JPS5845049A - Synthetic plane material - Google Patents
Synthetic plane materialInfo
- Publication number
- JPS5845049A JPS5845049A JP14354981A JP14354981A JPS5845049A JP S5845049 A JPS5845049 A JP S5845049A JP 14354981 A JP14354981 A JP 14354981A JP 14354981 A JP14354981 A JP 14354981A JP S5845049 A JPS5845049 A JP S5845049A
- Authority
- JP
- Japan
- Prior art keywords
- synthetic
- planar material
- intermediate member
- flat
- plane
- 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
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】
この発明は強度の方向性を極力無くした合成平面材に関
するものである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a synthetic flat material in which the directionality of strength is minimized.
一般に合成平面材は1M度を待友せるために上側平面材
と下側平面材との間に中間部材を介在させており、且つ
軽量化t−はかるためにjN/図に示すように、中間部
材JlJを各櫂1ii1mam書が直線となるように波
状にうねらせて成形する。In general, synthetic planar materials have an intermediate member interposed between the upper and lower planar materials in order to maintain a 1M degree, and in order to reduce the weight, an intermediate member is provided as shown in the figure. The member JlJ is molded in a wavy manner so that each paddle is a straight line.
ところで、上記構成の合成平面材(3)であると、11
I接する稜線(り・・・によって区割され上面と裏−が
反対に対応する中間部材口1の凹rkU部(41及び曲
間5(6)と、上下刷子If[i部材(al +71と
で形成される夫々の中空柱tall +9)は平行に1
−い、このため合成平面材(31は強度に方向性を有す
る。By the way, the synthetic planar material (3) with the above configuration has 11
The concave rkU portion (41 and the curved space 5 (6) of the intermediate member opening 1, which is divided by the ridge line that contacts I and whose upper and back surfaces correspond oppositely, and the upper and lower brushes If[i member (al +71 and Each hollow column tall +9) formed by
- Therefore, the synthetic planar material (31) has directionality in strength.
即ち、上記合成平面材(31は!l@(2+−−・と平
行なV山よりも、直交する断面の断面係数の方が格段に
大きく、従がって曲げ91度は稜線(2)・・・の方向
が最大で、反対に稜線(z)・・・と直交する方向が最
小となり、相方の差も大きい。In other words, the section modulus of the cross section perpendicular to the synthetic planar material (31 is much larger than that of the V peak parallel to !l@(2+--), and therefore the 91 degree bend is the ridge line (2) The direction of ... is the maximum, and the direction perpendicular to the ridge line (z) ... is the minimum, and the difference between the two sides is also large.
また合成平面材1i1 n面内に働らく外力による座M
Ij!lII!tも同様な理由で、唆@ +21・・・
の方向が最大で、反対に直交する方向が最小となシ、相
方1)44大きい。In addition, the seat M due to the external force acting on the synthetic plane material 1i1 n-plane
Ij! lII! For the same reason, t suggested @ +21...
The direction is the maximum, and the direction orthogonal to it is the minimum.
このことは啼@tel@・・と上下平面材(6)(マ)
の像合面が少なく、且つ接合民場も短かいから外力によ
って接合lが外れてしまうIIIJ能性’i*mに入れ
^と、li!II!iの方向性は更に看るしいものとな
る。この結果、合成平面材fil ′t−使用する場合
Kri、慟ら〈外力の大きさと方向に応じて稜纏(21
・・・の方向を決定せねばならず収り扱いが面倒である
。This means 啼@tel@... and the upper and lower plane members (6) (Ma)
Since the image plane is small and the joint length is short, the joint l can come off due to external force. II! The directionality of i becomes even more striking. As a result, when using synthetic planar material fil't, Kri et al.
The direction of... has to be determined, making it troublesome to handle.
この発明は従来の合成平面材の上述した欠点に謹みこれ
を改善する九め、面内で相互に同位相で多数の波状會な
すm機によって区割され、上#n側と1&山側が反対に
対応する凹t1[1都及び凸面部とで中111i部材全
形成することによって強度の方向性を極力無くした合成
平l材であって、以下こg)発明の実施例t−Fgに従
がって説明すふと次の通りである。This invention aims to improve the above-mentioned drawbacks of the conventional synthetic flat material.Ninth, the plane is divided by a large number of wavy waves in the same phase with each other, and the upper #n side and the 1&crest side are opposite. It is a synthetic flat l material in which the directionality of strength is minimized by forming the entire center 111i member with the concave t1 corresponding to the concave part and the convex part. The explanation is as follows.
第2図はこの合成平面材の斜視図を示し、図中t101
1111は薄板で形成される下側平面材と下側平面材で
あって、仕様にろじて合戊檎脂材、木材、紙材、金属材
料及びこれ等全組合せたもV)の内より過当なものが選
択される。上記の上下側平面材−1111は連続した平
面であっても良いし、また格子状に穴の明い丸網目状の
平面であっても艮い。FIG. 2 shows a perspective view of this composite planar material, and in the figure t101
1111 is a lower plane material and a lower plane material formed of thin plates, and according to the specifications, synthetic resin material, wood, paper material, metal material, and all combinations of these materials are selected from V). The correct one is selected. The above-mentioned upper and lower planar members 1111 may be continuous planes, or may be circular mesh planes with holes arranged in a lattice pattern.
d21は上記上下側平面材(1α10)の間に固會した
中間部材であって、上面及び嫌面内に夫々が同位相であ
って、夫々の波長(^)が振巾flL1のおよそコ倍で
あるff 4i ill・・−及び横−0着−・・が形
成する表面波【有し、この稜線+131・・・反び後層
J4・・・によって区割され、上面側と裏面側が反対に
対応し、而も半分ずつ會共有し合う凹面部情と凸閣部I
llとで#l我されふ。d21 is an intermediate member fixed between the upper and lower plane members (1α10), and the upper and lower surfaces are in the same phase, and each wavelength (^) is approximately twice the amplitude flL1. The surface waves formed by ff 4i ill... Corresponding to this, the concave part and the convex part I share each other's half of the meeting.
ll and #l will be with you.
上記中r111部材dfaは上下間平面部材11(1f
illと同様に仕様に応じて過当′な材質が選択される
と共に、材質に応じてプレス711n工或いは射出によ
って成形され、連続した面であっても良いし、格子状に
穴の明いた網目状の圓であっても良い。The above middle r111 member dfa is the upper and lower flat member 11 (1f
As with ill, an appropriate material is selected according to the specifications, and depending on the material, it is molded by press 711n or injection, and it may be a continuous surface or a mesh with holes in a lattice pattern. It may be a circle of
尚、伏−I・・・及び槓41114・・・が形成する1
!!面波の波梃(λ)と振巾(a)とは材質、便用目的
によって任意Ki4択できるものとする。In addition, 1 formed by Fu-I... and Kaku 41114...
! ! It is assumed that the force (λ) and amplitude (a) of the surface wave can be arbitrarily selected depending on the material and the purpose of convenience.
合我平「植材を上記上下平面材+1011111と中間
材1111とで構成することにより、凹面部+1lil
と上平′面材叫、及び凸面gJf5と上平面材(111
とで形成される中空柱un 1+111は合成平向材の
面内で@ @ fiS・・・及び被−a4・・・に沿っ
て蛇行する。この九め合成平向材のあらゆる方向のwT
圓における断面における断th1gA故は大差のない値
となる。Aigadaira "By configuring the planting material with the above-mentioned upper and lower flat materials +1011111 and intermediate material 1111, the concave surface area +1 lil
and the upper flat surface material, and the convex surface gJf5 and the upper flat material (111
The hollow column un 1+111 formed by and meanderes along @ @ fiS... and -a4... within the plane of the composite flat material. wT in all directions of this nine synthetic flat material
The cross section th1gA in the cross section of the circle is a value with no significant difference.
以上説明し九ように仁の@明は面内で相互に同位相で多
数の波状tなす稜−によって区@され、上面側とJI[
f1側が反対に対応する凹ll0II及び凸面部とで中
間部材全形成した合成平面材でろって、凹rjn廊、凹
面部と上下平面材とで形成される各中空柱は夫々の万同
tma的に賛化壊せながら並行して連結する。As explained above, JI [
The f1 side is made of synthetic planar material in which the intermediate member is entirely formed by the corresponding concave ll0II and the convex part, and each hollow column formed by the concave part and the upper and lower planar parts has its own tma. It is connected in parallel while being broken down.
このため合成平面材に鋤らく剪断力及び座肩WIN!V
C対する耐力の指向性が従来の合成平向材に比べて小さ
くなあ、従って外力の檜娯、大$さ、方向に応じて合成
平面材v回自klilLh&要がなく、駅シ扱いか容易
となる。更に中間部材の凹面部及び凸Ij[lsの披−
は並行して蛇行するから、その経路は従来の合成平板の
ものと比べて址<、上下平面材との破合強度が鵬くなるFor this reason, the shearing force and seat shoulder of the synthetic planar material are reduced! WIN! V
The directionality of the yield strength against C is smaller than that of conventional synthetic flat materials, so there is no need for synthetic flat materials to be rotated depending on the external force, magnitude, and direction, making it easy to handle as a station. Become. Further, the concave surface portion and the convex portion Ij [ls of the intermediate member]
Because they meander in parallel, their paths are lower than those of conventional composite flat plates, and the fracture strength with the upper and lower flat plates is lower.
第1rkJは従来の合成平板の斜視図を示す。第2図は
この発明″に保る合成平板の実施例を示す斜−構図であ
る。
′明・・上一平面材、+111・・下側平面材、112
1・・中間部材、ll1lI4・・稜線、1161・・
凹面部、O均・・凸面部。The first rkJ shows a perspective view of a conventional composite flat plate. Fig. 2 is a diagonal composition showing an embodiment of a composite flat plate according to the present invention.
1...Intermediate member, ll1lI4...Ridge line, 1161...
Concave part, O-uniform... Convex part.
Claims (1)
た中間部材とで構成される合成平面材において、#層が
面内で相互に同位相で多数の波状紫なすと共に、この隣
接する稜線によって区割され上面側と娯面側が反対に対
応する凹面部及び凸[f[isとでIIrI記中間部材
を形成した仁とを特徴とする合成平面材。1) In a composite planar material composed of an upper planar material, a lower planar material, and an intermediate member interposed between the inner surface material, the # layer has a large number of wavy purple layers in the same phase with each other in the plane, and A synthetic planar material characterized by a concave portion and a convex portion divided by the adjacent ridge lines and having oppositely corresponding upper surfaces and entertainment surfaces, and a convex portion [f[is] forming an intermediate member according to IIrI.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP14354981A JPS605462B2 (en) | 1981-09-10 | 1981-09-10 | synthetic planar material |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP14354981A JPS605462B2 (en) | 1981-09-10 | 1981-09-10 | synthetic planar material |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS5845049A true JPS5845049A (en) | 1983-03-16 |
| JPS605462B2 JPS605462B2 (en) | 1985-02-12 |
Family
ID=15341324
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP14354981A Expired JPS605462B2 (en) | 1981-09-10 | 1981-09-10 | synthetic planar material |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS605462B2 (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO1987005262A1 (en) * | 1986-03-10 | 1987-09-11 | Hiroo Ichikawa | Compound corrugated body and manufacturing method and apparatus thereof |
| US5633059A (en) * | 1994-03-21 | 1997-05-27 | Mercedes-Benz Ag | Veneer for curved surfaces utilizing adhesive with selective flexibility outside the joint seam region |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US5314738A (en) * | 1989-03-10 | 1994-05-24 | Hiroo Ichikawa | Reinforced composite corrugate body |
-
1981
- 1981-09-10 JP JP14354981A patent/JPS605462B2/en not_active Expired
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO1987005262A1 (en) * | 1986-03-10 | 1987-09-11 | Hiroo Ichikawa | Compound corrugated body and manufacturing method and apparatus thereof |
| US5633059A (en) * | 1994-03-21 | 1997-05-27 | Mercedes-Benz Ag | Veneer for curved surfaces utilizing adhesive with selective flexibility outside the joint seam region |
Also Published As
| Publication number | Publication date |
|---|---|
| JPS605462B2 (en) | 1985-02-12 |
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