JPS6039827B2 - Anti-slip interior tile and its manufacturing method - Google Patents
Anti-slip interior tile and its manufacturing methodInfo
- Publication number
- JPS6039827B2 JPS6039827B2 JP15392976A JP15392976A JPS6039827B2 JP S6039827 B2 JPS6039827 B2 JP S6039827B2 JP 15392976 A JP15392976 A JP 15392976A JP 15392976 A JP15392976 A JP 15392976A JP S6039827 B2 JPS6039827 B2 JP S6039827B2
- Authority
- JP
- Japan
- Prior art keywords
- tile
- fine particles
- slip
- particles
- interior
- 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.)
- Expired
Links
Landscapes
- Finishing Walls (AREA)
- Floor Finish (AREA)
Description
【発明の詳細な説明】
この発明は、浴室、洗面所、便所等の壁材及び床材に用
いて装飾効果を発揮し、特に床材として用いるときは適
度のすべりどめ性能をも発揮する内装タイルに関するも
のであり、かつその製造方法に関するものである。[Detailed Description of the Invention] This invention exhibits a decorative effect when used as a wall material and floor material for bathrooms, washrooms, toilets, etc., and also exhibits appropriate anti-slip performance especially when used as a floor material. The present invention relates to interior tiles and a manufacturing method thereof.
内装タイルは、屋内の壁面あるいは床面の躯体を保護す
るとともに、これらを装飾するためにも重要な役割を果
たす。Interior tiles play an important role in protecting the framework of indoor walls and floors as well as decorating them.
そこで、内装タイルの表面には、スクリーン印刷法、転
写法等の種々の装飾技法を用いて、美麗な色彩や模様が
表わされている。したがって、内装タイルの表面は、上
述したような装飾技法を施すのが容易なように平滑面に
なっているのが一般である。しかしながら、平滑面をも
った内装タイルを床材に用いる場合には、すべりやすく
て歩行にかなりの注意を払う必要がある。特に素足歩行
される浴室の床材として使用したときには顛倒するおそ
れがあり、甚だ危険である。この発明は、上記問題を解
決するために工夫されたものであって、屋内の壁材また
は床材に用いて装飾効果を発揮し、特に床材に用いる場
合は適度のすべりどめ性能をも発揮して、上履歩行や素
足歩行をする際の安全を確保することができる内装タイ
ルの提供を目的とする。Therefore, beautiful colors and patterns are displayed on the surfaces of interior tiles using various decorative techniques such as screen printing and transfer methods. Therefore, the surface of the interior tile is generally smooth so that it is easy to apply the above-mentioned decorative techniques. However, when interior tiles with smooth surfaces are used as flooring materials, they tend to be slippery and require great care when walking. Particularly when used as flooring in a bathroom where people walk barefoot, there is a risk of it falling over, which is extremely dangerous. This invention has been devised to solve the above problem, and can be used for indoor wall materials or floor materials to exhibit a decorative effect, and especially when used for floor materials, it also has appropriate anti-slip performance. To provide an interior tile which can ensure safety when walking in slippers or bare feet.
以下この発明をその実施例を示す図面に基いて説明する
。The present invention will be explained below based on drawings showing embodiments thereof.
第1図に示すように、この発明に係るすべりどめ用内装
タイル(以下、この発明のタイルという)は、陶磁器質
のタイル本体1の表面に熔融ァルミナ、磁器質粒子のよ
うに耐火度が焼成温度よりも高い微細粒子2を柚薬3に
よって接着固定することにより、タイル本体1の表面に
適宜の突出高さを備えた多数の微小突出部4を形成し、
これらの微小突出部4によってタイル本体1の表面に適
度のすべりどめ性能を帯有させたものである。この発明
のタイル製造に際しては、その焼成前に第2図イ乃至二
に示す工程を経る。As shown in FIG. 1, the anti-slip interior tile according to the present invention (hereinafter referred to as the tile of the present invention) has a ceramic tile main body 1 with fused alumina and porcelain particles on the surface. By adhering and fixing the fine particles 2 whose temperature is higher than the firing temperature with the yuzu powder 3, a large number of minute protrusions 4 with appropriate protrusion heights are formed on the surface of the tile body 1,
These minute protrusions 4 provide the surface of the tile body 1 with appropriate anti-slip performance. When manufacturing the tiles of the present invention, the steps shown in FIGS. 2A to 2 are carried out before firing.
すなわち、まず同図のイに示すタイルの生素地または素
焼素地5の表面に、同図の口に示す如く純薬6を施し、
次いでこの施紬面上に同図のハに示す如くでんぷん糊等
の接着剤または粘着剤よりなる付着層7を設け、そして
この付着層7の上に同図の二に示す微細粒子2を付着さ
せる。なお、その後は所望により第3図に示すようにそ
の上から更に紬薬8を施してもよい。このような焼成前
処理工程を経た後80000以上、望ましくは1000
℃以上の温度で本焼きし、しかる後に徐冷する。この発
明のタイルは、前記の如く製造することにより、微細粒
子2が熔融硬化した紬薬によってタイル本体1の表面に
接着固定され、適宜の突出高さを備えた多数の微4・突
出部4が形成される。これらの微小突出部4はこの発明
のタイル表面に装飾模様を描出すると共に、上履歩行や
素足歩行をする際に適度のすべりどめ性能を発揮する。
なお、この発明における適度のすべりどめ性能は、上履
歩行や素足歩行の際にすべるおそれのない摩擦抵坑を有
し、かつ素足歩行の際には足裏に痛みを覚えさせない触
感を備えていることが必要である。That is, first, a pure chemical 6 is applied to the surface of the green or unglazed base 5 of the tile shown in A of the same figure as shown in the opening of the same figure,
Next, an adhesive layer 7 made of an adhesive such as starch paste or a pressure-sensitive adhesive is provided on this pongee surface as shown in C of the same figure, and fine particles 2 shown in 2 of the same figure are adhered onto this adhesive layer 7. let After that, if desired, pongee medicine 8 may be further applied thereon as shown in FIG. 80,000 or more, preferably 1,000 after undergoing such a pre-firing treatment process.
The final firing is carried out at a temperature above ℃, and then slowly cooled. By manufacturing the tile of the present invention as described above, the fine particles 2 are adhesively fixed to the surface of the tile body 1 by the melt-hardened pongee, and a large number of fine particles 4 and protrusions 4 with appropriate protrusion heights are formed. is formed. These minute protrusions 4 create a decorative pattern on the surface of the tile of the present invention, and also exhibit appropriate anti-slip performance when walking in slippers or bare feet.
In addition, the appropriate anti-slip performance in this invention means that it has a friction resistance that prevents the risk of slipping when walking in slippers or bare feet, and has a tactile feel that does not cause pain to the soles of the feet when walking bare feet. It is necessary that the
本焼きのときに微細粒子が完全に熔融してしまうと、微
小突出部4が形成されなくなるので、微細粒子の耐火度
は焼成温度より高いものでなければならない。If the fine particles are completely melted during firing, the fine protrusions 4 will not be formed, so the refractory degree of the fine particles must be higher than the firing temperature.
しかし、本焼き時に微細粒子が部分的に熔融する程度で
あっても何等支障はない。むしろ、たとえばシェルベン
のように本焼き時に部分的に熔融するものは、柚薬と接
触している微細粒子の部分が熔化して柚薬との密着性が
良くなるため、微細粒子がタイル本体表面から剥がれに
くくなり、却って好ましい状態をもたらす。微細粒子と
しては熔融アルミナ、磁器質粒子などが用いられる。However, there is no problem even if the fine particles are only partially melted during the final firing. Rather, for example, in the case of Sherben, which partially melts during firing, the part of the fine particles that are in contact with the yuzu powder melts, improving the adhesion with the yuzu powder. It becomes difficult to peel off from the surface, which brings about a more favorable state. As the fine particles, fused alumina, porcelain particles, etc. are used.
熔融アルミナはアランダムと称される鋭角状の粒子であ
って、耐火度が高くかつ硬度も大きい。磁器質粒子はシ
ェルベンと称され、モザイクタイルや磁器タイルをスタ
ンプミルで粉砕することによって得られる尖形の粒子で
ある。この発明のタイルは、壁面や床面を装飾する機能
のほかに、すべりどめ性能を備えていることを特徴とす
る。Fused alumina is an acute-angled particle called alundum, and has high fire resistance and hardness. The porcelain particles are called schelben, and are pointed particles obtained by crushing mosaic tiles or porcelain tiles with a stamp mill. The tile of the present invention is characterized by having anti-slip properties in addition to the function of decorating walls and floors.
すべりどめ性能の内容は、第一に上履歩行や素足歩行に
際してすべるおそれのない塵漆抵坑を備えていることを
要し、第二に素足歩行の際に足袋に痛みを覚えることの
ない触感を備えていることを要する。このような性能を
備えていないタイルは、屋内の床材として使用するには
不向きであるからである。上述のすべりどめ性能に影響
を及ぼす要因として、微細粒子の大小が問題となる。Regarding anti-slip performance, firstly, it must have a dust lacquer resistance that prevents slipping when walking in shoes or bare feet, and secondly, it must have anti-slip properties that will prevent the socks from causing pain when walking barefoot. It must have a unique tactile feel. This is because tiles that do not have such performance are unsuitable for use as indoor flooring materials. As a factor affecting the above-mentioned anti-slip performance, the size of the fine particles becomes an issue.
粒径が100〃m以下の微細粒子を使用したときは、床
面がすべりやすくなるのが一般であり、他方粒径が80
0仏m以上の微細粒子を用いると素足歩行に痛みを覚え
るようになる傾向がある。そのため、微細粒子の粒径は
100〜800仏m範囲内のもの、好ましくは250〜
550仏mの範囲内のものがよい。しかしながら、粒径
の大きな粒子であっても紬薬の膜厚が厚くなると、粒子
の紬面内に沈降した部分が多くなるため、粒径が大きい
ことによる触感の悪さは解消される。このように、粒径
の大小にもとづくすべりどめ性能への影響力は、紬薬の
厚さの大小によって変化する。また、アランダムやシェ
ルベンのような角ばつた粒子でなく比較的球形の粒子の
場合には、粒径が大きくなっても触感は余り悪くならな
い。したがって、粒子の形状や柚薬の厚さが変化した場
合は、粒径が800仏mをやや上まわる微細粒子を用い
ることもできる。この発明において、すべりどめ性能に
影響を与える因子としては、前述した微細粒子の粒径,
形状,紬薬の厚さのほか、微小突出部のタイル本体全表
面に占める割合や配置状態など、様々のものが考えられ
るが、すべるおそれの有無に最も関係のある指標として
一般にすべり摩擦抵坑係数が用いられる。When using fine particles with a particle size of 100 mm or less, the floor surface will generally become slippery;
If fine particles of 0 fm or more are used, there is a tendency for people to feel pain when walking barefoot. Therefore, the particle size of the fine particles is within the range of 100 to 800 m, preferably 250 to 800 mm.
Something within the range of 550 French meters is best. However, even if the particle size is large, as the thickness of the pongee medicine layer increases, the portion of the particle that has settled within the pongee surface increases, so the poor tactile sensation caused by the large particle size is overcome. In this way, the influence on the anti-slip performance based on the particle size changes depending on the thickness of the pongee. Furthermore, in the case of relatively spherical particles rather than angular particles such as alundum and shelben, the tactile sensation does not deteriorate much even if the particle size increases. Therefore, if the shape of the particles or the thickness of the yuzu medicine changes, fine particles with a particle size of slightly over 800 meters can also be used. In this invention, the factors that affect the anti-slip performance include the particle size of the fine particles mentioned above,
In addition to the shape and thickness of the pongee, various factors can be considered, such as the ratio of the minute protrusions to the entire surface of the tile body and their arrangement, but the sliding friction resistance is generally the most relevant index to determine whether there is a risk of slipping. coefficients are used.
この場合のすべり摩擦抵坑係数は、JISAI407に
その試験方法が規定されている。この発明のタイルは、
屋内床村として用いるから、屋外路面のスリップ止めな
どに要求される程の大きなすべり摩擦低坑係数を必要と
するものではない。そこでこの発明のすべり鰹擬抵坑係
数は0.4〜0.9(ただし、上限及び下限を含む。)
の範囲とする。すべり摩擦抵坑係数が0.4未満のもの
は満足なすべり止め効果が得られず、0.9を越えると
次に述べる触感に悪影響を及ぼすようになる。これらの
ことを考慮すると、すべり摩擦抵坑係数の最も好ましい
範囲は0.6〜0.8である。触感の良否に最も関係の
ある指標として微小突出部の突出高さが基準になる。第
4図に示すように、この突出高さhはタイル本体1に施
された純薬3の表面から微小突出部4の頂部までの高さ
で表わされる。図中2は微細粒子である。突出高さhは
公知の測定手段、たとえばノギスや金属表面のメッキ厚
測定に用いる金属顕微鏡を用いて測定される。この発明
において微小突出部の突出高さは、算術平均で0.1〜
0.7側(ただし、上限及び下限を含む。)の範囲とす
る。しかし、突出高さが上限寄りのものは、これにすべ
り摩擦抵抗係数の大きいものが加重されると触感を害す
るようになる。このことを考慮すると、微小突出部の好
ましい平均突出高さは0.1〜0.5肌の範囲である。
この場合も微細粒子の形状等の影響が考慮される。もし
、球形状の微細粒子を用いるときは、平均突出高さが0
.7肋より大きくなっても、それほど痛みを感じないこ
とがある。微細粒子としてアランダムを用いるかまたは
シェルベンを用いて、タイル本体表面のすべり摩擦抵坑
係数及び微小突出部の平均突出高さをいろいろと変えた
1の女のすべりどめ用内装タイルにつき、それぞれのす
べりどめ性能を調べた結果は表1のとおりである。The test method for the sliding friction resistance coefficient in this case is specified in JISAI407. The tiles of this invention are
Since it is used as an indoor floor village, it does not require a low sliding friction coefficient as large as that required for anti-slip outdoor road surfaces. Therefore, the sliding bonito pseudo resistance coefficient of this invention is 0.4 to 0.9 (including the upper and lower limits).
The range shall be . If the sliding friction resistance coefficient is less than 0.4, a satisfactory anti-slip effect cannot be obtained, and if it exceeds 0.9, it will adversely affect the tactile sensation described below. Taking these things into consideration, the most preferable range of the sliding friction resistance coefficient is 0.6 to 0.8. The height of the protrusion of the minute protrusion is the most relevant index for determining the quality of the tactile sensation. As shown in FIG. 4, this protrusion height h is expressed as the height from the surface of the pure chemical 3 applied to the tile body 1 to the top of the minute protrusion 4. 2 in the figure is a fine particle. The protrusion height h is measured using a known measuring means, such as a caliper or a metallurgical microscope used for measuring the plating thickness of a metal surface. In this invention, the protrusion height of the minute protrusion is 0.1 to 0.1 on an arithmetic average.
The range is on the 0.7 side (including the upper and lower limits). However, if the protruding height is close to the upper limit, the tactility will be impaired if a material with a large sliding frictional resistance coefficient is added to the protruding height. Taking this into consideration, the preferred average protrusion height of the minute protrusions is in the range of 0.1 to 0.5 skin.
In this case as well, the influence of the shape of the fine particles, etc. is taken into account. If spherical fine particles are used, the average protrusion height is 0.
.. Even if the rib grows larger than 7, it may not cause much pain. Each of the interior tiles for women's slip prevention using Alundum or Scherben as fine particles and varying the sliding friction resistance coefficient of the surface of the tile body and the average protrusion height of the minute protrusions. Table 1 shows the results of examining the anti-slip performance.
この表に掲載のものは、すべり摩擦抵抗係数が0.6以
上のものばかりであるため、いずれもすべるおそれは無
いが、触感度には差異がある。すなわち、すべり摩擦抵
坑係数が0.4〜0.9の範囲内に属し、更に好ましい
0.6〜0.8の近傍で、かつ、平均突出高さが0.1
〜0.7側の範囲内に属し、更に好ましい0.5側以下
となっているDLF,G,1,Jのタイルは、触感度の
評価が「痛くない」もしくは「ほとんど痛くない」であ
って、いずれもすべりどめ用内装タイルとして良好な性
質を備えていることが分かる。表 1
微細粒子は1粒宛無作為に分散しないで、たとえば第5
図に示すように数粒宛(たとえば5〜20粒宛)群をな
すようにグループ化し、この群9を相互に適宜の小間隔
10を設けて、所定形状の輪郭内に分散するようにする
と次のような効果が得られる。All of the products listed in this table have a coefficient of sliding friction resistance of 0.6 or more, so there is no risk of slipping, but there are differences in tactility. That is, the sliding friction resistance coefficient is in the range of 0.4 to 0.9, more preferably in the vicinity of 0.6 to 0.8, and the average protrusion height is 0.1.
DLF, G, 1, J tiles that belong to the range of ~0.7 side, and are more preferably 0.5 side or below, have a tactile evaluation of ``not painful'' or ``almost not painful.'' It can be seen that all of these tiles have good properties as anti-slip interior tiles. Table 1 Fine particles should not be randomly dispersed to one particle, for example,
As shown in the figure, by grouping several grains (for example, 5 to 20 grains) into groups, and dispersing these groups 9 within the contour of a predetermined shape by providing appropriate small intervals 10 from each other. The following effects can be obtained.
すなわち、第一に、所定形状の輪郭外と間隔10とは微
小突出部のない平滑面であるから、タイル表面の汚れを
水洗いで落すことができるようになること、第二に、君
羊9を点に見たて、これを例えば点描き技法によって配
置すれば、図示の如き所定図形の輪郭をもった美麗な表
面模様を頭出できることである。このような所定図形の
表面模様を出現させるためには、本焼き焼成前のタイル
の施紬面上に、スクリーン印刷法によって第5図に示す
ような図形の輪郭をもった付着層を設け、この付着層の
上に適宜の小間隔をおいて微細粒子を付着し、それらの
微細粒子群で付着層の輪郭内城を満たすようにし、しか
る後に焼成すればよい。That is, firstly, since the area outside the contour of the predetermined shape and the interval 10 is a smooth surface without minute protrusions, dirt on the tile surface can be removed by washing with water. If we view these as dots and arrange them using, for example, pointillism, we can come up with a beautiful surface pattern with the outline of a predetermined figure as shown in the figure. In order to make the surface pattern of such a predetermined figure appear, an adhesive layer with the outline of the figure as shown in Fig. 5 is formed by screen printing on the pongee surface of the tile before final firing. Fine particles may be deposited on this deposited layer at appropriate small intervals, the fine particles may fill the contour of the deposited layer, and then fired.
なお、このとき着色磁器質粒子等の着色した微細粒子を
用いることにより色彩つきの模様を表わすようにするこ
ともある。紬薬面上に付着させた微細粒子の上に更に紬
薬を掛けて本焼きしたタイルの場合、微細粒子によるす
べり摩擦抵坑はつ・さくなるが、耐摩耗性が良くなり、
かつ微細粒子の密着性も良くなるという利点がある。At this time, a colored pattern may be expressed by using colored fine particles such as colored porcelain particles. In the case of a tile that is fired by applying pongee powder on top of the fine particles attached to the pongee surface, the sliding friction resistance due to the fine particles will be weaker, but the abrasion resistance will be better.
It also has the advantage of improving the adhesion of fine particles.
この発明のタイルは、上述したような構成のものである
から、壁材及び床材に用いられた場合は、その表面に付
された模様によって優美な装飾効果が得られ、特に床材
として使用されたときは、上履歩行や素足歩行の際にす
べるおそれがなく、素足歩行しても足袋に痛みを感じな
いという秀れた効果を奏する。Since the tile of the present invention has the above-described structure, when used as wall material or floor material, an elegant decorative effect can be obtained due to the pattern on its surface, and it is particularly suitable for use as floor material. When this is done, there is no risk of slipping when walking in slippers or bare feet, and the excellent effect of not feeling any pain in the tabi even when walking bare feet is achieved.
また、この発明のタイル表面模様は、所定図形の輪郭内
に小間隔をおいて分散する微小突出部によって描出され
ているから、図形の輪郭外や微小突出部相互間が平滑で
あるため、表面が汚れてもこれを簡単に洗い落とすこと
ができる。従ってこの発明のタイルを使用した俗室、洗
面所、便所等の壁面や床面は掃除が容易であり、清潔な
状態を保つことができる。In addition, since the tile surface pattern of the present invention is drawn by minute protrusions distributed at small intervals within the outline of a predetermined figure, the outside of the figure outline and between the minute protrusions are smooth, so the surface Even if it gets dirty, it can be easily washed off. Therefore, the walls and floors of common rooms, washrooms, toilets, etc. using the tiles of this invention are easy to clean and can be kept clean.
第1図はこの発明に係るすべりどめ用内装タイルの側断
面図、第2図イ乃至二はこの発明に係るすべりどめ用内
装タイルの製造における焼成前工程を示すタイルの側断
面図、第3図は同上の焼成前工程での別態様を示すタイ
ルの側断面図、第4図は微小突出部の突出高さhを示す
ため、この発明に係るタイルの一部を拡大した側断面図
、第5図はこの発明に係るタイルの拡大平面図である。
1・…・・タイル本体、2・・・…微細粒子、3,3,
8・・・・・・紬薬、4・…・・微小突出部、5・・・
…生素地または素焼素地、7・・・…接着剤または粘着
剤よりなる付着層。多′図
努z図
器づ図
孫4図
孫タ図FIG. 1 is a side sectional view of an interior tile for anti-slip according to the present invention, and FIGS. FIG. 3 is a side cross-sectional view of the tile showing another aspect in the pre-firing process as described above, and FIG. FIG. 5 is an enlarged plan view of a tile according to the present invention. 1... Tile body, 2... Fine particles, 3, 3,
8... Tsumugi medicine, 4... Minute protrusion, 5...
... Green base material or unglazed base material, 7... Adhesive layer made of adhesive or adhesive. Multi-figure diagram
Claims (1)
も高い耐火度を有する熔融アルミナ、磁器質等の微細粒
子が単粒または数粒群をなしかつ小間隔をおいて分散配
置され、前記微細粒子はタイル本体の表面に微小突出部
を形成した状態で釉薬により接着固定されてなり、前記
微小突出部の高さが0.1〜0.7mmであり、タイル
本体表面のすべり摩擦抵抗係数が0.4〜0.9である
ことを特徴とするすべりどめ用内装タイル。 2 微小突出部は、タイル本体表面に適宜の模様を顕出
するように配置されている特許請求の範囲第1項記載の
すべりどめ用内装タイル。 3 タイルの生素地または素焼素地表面に釉薬を施して
おき、本焼き焼成温度よりも高い耐火度を有する熔融ア
ルミナ、磁器質等よりなる微細粒子の単粒または数粒群
ずつ小間隔をおいてでんぷん糊等の接着剤または粘着剤
よりなる付着層を介して前記生素地または素焼素地表面
に分散配置し、所望によりその上に更に釉薬を施し、し
かる後本焼き焼成によりタイル本体の表面に前記微細粒
子を接着固定するものであり、前記微細粒子の粒径を1
00〜800μmとし、前記本焼き焼成温度を800℃
以上乃至前記微細粒子が完全熔融しない温度とすること
を特徴とするすべりどめ用内装タイルの製造方法。 4 微細粒子の分散配置は、タイルの生素地または素焼
素地表面に所望の模様を顕出するようにスクリーン印刷
法により塗着する特許請求範囲第3項記載のすべりどめ
用内装タイルの製造方法。[Claims] 1. On the surface of the tile body, fine particles of fused alumina, porcelain, etc. having a fire resistance higher than the firing temperature of the tile body are present as a single particle or in groups of several particles and spaced at small intervals. The fine particles are dispersed and fixed with glaze while forming minute protrusions on the surface of the tile body, and the height of the minute protrusions is 0.1 to 0.7 mm. An interior tile for anti-slip use, characterized in that it has a coefficient of sliding friction resistance of 0.4 to 0.9. 2. The interior tile for anti-slip according to claim 1, wherein the minute protrusions are arranged so as to reveal an appropriate pattern on the surface of the tile main body. 3. A glaze is applied to the surface of the raw or unglazed tile base, and single grains or groups of fine particles made of fused alumina, porcelain, etc., which have a fire resistance higher than the final firing temperature, are applied at small intervals. The particles are dispersed on the surface of the green or unglazed substrate through an adhesion layer made of an adhesive or pressure-sensitive adhesive such as starch paste, and if desired, a glaze is further applied thereon. It is used to adhesively fix fine particles, and the particle size of the fine particles is set to 1.
00 to 800 μm, and the final firing temperature was 800°C.
A method for manufacturing an interior tile for anti-slip use, characterized in that the temperature is set at a temperature at which the fine particles are not completely melted. 4. The method for producing an interior tile for anti-slip according to claim 3, wherein the fine particles are dispersed and arranged by applying a screen printing method to the surface of the green or unglazed base of the tile to reveal a desired pattern. .
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP15392976A JPS6039827B2 (en) | 1976-12-20 | 1976-12-20 | Anti-slip interior tile and its manufacturing method |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP15392976A JPS6039827B2 (en) | 1976-12-20 | 1976-12-20 | Anti-slip interior tile and its manufacturing method |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS5378629A JPS5378629A (en) | 1978-07-12 |
| JPS6039827B2 true JPS6039827B2 (en) | 1985-09-07 |
Family
ID=15573155
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP15392976A Expired JPS6039827B2 (en) | 1976-12-20 | 1976-12-20 | Anti-slip interior tile and its manufacturing method |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS6039827B2 (en) |
Families Citing this family (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS55142866A (en) * | 1979-04-18 | 1980-11-07 | Tanto Kk | Floor tile |
| JPS57169167A (en) * | 1981-04-09 | 1982-10-18 | Sadoshima Metal | Non-slip tile and method |
| JPH01110239U (en) * | 1988-01-18 | 1989-07-25 | ||
| JPH01110238U (en) * | 1988-01-18 | 1989-07-25 | ||
| JP2576322B2 (en) * | 1991-10-22 | 1997-01-29 | 株式会社イナックス | Non-slip tile and manufacturing method thereof |
| JP2616863B2 (en) * | 1992-07-17 | 1997-06-04 | 東リ株式会社 | Anti-slip flooring |
| JPH06128066A (en) * | 1992-10-23 | 1994-05-10 | Inax Corp | Decorated tile with non-slip function and its production |
| JPH06144969A (en) * | 1992-11-09 | 1994-05-24 | Inax Corp | Production of kiln modulated tile and its tile |
| JP4153604B2 (en) * | 1998-10-02 | 2008-09-24 | ダント−ホ−ルディングス株式会社 | Antifouling / slip-proof tile and its manufacturing method |
| JP5761637B2 (en) * | 2011-06-02 | 2015-08-12 | 憲一 古川 | Method for forming a wear-resistant layer |
-
1976
- 1976-12-20 JP JP15392976A patent/JPS6039827B2/en not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS5378629A (en) | 1978-07-12 |
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