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JPH0732442A - Panel material and its manufacture - Google Patents

Panel material and its manufacture

Info

Publication number
JPH0732442A
JPH0732442A JP5199130A JP19913093A JPH0732442A JP H0732442 A JPH0732442 A JP H0732442A JP 5199130 A JP5199130 A JP 5199130A JP 19913093 A JP19913093 A JP 19913093A JP H0732442 A JPH0732442 A JP H0732442A
Authority
JP
Japan
Prior art keywords
panel material
inorganic
extrusion
plate
panel
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.)
Pending
Application number
JP5199130A
Other languages
Japanese (ja)
Inventor
Shinichiro Okada
慎一郎 岡田
Tsugio Chuma
次夫 中馬
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Osaka Gas Co Ltd
Original Assignee
Osaka Gas Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Osaka Gas Co Ltd filed Critical Osaka Gas Co Ltd
Priority to JP5199130A priority Critical patent/JPH0732442A/en
Publication of JPH0732442A publication Critical patent/JPH0732442A/en
Pending legal-status Critical Current

Links

Landscapes

  • Finishing Walls (AREA)
  • Extrusion Moulding Of Plastics Or The Like (AREA)

Abstract

PURPOSE:To manufacture efficiently a panel material which is superior in moisture conditioning properties, heat resistance, fire resistance and dimensional stability and free from generation of a crack. CONSTITUTION:An inorganic flowing composition containing a porous inorganic powdery and granular body such as diatomaceous earth, a reinforcing fiber, an inorganic curing substance such as slaked lime and water is extrusion-molded in a boardlike state through a die 13 of an extruding molding machine 11, solidified by drying by a heater 16 and a panel material is manufactured. A pattern can be formed on the surface of the extrusion-molded boardlike molded product by bringing a comb-shaped member 15 into contact with the surface. Then a panel which possesses a cave, is light in weight and has high heat insulation properties also can be obtained. When an extrusion molding method is used, extrusion molding can be performed even if use of a quantity of water is little and drying efficiency is high.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、壁材や床材などの建築
用内装材として有用なパネル材およびその製造方法に関
する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a panel material useful as a building interior material such as a wall material and a floor material, and a method for producing the panel material.

【0002】[0002]

【従来の技術】壁材に広く利用されているケイソウ土
は、調湿性、断熱性、遮音性、脱臭性および電波吸収性
に優れる。そのため、ケイソウ土、石灰、水などを含む
モルタルを壁の下地材に塗布し、壁面を形成すると、結
露を防止できると共に断熱性などを高めることができ
る。しかし、現場施工により壁面を形成する場合には、
作業効率が劣るだけでなく、乾燥に長時間を要する。例
えば、前記モルタルの硬化には約1週間程度を要するの
で、その間、作業を停止せざるを得ない。また、施工不
良、配合組成の変化などにより、壁面にクラックが生じ
る場合もある。
2. Description of the Related Art Diatomaceous earth, which is widely used for wall materials, is excellent in humidity control, heat insulation, sound insulation, deodorization and radio wave absorption. Therefore, when mortar containing diatomaceous earth, lime, water, etc. is applied to the base material of the wall to form the wall surface, dew condensation can be prevented and the heat insulating property can be improved. However, when forming the wall surface by on-site construction,
Not only is work efficiency inferior, but it also takes a long time to dry. For example, it takes about one week to cure the mortar, and the work must be stopped during that time. In addition, cracks may occur on the wall surface due to poor construction, changes in the composition of the composition, and the like.

【0003】一方、施工性を高めるため、壁材としてセ
ッコウボードも知られている。このセッコウボードは、
焼きセッコウ、ガラス繊維やパルプ、パーライトなどの
骨材および水を含むスラリーを下紙上に流し込み、上紙
を積層し、成形ロールにより所定厚みのボード状に成形
し、乾燥・硬化させることにより製造されている(「化
学便覧応用編 改訂3版」(財)日本化学会編、丸善
(株)昭和55年3月15日発行、第402〜404頁
「セッコウ」の項)。
On the other hand, a gypsum board is also known as a wall material in order to improve workability. This gypsum board is
Manufactured by pouring a slurry containing water such as baked gypsum, aggregates such as glass fiber, pulp and perlite, and water onto the lower paper, stacking the upper paper, molding it into a board with a specified thickness using a molding roll, and drying and curing. ("Chemical Handbook Applied Edition, Revised 3rd Edition" (Chemical Society of Japan), edited by Maruzen Co., Ltd., March 15, 1980, pages 402-404, "Gypsum").

【0004】しかし、このような方法でも、ボードの乾
燥に長時間を要するため、生産効率が低下する。しか
も、スラリーの流し込み、上紙との積層及び成形工程を
必要とし、作業が煩雑化する。
However, even with such a method, since it takes a long time to dry the board, the production efficiency is lowered. In addition, the steps of pouring the slurry, laminating with the top paper, and forming steps are required, which complicates the work.

【0005】なお、特公昭58−46973号公報、特
開平1−208125号公報、実公昭54−85号公
報、実開昭60−148417号公報、実開平−280
6号公報には、発泡ポリスチレンなどの断熱層の少なく
とも一方の面に、ケイソウ土などの多孔質微粉末と合成
樹脂などを含む無機質層を形成したパネル材が提案され
ている。
Incidentally, Japanese Patent Publication No. 58-46973, Japanese Unexamined Patent Publication No. 1-208125, Japanese Utility Model Publication No. 54-85, Japanese Utility Model Publication No. 60-148417, and Japanese Utility Model Publication No. 280-280.
No. 6 discloses a panel material in which an inorganic layer containing a porous fine powder such as diatomaceous earth and a synthetic resin is formed on at least one surface of a heat insulating layer such as expanded polystyrene.

【0006】しかし、これらのパネル材においても、無
機質層を形成するためには、多孔質微粉末と合成樹脂な
どを含むコーティング材を塗布する必要がある。そのた
め、パネル材の生産効率が低下すると共に、パネル材に
反りが生じ易く、寸法安定性が低下する。
However, also in these panel materials, in order to form the inorganic layer, it is necessary to apply a coating material containing porous fine powder and synthetic resin. Therefore, the production efficiency of the panel material is reduced, and the panel material is apt to warp, and the dimensional stability is reduced.

【0007】[0007]

【発明が解決しようとする課題】従って、本発明の目的
は、調湿性、耐熱性、耐火性及び遮音性が高いととも
に、クラックの発生がなく寸法安定性に優れたパネル材
を提供することにある。
SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a panel material which has high humidity control, heat resistance, fire resistance and sound insulation, and is free from cracks and excellent in dimensional stability. is there.

【0008】本発明の他の目的は、軽量で断熱性の高い
パネル材を提供することにある。
Another object of the present invention is to provide a panel material which is lightweight and has a high heat insulating property.

【0009】本発明のさらに他の目的は、前記の如き優
れた特性を有するパネル材を、大量かつ生産性よく製造
できる方法を提供することにある。
Still another object of the present invention is to provide a method capable of mass-producing the panel material having the above-mentioned excellent properties with high productivity.

【0010】[0010]

【発明の構成】本発明者らは、パネル材の生産性が主に
乾燥工程により支配されていることに着目して、前記目
的を達成するため鋭意検討の結果、多孔質無機粉粒体、
補強繊維、無機硬化性物質および水を含む無機質流動性
組成物を押出し成形法を利用して押出し成形すると、水
含有量の少ないモルタルやプラスターであっても効率よ
く成形でき、寸法安定性が向上することを見いだし、本
発明を完成した。
The present inventors have paid attention to the fact that the productivity of the panel material is mainly controlled by the drying step, and as a result of earnest studies to achieve the above-mentioned object, as a result, a porous inorganic powder,
Extrusion molding of an inorganic flowable composition containing reinforcing fibers, an inorganic curable substance and water using an extrusion molding method enables efficient molding even for mortar and plaster with a low water content, improving dimensional stability. The present invention has been completed and the present invention has been completed.

【0011】すなわち、本発明のパネル材は、多孔質無
機粉粒体、補強繊維および無機硬化性物質を含んでい
る。
That is, the panel material of the present invention contains a porous inorganic powder, a reinforcing fiber and an inorganic curable substance.

【0012】本発明の方法では、多孔質無機粉粒体、補
強繊維、無機硬化性物質および水を含む無機質流動性組
成物を板状に押出し成形し、乾燥硬化させ、パネル材を
製造する。
In the method of the present invention, an inorganic fluid composition containing a porous inorganic powder, reinforcing fibers, an inorganic curable substance and water is extruded into a plate shape and dried and cured to produce a panel material.

【0013】なお、本明細書において、「空洞率」と
は、板状成形品又はパネル材の長手方向(押出し方向)
と直交する方向の断面における空洞部の面積比を意味す
る。
In the present specification, the "void ratio" means the longitudinal direction (extrusion direction) of a plate-shaped molded product or panel material.
It means the area ratio of the cavities in the cross section in the direction orthogonal to the.

【0014】以下、必要に応じて、添付図面を参照しつ
つ本発明を詳細に説明する。
Hereinafter, the present invention will be described in detail with reference to the accompanying drawings as needed.

【0015】本発明のパネル材に含まれる前記多孔質無
機粉粒体としては、吸着性を有する多孔質粉粒体、例え
ば、活性炭、ケイソウ土、酸性白土、活性白土、活性ア
ルミナ、酸化チタン、ベントナイト、パーライト、バー
ミキュライト、シラスバルーン、焼成カオリン、ケイ酸
マグネシウムなどが挙げられる。これらの多孔質無機粉
粒体は一種又は二種以上使用できる。
As the porous inorganic powdery particles contained in the panel material of the present invention, porous powdery particles having an adsorbing property such as activated carbon, diatomaceous earth, acid clay, activated clay, activated alumina, titanium oxide, Examples include bentonite, perlite, vermiculite, shirasu balloon, calcined kaolin, and magnesium silicate. These porous inorganic powders can be used alone or in combination of two or more.

【0016】好ましい多孔質無機粉粒体には、吸放湿性
に優れる多孔質無機粉粒体、特にケイソウ土が含まれ
る。ケイソウ土は、例えば500℃以上、好ましくは6
00〜1000℃程度の温度で焼成されたケイソウ土の
焼成粉末が好ましい。
The preferred porous inorganic powdery particles include porous inorganic powdery particles having excellent moisture absorption and desorption properties, particularly diatomaceous earth. Diatomaceous earth is, for example, 500 ° C. or higher, preferably 6
A fired powder of diatomaceous earth fired at a temperature of about 00 to 1000 ° C. is preferable.

【0017】無機質粉粒体の粒度は、例えば、150メ
ッシュ以下である場合が多く、比表面積は、5〜300
0m2 /g程度である場合が多い。
The particle size of the inorganic powder is often, for example, 150 mesh or less, and the specific surface area is 5 to 300.
It is often about 0 m 2 / g.

【0018】無機質粉粒体の含有量は、パネル材全体の
10〜95重量%、好ましくは30〜75重量%程度で
ある。無機質粉粒体の含有量が10重量%未満である
と、断熱性および調湿性が低下し、95重量%を越える
と機械的強度が低下し易い。
The content of the inorganic powdery particles is 10 to 95% by weight, preferably 30 to 75% by weight, based on the whole panel material. When the content of the inorganic powdery particles is less than 10% by weight, the heat insulating property and the humidity control property are deteriorated, and when the content exceeds 95% by weight, the mechanical strength is easily decreased.

【0019】補強繊維としては、例えば、ガラス繊維;
岩綿;スラグウール;アルミニウムシリケート質繊維、
アルミナ質繊維、炭化ケイ素繊維などのセラミック繊
維;ポリアクリロニトリル、フェノール樹脂、レーヨン
などの高分子、石油又は石炭系ピッチなどを素材とする
炭素繊維;ポリエチレン繊維、ポリプロピレン繊維、セ
ルロース繊維、レーヨン繊維、アセテート繊維、ナイロ
ン繊維、ポリエステル繊維、ポリビニルアルコール系合
成繊維(ビニロン繊維)、ポリエーテルスルホン繊維、
芳香族ポリアミド繊維(アラミド繊維など)などの高分
子繊維などが挙げられる。これらの繊維は少なくとも一
種使用できる。
Examples of the reinforcing fiber include glass fiber;
Rock wool; Slag wool; Aluminum silicate fiber,
Ceramic fibers such as alumina fibers and silicon carbide fibers; polymers such as polyacrylonitrile, phenolic resins, rayon and other polymers, petroleum or coal pitch carbon fibers; polyethylene fibers, polypropylene fibers, cellulose fibers, rayon fibers, acetate Fiber, nylon fiber, polyester fiber, polyvinyl alcohol synthetic fiber (vinylon fiber), polyether sulfone fiber,
Polymer fibers such as aromatic polyamide fibers (such as aramid fibers) are included. At least one of these fibers can be used.

【0020】これらの繊維の中で、補強効果および寸法
安定性を高めるためには、引張弾性率の大きな繊維、例
えば、ガラス繊維、炭素繊維、ポリプロピレン繊維、ポ
リビニルアルコール系合成繊維、アラミド繊維などが好
ましい。
Among these fibers, in order to enhance the reinforcing effect and the dimensional stability, fibers having a large tensile elastic modulus such as glass fiber, carbon fiber, polypropylene fiber, polyvinyl alcohol-based synthetic fiber and aramid fiber are used. preferable.

【0021】補強繊維の素線径は、例えば、5〜30μ
m程度である場合が多い。補強繊維は、短繊維として使
用する場合が多い。短繊維の長さは、例えば、0.1〜
30mm程度であり、0.5〜10mm程度の短繊維が
繁用される。
The strand diameter of the reinforcing fiber is, for example, 5 to 30 μm.
It is often about m. Reinforcing fibers are often used as short fibers. The length of the short fiber is, for example, 0.1 to
It is about 30 mm, and short fibers of about 0.5 to 10 mm are often used.

【0022】短繊維のアスペクト比は、補強性を高める
ため、40〜5000、好ましくは100〜2000程
度である。アスペクト比が40未満では補強性が低下
し、5000を越えると均一分散性が低下する場合があ
る。
The aspect ratio of the short fibers is from 40 to 5,000, preferably from 100 to 2,000, in order to enhance the reinforcing property. If the aspect ratio is less than 40, the reinforcing property may decrease, and if it exceeds 5000, the uniform dispersibility may decrease.

【0023】補強繊維の含有量は、例えば、パネル材全
体の0.1〜20重量%、好ましくは0.2〜5重量%
程度である。補強繊維の含有量が0.1重量%未満であ
ると補強性が低下し、パネル材にクラックや反りが発生
し易く、寸法安定性が損われる。補強繊維の含有量が2
0重量%を越えると、コスト高となり易い。
The content of the reinforcing fiber is, for example, 0.1 to 20% by weight, preferably 0.2 to 5% by weight of the whole panel material.
It is a degree. When the content of the reinforcing fiber is less than 0.1% by weight, the reinforcing property is lowered, the panel material is apt to be cracked or warped, and the dimensional stability is impaired. Reinforcing fiber content is 2
If it exceeds 0% by weight, the cost tends to increase.

【0024】多孔質無機粉粒体および補強繊維を含むパ
ネル材は、調湿性、防露性、断熱性、耐火性、遮音性に
優れる。また、補強繊維により、収縮・膨脹に伴なう応
力を分散できるので、クラックや反りの発生を防止でき
るとともに、強度を高めることができ、寸法安定性を高
めることができる。
The panel material containing the porous inorganic powder and the reinforcing fiber is excellent in humidity control, dewproofness, heat insulation, fire resistance and sound insulation. Further, since the reinforcing fibers can disperse the stress associated with the contraction / expansion, it is possible to prevent the occurrence of cracks and warps, increase the strength, and improve the dimensional stability.

【0025】無機硬化性物質には、例えば、セッコウ;
消石灰やドロマイトプラスターなどの石灰;水硬性物質
が含まれる。水硬性物質としては、例えば、セメント
(例えば、ポルトランドセメント、早強ポルトランドセ
メント、アルミナセメント、急硬高強度セメント、焼き
セッコウなどの自硬性セメント;石灰スラグセメント、
高炉セメントなどの水硬性セメント;混合セメント)な
どが挙げられる。好ましい無機硬化性物質には、例え
ば、セッコウや石灰などが含まれる。
Examples of the inorganic curable substance include gypsum;
Lime such as slaked lime and dolomite plaster; it contains hydraulic substances. Examples of hydraulic materials include cement (eg, Portland cement, early-strength Portland cement, alumina cement, rapid-hardening high-strength cement, self-hardening cement such as gypsum; lime slag cement,
Hydraulic cement such as blast furnace cement; mixed cement) and the like. Preferred inorganic curable substances include, for example, gypsum and lime.

【0026】無機硬化性物質の含有量は、例えば、パネ
ル材全体の5〜90重量%、好ましくは20〜75重量
%、さらに好ましくは30〜60重量%程度である。無
機硬化性物質の含有量が5重量%未満であるとパネル材
の強度が低下し易く、90重量%を越えると、前記多孔
質無機粉粒体による吸放湿性が損われ、結露が生じ易
い。
The content of the inorganic curable substance is, for example, 5 to 90% by weight, preferably 20 to 75% by weight, more preferably 30 to 60% by weight, based on the whole panel material. When the content of the inorganic curable substance is less than 5% by weight, the strength of the panel material is likely to decrease, and when it exceeds 90% by weight, the moisture absorption and desorption property of the porous inorganic powder is impaired, and dew condensation is likely to occur. .

【0027】無機硬化性物質を含有させると、前記補強
繊維の補強効果と相まって、無機硬化性物質の硬化によ
り、パネル材の強度をさらに向上できる。
When an inorganic curable substance is contained, the strength of the panel material can be further improved by hardening the inorganic curable substance in combination with the reinforcing effect of the reinforcing fiber.

【0028】前記パネル材は、砂、ケイ砂、パーライト
などの細粒骨材;着色剤、硬化剤、有機酸塩、無機酸塩
などの凝結遅延剤、塩化カルシウムなどの硬化促進剤、
ナフタレンスルホン酸ナトリウムなどの減水剤、凝固
剤、カルボキシメチルセルロース、メチルセルロース、
ポリビニルアルコールなどの増粘剤、発泡剤、合成樹脂
エマルジョンなどの防水剤、可塑剤などの種々の添加剤
を含んでいてもよい。
The panel material is a fine-grained aggregate such as sand, silica sand, perlite; a colorant, a hardening agent, a set retarder such as an organic acid salt or an inorganic acid salt, a hardening accelerator such as calcium chloride,
Water reducing agents such as sodium naphthalene sulfonate, coagulants, carboxymethyl cellulose, methyl cellulose,
It may contain various additives such as a thickener such as polyvinyl alcohol, a foaming agent, a waterproofing agent such as a synthetic resin emulsion, and a plasticizer.

【0029】本発明のパネル材は、平板状であってもよ
く、湾曲板状であってもよい。パネル材の厚みは、用途
に応じて選択できるが、通常、5〜200mm、好まし
くは10〜100mm程度である場合が多い。
The panel material of the present invention may have a flat plate shape or a curved plate shape. Although the thickness of the panel material can be selected according to the application, it is usually 5 to 200 mm, preferably 10 to 100 mm in many cases.

【0030】本発明のパネル材の表面は平坦であっても
よく、表面に凹凸を有していてもよい。パネル材の表面
の凹凸は、散在していてもよく、筋状に延びる連続又は
非連続の凹凸溝であってもよい。また、パネル材の表面
には、前記凹凸による模様が形成されていてもよく、塗
料などにより着色されていてもよい。
The surface of the panel material of the present invention may be flat or may have irregularities on the surface. The unevenness on the surface of the panel material may be scattered, or may be continuous or discontinuous uneven grooves extending in a streak shape. Further, the surface of the panel material may be provided with the pattern of the irregularities, or may be colored with a paint or the like.

【0031】図1は本発明のパネル材の一例を示す断面
図である。この例において、前記多孔質無機粉粒体、補
強繊維および無機硬化性物質で構成されたパネル材1に
は、長手方向に沿って延びる複数の断面方形状の空洞
(貫通孔)2が幅方向に形成されている。前記各空洞2
は長手方向に延びる隔壁3により区画されている。パネ
ル材1の空洞2による空洞率は、5〜75%、好ましく
は10〜60%、さらに好ましくは20〜60%程度で
ある。空洞率が5%未満では、パネル材の断熱性がさほ
ど向上せず、75%を越えるとパネル材の機械的強度が
低下し易い。
FIG. 1 is a sectional view showing an example of the panel material of the present invention. In this example, the panel material 1 made of the porous inorganic powder, the reinforcing fibers and the inorganic curable substance has a plurality of cavities (through holes) 2 having a rectangular cross section extending in the longitudinal direction in the width direction. Is formed in. Each cavity 2
Are partitioned by a partition wall 3 extending in the longitudinal direction. The cavity rate of the cavity 2 of the panel material 1 is 5 to 75%, preferably 10 to 60%, more preferably 20 to 60%. When the porosity is less than 5%, the heat insulating property of the panel material is not improved so much, and when it exceeds 75%, the mechanical strength of the panel material tends to be lowered.

【0032】また、パネル材1の施工性を高めるため、
前記パネル材1の一方の側部端面には突条4が形成さ
れ、他方の側部端面には、前記突条4と嵌合可能な凹溝
5が形成されている。
In order to enhance the workability of the panel material 1,
A ridge 4 is formed on one side end surface of the panel material 1, and a concave groove 5 that can be fitted into the ridge 4 is formed on the other side end surface.

【0033】このような空洞を有するパネル材は、材料
の使用量が少なく、軽量であるだけでなく、断熱性が高
い。しかも、パネル材が多孔質無機粉粒体、補強繊維お
よび無機硬化性物質で構成されているので、機械的強度
がさほど低下しない。また、両側端面に形成された突条
4及び凹溝5を利用して、複数のパネル材1を隣接させ
て容易に施工できる。
The panel material having such a cavity has a small amount of material used, is lightweight, and has a high heat insulating property. Moreover, since the panel material is composed of the porous inorganic powder, the reinforcing fiber and the inorganic curable substance, the mechanical strength does not deteriorate so much. Further, by utilizing the ridges 4 and the concave grooves 5 formed on both end surfaces, a plurality of panel materials 1 can be easily installed adjacent to each other.

【0034】なお、空洞を有するパネル材には、少なく
とも1つの空洞を形成すればよいが、長手方向に延びる
隔壁で仕切られた複数の空洞を形成すると、隔壁により
機械的強度の低下を抑制できる。
It should be noted that at least one cavity may be formed in the panel material having a cavity. However, if a plurality of cavities partitioned by a partition extending in the longitudinal direction is formed, the partition can prevent a decrease in mechanical strength. .

【0035】本発明のパネル材は、押出し成形法により
製造するのが有利である。すなわち、本発明の方法は、
必要に応じて前記添加剤とともに、前記多孔質無機粉粒
体、補強繊維および無機硬化性物質で構成される無機質
混合末と水とを含む無機質流動性組成物を板状に押出し
成形する工程と、乾燥工程とで構成されている。乾燥工
程の後、通常、板状押出し成形品は、所定長さに切断す
る切断工程に供され、得られた成形品を硬化させること
によりパネル材が得られる。
The panel material of the present invention is advantageously manufactured by an extrusion molding method. That is, the method of the present invention is
With the additive, if necessary, a step of extruding an inorganic fluid composition containing the porous inorganic powder, the reinforcing fibers and the inorganic mixed powder composed of the inorganic curable substance and water into a plate shape, and , And a drying process. After the drying step, the plate-shaped extrusion molded article is usually subjected to a cutting step of cutting it into a predetermined length, and the panel material is obtained by curing the obtained molded article.

【0036】押出し成形法を利用すると、高粘度の無機
質流動性組成物も成形できるので、水の使用量を低減で
き、乾燥効率が高く、補強繊維による応力拡散効果と相
まって高い寸法精度でパネル材を得ることができるとい
う利点がある。また、水分含有量を低減できると共に補
強繊維により補強性を高めることができるので、板状に
押出された成形品の変形を抑制でき、成形品の取扱いも
容易である。
When the extrusion molding method is used, a highly viscous inorganic fluid composition can also be molded, so that the amount of water used can be reduced, the drying efficiency is high, and the stress diffusion effect by the reinforcing fiber is combined with the panel material with high dimensional accuracy. There is an advantage that can be obtained. Further, since the water content can be reduced and the reinforcing property can be enhanced by the reinforcing fiber, the deformation of the molded product extruded in a plate shape can be suppressed, and the molded product can be easily handled.

【0037】水の使用量は、多孔質無機粉粒体、補強繊
維、無機硬化性物質などで構成される無機質混合末10
0重量部に対して15〜150重量部、好ましくは20
〜100重量部、さらに好ましくは20〜50重量部程
度である。水の使用量が15重量部未満であると、流動
性および押出し成形性が低下し、150重量部を越える
と乾燥に長時間を要する。
The amount of water used is 10% by weight of inorganic mixed powder composed of porous inorganic powder, reinforcing fibers, inorganic curable substances and the like.
15 to 150 parts by weight, preferably 20 to 0 parts by weight
To 100 parts by weight, more preferably about 20 to 50 parts by weight. If the amount of water used is less than 15 parts by weight, the fluidity and extrusion moldability will deteriorate, and if it exceeds 150 parts by weight, it will take a long time to dry.

【0038】図2は本発明のパネル材の製造方法を説明
するための概略工程図である。
FIG. 2 is a schematic process drawing for explaining the panel material manufacturing method of the present invention.

【0039】この例では、必要に応じて前記添加剤とと
もに、前記多孔質無機粉粒体、補強繊維、無機硬化性物
質および水は、スクリュを備えた押出し成形機11のホ
ッパ12に供給され、スクリュにより混練されながら、
スリット状の孔を有するダイ13から板状に押出され、
押出された板状成形品は、複数の搬送ローラ14により
搬送される。なお、前記ホッパには、前記多孔質無機粉
粒体、補強繊維、無機硬化性物質、水および前記添加剤
を混合攪拌して調製した無機質流動性組成物を供給して
もよい。
In this example, the porous inorganic powder, the reinforcing fiber, the inorganic curable substance, and water together with the additive as needed are supplied to a hopper 12 of an extruder 11 equipped with a screw. While being kneaded by the screw,
Extruded in a plate shape from the die 13 having a slit-shaped hole,
The extruded plate-shaped molded product is transported by a plurality of transport rollers 14. The hopper may be supplied with an inorganic fluid composition prepared by mixing and agitating the porous inorganic powder, reinforcing fiber, inorganic curable substance, water and the additive.

【0040】無機質流動性組成物の押出し速度は、水分
含有量、乾燥工程での乾燥温度、板状成形品の厚みなど
に応じて選択でき、例えば、0.5〜10m/分、好ま
しくは0.7〜5m/分程度である。
The extrusion rate of the inorganic fluid composition can be selected according to the water content, the drying temperature in the drying step, the thickness of the plate-shaped molded article, etc., and is, for example, 0.5 to 10 m / min, preferably 0. It is about 7 to 5 m / min.

【0041】板状成形品の押出し方向には、ブラシや櫛
歯などを有する複数の櫛歯状部材15が、搬送ローラ1
4に対応する位置で上下動可能に並設されている。ま
た、隣接する櫛歯状部材15における櫛歯の歯先の位置
および間隔は互いに板状成形品の幅方向に異なってい
る。そのため、板状成形品の表面に、前記櫛歯状部材1
5を上下動させながら断続的に接触させることにより、
成形品の表面が筋状に掻き落され、表面処理工程におい
て、板状成形品の表面に、掻落し壁風の筋状の模様を形
成できる。
In the extruding direction of the plate-shaped molded product, a plurality of comb tooth-shaped members 15 having brushes, comb teeth, etc.
4 are arranged side by side so that they can move up and down. Further, the positions and intervals of the tips of the comb teeth in the adjacent comb tooth-shaped members 15 are different from each other in the width direction of the plate-shaped molded product. Therefore, the comb tooth-shaped member 1 is formed on the surface of the plate-shaped molded product.
By moving 5 up and down to make intermittent contact,
The surface of the molded product is scratched off in a streak shape, and a streak-like wall-like streak pattern can be formed on the surface of the plate-shaped molded product in the surface treatment step.

【0042】表面に模様が形成された成形品は、搬送ロ
ーラ14によりヒータ16を備えた乾燥ゾーンに搬送さ
れる。乾燥ゾーンにおける乾燥温度は適当に選択できる
が、例えば、50〜200℃、好ましくは75〜150
℃程度である。乾燥工程において乾燥された後、板状成
形品は、カッタ17により所定長さに切断され、硬化さ
せることによりパネル材18が得られる。そのため、装
飾感や意匠性の高い表面模様を有するパネル材を連続的
に製造できる。
The molded product having the pattern formed on its surface is carried by the carrying roller 14 to a drying zone equipped with a heater 16. The drying temperature in the drying zone can be appropriately selected, but is, for example, 50 to 200 ° C., preferably 75 to 150.
It is about ℃. After being dried in the drying step, the plate-shaped molded product is cut into a predetermined length by the cutter 17 and cured to obtain the panel material 18. Therefore, it is possible to continuously manufacture a panel material having a surface pattern with a decorative feeling and a high design.

【0043】なお、櫛歯状部材は上下動することなく、
板状の押出し成形品の表面に当初から接触していてもよ
い。板状成形品の表面の模様は、少なくとも1つの櫛歯
状部材により形成してもよい。隣接する櫛歯状部材にお
ける櫛歯の間隔は板状成形品の幅方向に同じであっても
よい。また、上下動可能な複数の櫛歯状部材は、波形の
模様を形成するため、板状成形品の幅方向に往復動させ
てもよい。
The comb-shaped member does not move up and down,
It may be in contact with the surface of the plate-shaped extruded product from the beginning. The pattern on the surface of the plate-shaped molded article may be formed by at least one comb tooth-shaped member. The intervals between the comb teeth in the adjacent comb-shaped members may be the same in the width direction of the plate-shaped molded product. Further, the plurality of vertically movable comb-teeth-shaped members may be reciprocated in the width direction of the plate-shaped molded product in order to form a wavy pattern.

【0044】さらには、表面処理工程では、凹凸面を有
するプレート状押圧部材を、板状成形品に押圧し、凹凸
模様を形成してもよい。この場合、プレート状押圧部材
を表面処理工程で循環させ、板状成形品の搬送速度に同
伴させて板状成形品の表面に押圧すればよい。
Furthermore, in the surface treatment step, a plate-shaped pressing member having an uneven surface may be pressed against the plate-shaped molded product to form an uneven pattern. In this case, the plate-shaped pressing member may be circulated in the surface treatment step, and the plate-shaped pressed member may be pressed against the surface of the plate-shaped molded product while being entrained in the conveyance speed of the plate-shaped molded product.

【0045】また、押出し成形法を利用すると、ダイの
口金形状を変更することにより、種々の断面形状のパネ
ル材を得ることができる。例えば、少なくとも一方の長
辺に凹凸部を有するスリット状の口金を有するダイを用
いると、図3に示されるように、少なくとも一方の面に
凹凸溝22を有するパネル材21を得ることができる。
また、ダイのスリット内に、ダイの内壁からスリットの
吐出側に延出した適当な形状の流路規制部材(例えば、
ダイの吐出側に配設された四角形状の流路規制部材)を
少なくとも1つ配設することにより、前記図1に示され
るような空洞(貫通孔)を有するパネル材も得ることが
できる。
Further, by utilizing the extrusion molding method, it is possible to obtain panel materials having various sectional shapes by changing the die shape of the die. For example, when a die having a slit-shaped die having an uneven portion on at least one long side is used, a panel material 21 having an uneven groove 22 on at least one surface can be obtained as shown in FIG.
Further, in the slit of the die, a flow path regulating member of an appropriate shape extending from the inner wall of the die to the discharge side of the slit (for example,
By disposing at least one rectangular flow path regulating member disposed on the discharge side of the die, a panel material having a cavity (through hole) as shown in FIG. 1 can be obtained.

【0046】さらに、前記押出し成形機やダイにより無
機質流動性組成物を加熱してもよい。押出し成形機など
を加熱すると、無機質流動性組成物中の水分含有量を低
減できると共に、押出し成形後、乾燥工程に至る間にも
水分を効率よく蒸発させることができる。そのため、乾
燥工程での乾燥エネルギーも低減でき、パネル材を短時
間内に乾燥させ、硬化させることができる。加熱温度
は、硬化性無機物質の種類に応じて、押出し成形機やダ
イ内で硬化しない範囲、例えば、50〜200℃程度の
範囲から適当に選択できる。
Further, the inorganic fluid composition may be heated by the extruder or die. By heating an extruder or the like, the water content in the inorganic fluid composition can be reduced, and the water can be efficiently evaporated during the drying step after extrusion. Therefore, the drying energy in the drying step can be reduced, and the panel material can be dried and cured within a short time. The heating temperature can be appropriately selected depending on the type of the curable inorganic substance, within a range that does not cure in an extruder or a die, for example, within a range of about 50 to 200 ° C.

【0047】前記のように、乾燥工程において、板状成
形品は完全に乾燥させる必要はなく、少なくとも表層部
を乾燥させればよい。表層部だけ乾燥させても、無機質
流動性組成物の水分含有量が少なく、補強繊維により補
強できるので、板状成形品の変形などを抑制できる。
As described above, it is not necessary to completely dry the plate-shaped molded article in the drying step, but at least the surface layer portion may be dried. Even if only the surface layer portion is dried, the inorganic fluid composition has a low water content and can be reinforced with reinforcing fibers, so that deformation of the plate-shaped molded article can be suppressed.

【0048】板状成形品の硬化は、加熱下で行なっても
よいが、通常、室温などで放置することにより、例え
ば、12時間〜4日程度で硬化させることができる。
The plate-shaped molded article may be cured under heating, but usually it can be cured, for example, in about 12 hours to 4 days by leaving it at room temperature.

【0049】このようにして得られたパネル材は、壁
材、床材などの建築用内装材や外装材に有用である。な
お、パネル材は必要に応じてベニヤ板、合板、セッコウ
ボードなどに貼り合わせてもよい。
The panel material thus obtained is useful as an interior or exterior material for construction such as wall material and floor material. The panel material may be attached to a plywood board, a plywood board, a gypsum board or the like, if necessary.

【0050】[0050]

【発明の効果】本発明のパネル材は、多孔質無機粉粒
体、補強繊維および無機硬化性物質を含むので、調湿
性、耐熱性、耐火性及び遮音性が高いとともに、クラッ
クの発生がなく寸法安定性に優れている。また、空洞が
形成されたパネル材は、軽量であり断熱性が高い。
EFFECT OF THE INVENTION Since the panel material of the present invention contains a porous inorganic powder, a reinforcing fiber and an inorganic curable substance, it has high humidity control, heat resistance, fire resistance and sound insulation and is free from cracks. Excellent dimensional stability. In addition, the panel material in which the cavity is formed is lightweight and has high heat insulation.

【0051】本発明の方法によれば、無機質流動性組成
物を板状に押出し成形し、乾燥硬化させるので、無機質
流動性組成物中の水分量、乾燥エネルギーを低減でき、
前記の如き優れた特性を有するパネル材を、大量かつ生
産性よく製造できる。
According to the method of the present invention, since the inorganic fluid composition is extruded into a plate shape and dried and cured, the water content and the drying energy in the inorganic fluid composition can be reduced.
A panel material having the above-mentioned excellent characteristics can be manufactured in large quantities with high productivity.

【0052】[0052]

【実施例】以下に、実施例に基づいて本発明をより詳細
に説明する。
EXAMPLES The present invention will be described in more detail based on the following examples.

【0053】実施例1 焼成ケイソウ土(粒子径10〜40μm)60重量部
と、ドロマイトプラスター(粒子径1〜100μm)4
0重量部と、ガラス繊維(平均繊維長6mm、繊維径9
μm)2重量部と、水25重量部とを混合し、押出し成
形機に供給した。押出し成形機のダイから、1m/分の
速度で板状に押出し成形し、150℃の乾燥ゾーンで乾
燥し、カッタにより切断し、板状成形品(幅30cm×
長さ90cm×厚み3cm)を得た。板状成形品を2日
間室温で放置したところ、完全に硬化し、クラックのな
いパネル材が得られた。
Example 1 60 parts by weight of calcined diatomaceous earth (particle size 10 to 40 μm) and dolomite plaster (particle size 1 to 100 μm) 4
0 parts by weight and glass fiber (average fiber length 6 mm, fiber diameter 9
μm) 2 parts by weight and 25 parts by weight of water were mixed and supplied to an extruder. Extruded into a plate at a speed of 1 m / min from the die of an extrusion molding machine, dried in a drying zone at 150 ° C., cut with a cutter, and cut into a plate-shaped product (width 30 cm ×
A length of 90 cm and a thickness of 3 cm was obtained. When the plate-shaped molded product was left at room temperature for 2 days, it was completely cured and a crack-free panel material was obtained.

【0054】パネル材の曲げ強度を、スパン60cmの
3点曲げ試験により測定したところ、88kg/cm2
であった。また、板状成形品と、硬化後4週間経過のパ
ネル材との寸法精度の差は、0.2%であった。
The bending strength of the panel material was measured by a 3-point bending test with a span of 60 cm to find that it was 88 kg / cm 2.
Met. In addition, the difference in dimensional accuracy between the plate-shaped molded product and the panel material 4 weeks after curing was 0.2%.

【0055】実施例2 ガラス繊維2重量部に代えて、ポリプロピレン繊維(平
均繊維長3mm、繊維径20μm)1重量部を用いる以
外、実施例1と同様にして、パネル材を得たところ、パ
ネル材にはクラックが認められなかった。
Example 2 A panel material was obtained in the same manner as in Example 1 except that 1 part by weight of polypropylene fiber (average fiber length: 3 mm, fiber diameter: 20 μm) was used instead of 2 parts by weight of glass fiber. No cracks were found in the material.

【0056】パネル材の曲げ強度を、実施例1と同様に
して測定したところ、65kg/cm2 であり、板状成
形品と、硬化後4週間経過のパネル材との寸法精度の差
は、0.5%であった。
The bending strength of the panel material was measured in the same manner as in Example 1 and found to be 65 kg / cm 2. The difference in dimensional accuracy between the plate-shaped molded article and the panel material 4 weeks after curing was It was 0.5%.

【0057】実施例3 ガラス繊維2重量部に代えて、炭素繊維(平均繊維長3
mm、繊維径18μm)2重量部を用いる以外、実施例
1と同様にして、パネル材を得たところ、パネル材には
クラックが認められなかった。
Example 3 Instead of 2 parts by weight of glass fiber, carbon fiber (average fiber length 3
mm, fiber diameter 18 μm) A panel material was obtained in the same manner as in Example 1 except that 2 parts by weight were used, and no crack was found in the panel material.

【0058】パネル材の曲げ強度を、実施例1と同様に
して測定したところ、70kg/cm2 であり、板状成
形品と、硬化後4週間経過のパネル材との寸法精度の差
は、0.1%であった。
When the bending strength of the panel material was measured in the same manner as in Example 1, it was 70 kg / cm 2 , and the difference in dimensional accuracy between the plate-shaped molded product and the panel material after 4 weeks of curing was It was 0.1%.

【0059】比較例1 ガラス繊維を用いることなく、実施例1と同様にして、
パネル材を得たところ、乾燥硬化後にパネル材にはひび
割れが発生し、板状成形品と、硬化後4週間経過のパネ
ル材との寸法精度の差は、1.2%であった。
Comparative Example 1 In the same manner as in Example 1 without using glass fiber,
When a panel material was obtained, cracks occurred in the panel material after drying and curing, and the difference in dimensional accuracy between the plate-shaped molded product and the panel material 4 weeks after curing was 1.2%.

【0060】実施例4 実施例1と同様にして、無機質流動性組成物を押出し成
形機のダイから、板状に押出し成形し、ダイの吐出側に
設けた3つの金属製ブラシを、板状の押出し成形品の片
側表面に接触させて、掻落し壁風の表面加工を行ない、
実施例1と同様にして乾燥し、切断することにより、板
状成形品を得た。板状成形品を2日間室温で放置したと
ころ、完全に硬化し、クラックがなく意匠性の高いパネ
ル材が得られた。
Example 4 In the same manner as in Example 1, the inorganic fluid composition was extruded into a plate shape from a die of an extrusion molding machine, and three metal brushes provided on the discharge side of the die were formed into a plate shape. By making contact with one side surface of the extruded product of, scraping wall-like surface processing,
A plate-shaped molded product was obtained by drying and cutting in the same manner as in Example 1. When the plate-shaped molded product was allowed to stand at room temperature for 2 days, it was completely cured, and a panel material having no cracks and high designability was obtained.

【0061】実施例5 ダイとしてスリット内に四角形状の15個の流路規制部
材を横方向に配設したダイを用いる以外、実施例1と同
様にして押出し成形し、図1に示すような断面四角形状
の空洞(1.2cm×1.2cm)を有し、空洞率24
%のパネル材を得た。得られたパネル材の熱伝導率を測
定したところ、0.06kcal/m・h・℃であり、
実施例1で得られた中実のパネル材の熱伝導率0.15
kcal/m・h・℃の1/2以下となった。また、パ
ネル材の曲げ強度は72kg/cm2 であった。
Example 5 Extrusion molding was performed in the same manner as in Example 1 except that a die in which 15 rectangular flow path regulating members were laterally arranged in the slit was used as the die, and as shown in FIG. It has a cavity (1.2 cm x 1.2 cm) with a square cross section, and a cavity rate of 24
% Panel material was obtained. When the thermal conductivity of the obtained panel material was measured, it was 0.06 kcal / m · h · ° C,
The thermal conductivity of the solid panel material obtained in Example 1 was 0.15.
It became 1/2 or less of kcal / m · h · ° C. The bending strength of the panel material was 72 kg / cm 2 .

【図面の簡単な説明】[Brief description of drawings]

【図1】図1は本発明のパネル材の一例を示す断面図で
ある。
FIG. 1 is a sectional view showing an example of a panel material of the present invention.

【図2】図2は本発明のパネル材の製造方法を説明する
ための概略工程図である。
FIG. 2 is a schematic process drawing for explaining a method for manufacturing a panel material of the present invention.

【図3】図3は本発明のパネル材の他の例を示す断面図
である。
FIG. 3 is a cross-sectional view showing another example of the panel material of the present invention.

【符号の説明】[Explanation of symbols]

1,18,21…パネル材 2…空洞 3…隔壁 11…押出し成形機 13…ダイ 15…櫛歯状部材 16…ヒータ 17…カッタ 22…凹凸溝 1, 18 and 21 ... Panel material 2 ... Cavity 3 ... Partition wall 11 ... Extrusion molding machine 13 ... Die 15 ... Comb-shaped member 16 ... Heater 17 ... Cutter 22 ... Rough groove

Claims (8)

【特許請求の範囲】[Claims] 【請求項1】 多孔質無機粉粒体、補強繊維および無機
硬化性物質を含むパネル材。
1. A panel material containing a porous inorganic powder, a reinforcing fiber and an inorganic curable substance.
【請求項2】 表面に凹凸を有する請求項1記載のパネ
ル材。
2. The panel material according to claim 1, which has irregularities on its surface.
【請求項3】 空洞率5〜75%の空洞が形成されてい
る請求項1記載のパネル材。
3. The panel material according to claim 1, wherein voids having a void ratio of 5 to 75% are formed.
【請求項4】 多孔質無機粉粒体、補強繊維、無機硬化
性物質および水を含む無機質流動性組成物を板状に押出
し成形し、乾燥硬化させるパネル材の製造方法。
4. A method for producing a panel material, which comprises extruding an inorganic fluid composition containing a porous inorganic powder, a reinforcing fiber, an inorganic curable substance and water into a plate shape, and drying and curing the composition.
【請求項5】 多孔質無機粉粒体としてケイソウ土を用
いる請求項4記載のパネル材の製造方法。
5. The method for producing a panel material according to claim 4, wherein diatomaceous earth is used as the porous inorganic powder or granular material.
【請求項6】 40〜5000のアスペクト比を有する
補強繊維を用いる請求項4記載のパネル材の製造方法。
6. The method for producing a panel material according to claim 4, wherein the reinforcing fiber having an aspect ratio of 40 to 5000 is used.
【請求項7】 無機質流動性組成物を押出し成形した
後、押出し成形品の表面に凹凸を形成し、乾燥硬化させ
る請求項4記載のパネル材の製造方法。
7. The method for producing a panel material according to claim 4, wherein after the inorganic fluid composition is extrusion-molded, irregularities are formed on the surface of the extrusion-molded article and the composition is dried and cured.
【請求項8】 無機質流動性組成物を、空洞率5〜75
%の空洞を有する板状に押出し成形する請求項4記載の
パネル材の製造方法。
8. An inorganic flowable composition having a porosity of 5 to 75.
The method for producing a panel material according to claim 4, wherein the panel material is extruded into a plate shape having a% void.
JP5199130A 1993-07-15 1993-07-15 Panel material and its manufacture Pending JPH0732442A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP5199130A JPH0732442A (en) 1993-07-15 1993-07-15 Panel material and its manufacture

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP5199130A JPH0732442A (en) 1993-07-15 1993-07-15 Panel material and its manufacture

Publications (1)

Publication Number Publication Date
JPH0732442A true JPH0732442A (en) 1995-02-03

Family

ID=16402644

Family Applications (1)

Application Number Title Priority Date Filing Date
JP5199130A Pending JPH0732442A (en) 1993-07-15 1993-07-15 Panel material and its manufacture

Country Status (1)

Country Link
JP (1) JPH0732442A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2012111227A (en) * 2010-11-04 2012-06-14 Univ Of Tokyo Dryer for extrusion molding
JP2012111228A (en) * 2010-11-04 2012-06-14 Univ Of Tokyo Dryer for extrusion moldings
KR20180074111A (en) * 2016-12-23 2018-07-03 재단법인 한국탄소융합기술원 Manufacturing method of inorganic carbon composite heat panel reinforced with carbon fiber and carbon material

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2012111227A (en) * 2010-11-04 2012-06-14 Univ Of Tokyo Dryer for extrusion molding
JP2012111228A (en) * 2010-11-04 2012-06-14 Univ Of Tokyo Dryer for extrusion moldings
KR20180074111A (en) * 2016-12-23 2018-07-03 재단법인 한국탄소융합기술원 Manufacturing method of inorganic carbon composite heat panel reinforced with carbon fiber and carbon material

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