JPS5954547A - Sound-absorbing heat-insulating board made of glass fiber - Google Patents
Sound-absorbing heat-insulating board made of glass fiberInfo
- Publication number
- JPS5954547A JPS5954547A JP16442682A JP16442682A JPS5954547A JP S5954547 A JPS5954547 A JP S5954547A JP 16442682 A JP16442682 A JP 16442682A JP 16442682 A JP16442682 A JP 16442682A JP S5954547 A JPS5954547 A JP S5954547A
- Authority
- JP
- Japan
- Prior art keywords
- layer
- sound
- heat
- absorbing
- insulating board
- 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.)
- Granted
Links
Landscapes
- Building Environments (AREA)
- Laminated Bodies (AREA)
- Porous Artificial Stone Or Porous Ceramic Products (AREA)
Abstract
(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.
Description
【発明の詳細な説明】
本発明はカラス繊維製造品、牛、′1にカラス繊維製1
段1”を断熱、仮(1)構成に関する。DETAILED DESCRIPTION OF THE INVENTION The present invention provides a glass fiber manufactured product, a cow;
Insulating stage 1'', regarding provisional (1) configuration.
カラー7、繊維製吸音断熱板は、住宅その他の建築物な
C)ひに自動屯船舶1丁:業機黙乙〔とに吸t′丁およ
び士たけ断熱のために用いらねる0、
こ(ハノノ゛ラス枠:紐製1νk 7″1断熱板は、火
tU(ル伸法、速′心法、いわゆるl外法(特開昭1/
9−/、2夕乙り、?)、4.3よびいわゆる11−タ
リーカスプ1ノド法(特開昭] 、!””’−’+23
/ / 3 )などによ−、て繊維化さオlて平均的
径がS・〜71tσ)勾フス繊糾(/(−熱硬化t/1
C1)結自削を吹き″)は、ぞオl!X−伴動し、てい
るメノシェ、=1ン\了−上に集め−て・:iシ状υ・
舅、た後(・こ、・lろ貿(ン二!心し−(−・−ねを
加圧し、7:Iから熱rllJj化炉に送り<hjNl
i化剤を硬化し−C所λ1で・1θ、にl)J 1fJ
i (Iるか、士たは結合Δ[1を吹き−)けた未硬化
の/Jラス繊f11の、if′I状体3そ()、、)
士:iまたはIす肖i、、: 0)月決に(1月1yi
l−、た後に、lす白i−4I[;状のゾし・スI(
す+1)中へ人イ1CIIII川加熱Aること((−よ
−、(製造さ4Iる。Color 7, fiber sound-absorbing and heat-insulating boards are used for residential and other buildings. (Hanono glass frame: 1νk 7″1 heat insulating board made of string)
9-/, 2 evenings, ? ), 4.3 and the so-called 11-tally cusp 1-nod method (JP-A-Sho), !””'-'+23
/ / 3) etc., the average diameter is S・~71tσ), etc.
C1) ``Blow the connection'') is!
After that, pressurize the mixture and send it to the heating furnace from 7:I.
Curing the i-forming agent, -C at λ1 and 1θ, l) J 1fJ
i (if'I-shaped body 3 of uncured /J lath fiber f11 with bond Δ[1-blown -))
Person:i or Isuporti,,: 0) Monthly resolution (January 1yi)
l-, after lsu white i-4I [;
+1) Inside the person A 1 CIII river heating A ((-yo-, (manufactured 4I).
ところがこの吸i′f IIJI熱板を建築物の11゛
と内部、 Kj+’よたは自動中イcと(1)一部K
I(i +取イ・1(1ず7.、3F4、カラス繊KA
F(]月ノ「ねた繊維の粉塵が′ノ)と中に飛1)交i
−1作業環境を、?−1V<シ、1′1采J♀の気管支
シ・−人−、ノ、−り、また取扱い時に丁/jiA、p
の身体(で1Jテねだ繊′!1[かf、1γ目、ひとく
ムズ桿ゆくなるJとかある1、
こねら(y、)原因は、神々調査(fl[究した結果、
主に]吸音断熱板t1)人曲層の繊糺か11rわf1ζ
1J5′(−いる・二とによることかわが−9た。However, if this suction i'f IIJI heating plate is used inside the building as 11゛, then Kj+' or automatic medium c and (1) part of K.
I(i + Torii・1(1zu7., 3F4, Karasu fiber KA
F(] Tsukino ``Dust of sticky fibers flew inside 1) Intersection i
-1 What about the working environment? -1V<shi, 1'1 J♀'s bronchus, -person-, ノ, -ri, and when handling, D/jiA,p
The body of (1J tennedasen'!1 [kaf, 1γ eye, hitoku musu yuku naru J etc.1, Konera (y,) cause is the investigation of the gods (fl[as a result of investigation,
Mainly] sound absorbing and heat insulating board t1) human curved layer fiber 11rwaf1ζ
1J5'(-Iru・Nito-Kawaga-9ta.
本発明(。1J−、イ1ら(])」q、状の欠点を除去
−仁IZ)吸;:f lすf熱板を1ノi! 11・1
−る17−とを目的と・I−るもの−(あ/:〕3、そ
して1−θ)[−1的は本発明し−よl)達成される。The present invention (.1J-, I1 et al. ()) Removes the defects of q, jin IZ); 11.1
-17-The objective is to achieve the following.(A/:]3, and 1-θ)
才なわ0イ(発明は、ゝ1i均直径か5.0〜7.0
ミクロンであるカラス繊組からなるオ/の層と、前記オ
/の層の・)Jよかは両方の表面flllIに設けた、
平均1白:?”11か/、0〜lノ、9ミク11ンて・
あるカラス繊Xイ1からなるオノの層とからなるガラス
繊維製吸音断熱板−Cあ−1て、+>iJ記第2の層の
カラス繊組の平均直径はriiJ記オ/の層のそれより
も−・1くなくとも小3ミ々IJン小さく、前記第2の
層の各々Cハ+y、71はオく乙↓くともO−,2θ口
11℃あり、かつ1・20層の厚1ノ(J)合語は保温
lI]i熱板の厚みに対して多くともgθ%−(’ 、
!、・る゛すf J、弾111製吸?′7断熱板である
。The invention is based on the average diameter of 5.0 to 7.0.
A layer made of micron-sized glass fibers and a layer of .) J of the layer were provided on both surfaces,
Average 1 white:? ``11?/, 0~lノ, 9 Miku 11nte・
A glass fiber sound absorbing and heat insulating board consisting of a layer of glass fibers X-1 and a layer of glass fibers -CA-1, +>iJ The average diameter of the glass fibers in the second layer is as follows: It is -.1 at least 3 mm smaller than that, and each of the second layers C + y, 71 is at least O -, 2θ 11 degrees Celsius, and 1.20 layers The thickness of 1 (J) is at most gθ%-(',
! , Ruis f J, bullet 111 made? '7 Insulation board.
本発明におい−(肱niJ記第2σ)層の繊維はオ/の
層0、) IA’a 、IIR□) 1lIi径J−リ
モ小す12−直径k 6’−1−ルタメ、吸’t”c
Nli熱板の製造または施■−σ)際+−(−1;1)
の層の繊維0)4J自■かは々んと発生しない。」JL
+7の層の繊A、11.θ)#Jr tlが発生しても
そ第1か第2(7)層を通過し−(々1側・\出てくる
ことはない。υf−3て繊維の粉塵が9)2中に飛散し
て作Y環境を悪く15たり、また取扱い時むC下足′η
σ)!′、A体に折ねた繊&Ilh・f’J’ Jt
I、てひとくノ、【lゞrゆくなる1−とはIYJll
lされる。In the present invention, the fibers of the (2nd σ) layer are the layer 0,) IA'a, IIR□) "c
Manufacturing or application of Nli hot plate +-(-1; 1)
The fibers in the layer 0) 4J do not occur frequently. "J.L.
+7 layer fiber A, 11. θ) #Jr Even if tl occurs, it passes through the first or second (7) layer and never comes out. Doing so may cause a bad environment, or may cause damage to the lower foot when handling.
σ)! ', A-folded fiber & Ilh f'J' Jt
I, Tehitokuno, [lr Yuku Naru 1- is IYJll
I will be treated.
平均面1′I;が小、■なたとえは?、9 iタロノン
以ト’ t)> Ifラス繊糾o)、y、からなる吸音
断熱板は繊糺σ)4F「ねト1よび飛散か4く4rい反
1r11、製造−1ス)か高< l:c −:。Average surface 1'I; is small, ■ What is the analogy? , 9 If the sound absorbing and insulating board made of lath fiber o), y is fiber σ) 4F ``Net 1 and scattering 4 4 r 1 r 11, manufacturing - 1 s)? High<l:c-:.
て経済的−(は/Cい。(−冒1.(/こZJ L、−
C本発明に1)いては製造ゴJulか安く、か1)飾1
−゛ビ1(1)−イーぐイまた吸1゛1断熱板がイ()
られる。It is economical.
C The present invention is 1) cheap to manufacture, or 1) decorative 1)
-゛Bi1(1)-Eguimata Suction1゛1Insulation board is I()
It will be done.
7、k (ハニ木発明全図面にりいて説明−1−る。本
発明の1つθ)Q!J l壬(・イ、Jイ1は、1−な
わ?) N−/ +ツl&で小1よ・)に、本発明の)
J”1木繊S、1(製作〆晶筒断〃(板/は板状(バカ
〕ンス番代狂1曽ノか1.なり、糾い;11層ノG、土
カラス和親糸1((〕);l 10) l;り3.1
と(’)−11表面側(r(説′はたツノラス繊維の十
〕の層//4Iからf、: L)、M= / (7)層
3を’n’J II”+ ’1−る力゛ノス11)tI
A、11内牢1勺lf’j、’ t’(let A’
、2 r))lH’;(Z f C,〜’+ +A、
”iするカラスIE Ill内士1つl+’+、 i
’+′J:りも小さい、、オノの層v) 1.’7ノJ
か小さ漬、旨\ろと17層())Jlliれたb′ラス
繊繊組t)、91部庇IK :、f−1,−は々1(則
・\(1)伴動を191ノ+1−4−ることか−Cきろ
くなるθ)−(−十)層厚1ノはAくムくkもQ、2r
umでイ1(・1第1はΔ1′、/↓い4、他方、A′
)層cノN「Iみかあ士り(η−友Cあると紹:系f1
化のための多h1のエネルギーが必貿となるので経済c
白では乙「<、?菫−1て2・:21曽σ) l!7.
p+はカラス繊躬(層全厚の多くとも40%てな4−
t itばならず好ましくは30%を超えムい。またオ
ー・層σ)カラス繊維の平均直径は・14°g y3)
吸111)性?jEたは熱抵抗値を得るために3−θ〜
7.0ミ々■」ン、好よしくは3−05〜乙、ぶミクロ
ンのものか用いられる。7, k (Explanation with reference to all drawings of the Honey Tree invention. One of the inventions θ) Q! J I (・I, J I 1 is 1- rope?) N-/ + Tsu l & for 1st grade・) of the present invention)
J"1 wood fiber S, 1 (manufacturing〆crystal tube cut〃(board/is plate-like (baka)) Bandaikyo 1 Sonoka 1.Nari, sieving; 11 layers of G, soil crow Japanese parent thread 1 ((]);l 10) l;ri3.1
and (') - 11 surface side (r (theory is 10 layers of hornous fibers) // 4I to f, : L), M = / (7) layer 3 'n'J II'' + '1 -The power that exists 11) tI
A, 11 inner prison 1 lf'j,'t' (let A'
, 2 r)) lH'; (Z f C, ~'+ +A,
``i crow IE Ill one naishi l+'+, i
'+'J: small size, ax layer v) 1. '7 no J
Kakozuke, Uma\roto 17 layers () Jlli tare b' lath fiber group t), 91 part eaves IK:, f-1, - haha 1 (rule・\(1) accompaniment 191ノ + 1 - 4 - or - C becomes thinner θ) - (- 10) layer thickness 1 is A, k is also Q, 2r
In um, A1 (・1 first is Δ1', /↓I4, on the other hand, A'
) Layer cノN ``I Mikaa Shiri (η-Friend C Aruto Introduction: System f1
The economy c.
In white, Otsu "<,? Violet-1 te 2:21 Soσ) l!7.
p+ is crow fiber (at most 40% of the total layer thickness) 4-
However, it preferably exceeds 30%. Also, the average diameter of the glass fibers is ・14°g y3)
Suction 111) Sex? To obtain jE or thermal resistance value, 3-θ~
7.0 microns, preferably 3-05 to 20 microns, are used.
オJ I+ガのカラス繊維の平均直径は4− /層のカ
ラス繊維の平均直径より小さくするか、この差かあ土り
小さいと吸音断熱板取扱い時にお(Jるオフ層のカラス
繊訂1の折イ1か発生しや舅くなり、他)jこの差かあ
」Eりに大きいと小径の繊維の繊維化のための多(1七
のエネルギーか必υとなるので経済的でない。従ってオ
フ層のガラス繊糸11の平均直径は7.0〜グ、9ミク
ロン、好ましくは1.0〜ゲ、9ミクロンであり、オ/
層のそねよりも、すくなくとも0.3ミクロン小さく、
好士し、< Get (7,3〜2.3ミタ11ン小ざ
いことかより好t Lい。The average diameter of the glass fibers in the OJ I + layer should be smaller than the average diameter of the glass fibers in the 4-/layer, or if this difference is small, it may be difficult to handle the sound absorbing and insulating board (Crow fibers in the off layer 1). If this difference is too large, a large amount of energy will be required for the fiberization of small diameter fibers, which is not economical. Therefore, the average diameter of the glass fibers 11 of the off layer is 7.0 to 9 microns, preferably 1.0 to 9 microns, and
At least 0.3 microns smaller than the thickness of the layer,
< Get (7,3 ~ 2.3 mita 11 n small) is better than L.
オフ図においては、吸音断熱板/のオ/の層30表曲内
−)ぢ第2の層<Zい二接する側とは反対の表面!・か
露j装置゛こいる。吸音断熱利の施−I:取扱い時(ヘ
一作業者か表面3に触わるuJ能′l’lがある場合を
(−は、この表面kf二乃ラう織缶その他の表装月を貼
f=Jすることか好TI Lい。In the off view, the layer 30 of the sound-absorbing and heat-insulating board / is inside the curve - ) 2nd layer < Z 2 The surface opposite to the contacting side!・The equipment is here. Applying sound absorbing insulation benefits - I: When handling (when there is a surface 3 that can be touched by the worker) It is good to do f=J.
またオフ図に示1ように、51′均直径かタ、o〜7.
θミクロンのカジス繊M1からなるオ/の層31の両方
の表面側K ″l’均直径か/、0〜L9 ミク[jン
であるカラス繊糸1(からhるオフのJ・ご4/、q″
を、−i焚□けることがてきる。オ!の層グt、t7u
のそイ)ぞねの厚みはずくなくとも(:1..2111
111であり、第20層+’、+”の合泪厚、、77f
i、i l吸?″f IIi+熱板の厚みにλ+1し−
(多くともざ0%、より好土しくけ多くとも7に%であ
る。Also, as shown in the off-line diagram 1, 51' uniform diameter kata, o~7.
Both surface sides of the layer 31 made of θ micron Kazi fiber M1 have a uniform diameter of 0 to L9. /, q″
It is possible to burn -i□. Oh! layer gut, t7u
Nosoi) Even if the thickness of the zone is not thin (:1..2111
111, and the combined thickness of the 20th layer +', +'', 77f
i, i suck? "f IIi + λ + 1 to the thickness of the hot plate -
(At most 0%, better soil is at most 7%.
一般にガラス繊糸11製吸音断熱版は、厚、J〕および
密度が一定の場合、イイ1を構成するカラス繊維の(1
′均直径か小さい程、吸、5!1.lf性および断熱j
1.能か優れていることか知ら第1ている。In general, when the thickness, J] and density of a sound absorbing and heat insulating plate made of glass fiber yarn 11 is constant, the glass fiber (1
'The smaller the uniform diameter, the more sucking, 5!1. lf properties and insulation
1. The first thing you need to know is whether you are good or good.
大きい゛11.l=’、+直径d1のガラス供託かI□
)4L゛るオ/の層と、その表向に、投(また小ざな平
均直径(コ3のカラス繊維からなるオ!の層とからなる
本発明の1吸音断熱板は、そわと同一のjl、7みおよ
び密度を白しdlのガラス椹;糾の?11− の層から
ろる従来の吸音板よりも旨い吸音特性を看しており、か
つd2のガラス繊維θ)中・の層から44る従来の吸?
′を断熱板とほぼ宿しい吸音特性を(r−する。Big゛11. l = ', + glass deposition of diameter d1 or I□
1 sound absorbing and heat insulating board of the present invention is composed of a layer of 4L (0.5L), and on the surface thereof, a layer of 0.02 (0) made of crow fibers with a small average diameter (3). It has a better sound absorption property than the conventional sound absorbing board which consists of layers of white and dl; glass fibers of d2; Traditional sucking from 44?
' is a heat insulating board and has almost the same sound absorbing properties as (r-).
このようろ゛ず<’ tlた吸t’i ”:?f ’M
をもだ(↓るには、d1+:> d2.、l、りもずく
ムくともo、tiミクτJン小さく、かつオー〇層の各
々の厚みは吸音断熱板の厚みに対し、てすくなくとも7
0%であることが好ましい。Like this <' tlta suckt'i ”:?f 'M
(↓ To do this, d1+:> d2., l, rimozukumukumoo, timik τJn is small, and the thickness of each layer is at least 7 times the thickness of the sound-absorbing and heat-insulating board.
Preferably it is 0%.
本発明(1)吸音断熱板は通常は」、0〜AOmn+の
厚ミド、10〜300Kg/m3の密度をイJする。・
−の[及)’l、 Il力熱板はたとえは20〜乙0m
l1lσ)ljノさと10〜32Kg/m3の密度をイ
1Aる帯状のものでもよく、70〜乙Q +n +++
の厚さと/にl 〜/、!oKg/m”の密度を石−4
゛る四角形のボード状のものでもよく、また特定の肘状
にプレス成形2Xオじ(自動車のフードライナー、トッ
プライナーに用いられる」、0〜乙0III III厚
I)と70〜300Kg/nI3の密度を0するもので
もよい。The sound absorbing and heat insulating board (1) of the present invention usually has a thickness of 0 to AOmn+ and a density of 10 to 300 kg/m3.・
-'s [and)'l, Il power heating plate is 20 to 00 m.
It may be a belt-shaped material with a density of 10 to 32 Kg/m3, and 70 to 32 kg/m3.
The thickness of /to l ~/,! The density of oKg/m” is stone-4
It may be a rectangular board shape, or it may be press-molded into a specific elbow shape. The density may be set to 0.
1fお、本発明におけるカラス繊維の平均直径の測定は
次のようにしておこ6′)。1f. The average diameter of the glass fibers in the present invention is measured as follows6').
吸音断熱板からカラス繊維層を切り取りこわを約SOO
″Cて30分間熱処理して結合剤を除き、その中の3)
)所からぞ41ぞれ約/グラムの繊維を取り、更にそ1
1ぞれ、2.0本の繊維をとり、電r−顕11孜鏡に、
Pッテ’r(’)直?、Y、 ヲ0.l it中(+’
fテi1.llI ’jil L、、゛1′均イl
値を求めて平均面体とする。Cut the glass fiber layer from the sound absorbing insulation board to reduce stiffness.
Heat treated at ``C for 30 minutes to remove the binder, 3)
) Take about 41/gram of fiber from each place, and add 1 more
1, take 2.0 fibers from each and place them in an electron microscope.
Ptte'r(') direct? , Y, wo0. It's in progress (+'
ftei1. llI 'jil L,, ゛1' Calculate the value and use it as an average hedron.
また1汲7:1断熱板の厚みはJIS A 930!;
に規足される泪l15.+1カ1人による。Also, the thickness of the 1.7:1 insulation board is JIS A 930! ;
15. +1 by 1 person.
次に本7’ffl明の実施例について図面を用いて1;
)a明しよう。Next, using the drawings, we will explain the embodiments of this book 7'ffl;
) Let's explain.
実施例/
第3図41171<’4ように、ガラス溶融窯//に二
おいて、溶fl配γれに一カラス末地/9はフ側アーノ
・−ス/2i′こおいて温度rill’1節をうOつつ
、そのJ角部のスパウト/3より流量をブラゾャー 1
gによって制Un サセツ−v、’+6開11r(3,
2−2!; / / 3 K lj+I 示すtl、
ja lz”わゆるIJ−タリーカスジェノi−θくに
よる繊劇1化装(rt、3s、:tt、37.3gw流
トシ、細繊化サセテ繊紐20 ドア:i、−+−ルクシ
コンニ1ンヘア、2 ’l j: K 集メらイ]て綿
、、!ノとなる。。Example/ As shown in FIG. While passing the first section, the flow rate is increased from the spout/3 at the J corner.1
Controlled by g Un Sasetsu-v, '+6 open 11r (3,
2-2! ; / / 3 K lj+I tl,
ja lz" So-called IJ-Tarikasu Geno i-θ Ku fiber play 1 conversion (rt, 3s, :tt, 37.3gw style toshi, fine fiberized sassete fiber 20 door: i, - + - Luxicon Ni 1 hair , 2 'l j: K 集MERAI]te cotton,,!ノ becomes.
=1ンベア、21の1・−カ」ではサク′>3ンボ7・
クス、75゛が1投けらねCおり、その内部の圧力を一
トげることにより集綿を容易に−4る。= 1 nbaa, 21 no 1・-ka” then Saku′>3 nbo 7・
A 75 inch cotton wool is thrown at one time, and by increasing the pressure inside the cotton, the cotton can be easily collected by -4.
この際、繊維(1−1装置贋7) ’5’ l(’、設
611、れた結合剤スゾト一、ノズル/乙より噴霧さね
た結介削/ンは繊オIIFの金るところ((−伺N’t
シ、−(いる。こ0)li’liにして集めらねた綿は
1図の右手カ向へと進ツメ、加熱炉(図/T<01”)
の中を通過さ七て結合剤を硬化さ1ノる。イしてこの加
熱硬化されたR1(のI” u’ii全面にアノl、ミ
箔十/の繊維化装置33.オーの繊維fL装置3乙 。At this time, the fiber (1-1 equipment fake 7) '5'l(', set 611, the applied binder, the nozzle/binder sprayed from the nozzle/b is the metal part of the fiber IIF) ((-Kin't
The cotton that was collected by li'li goes to the right hand side of Figure 1, and the heating furnace (Figure/T<01")
The binder is cured by passing it through the tube for 1 hour. Then, apply an anol to the entire surface of this heat-cured R1.
および第3の紙紐化装置1t 37ま−Cは同一のa4
ぐ的太イ41(糺+ z、−とえは平均直径が仏<Zミ
クロンのカラス繊Xイ[をf乍すオlのfMi ill
化裟IEt3gではぞ才1より約/、7ミクrJ >
411+い繊維、−4なゎら平均mr t’6がL7
ミク【1シ・のガラス繊肩トをイ/する。オlの緑U
AIi化装j1″73g Cl他の装置FX 33;
ヘ−37&’i1比しY m &(f (l−条f’ま
たとえば繊維化条f’l、たとえば繊糸1[化ガス量を
変史して操イ1させる(i L−、の様にし′〔作らね
た吸音11ji熱板の断面においてはオ夕の繊糾イ[、
装fV!−?ざ傾よ−1て繊維11.された1ηS分は
g′& i司に小1−ように>Iプラス繊糾層内月2の
層2乙をj1f成1−A/〜2♂繊肺化K ii’?
−C−11: lul+ 111’ J l 11 +
r+(分i1 N−/ 0) l(/j 、、27 ?
r 形成a−る。図の、)ざはアルミ2i’iである。and the third paper stringing device 1t 37-C are the same A4
41 (glue + z, -e is a glass fiber with an average diameter of <Z microns)
In the case of IEt3g, it is about 1/7 miku rJ >
411+ fibers, -4 average mr t'6 is L7
Miku's glass fiber shoulder strap. Ol's green U
AIi conversion equipment j1″73g Cl other equipment FX 33;
Y m & (f (l-thread f' or fiberized thread f'l, for example, fiberized thread f'l) In the cross section of the sound absorption 11ji heat plate, there is a large amount of fineness [,
Equipped with fV! −? Fiber 11. The resulting 1ηS is given to g′ & i, so that > I plus the layer 2 of the inner layer 2 is j1f formation 1-A/~2♂ ciliation K ii'?
-C-11: lul+ 111' J l 11 +
r+(min i1 N-/0) l(/j ,,27?
r formation a-ru. In the figure, ) is aluminum 2i'i.
得らtlだカラス!、E Rdk IJ l吸f(II
J1熱板(,1約3ommの11〕みと3.2 )(g
/n+ :うの密度’r (、+シ(−、J ; リ、
J= / +i) 層270) 厚J1.4.t、約t
l 、!n+ nI’(’ 、If j、l、+2層)
乙の1!、7ノノは約/(mm −cあ−・l−の ・
二の段?’l’ If)r熱板をFて持ってJr、v、
り俵−5てもガンスト代糸11の月相11女がt <
lx < 、*うたPにf」着し5て痒くへる。二とi
、t i:’tとんど乙1゛か−1た。I got it, crow! , E Rdk IJ l suction f(II
J1 hot plate (11〕 of about 30mm) (3.2 g
/n+: Density 'r (, + shi(-, J; ri,
J= / +i) Layer 270) Thickness J1.4. t, about t
l,! n+ nI'(', If j, l, +2 layers)
Part 1! , 7 nono is approximately / (mm -ca-・l-'s ・
Second step? 'l' If) r Hold the hot plate at F, Jr, v,
Even if it's a straw bale-5, the moon phase 11 woman of Gunst yarn 11 is t <
lx < , *I put f' on the song P and it hurts. two and i
, ti:'t was just 1゛ or -1.
実施例2
火炎法し二より繊維の゛+1均直径か3.9ミ々℃1ン
てあり、繊維か末7111.!化の樹脂1x着剤で1γ
着され゛(いる、2mX2mで屯さ10oo g (
uJI指を古よ1′)のカラス生つ−/17:7トをノ
枚(八、B)用意イーる。Example 2 The flame method was used to prepare two fibers with a uniform diameter of 3.9 mm and a temperature of 7111. ! 1γ with resin 1x adhesive
Arrived, 2m x 2m and 1000 g (
Prepare 17:7 pieces (8, B) of uJI fingers.
これと別に同様に゛1′均直径か3.タミク11ン−で
、同みこむように積層し、これを自動i1jノー トラ
イチー用ブレス型に入れて加圧加熱してざoogim2
の−7−ドライナー吸音板か?jJられた。この]吸音
板は最も厚みσ)小さな縁部では約2mmの厚みを有し
てお1フ、吸音イー」として作用する最も厚みの大きな
部分では約23mmであり、その部分の断面をみる古、
両表面側の3.9 、:りjJンのtR紐布部分厚シは
そねぞれ約gmmであり、中心部の3.3 ミタロ/の
繊糾部分Cハ厚みは約9 +n mであった。このフ−
ドー少イJ−−−吸音板は取り扱いの際にも繊維のyI
klにや繊維(1)身体\d)イ:’i Xiも牛I、
ることかなく 、If常に施−1−11″′I゛か]↑
(,1t−Cおり、そ(1)入面シ()1、j別41に
扱(1をat!; t、−i −ii 、で)・l:・
要は全くなか−、た。Apart from this, similarly ``1'' uniform diameter or 3. Using Tamik 11-N, layer them so that they are all the same, put them in an automatic i1j no-try-chi bracelet mold, heat them under pressure, and make them.
-7- dryer sound absorbing board? jJ was beaten. This sound-absorbing board has a thickness of about 2 mm at its smallest edge, and about 23 mm at its thickest part, which acts as a sound-absorbing board.
The thickness of the 3.9mm tR string fabric on both surface sides is approximately gmm, and the thickness of the 3.3mm thick part C in the center is approximately 9+nm. there were. This fu-
When handling the sound absorbing board, the fiber's yI
kl Niya Fiber (1) Body\d) I:'i Xi is also a cow I,
If you always use -1-11'''I゛]↑
(, 1t-C, so (1) entry () 1, j separately 41 (1 at!; t, -i -ii, in)・l:・
The point is not at all.
[1)較のため、全体か平均直径3.qミラTiフン弔
体のgoot)ym2フー ドライナー1吸にN?之を
製造17、・−才1に前記(1)3層1′−1q造/7
)本発明の1及♂゛7板の1汲昌f)+慴を測定したと
ころ(ばば同等の値かイ[Lらねた。[1) For comparison, the overall or average diameter 3. q Mira Tifun funeral body goot) ym2 food N for 1 smoke of dry liner? Manufacture 17, 1, above (1) 3 layers 1'-1q construction/7
) When we measured the value of the 1st and 7th boards of the present invention, we found that the value was equivalent to that of the 7th board.
次に実施例/て用いた製造装置′tにおい−(3をの繊
維fE装ryt 3t 、 s7.3g 全作動すl)
、ctut+化装置3乙おJ、び3gl”Cよ−、て
平均直径が3゜ンミ々ロンのガーラス繊糾を、繊組化装
置37に」、−1−(−1′均直径かSSミクロンのカ
ラス繊aを(−j’l (−れ作る。。Next, the smell of the manufacturing equipment used in the example (3 tons of fibers, 7.3 g, fully operated)
, ctut + forming device 3, Make micron glass fiber a (-j'l (-re).
二I L、、 /75 ヨンーlン′\7− カら出て
きた牛つ−]17.ノドを上記と同様に自動iノ・−ド
′ンイナ・−用グレス型(、・r入れ−(加圧加熱I−
,−(g 009/m2 ]−、r−)” e −fナ
ー吸音板か?!J rhれた。最も厚みの大きな部分の
厚みノ、’; ++++nの断面をみるJ・、両表面側
の9.9ミ々ロンn(雄部分の厚みはそイ1(わ約J’
+n+n−Cあり、中心部の3−、S′ミクロンの繊維
1110)の厚1ノは約9mmてあ2、ノ、―。2 I L,, /75 Yon-ln'\7- The cow that came out of the car] 17. In the same way as above, attach the grate type for automatic injection throat (,・r insertion) (pressure heating I-
,-(g 009/m2 ]-, r-)" e -fner sound absorbing board?! J rh. See the cross section of the thickest part, '; +++++n J., both surfaces 9.9 mm (thickness of male part is about 1)
There is +n+n-C, and the thickness of the 3-, S' micron fibers (1110) in the center is about 9 mm.
この吸音板も施工性かすぐlビCおり、吸ざ!I”i・
1ダトも上記と同(S′トてあ−、た。。This sound-absorbing board is easy to install and absorbs quickly! I”i・
1 dato is the same as above (S'totea-, ta.
実施例3
平均直往か2.0ミ々し2ンの生つ−ノI−マ、ノド)
枚(各7000グラム)と、夕3ミタ[jンの牛つ−ノ
し一7ノト (iooo〕j゛ラム)を3”、タミク1
1ンσ)ノlか中間になるよ′)に3桟積層し加圧加熱
してl’、J、’ j*ノ3mmてざ00夕y’ +u
2のガラス繊M1製[吸音断熱板を什Iた。Example 3 An average of 2.0 mm (2 min)
(7,000 grams each), 3” of beef meat (iooo), 1 ounce of beef, and 1
Laminate 3 crosspieces on 1mm σ) or 1mm or 1') and heat under pressure to make 1', J,' j * 3mm and 00'+u.
2.Made of glass fiber M1 [includes sound absorbing and heat insulating board].
断面い―お(する〕、〕op、s、タ1’+お、Jび2
.0μのノlラス繊Xイ1())II?み(jはtro
t /二/:/(丁あったo(ニオ1と別にIi1つ直
?1:か]、0ミクL1シ、工、タミク【rン。Cross section I-O (suru),] op, s, ta1'+o, Jbi2
.. 0μ Norasu fiber X I1())II? Mi (j is tro
t /2/:/(Ding was o(Nio 1 and Ii 1 direct? 1:?), 0 Miku L1shi, Engineering, Tamik [rn.
およびん、5ミクロンの生つ−ルマ、ノド、3枚から十
と同様に[7てそれぞれ厚み23 mm 、 g00
9/m”の3枚のQi体の吸音断熱板を?1)た。7 and 5 microns, respectively, 23 mm thick, g00
9/m" three Qi sound absorbing and heat insulating boards were installed.
本発明の試料/稗と比較試$’lI311IIIO)!
; OOHZおよび10OOI(Z における垂直人躬
吸?’7率を測定(、たところ表に示す通りであり、本
発明はいず′Iiの比り1q試利よりもずぐねた吸音性
1イ1−をイjする9二とが判F11111.た。Sample of the present invention/grain and comparative sample $'lI311IIIO)!
Measured the vertical human absorption rate at OOHZ and 10OOI (Z), as shown in the table. - is 92 and the size is F11111.
表table
第7図は本発明の吸音断熱板の7つの実施例の断面図、
オノ図は本発明の他の実施例を小寸断面図、4・3図は
本発明を吸音断熱板を製造するための装置を小−4−側
面図、第1図は第3図に/i< i−製造装置により製
造した本発明の1吸音断熱板を7J<ず断面図である。
/・・・・・・・ノノノス繊組製吸音断熱扱。
3.3/、、27・・・・・・カラス繊維のオ/の層。
ゲ、tit、、、2乙・・・・・・カラス繊M1のオノ
の層丁 xg、y 袖 jl ノ4(1l
式911rイ土+lsg、<1l月’?El′I’s’
I損11r−F、t’自)1投/ ll’lの表2
11
Q−!F ))fl l1l−: ’フ −/μ輛−7
乙舅−−一時−公昭°−−−“票=−″−−−−−二°
号−一つt;?、11月L′)4.[亦
ツノ7!2ミドJi1idlull?艷r1uIn電1
(反j″ i山L[*j−K、/i
・h j#とL二)関係 7t、y許出願人イ11°1
丁 大阪府大阪市東区道修町4 ”T [:18番地?
で; f′J、 (/7L・仁))F−1
本 4反 6肖 子 (朱 〒(会 ね代表者 ・
1・11 賀 イパ 、blrり代■甲人
明イ1111 i1+・’)A/s iq 3別紙の通
))全・え1111(4\3((ぢ・7と同様K l、
−t (−Jl、 (’ 111!7ノノ、23
mm 、800’;’/In2の3枚のl1l体の1
吸音旬1蘭(板を得た。
本う一6明のHA: 峯’t / 1111 =j:
Jf、較試料34’、’H(’)、!; 001(Z’
j3 J、ひ100011.Z 7(Jl:りる3r1
1μ人a、t 119 t’−r ’4<を測足したと
ころ表に小ずJI71りであり、本9o明はいり”tl
の比較試料よりもAぐれた吸音9“、)f′4:をイF
”JるJ−とが判明した。
表FIG. 7 is a cross-sectional view of seven embodiments of the sound-absorbing and heat-insulating board of the present invention;
Figures 4 and 3 are small side views of an apparatus for manufacturing a sound absorbing and heat insulating board according to the present invention, and Figure 1 is a small sectional view of another embodiment of the present invention. 7J< is a cross-sectional view of a sound absorbing and heat insulating board of the present invention manufactured by the manufacturing apparatus. /・・・・・・Sound absorption and insulation made by Nononosu fibers. 3.3/, 27...O/ layer of glass fiber. ge, tit..., 2 Otsu... Crow fiber M1 ax layering xg, y sleeve jl ノ4 (1l
Formula 911r i + lsg, <1l month'? El'I's'
I loss 11r-F, t' own) 1 throw/ll'l Table 2
11 Q-! F))fl l1l-: 'F-/μ輛-7
Otsu - - Temporary - Kosho ° - - "Vote = -" - - - - -2 °
No. - one t;? , November L')4. [Atsuno7!2 Mid Ji1idlull?艷r1uInden1
(Anti-j″ i-mountain L [*j-K, /i ・h j# and L2) Relationship 7t, y applicant i 11°1
Ding 4 Doshomachi, Higashi-ku, Osaka-shi, Osaka ”T [: 18?
So; f'J, (/7L・Jin))F-1
Book 4 6 Xiaozi (Zhu 〒(Representative)
1.11 Ka Ipa, blr Riyo ■ Kojin Akii 1111 i1+・') A/s iq 3 Attachment)) All E1111 (4\3 ((Same as d.7 K l,
-t (-Jl, (' 111!7 nono, 23
mm , 800';'/1 of three l1l bodies of In2
Absorption Shun 1 Ran (obtained board. Honuichi 6 Akira's HA: Mine't / 1111 =j:
Jf, comparison sample 34', 'H('),! ;001(Z'
j3 J,hi100011. Z 7 (Jl: Rir3r1
When I measured 1 μ person a, t 119 t'-r '4<, the table shows a small amount of JI71, and the book 9o is light.
The sound absorption is worse than that of the comparison sample 9'', )f'4:
“JruJ-” has been revealed.Table
Claims (1)
繊維からなるオ/の層と、前記オ/の層の一方または両
方の表向側に設けた、平均直径が7.0〜I1.9ミク
ロンであるガラス繊維からなるオノの層とからなるカラ
ス繊組製吸音断熱板−Cあ−、て、前記オノの層のガラ
ス繊M1の平均直径GJ前記オ/の層のそれよりも1く
なくとも0.3ミクF1ン小さく、前記オーの層の各々
の厚ノJはす< ll くとも0..2mmであり、か
つオー〇層の19めの合J1は吸音断熱板の厚みに対し
5て多くとも20%であるカラス繊維製吸音断熱板。 (シシ)前記オ/の層のljガラス繊維泪均直径は左、
S〜6.3−ミクロンであり、前記オノの層のガラス繊
維σ)平均直径はq、o−4,9ミクロン−(−あって
、かつ前記オ/の層のぞねよりも0.S〜!、3ミクロ
ン小さい特許:ft’i求の範囲オ/項記載のカラス繊
M1製吸音断熱板。 (3)前記第2の層は前記オ/の層σル一方の表面側C
・(−設けらJ]ており、+)iJ記オノの層の厚みは
吸音断熱板の厚みし一対して多くともゲ。%である特+
!’l’ :tfi求の範囲オハ〜−項記1戒のカラス
繊祁製吸Iff断熱板。 (4)前記オノの層の各々の厚みは吸音断熱板のjνZ
ノに対し、て・i < /r くとも10%−Cある特
許請求の範囲オ/〜3珀記載のカラス繊維製吸音断熱板
。 (5)前記吸1′1断−:゛(5板はr、o−i、o
mmの1’? =7tを有する1、旨t’l’ 17
rf本tJ)j俺囲オ/〜1項記載のガラス繊維製1汲
音[(J1熱扱、。 0〕)前記1m i’f IQ+ 熱板は10〜、?o
oKg/ln3ノ密I−V k 自する特許請求の範囲
オフ−5項記載のガラス繊組製吸音断熱41に1、 (7) 前記吸音断熱板は70〜3.2Kg/m・3
の糸瓜と帯状マツ!・形状を、fllる特許ji’f求
の範囲オ乙項1l111a:のガラス繊維製吸音断熱板
。 (8)前記吸音断熱板は10へ/、20Kg/m3の密
1りと四角形状を右するQ、′f許an求の範囲オ乙瑣
記載のカラス繊組製吸音断熱板。 (,4) ][三状をイj−4る特+f’l’ lt#
求の範囲オ乙項記載のカラス繊糾製吸t′5断熱板。 <+n)+iiJ記十/の層およびオノの層は樹脂接、
γi剤を被WIシたそj−tfJt 5 、O−7,0
ミクロンおよびi、o −L9ミ′ノロ〕の゛ト均1白
径を白−するガラスを親糸[1を不−1層し7.0貿に
応[、て加圧しなから、IJ11熱イl’Jiftさ一
口て一体化L、たもの“−(゛ある”l”T i’t’
l’ fjl’l求(1)範囲オ/〜りJli RZ
4Δ!の力′ンス繊糸11製吸gt IIJI躬口役。[Scope of Claims] (1) An o/layer made of glass fiber having an average diameter of 3.0 to 7.0 microns, and an average A glass fiber sound-absorbing and heat-insulating board consisting of an ax layer made of glass fibers having a diameter of 7.0 to I1.9 microns - C, T, an average diameter GJ of the glass fibers M1 of the ax layer; The thickness of each of said O layers is at least 0.3 μF1 less than that of the / layer. .. 2mm, and the 19th layer of the O layer, J1, is a sound-absorbing and heat-insulating board made of glass fiber that is at most 20% of the thickness of the sound-absorbing and heat-insulating board. (Shishi) The lj glass fiber diameter of the above layer is on the left,
S ~ 6.3 microns, and the average diameter of the glass fibers in the above layer is q, o - 4,9 microns (-, and 0.S ~!, 3 microns smaller patent: ft'i required range o/ Sound absorbing and heat insulating board made of glass fiber M1 described in section (3) The second layer is one surface side C of the layer σ of the above mentioned o/
・The thickness of the layer (+) is at most the same as the thickness of the sound-absorbing and heat-insulating board. Special + that is %
! 'l': Tfi-required range Oha ~ - Insulation board made of crow fiber with 1 precept. (4) The thickness of each of the ax layers is jνZ of the sound absorbing and heat insulating board.
The sound-absorbing and heat-insulating board made of glass fiber according to claim 3, wherein: (5) Said suction 1'1 cut-: ゛(5 plates are r, o-i, o
1' in mm? = 1 with 7t, meaning t'l' 17
rf book tJ)j I'm O/~The glass fiber 1 pump sound described in item 1 [(J1 heat treatment,. 0]) The 1 m i'f IQ+ heat plate is 10~,? o
oKg/ln3 no density I-V k Claims Off-1 to the glass fiber assembly sound-absorbing and heat-insulating 41 described in item 5, (7) The sound-absorbing and heat-insulating board is 70 to 3.2 Kg/m·3
Thread melon and band pine!・A sound absorbing and heat insulating board made of glass fiber whose shape is within the scope of the patent request. (8) The sound-absorbing and heat-insulating board is a sound-absorbing and heat-insulating board made of crow fiber assembly as described in item 10 and 20 Kg/m3, and has a rectangular shape. (,4)]
Scope of Requirement A heat insulating board made of crow fiber as described in item (A) and (B). <+n)+ii Jki 10/ layer and Ono layer are resin bonded,
WI-tfJt 5, O-7,0
Micron and I, O-L9 micron] glass with a uniform white diameter of 1 layer is made into a parent yarn [1 layer with 7.0 mm], and then pressurized with IJ11 heat. I'Jift, it's all one thing L
l'fjl'l (1) Range o/~ri Jli RZ
4Δ! The role of Mikuguchi in the force's Sensai 11 GT IIJI.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP16442682A JPH0249218B2 (en) | 1982-09-21 | 1982-09-21 | GARASUSENISEIKYUONDANNETSUBAN |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP16442682A JPH0249218B2 (en) | 1982-09-21 | 1982-09-21 | GARASUSENISEIKYUONDANNETSUBAN |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS5954547A true JPS5954547A (en) | 1984-03-29 |
| JPH0249218B2 JPH0249218B2 (en) | 1990-10-29 |
Family
ID=15792924
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP16442682A Expired - Lifetime JPH0249218B2 (en) | 1982-09-21 | 1982-09-21 | GARASUSENISEIKYUONDANNETSUBAN |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0249218B2 (en) |
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS60162849A (en) * | 1984-02-02 | 1985-08-24 | 日本無機株式会社 | Production of composite glass fiber mat |
| JPS61501910A (en) * | 1984-04-20 | 1986-09-04 | ユナイテッド・テクノロジ−ズ・コ−ポレイション | Method for manufacturing fiber-reinforced composite material articles |
| JPS61501911A (en) * | 1984-04-20 | 1986-09-04 | ユナイテッド・テクノロジ−ズ・コ−ポレイション | Method for manufacturing fiber-reinforced composite material articles |
| JPH02182450A (en) * | 1989-01-10 | 1990-07-17 | Asahi Fiber Glass Co Ltd | Sound absorbing heat insulating plate |
| JPH0459243A (en) * | 1990-06-28 | 1992-02-26 | Nippon Steel Chem Co Ltd | Lightweight plate material and manufacture thereof |
| EP1710076A1 (en) * | 2005-03-08 | 2006-10-11 | Johns Manville International, Inc. | Nonwoven fibrous mat laminate and method |
-
1982
- 1982-09-21 JP JP16442682A patent/JPH0249218B2/en not_active Expired - Lifetime
Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS60162849A (en) * | 1984-02-02 | 1985-08-24 | 日本無機株式会社 | Production of composite glass fiber mat |
| JPS61501910A (en) * | 1984-04-20 | 1986-09-04 | ユナイテッド・テクノロジ−ズ・コ−ポレイション | Method for manufacturing fiber-reinforced composite material articles |
| JPS61501911A (en) * | 1984-04-20 | 1986-09-04 | ユナイテッド・テクノロジ−ズ・コ−ポレイション | Method for manufacturing fiber-reinforced composite material articles |
| JPH0244271B2 (en) * | 1984-04-20 | 1990-10-03 | Yunaitetsudo Tekunorojiizu Corp | |
| JPH0244270B2 (en) * | 1984-04-20 | 1990-10-03 | Yunaitetsudo Tekunorojiizu Corp | |
| JPH02182450A (en) * | 1989-01-10 | 1990-07-17 | Asahi Fiber Glass Co Ltd | Sound absorbing heat insulating plate |
| JPH0459243A (en) * | 1990-06-28 | 1992-02-26 | Nippon Steel Chem Co Ltd | Lightweight plate material and manufacture thereof |
| EP1710076A1 (en) * | 2005-03-08 | 2006-10-11 | Johns Manville International, Inc. | Nonwoven fibrous mat laminate and method |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH0249218B2 (en) | 1990-10-29 |
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