数式化した曲線群として(すなわ
ち、関数曲線の関数パラメータを順次変化させた曲線群
として)パターン化しx−yプロッター等のコンピュー
タ機器を用いて作図できる曲線群とする。そのようにし
て描き出した波状曲線群を原版として用い、通常の手段
により、例えば光エッチング法を用いて銅版に腐食を与
える等の方法でエンボス版を作成する。版の形状は平板
状でもよくあるいは円筒形でもよい。The embossed concavo-convex pattern composed of a group of wavy curves serves as an element for expressing the above-mentioned shine and the feeling of movement of the shine, but the group of wavy curves has a width d of the concave portion as shown in FIG.
It is preferable that the convex and concave portions have a concavo-convex shape having a width d 2 of 1 to 1000 μm, and these curve groups are formed by connecting plural curve units such as a sine wave curve, a cycloid curve, and an arc in parallel. Although a moving arrangement is typical, it is preferably a computerized device such as an xy plotter which is patterned as a group of mathematically expressed curves (that is, as a group of curves in which function parameters of a function curve are sequentially changed). Is used as a group of curves that can be drawn. The group of wavy curves drawn in this manner is used as an original plate, and an embossed plate is created by a usual method, for example, by corroding a copper plate using a photo-etching method. The shape of the plate may be flat or cylindrical.
【0011】該エンボス版を用いて前記した基材シート
に波状曲線群からなる連続したエンボス模様を加工す
る。本発明においては、エンボス模様の加工に際して木
目印刷模様の木目の走る方向と該波状曲線群の走る方向
とがほぼ同一方向となるように加工する(図6参照、な
お、図6において、Mは木目模様をEはエンボス模様凹
凸を示しており、両者は図において共に上下方向に走っ
ている)。木目模様を印刷した基材シートとエンボス加
工をする基材シートとが異なったシートの場合には、積
層後に木目の走る方向と該波状曲線群の走る方向とが同
一方向なるように充分に注意を払う。Using the embossing plate, a continuous embossed pattern consisting of a group of wavy curves is processed on the above-mentioned base sheet. In the present invention, when processing the embossed pattern, the processing is performed such that the running direction of the grain of the wood grain print pattern and the running direction of the wavy curve group are substantially the same direction (see FIG. 6, where M is The wood grain pattern E indicates embossed pattern irregularities, and both of them run vertically in the figure). If the base sheet on which the grain pattern is printed is different from the base sheet on which embossing is performed, sufficient care should be taken so that the running direction of the grain after lamination is the same as the running direction of the group of wavy curves. Pay.
【0012】数式化した(関数化した)曲線群としてパ
ターン化しコンピュータを用いて作図できる波状の曲線
群の好ましい態様の一例として次のような正弦波関数曲
線をあげることができる。すなわち、振幅をA、波長を
λ、位相をαとした場合、関数パラメーターである振
幅、波長、位相のいずれか1つ以上とY軸切片とが異な
る式と式で表される2つの正弦波曲線の、波長差、
位相差、周期差及びY座標差の格差をn等分した式で
表される曲線のiを0、1・・、n−1、nと遷移させ
た場合に示されるn+1本の曲線からなるような曲線群
である。その曲線群をエンボスした凹凸模様を上から見
た図の一例が図7に示されており、その一部を拡大した
斜視図が図4bに示される。The following sinusoidal function curve can be given as an example of a preferred embodiment of a wave-like curve group which can be patterned by using a computer and plotted as a set of mathematically formed (functionalized) curves. That is, assuming that the amplitude is A, the wavelength is λ, and the phase is α, two sine waves represented by formulas in which one or more of the function parameters, amplitude, wavelength, and phase, and the Y-axis intercept are different. Wavelength difference of the curve,
It is composed of (n + 1) curves shown when i of a curve represented by an equation obtained by dividing the difference between the phase difference, the period difference, and the Y coordinate difference into n equals 0, 1,..., N-1, n. Such a curve group. FIG. 7 shows an example of a top view of the concavo-convex pattern obtained by embossing the curve group, and FIG. 4B is an enlarged perspective view of a part thereof.
【0013】xO=AO sin (2π/λO)y … xn=AN sin (2πy/λN+α)+Δx … xi=((An−AO)i/n+AO)sin {((2π/λN−2π/λO)i /n+2π/λO)y+αi/n}+Δxi/n … このような曲線群が好ましい態様であるのは次の理由に
よる。すなわち、天然の木目板の表面を光学濃度計を用
い図3aに示すように板平面のx軸方向であるA−A’
方向に走査してその光学反射濃度変化を測定すると図3
bのようにそれはxの関数D(x)として表現され、D
(x)をフーリエ変換し、空間周波数スペクトルP
(f)(fは空間周波数)を求めると、ほぼ1/fで近
似される曲線(図3c)となることが知られており、一
方、心電図波形の時間周波数スペクトルもまた1/fで
近似されることも知られている。そのことから、天然木
目模様が単純な縞模様等の幾何学的模様よりも、人の心
に馴染み、好まれ、違和感を感じないのは、同じく1/
f型のスペクトルを有する心電波形等の生態の律動に調
和しているからだと考えられる(参考文献:ゆらぎの世
界、武者利光著、株式会社講談社)。X O = A O sin (2π / λ O ) y... X n = A N sin (2π y / λ N + α) + Δx... X i = ((A n −A O ) i / n + A O ) sin { ((2π / λ N -2π / λ O ) i / n + 2π / λ O ) y + αi / n} + Δxi / n The reason why such a curve group is preferable is as follows. That is, as shown in FIG. 3A, the surface of the natural woodgrain board is AA ′ in the x-axis direction of the board plane as shown in FIG. 3A.
Fig. 3 shows the optical reflection density change measured by scanning in the direction
Like b, it is represented as a function D (x) of x,
(X) is subjected to Fourier transform to obtain a spatial frequency spectrum P
(F) It is known that, when (f is a spatial frequency), a curve approximated by 1 / f (FIG. 3c) is obtained, while the time-frequency spectrum of the electrocardiogram waveform is also approximated by 1 / f. It is also known to be done. Therefore, natural wood grain patterns are more familiar to people's hearts than simple geometric patterns such as stripes, are preferred, and do not feel uncomfortable.
It is thought to be because it is in harmony with the rhythm of the ecology such as the electrocardiographic waveform having an f-type spectrum (Reference: World of Fluctuations, Toshimitsu Musha, Kodansha Co., Ltd.).
【0014】従って、本発明において見るものの心に馴
染みかつより天然木に近い「照り」を再現するために、
上記した波状曲線群の凹状溝の曲線形状(周期、振幅、
位相)及び溝同志の間隔を変調し、該曲線群の空間周波
数スペクトル強度P(f)を1/f又は1/fに近似す
るようにすることはきわめて好ましい態様であるといえ
る。Therefore, in order to reproduce the “shine” that is familiar to the mind of the user and closer to a natural tree in the present invention,
Curve shape (period, amplitude,
It is a very preferable embodiment to modulate the phase) and the interval between the grooves so that the spatial frequency spectrum intensity P (f) of the curve group approximates 1 / f or 1 / f.
【0015】以下、そのための具体的手法の幾つかの例
を示すと以下のようになる。 〔1〕、正弦波、x=Asin(ky+B)をx方向に等
間隔Δxで並べた曲線群をコンピュータを用いたプロッ
タで描く(図4a)。なお、この時点では各曲線の幅の
変化Δwは0とする。 次に、図3a〜cのおいて説明したようにして、適当
な天然木目板(年輪模様が明確に見えるものがよい)の
表面をある特定方向(例えは、x’方向)に走査しつ
つ、年輪の光学濃度の濃い秋材部同志の間隔Δx'i 及
び秋材部各個の幅ΔWx'i を順次測定する。Hereinafter, some examples of specific techniques for achieving this will be described as follows. [1] A curve group in which sine waves and x = Asin (ky + B) are arranged at equal intervals Δx in the x direction is drawn by a plotter using a computer (FIG. 4A). At this point, the width change Δw of each curve is set to 0. Next, as described with reference to FIGS. 3A to 3C, while scanning the surface of an appropriate natural woodgrain board (preferably one with a clearly visible annual ring pattern) in a specific direction (eg, the x ′ direction). , The interval Δx ′ i between autumn wood parts having a high optical density of annual rings and the width ΔWx ′ i of each autumn wood part are sequentially measured.
【0016】次に、の曲線群の曲線間の間隔Δxi
をで求めたΔx'i の順列で変調する。すなわち、 Δxi =αΔx'i Δx、 ここで、i=1,2,3,・・・は木目を走査した順番
であり、αは適当な倍率であり総てのiに対して同一又
は総てのΔxi が一定の範囲例えば1〜1000μmと
なるように設定する。Next, the interval Δx i between the curves of the curve group
Is modulated by the permutation of Δx ′ i obtained by That is, Δx i = αΔx ′ i Δx, where i = 1, 2, 3,... Is the order in which the grain is scanned, α is an appropriate magnification, and is the same or the same for all i. [Delta] x i of Te is set to be constant, for example, in the range 1 to 1000 m.
【0017】また、の曲線群の凹部幅Wbi をで求
めたΔWx'i で変調する。すなわち、 ΔWbi =βΔWx'i ここで、i=1,2,3,・・・は木目を走査した順番
であり、βは総てのiに共通の倍率で、ΔWbi が一定
の範囲例えば1〜1000μmの範囲内になるように設
定する。Further, the concave portion width Wb i of the curve group is modulated by ΔWx ′ i obtained by the above equation. That is, ΔWb i = βΔWx ′ i where i = 1, 2, 3,... Is the order in which the grain is scanned, β is a magnification common to all i, and ΔWb i is within a certain range. It is set to be in the range of 1 to 1000 μm.
【0018】の処理をコンピーュタで行い、各xi 、
Δxi 、ΔWbi の値を計算し、これをx−yプロッタ
により出力することにより、図4(a)の曲線は図4
(b)に示すような形に出力される。 〔2〕、下記に示すような数列を2組(qn ,Qn )
を作る。The above process is performed by a computer, and each of x i ,
By calculating the values of Δx i and ΔWb i and outputting them by an xy plotter, the curve of FIG.
The output is as shown in FIG. [2], two sets of the sequence shown below (q n , Q n )
make.
【0019】 [0019]
【0020】ここで、n=1,2,3,・・は自然数、
pj 、Pj はそれぞれ別個の又は同一の乱数であり、p
j 、Pj は例えばコンピュータ計算で疑似乱数を発生さ
せる。 qn 、Qn を〔1〕での曲線間隔Δxi 及びΔWb
i として、以下、〔1〕−と同様の処理を行い必要な
図形を得る。Here, n = 1, 2, 3,... Is a natural number,
p j and P j are different or the same random numbers, respectively, and p
j, P j generates a pseudo-random number, for example, a computer calculation. q n, the curve interval [Delta] x i and ΔWb in the Q n (1)
As i , a process similar to [1]-is performed to obtain a necessary figure.
【0021】すなわち、 Δxi =qj ΔWbi =Qj とする。この場合には、〔1〕のように天然木目板を走
査する処理を行うことなしに、1/fゆらぎの曲線群を
得ることができる。That is, Δx i = q j ΔWb i = Q j . In this case, a curve group of 1 / f fluctuation can be obtained without performing the process of scanning the natural wood grain board as in [1].
【0022】〔3〕、上記したように心電図波形の時間
周波数スペクトルもまた1/fで近似されることも知ら
れていことから、心電図から求めた心拍周波数を用い
(更に必要に応じて適当な数差し引いて、間隔の広い狭
いを強調した後)、そこから求められるΔT' i を、
〔1〕におけるΔx'i の値として用いて以下同様な演
算を行いこれをx−yプロッタにより出力する(前記参
考文献参照)。[3] Since it is known that the time-frequency spectrum of the electrocardiogram waveform is also approximated by 1 / f as described above, the heart rate frequency obtained from the electrocardiogram is used (and, if necessary, After subtracting a number and emphasizing the wide and narrow spaces), the ΔT ' i obtained therefrom is
The same calculation is performed using the value of Δx ′ i in [1], and this is output by an xy plotter (see the above-mentioned reference).
【0023】さらに、本発明に用いられる波状曲線は、
正弦波に限られることはなく、有界な(有限の範囲で変
化する)曲線でかつ連続なものであれば原則的にどのよ
うなものでもよいことは前記の通りであるが、そのよう
な例をさらに例示すれば、以下のようなものをあげるこ
とができる。 〔1〕、有界な曲線(fi (x) が有限な値を持つ関数の
曲線)でかつある周期λを持つ、すなわち、fi (x+
λ)=fi (x) を満たす曲線。具体的には、三角関数s
inx、cosx、ベッセル関数のうち第1種円柱関数
Jn(x)、ヤコビの楕円関数sn(x,k),cn
(x,k),dn(x,k)、ルジャンド多項式Pn
(x)、チェビシェフ多項式Tn(x)、その他の曲線
sinx/x、Jn(x)/x、等である。Further, the wavy curve used in the present invention is:
It is not limited to a sine wave, and as described above, it is basically possible to use any bounded (variable in a finite range) curved and continuous curve. To further illustrate the example, the following can be mentioned. [1], a bounded curve (function curve in which f i (x) has a finite value) and a certain period λ, that is, f i (x +
λ) = curve that satisfies f i (x). Specifically, the trigonometric function s
inx, cosx, cylindrical function Jn (x) of the first kind among Bessel functions, Jacobi elliptic function sn (x, k), cn
(X, k), dn (x, k), Legendre polynomial Pn
(X), Chebyshev polynomial Tn (x), other curves sinx / x, Jn (x) / x, and the like.
【0024】〔2〕、有界でない曲線(fi (x) がある
xの値の所で+−無限大に発散する関数の曲線)で、か
つ周期関数の場合には、発散する区間を除くか又は発散
するxの値を含む区間だけ有界な関数曲線で置換(補
間)した曲線。例えば、 ベッセル関数のうち第2種円柱関数Yn(X)K場
合、但し、x=0で負に無限大に発散するので、区間
〔0,Δx〕を除去し、残りの〔Δx,無限〕の区間の
みを用いる(Δxは微小量である)。[0024] [2], unbounded curve (f i (x) is at the value of x + - curve function which diverges to infinity) at and in the case of the periodic function, a section diverging A curve that is replaced (interpolated) by a bounded function curve only in a section including the value of x that is excluded or diverges. For example, among the Bessel functions, in the case of the second-type cylindrical function Yn (X) K, since x = 0, the divergence becomes negative infinity, so the interval [0, Δx] is removed and the remaining [Δx, infinity] (Δx is a minute amount).
【0025】 y=tanxの場合、x=π/2+n
πで発散するので、その前後の一定区間〔−π/2−Δ
x,−π/2+Δx〕,〔π/2−Δx,π/2+Δ
x〕,〔3π/2−Δx,3π/2+Δx〕,・・・の
区間のみを直線に置換したもの(図5における実線部分
参照)。さらに、tanxと該直線部とをより滑らかに
接続するために、その交点近傍を2次曲線、3次曲線で
更に補間したもの(図5における拡大部分参照)。When y = tanx, x = π / 2 + n
Since the light diverges at π, a certain section before and after [−π / 2−Δ
x, −π / 2 + Δx], [π / 2−Δx, π / 2 + Δ
x], [3π / 2−Δx, 3π / 2 + Δx],... are replaced with straight lines (see the solid line in FIG. 5). Further, in order to more smoothly connect the tanx and the linear portion, the vicinity of the intersection is further interpolated by a quadratic curve or a cubic curve (see an enlarged portion in FIG. 5).
【0026】等をあげることができる。また、有界な曲
線であっても、値が大き過ぎて製版寸法上あるいは光沢
外観上不都合な場合には、そのような不都合な区間を他
の適当な値を有する曲線や直線で補間したものをもちい
ることもできる。このようないずれの曲線に対しても、
先に記したと同様な手法により適宜変調を行い、1/f
スペクトルのゆらぎ感を持たせるようにすることは可能
でありまた好ましい態様である。And the like. In addition, even if it is a bounded curve, if the value is too large and it is inconvenient in terms of plate making dimensions or gloss appearance, such an inconvenient section is interpolated with a curve or a straight line having another appropriate value. Can also be used. For any such curves,
Modulation is appropriately performed in the same manner as described above, and 1 / f
It is possible and a preferable embodiment to make the spectrum fluctuate.
【0027】[0027]
【実施例】以下、本発明を実施例によりより詳細に説明
する。The present invention will be described below in more detail with reference to examples.
【0028】[0028]
【実施例1】プロッター(Roland DEGITA
L GROUP(株)製:DPX−3500)を用い
て、太さ0.18mmのフィルム用ペンを使用してA3
の製図用フィルムに任意に下記(i) 、(ii)の関係式で表
される2つの正弦波曲線と任意のyに対してx座標、波
長差、位相差及び振幅差を200等分する曲線x0 、x
1 、・・・・、x200(iii) からなる曲線群−1を描い
た(図7の図線の右側の曲線群Aに相当する)。 x0 =20sin(y/21−4)+6sin(y/5−3) (i) x200 =22sin(y/24−3)+8sin(y/7−2)+200(ii)Embodiment 1 Plotter (Roland DEGITA)
L GROUP Co., Ltd .: DPX-3500)
A3 using a 0.18 mm thick film pen
Arbitrarily expressed by the following relational expressions (i) and (ii)
X-coordinate, wave for two sinusoidal curves and arbitrary y
Curve x that divides length difference, phase difference and amplitude difference into 200 equal parts0, X
1, ..., x200(iii) Draw a curve group-1 consisting of
(Corresponding to curve group A on the right side of the diagram in FIG. 7). x0 = 20 sin (y / 21-4) +6 sin (y / 5-3) (i) x200= 22 sin (y / 24-3) +8 sin (y / 7-2) +200 (ii)
【0029】 [0029]
【0030】次に、同様に下記(iv)の関係式で表される
曲線をx軸方向に200等分した曲線群−2(図7の図
線の左側の曲線群Bに相当する)を描いて曲線群−1に
接続した。 x400 =24sin(y/23−1)+7sin(y/6−5)+400(iv) 次いで、曲線群−1と曲線群−2を交互に接続した曲線
を描いて連続した波状の曲線群を作図し、この図を25
%に縮小した原版とした。なお、プロッターによる作図
図面において線が木材繊維の直径より細くなるのが好ま
しいが、プロッターのペンには太さの限界があり事実状
不可能なことから、全体を大きめに描きその後縮小する
ことにより一本の線が木材繊維の太さの近くなるように
した。Next, similarly, a curve group-2 (corresponding to curve group B on the left side of the diagram in FIG. 7) obtained by equally dividing a curve represented by the following equation (iv) into 200 in the x-axis direction is shown. Draw and connect to curve group-1. x 400 = 24 sin (y / 23-1) +7 sin (y / 6-5) +400 (iv) Then, a continuous wavy curve group is drawn by drawing a curve in which curve group-1 and curve group-2 are connected alternately. Draw and draw this figure 25
% Of the original. In addition, it is preferable that the line is thinner than the diameter of the wood fiber in the drawing drawing by the plotter, but since the pen of the plotter has a limit of thickness and it is impossible to make it in fact, draw the whole larger and then reduce it by One line was close to the thickness of the wood fiber.
【0031】上記の原版から光蝕刻法により銅板を腐食
して、溝の深さ35μmの原版の波状曲線群に対応した
溝状凹凸模様を有するエンボス版を得た。裏面に木目柄
を印刷した透明塩化ビニルシート(理研ビニル工業
(株)製:W−500、厚み0.1mm)の木目柄を印
刷した側に、表面にパールインキでベタ印刷を施した着
色塩化ビニルシート(理研ビニル工業(株)製:ST−
11、厚み0.05mm)の表面側を積層し、さらに、
上記着色塩化ビニルシートの裏面(パールベタ印刷を施
した面とは反対の面)に上記エンボス版を木目柄の走る
方向とその溝状凹凸模様の走る方向とをほぼ同方向とし
て重ね合わせてから熱圧をかけてエンボス加工を施し
て、化粧材を得た。The copper plate was corroded from the above-mentioned original plate by a photo-etching method to obtain an embossed plate having a groove-like uneven pattern corresponding to a group of wavy curves of the original plate having a groove depth of 35 μm. A transparent vinyl chloride sheet (W-500, manufactured by Riken Vinyl Industry Co., Ltd., thickness: 0.1 mm) with a wood grain pattern printed on the back side. Vinyl sheet (manufactured by Riken Vinyl Industry Co., Ltd .: ST-)
11, the thickness of 0.05 mm) is laminated on the front side,
On the back side of the colored vinyl chloride sheet (opposite to the surface printed with pearl solid), the embossing plate is overlapped with the running direction of the grain pattern and the running direction of the grooved uneven pattern almost in the same direction, and then heated. Embossing was applied under pressure to obtain a decorative material.
【0032】エンボス加工後の化粧材を異なった方向か
ら観察した。図7に示した凹凸模様に対して異なった方
向Lから光を照射し、かつ化粧材を照射光の正反対方向
Oから観察したところ図8、a、b、cに示すようにそ
の光の照射方向の違いに応じて「照り」(明るく光る部
分)が異なり、あたかも、天然板の持つ波状木理の横照
りの移動と同様な横照りの移動を観察することができ
た。なお、図8aは、y軸に対して150°の角度で光
を照射した場合の「照り」の部分を白場1として示して
おり、他の部分は塗り潰し2として示している。図8
b、cは、同様に90°、30°の方向から光を照射し
た場合の図である。The embossed decorative material was observed from different directions. When the decorative material shown in FIG. 7 was irradiated with light from different directions L and the decorative material was observed from the direction O opposite to the irradiated light, the light was irradiated as shown in FIGS. 8, a, b and c. The “shining” (brightly shining part) was different according to the difference in the direction, and it was possible to observe the movement of the side lighting similar to the shifting of the wavy grain of the natural board. In FIG. 8A, the “irradiation” portion when light is irradiated at an angle of 150 ° with respect to the y-axis is shown as a white field 1, and the other portions are shown as solid 2. FIG.
FIGS. 4B and 4C are diagrams showing a case where light is similarly emitted from directions of 90 ° and 30 °.
【0033】すなわち、化粧材表面の凹凸模様のうち、
照射光線の入射方向と凹凸模様の溝の走行方向とが一致
(又は略一致)した領域は光を略正反射し照りの部分1
となり、それ以外の領域は殆ど光を反射しない陰翳な部
分2となる。That is, among the uneven patterns on the surface of the decorative material,
An area where the incident direction of the irradiation light beam and the traveling direction of the groove of the concave and convex pattern coincide (or substantially coincide) with each other is a part of the illuminated portion 1 in which light is substantially regularly reflected
, And the other region is a shadowed portion 2 that hardly reflects light.
【0034】[0034]
【実施例2】厚さ100μmの着色PVCシート(可塑
材:DOP 12重量部)の表面に、パール顔料インキ
(パール顔料は酸化チタン被覆雲母の鱗片状粒子、バイ
ンダーは塩化ビニル−酢酸ビニル共重合体)をグラビア
塗工し、乾燥膜厚3μmとなるよう塗膜形成した。Example 2 A pearl pigment ink (pearl pigment is a scale particle of titanium oxide-coated mica, and a binder is vinyl chloride-vinyl acetate copolymer) is coated on a surface of a colored PVC sheet (plasticizer: 12 parts by weight of DOP) having a thickness of 100 μm. ) Was applied by gravure to form a coating film having a dry film thickness of 3 μm.
【0035】該パールインキ塗膜層上及びその下層の着
色PVCシート表層部を加熱、軟化させ、実施例1と同
じエンボス版にて押圧し、波状万線条溝をエンボス加工
して形成した。次に、厚さ80μmの無色透明PVCシ
ート(可塑材:DOP 12重量部)の片面に、木目の
年輪模様を印刷した(ただし、該印刷模様以外の部分は
余白となっており透視可能となっている)。The surface layer of the colored PVC sheet on and below the pearl ink coating layer was heated and softened, pressed with the same embossing plate as in Example 1, and embossed to form wavy linear grooves. Next, an annual ring pattern of wood grain was printed on one side of a colorless transparent PVC sheet (plastic material: 12 parts by weight of DOP) having a thickness of 80 μm (however, portions other than the printed pattern are blank and can be seen through. ing).
【0036】該透明PVCシートと着色PVCシートと
を、波状万線条溝と年輪模様とが向き合うようにして透
明な2液硬化型ウレタン接着剤にて接着した。その際、
年輪の走行方向と条溝の方向とは、図6に例示したよう
に、同じ方向とした。上記のようにして得られた化粧シ
ートに対して、実施例1の場合と同様に異なった方向か
ら光を照射したところ、同様に、天然板の持つ波状木理
の横照りの移動と同様な横照りの移動を観察することが
できた。The transparent PVC sheet and the colored PVC sheet were bonded with a transparent two-component curable urethane adhesive so that the wavy linear grooves and the annual ring pattern faced each other. that time,
The running direction of the annual rings and the direction of the grooves were the same as illustrated in FIG. When the decorative sheet obtained as described above was irradiated with light from a different direction in the same manner as in Example 1, similarly, the movement of the lateral shrinkage of the wavy grain of the natural board was the same. It was possible to observe the movement of side lighting.
【0037】[0037]
【発明の効果】木目印刷模様の走る方向と同じ方向に走
る波状曲線群からなるエンボス凹凸模様を設けたことに
より、メイプル、サテンウッド、栃、楓のような特有な
横照りを有する天然板と同様な横照り及び照りの移動感
を化粧材表面に再現することができる。According to the present invention, by providing an embossed concavo-convex pattern consisting of a group of wavy curves running in the same direction as the running direction of the wood grain print pattern, it is possible to use a natural board having a unique lateral shine such as maple, satin wood, tochi, maple Similar feelings of lateral shimmer and shimmering movement can be reproduced on the surface of the decorative material.
【図1】 天然木材が照りを生じる原理を示す図。FIG. 1 is a diagram showing the principle of causing natural wood to shine.
【図2】 本発明による波状曲線群の断面の一例を示す
図。FIG. 2 is a diagram showing an example of a cross section of a group of wavy curves according to the present invention.
【図3】 天然木材の木目の持つ光学濃度の分析を説明
する図。FIG. 3 is a view for explaining the analysis of the optical density of wood grain of natural wood.
【図4】 本発明による波状曲線群の作成過程を示す
図。FIG. 4 is a diagram showing a process of creating a group of wavy curves according to the present invention.
【図5】 本発明に用いることのできる波状曲線群の一
例を示す図。FIG. 5 is a diagram showing an example of a group of wavy curves that can be used in the present invention.
【図6】 木目模様と波状曲線群との走る方向を説明す
る図。FIG. 6 is a view for explaining running directions of a grain pattern and a group of wavy curves.
【図7】 本発明により作成した波状曲線群の一例を示
す図。FIG. 7 is a diagram showing an example of a group of wavy curves created according to the present invention.
【図8】 図7の波状曲線群に異なった方向から光を照
射したときの「照り」の変化を示す図。FIG. 8 is a diagram showing a change in “shine” when light is applied to the group of wavy curves in FIG. 7 from different directions.
───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.7 識別記号 FI // B32B 21/08 B32B 21/08 (58)調査した分野(Int.Cl.7,DB名) B44F 9/02 B21D 31/00 B32B 7/02 B32B 33/00 B41M 3/06 B32B 21/08 ──────────────────────────────────────────────────続 き Continuation of the front page (51) Int.Cl. 7 identification code FI // B32B 21/08 B32B 21/08 (58) Investigated field (Int.Cl. 7 , DB name) B44F 9/02 B21D 31 / 00 B32B 7/02 B32B 33/00 B41M 3/06 B32B 21/08
Claims (7)
様と波状曲線群からなるエンボス凹凸模様とを設けてな
り、かつ、該木目の年輪模様の走る方向と該波状曲線群
の走る方向とが同方向となるようにしたことを特徴とす
る化粧材。Claims: 1. At least a wood grain printing pattern is provided on a substrate sheet.
And embossed concavo-convex pattern consisting of wavy curves
Running direction of the annual ring pattern of the wood grain and the group of wavy curves
A cosmetic material characterized in that the running direction is the same as the running direction .
ボス凹凸模様とを、異なった基材シートに形成し、各基
材シートを積層してなることを特徴とする、請求項1記
載の化粧材。2. The makeup according to claim 1, wherein the woodgrain print pattern and the embossed concavo-convex pattern comprising a group of wavy curves are formed on different base sheets, and the base sheets are laminated. Wood.
ボス凹凸模様とが、同一の基材シートに形成してなるこ
とを特徴とする、請求項1記載の化粧材。3. The decorative material according to claim 1, wherein the wood grain print pattern and the embossed concavo-convex pattern composed of a group of wavy curves are formed on the same base sheet.
線の関数パラメータを順次変化させて各曲線間の間隔が
線方向に滑らかに変化する曲線群からなることを特徴と
する、請求項1ないし3いずれか記載の化粧材。4. The method according to claim 1, wherein the group of wavy curves is a group of function curves, and the function parameter of each curve is sequentially changed, and the interval between the curves is a group of curves that smoothly changes in the line direction. 4. The cosmetic material according to any one of items 1 to 3.
幅をA、波長をλ、位相をαとした場合、関数パラメー
ターである振幅、波長、位相のいずれか1つ以上とY軸
切片とが異なる式と式で表される2つの正弦波曲線
の、波長差、位相差、周期差及びY座標差の格差をn等
分した式で表される曲線のiを0、1・・、n−1、
nと遷移させた場合に示されるn+1本の曲線群からな
る請求項1ないし4いずれか記載の化粧材。 xO=AO sin (2π/λO)y … xn=AN sin (2πy/λN+α)+Δx … xi=((An−AO)i/n+AO)sin {((2π/λN−2π/λO)i /n+2π/λO)y+αi/n}+Δxi/n … 5. When the group of wavy curves is a sinusoidal function curve, and the amplitude is A, the wavelength is λ, and the phase is α, at least one of the function parameters of amplitude, wavelength, and phase is interpolated with the Y-axis intercept. I of a curve represented by an equation obtained by equally dividing the difference between the wavelength difference, the phase difference, the period difference, and the Y coordinate difference between two sine wave curves represented by the equations , N-1,
The cosmetic material according to any one of claims 1 to 4, comprising a group of (n + 1) curves shown when the transition is made to n. x O = A O sin (2π / λ O) y ... x n = A N sin (2πy / λ N + α) + Δx ... x i = ((A n -A O) i / n + A O) sin {((2π / λ n -2π / λ O) i / n + 2π / λ O) y + αi / n} + Δxi / n ...
ある振幅、波長、位相及びY軸切片を全て異ならしめた
2つの正弦波関数曲線の波長差、位相差、周期差及びY
座標差の格差をn等分して遷移させたn+1本の正弦波
関数曲線からなる請求項5記載の化粧材。6. A wavelength difference, a phase difference, a period difference, and a Y value of two sine wave function curves in which a group of sine wave function curves is a function parameter, in which amplitude, wavelength, phase, and Y-axis intercept are all different.
6. The cosmetic material according to claim 5, comprising a (n + 1) sine wave function curve obtained by dividing the coordinate difference by n and transiting.
て、関数パラメーターである振幅、波長、位相及びY軸
切片を全て異ならしめた2つの正弦波関数曲線の波長
差、位相差、周期差及びY座標差の格差をn等分して遷
移させたn+1本の正弦波関数曲線からなる請求項5記
載の化粧材。7. A wavelength difference, a phase difference, and a period of two sine wave function curves obtained by superimposing two or more sine wave function curves and varying all function parameters such as amplitude, wavelength, phase, and Y-axis intercept. The cosmetic material according to claim 5, comprising n + 1 sinusoidal function curves obtained by dividing the difference between the difference and the Y coordinate difference by n.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP10000992A JP3162170B2 (en) | 1992-04-20 | 1992-04-20 | Cosmetic material |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP10000992A JP3162170B2 (en) | 1992-04-20 | 1992-04-20 | Cosmetic material |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH05294100A JPH05294100A (en) | 1993-11-09 |
JP3162170B2 true JP3162170B2 (en) | 2001-04-25 |
Family
ID=14262566
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP10000992A Expired - Fee Related JP3162170B2 (en) | 1992-04-20 | 1992-04-20 | Cosmetic material |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3162170B2 (en) |
Families Citing this family (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2008032593A1 (en) * | 2006-09-15 | 2008-03-20 | Chiyoda Gravure Corporation | Grain pattern for grain pattern printing, its grain pattern creating method and program, housing material product on which grain pattern is printed, automobile interior component, home electric appliance, and information device |
JP5254558B2 (en) * | 2007-02-22 | 2013-08-07 | 三光合成株式会社 | Decorative panel |
JP5254557B2 (en) * | 2007-02-22 | 2013-08-07 | 三光合成株式会社 | Decorative panel |
JP2009297895A (en) * | 2008-06-10 | 2009-12-24 | Toppan Cosmo Inc | Decorative sheet having uneven pattern on surface and method for manufacturing it |
JP5637510B2 (en) * | 2010-06-25 | 2014-12-10 | 三光合成株式会社 | Flat sheet |
JP2017223035A (en) * | 2016-06-15 | 2017-12-21 | 株式会社リュクス アンド デザイン | Manufacturing method of imitation wood |
-
1992
- 1992-04-20 JP JP10000992A patent/JP3162170B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH05294100A (en) | 1993-11-09 |
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