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JP3069132B2 - Manufacturing method of honeycomb core - Google Patents
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JP3069132B2 - Manufacturing method of honeycomb core - Google Patents

Manufacturing method of honeycomb core

Info

Publication number
JP3069132B2
JP3069132B2 JP2419165A JP41916590A JP3069132B2 JP 3069132 B2 JP3069132 B2 JP 3069132B2 JP 2419165 A JP2419165 A JP 2419165A JP 41916590 A JP41916590 A JP 41916590A JP 3069132 B2 JP3069132 B2 JP 3069132B2
Authority
JP
Japan
Prior art keywords
base material
adhesive
honeycomb core
pitch
predetermined
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 - Lifetime
Application number
JP2419165A
Other languages
Japanese (ja)
Other versions
JPH04232040A (en
Inventor
務 武藤
公敏 加藤
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.)
Showa Aircraft Industry Co Ltd
Original Assignee
Showa Aircraft Industry 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 Showa Aircraft Industry Co Ltd filed Critical Showa Aircraft Industry Co Ltd
Priority to JP2419165A priority Critical patent/JP3069132B2/en
Publication of JPH04232040A publication Critical patent/JPH04232040A/en
Application granted granted Critical
Publication of JP3069132B2 publication Critical patent/JP3069132B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Landscapes

  • Application Of Or Painting With Fluid Materials (AREA)
  • Laminated Bodies (AREA)

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、ハニカムコアの製造方
法に関する。すなわち、基材に対し所定のごとく接着剤
塗布,重積,加熱加圧,展張の各工程を施すことによ
り、ハニカムコアを製造する方法に関するものである。
The present invention relates to a method for manufacturing a honeycomb core. That is, the present invention relates to a method of manufacturing a honeycomb core by performing each of steps of applying an adhesive, laminating, heating and pressurizing, and expanding a substrate as specified.

【0002】[0002]

【従来の技術】ハニカムコアの製造方法は、従来一般的
には次のようになっていた。すなわちまず、帯状等をな
す金属又は非金属製の基材に対し、その幅方向又は長手
方向に所定ピッチで条線状に接着剤を塗布し、次に係る
基材を、所定長さ毎に切断し長方形等のシート状とした
後、塗布された接着剤が半ピッチずつずれた位置関係で
複数枚ブロック状に重積する。そして加熱加圧により接
着した後、このようにブロック状に重積接着された基材
を重積方向に展張することにより、ハニカムコアが製造
されていた。
2. Description of the Related Art A conventional method of manufacturing a honeycomb core has generally been as follows. That is, first, an adhesive is applied in a strip shape at a predetermined pitch in a width direction or a longitudinal direction on a metal or non-metal base material in a band shape or the like. After the sheet is cut into a rectangular sheet or the like, a plurality of the applied adhesives are stacked in a block shape in a positional relationship shifted by a half pitch. After bonding by heating and pressing, the base material thus stacked and bonded in a block shape is stretched in the stacking direction to manufacture a honeycomb core.

【0003】なお非金属製特に紙製の基材が用いられる
場合には、次のような製造方法が採用されることもあっ
た。すなわちまず、供給ロールから繰り出された帯状で
紙製の基材の一方面に対し、その幅方向又は長手方向に
所定ピッチで条線状に接着剤を塗布するとともに、基材
の他方面に対し、一方面の接着剤塗布位置と半ピッチず
つずれた位置関係にて条線状に接着剤を塗布する。そし
て次に接着剤が塗布されていない帯状で紙製の基材を、
上述により接着剤が塗布された基材に重ね、これらを円
柱状,多角柱状のドラムに巻き取ることにより、接着し
つつ重積する。しかる後所定長さ毎に切断し、このよう
にして得られブロック状に重積接着された基材を重積方
向に展張することにより、紙製等のハニカムコアが製造
されていた。
[0003] When a nonmetallic material, particularly a paper substrate, is used, the following manufacturing method may be employed. That is, first, an adhesive is applied in a strip shape at a predetermined pitch in a width direction or a longitudinal direction on one surface of a paper substrate in a belt shape fed from a supply roll, and on the other surface of the substrate. The adhesive is applied in a streak shape in a positional relationship shifted by half a pitch from the adhesive application position on one surface. And then, a band-shaped paper substrate with no adhesive applied,
By laminating on the base material to which the adhesive has been applied as described above and winding these onto a cylindrical or polygonal drum, they are stacked while being bonded. Thereafter, the substrate is cut at a predetermined length, and the base material thus obtained and stacked and bonded in a block shape is stretched in the stacking direction, whereby a honeycomb core made of paper or the like has been manufactured.

【0004】[0004]

【発明が解決しようとする課題】ところで、このような
従来のハニカムコアの製造方法にあっては、次の問題が
指摘されていた。まず前者、つまり従来一般的に行われ
ていた製造方法にあっては、次のとおり。
The following problems have been pointed out in such a conventional method for manufacturing a honeycomb core. First, the former, that is, the manufacturing method generally performed conventionally, is as follows.

【0005】まず第1に、接着剤塗布から重積までの工
程を一連の装置で連続的・自動的に実施できず、各作業
が面倒で生産効率が悪いという問題があった。すなわち
前述のごとく、接着剤が塗布された基材は、まず切断さ
れた後に手作業等により重積されていたので各個別の作
業となり、接着剤塗布から重積までを一連の一貫した装
置では実現できず、時間がかかり広い作業スペースも要
し面倒であり、生産効率が悪くコスト面にも問題があっ
た。
[0005] First, there is a problem that the steps from the application of the adhesive to the stacking cannot be performed continuously and automatically by a series of devices, and each operation is troublesome and production efficiency is poor. That is, as described above, the base material on which the adhesive is applied is firstly stacked and then manually stacked after being cut, so each operation becomes an individual operation, and a series of integrated devices from adhesive application to stacking is used. It could not be realized, it was time-consuming and required a large work space, which was troublesome, resulting in poor production efficiency and cost.

【0006】第2に、高品質・高精度なハニカムコアが
安定的に得られないという問題があった。すなわち、前
述のごとく手作業が介在するので品質にムラが生じやす
く、特に手作業による重積時に条線状の接着剤が正確に
半ピッチずつずれた位置関係とならず、ピッチずれが発
生しやすかった。又基材の伸縮によってもピッチずれが
発生しやすく、これへの対応は手作業による重積では困
難であり、更に基材が不透明な場合には確認が容易でな
く、この面からもピッチずれが発生しやすかった。もっ
てこれらにより、セル形状が均一なハニカムコアが得ら
れないとの指摘があった。
Second, there is a problem that a high quality and high accuracy honeycomb core cannot be stably obtained. That is, as described above, since the manual operation is interposed, the quality is likely to be uneven, and particularly when the manual lamination is performed, the line-shaped adhesive does not have a positional relationship accurately shifted by a half pitch, and a pitch shift occurs. It was easy. In addition, pitch shift is likely to occur due to expansion and contraction of the base material, and it is difficult to cope with this by manual lamination, and it is not easy to confirm if the base material is opaque, and pitch shift from this surface is also difficult. Was easy to occur. Accordingly, it was pointed out that a honeycomb core having a uniform cell shape could not be obtained.

【0007】次に後者、つまり非金属製特に紙製の基材
について行われていたドラム巻き取りを利用した製造方
法にあっては、次のとおり。
[0007] Next, the latter, that is, a manufacturing method utilizing drum winding performed on a non-metallic material, particularly a paper-made substrate, is as follows.

【0008】第1に、この従来例にあっては、接着剤塗
布から重積までの工程を一連の装置で連続的・自動的に
実施できる。つまり前述の一般的な従来例で指摘されて
いた第1の問題点は解消されるものの、次の問題が指摘
されていた。
First, in this conventional example, the steps from the application of the adhesive to the stacking can be performed continuously and automatically by a series of devices. That is, although the first problem pointed out in the above-mentioned general conventional example is solved, the following problem is pointed out.

【0009】すなわち第2に、依然として高品質・高精
度なハニカムコアが安定的に得られないという問題があ
った。すなわち、まずリボン方向に長尺なハニカムコア
が必要なために基材の幅方向に沿って接着剤を塗布した
場合、ドラムへの巻取径の増大に伴って、条線状の接着
剤の位置ずれつまりピッチずれが発生していた。又特に
円柱状のドラムを用いた場合には、巻き取られた基材に
巻きぐせ・アールが発生しやすく、事後の展張時等にお
ける取扱いに支障が生じていた。そしてこれらに起因し
て、セル形状が均一なハニカムコアが得られなくなると
の指摘があった。
[0009] Second, there is a problem that a high-quality and high-accuracy honeycomb core cannot be stably obtained. That is, first, when an adhesive is applied along the width direction of the base material because a long honeycomb core is required in the ribbon direction, with the increase in the winding diameter on the drum, the linear adhesive is applied. A position shift, that is, a pitch shift has occurred. In particular, when a cylindrical drum is used, the wound base material is liable to be rolled or round, which hinders handling at the time of subsequent expansion or the like. It has been pointed out that a honeycomb core having a uniform cell shape cannot be obtained due to these.

【0010】更に第3に、切断時の基材の歩留りが悪
く、この面からもコスト面に問題があった。すなわち、
展張方向に長尺なハニカムコアが必要な場合ドラムへの
基材の巻取径が大となるが、巻取径が大となるほどロー
ル状からブロック状に切断した際、円周率の関係から切
断箇所たる端部に傾斜状の不使用部分が多量に発生して
廃棄されるので、無駄が多く歩留りが悪かった。又多角
柱状のドラムを用いる場合には、その一辺が切断する長
さとなるように、多種のドラムを予め準備する必要があ
るという難点も指摘されていた。
Third, the yield of the base material at the time of cutting is poor, and there is also a problem in cost from this viewpoint. That is,
When a long honeycomb core is required in the stretching direction, the winding diameter of the base material on the drum is large, but when the winding diameter is large, the roll is cut from a roll into a block. A large amount of inclined unused portion is generated and discarded at the end, which is the cut portion, so that the waste is large and the yield is poor. It has also been pointed out that when a polygonal column-shaped drum is used, it is necessary to prepare various types of drums in advance so that one side thereof has a length to be cut.

【0011】従来例ではこのような点が指摘されてい
た。本発明は、このような実情に鑑み上記従来例の問題
点を解決すべくなされたものであって、まず請求項1お
よび請求項3では、基材の両面に順次所定のごとく接着
剤を塗布し、請求項2および請求項4では、更に事後特
定された折曲対象箇所に押圧力を加えて折り畳み重積す
ることにより、第1に接着剤塗布から重積までの工程を
連続的・自動的に実施でき、第2にピッチずれ,巻きぐ
せ等も防止され、第3に歩留まり等も良く、第4にしか
もこれらは接着剤を基材の幅方向又は長手方向に適宜塗
布でき、更に基材が金属又は非金属であるかを問わず自
在に実現できる、ハニカムコアの製造方法を提案するこ
とを目的とする。
In the prior art, such a point was pointed out. The present invention has been made in view of such circumstances and has been made in order to solve the above-mentioned problems of the conventional example. First, in claim 1 and claim 3, an adhesive is sequentially applied to both surfaces of a base material in a predetermined manner. According to the second and fourth aspects of the present invention, furthermore, by applying a pressing force to the bending target portion specified afterward and folding and stacking, first, the process from adhesive application to stacking is continuously and automatically performed. Secondly, pitch deviation and curling are prevented, thirdly, yield is good, and fourthly, they can be appropriately coated with an adhesive in the width direction or longitudinal direction of the base material. An object of the present invention is to propose a method for manufacturing a honeycomb core, which can be realized freely regardless of whether the material is metal or nonmetal.

【0012】[0012]

【課題を解決するための手段】この目的を達成する本発
明技術的手段は、次のとおりである。請求項1について
は次のとおり。すなわちこのハニカムコアの製造方法で
は、まず帯状の基材の一方面に対し接着剤を、幅方向に
沿い所定ピッチで条線状に、該基材の長手方向の一定長
さにわたりかつ同一一定長さ毎の間隔を置き、繰り返し
塗布する。そして次に該基材の他方面に対し該接着剤
を、幅方向に沿い上記と同一所定ピッチで条線状に、上
記各間隔対応位置に対しそれぞれ塗布する工程、を有し
てなる。
The technical means of the present invention for achieving this object is as follows. Claim 1 is as follows. That is, in this method for manufacturing a honeycomb core, first, an adhesive is applied to one surface of a strip-shaped base material in a streak shape at a predetermined pitch along the width direction, over a certain length in the longitudinal direction of the base material, and at the same fixed length Apply at regular intervals and apply repeatedly. Then, a step of applying the adhesive to the other surface of the base material in the form of a stripe along the width direction at the same predetermined pitch as described above at the respective positions corresponding to the respective intervals is provided.

【0013】請求項2については次のとおり。すなわち
このハニカムコアの製造方法では、請求項1記載の工程
の後、まず該基材の一方面に塗布された該接着剤と他方
面に塗布された該接着剤との各境界部分において、幅方
向に沿い上記所定ピッチの1/4ピッチずれた位置に、
略線状の折曲対象箇所を各々特定する。そして次に該基
材を1対の移動ローラ間に導き、ほぼ上記一定長さ分左
右に往復動する該移動ローラにて導き更に送りつつ、上
記折曲対象箇所に少なくとも押圧力を加え、もって該基
材を、上記一定長さ毎に連続的に折曲しじぐざぐ状に折
り畳んで重積する工程、を有してなる。
[0013] Claim 2 is as follows. That is, in the method for manufacturing a honeycomb core, after the step according to claim 1, first, at each boundary portion between the adhesive applied to one surface of the base material and the adhesive applied to the other surface, a width is set. Along the direction at a position shifted by 1/4 of the above specified pitch,
Each of the substantially linear bending target portions is specified. Then, the base material is guided between the pair of moving rollers, and is guided by the moving rollers that reciprocate right and left by the predetermined length, and further fed, and at least a pressing force is applied to the bending target portion. A step of continuously folding and laminating the base material at the above-mentioned fixed length in a zigzag manner.

【0014】請求項3については次のとおり。すなわち
このハニカムコアの製造方法では、まず帯状の基材の一
方面に対し接着剤を、長手方向に沿い所定ピッチで条線
状に、長手方向の一定長さにわたりかつ同一一定長さ毎
の間隔を置き、繰り返し塗布する。そして次に該基材の
他方面に対し該接着剤を、長手方向に沿い上記と半ピッ
チずつずれた位置関係のもとに同一所定ピッチで条線状
に、上記各間隔対応位置に対しそれぞれ塗布する工程、
を有してなる。
[0014] Claim 3 is as follows. That is, in this method for manufacturing a honeycomb core, first, an adhesive is applied to one surface of a strip-shaped base material in a streak shape at a predetermined pitch along the longitudinal direction, over a constant length in the longitudinal direction, and at intervals of the same constant length. And apply repeatedly. Then, the adhesive is applied to the other surface of the base material in the form of a stripe at the same predetermined pitch based on a positional relationship shifted by a half pitch from the above along the longitudinal direction, respectively, for each of the above-mentioned intervals corresponding to the respective positions. Coating process,
Having.

【0015】請求項4については次のとおり。すなわち
このハニカムコアの製造方法では、請求項3記載の工程
の後、まず該基材の一方面に塗布された該接着剤と他方
面に塗布された該接着剤との各境界部分を、幅方向に沿
った略線状の折曲対象箇所として特定する。そして次に
該基材を1対の移動ローラ間に導き、ほぼ上記一定長さ
分左右に往復動する該移動ローラにて導き更に送りつ
つ、上記折曲対象箇所に少なくとも押圧力を加え、もっ
て該基材を、上記一定長さ毎に連続的に折曲しじぐざぐ
状に折り畳んで重積する工程、を有してなる。
[0015] Claim 4 is as follows. That is, in this method for manufacturing a honeycomb core, after the step of claim 3, first, each boundary between the adhesive applied to one surface of the base material and the adhesive applied to the other surface is formed into a width. It is specified as a substantially linear bending target portion along the direction. Then, the base material is guided between the pair of moving rollers, and is guided by the moving rollers that reciprocate right and left by the predetermined length, and further fed, and at least a pressing force is applied to the bending target portion. A step of continuously folding and laminating the base material at the above-mentioned fixed length in a zigzag manner.

【0016】[0016]

【作用】本発明は、このような手段よりなるので次のご
とく作用する。このハニカムコアの製造方法では、まず
帯状の基材の両面に一定長さの間隔で繰り返し接着剤が
塗布され、請求項1では幅方向に請求項3では長手方向
に塗布される。そして請求項2では請求項1の塗布工程
の後、請求項4では請求項3の塗布工程の後、基材両面
の接着剤の各境界部分にて折曲対象箇所が各々特定さ
れ、移動ローラにて基材を導き送りつつ折曲対象箇所に
少なくとも押圧力を加え、一定長さ毎に折曲し折り畳ん
でブロック状に重積する。しかる後、加熱加圧して重積
接着し両端を切断してから、重積方向に引張り力を加え
展張することにより、ハニカムコアが製造される。そこ
でこの製造方法では、次のようになる。
The present invention comprises the above means and operates as follows. In this method for manufacturing a honeycomb core, first, an adhesive is repeatedly applied to both sides of a strip-shaped substrate at regular intervals, and applied in the width direction in claim 1 and in the longitudinal direction in claim 3. In claim 2, after the application step of claim 1, after the application step of claim 3, the bending target portions are specified at each boundary portion of the adhesive on both surfaces of the base material, and the moving roller At least a pressing force is applied to the portion to be bent while guiding the base material at, and the substrate is bent at predetermined lengths, folded and stacked in a block shape. Thereafter, the honeycomb core is manufactured by heating and pressurizing, stacking and bonding, cutting both ends, and then applying a tensile force in the stacking direction to expand the honeycomb core. Therefore, this manufacturing method is as follows.

【0017】第1に、基材への接着剤の塗布は、プリン
トロールを備えた塗布装置により容易に自動化でき、又
基材への折曲対象箇所の特定および移動ローラにて導き
つつ押圧力を加え折り畳んで重積することも、容易に装
置化して自動化でき、その間の基材の搬送も容易に自動
化できる。このようにして、接着剤塗布から重積までの
工程を、一連の装置で連続的・自動的に実施できるよう
になる。
First, the application of the adhesive to the base material can be easily automated by a coating device equipped with a print roll. In addition, folding and stacking can be easily performed as a device, and the transfer of the base material during the process can be easily automated. In this way, the steps from the application of the adhesive to the stacking can be continuously and automatically performed by a series of devices.

【0018】第2に、このように接着剤の塗布そして重
積等は手作業によらず行え、基材の伸縮への対応も容易
であり、又基材が不透明な場合も問題がなく、特に重積
時に条線状の接着剤が正確に半ピッチずつずれた位置関
係となり、ピッチずれが防止される。更に基材をドラム
に巻き取らないので、この面からもピッチずれが防止さ
れるとともに、巻きぐせ・アールも防止され、事後の展
張時等における取扱いに支障が生じることはない。
Secondly, the application of the adhesive and the lamination can be performed without manual work, and it is easy to cope with the expansion and contraction of the base material, and there is no problem even when the base material is opaque. In particular, at the time of stacking, the linear adhesive has a positional relationship of being shifted by exactly a half pitch, thereby preventing a pitch shift. Further, since the base material is not wound up on the drum, the pitch shift is prevented from this surface, and the winding and the rounding are also prevented, so that there is no hindrance in handling at the time of subsequent expansion or the like.

【0019】第3に、同様に基材をドラムに巻き取らな
いので、事後切断箇所たる端部に傾斜状の不使用部分は
発生せず、歩留まりがよい。
Third, since the base material is not wound around the drum similarly, no unused portion having an inclined shape is generated at the end, which is a post-cutting point, and the yield is good.

【0020】第4に、しかもこれらは、接着剤を帯状の
基材に対し適宜、幅方向又は長手方向に沿って塗布する
ことにより、任意かつ自在に実現可能である。更に使用
される基材も、金属であるか非金属であるかを問わず、
広く自在に適用可能である。
Fourth, these can be arbitrarily and freely realized by appropriately applying an adhesive to a strip-shaped substrate along the width direction or the longitudinal direction. Further, the base material used, whether metallic or non-metallic,
Widely and freely applicable.

【0021】[0021]

【実施例】以下本発明を、図面に示すその実施例に基づ
いて詳細に説明する。図1は、本発明に係るハニカムコ
アの製造方法の実施例の説明に供する、塗布工程その他
の正面説明図である。まず図1に沿って説明すると、1
はアンワインダーであり、このアンワインダー1には帯
状の基材Aが巻回されている。基材Aとしては、帯状の
アルミ箔その他の金属箔や、帯状のアラミド紙,塩ビシ
ート,紙,その他薄いフィルム状の非金属材料が用いら
れる。2はアンワインダー1の保持部である。そしてア
ンワインダー1から繰り出された基材Aは、ガイドロー
ル3を介しインフィードロール4群に至り適切にテンシ
ョンが加えられた後、ガイドロール3を介しエッジコン
トロール装置5に至り帯状をなす基材Aの左右位置調整
が行われその中心線がコントロールロール6その他の中
心と一致するよう調整される。そして基材Aはパンチン
グロール部7へと送られ、パンチングロール8等により
基材Aの側端に沿ってパンチ孔(図示せず)が1列に並
んで開孔され、このパンチ孔は事後、基材Aの位置決め
用に利用され後述のピッチずれ防止用としても機能す
る。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the embodiments shown in the drawings. FIG. 1 is an explanatory front view of an application step and other drawings for explaining an embodiment of a method for manufacturing a honeycomb core according to the present invention. First, referring to FIG.
Denotes an unwinder, and a band-shaped substrate A is wound around the unwinder 1. As the base material A, a band-shaped aluminum foil or other metal foil, a band-shaped aramid paper, a PVC sheet, paper, or other thin film-shaped nonmetallic material is used. Reference numeral 2 denotes a holding unit of the unwinder 1. The base material A unwound from the unwinder 1 reaches the group of infeed rolls 4 via the guide rolls 3 and is appropriately tensioned, and then reaches the edge control device 5 via the guide rolls 3 to form a strip-shaped base material. The left and right positions of A are adjusted, and the center line is adjusted so as to coincide with the center of the control roll 6 and other centers. Then, the base material A is sent to the punching roll section 7, and punched holes (not shown) are opened in a line along the side end of the base material A by the punching roll 8 or the like. It is used for positioning the base material A, and also functions for preventing a pitch shift described later.

【0022】しかる後基材Aは第1塗布装置9へと導か
れる。第1塗布装置9では、受け皿10内の接着剤Bが
一方向に回転されるプリントロール11により、所定の
ごとく基材Aに塗布される。12はバックアップロール
であり、バックアップロール12はプリントロール11
と対向位置し基材Aを挟み込む。図3はこのような第1
塗布装置9の要部を示し、(1)図は左側面図、(2)
図は正面図、(3)図は右側面図である。図中13はプ
リントロール11の表面に形成された多数の塗布凸条で
あり、この塗布凸条13は図示例ではプリントロール1
1の半面に幅方向に沿って形成されており、このような
塗布凸条13により基材Aへの接着剤Bの塗布が行われ
る。なお、プリントロール11の条線状に形成された塗
布部の形状については、凹溝状であってもよい。
Thereafter, the substrate A is guided to the first coating device 9. In the first application device 9, the adhesive B in the receiving tray 10 is applied to the base material A in a predetermined manner by the print roll 11 rotated in one direction. Reference numeral 12 denotes a backup roll, and backup roll 12 denotes a print roll 11.
And the substrate A is interposed. FIG. 3 shows such a first
The main part of the coating device 9 is shown, (1) is a left side view, (2)
The figure is a front view, and the figure (3) is a right side view. In the drawing, reference numeral 13 denotes a large number of coating ridges formed on the surface of the print roll 11, and the coating ridges 13 correspond to the print roll 1 in the illustrated example.
1 is formed along the width direction, and the adhesive B is applied to the base material A by the application ridge 13. It should be noted that the shape of the application portion formed in a stripe shape of the print roll 11 may be a concave groove shape.

【0023】さてこの第1塗布装置9では、基材Aに対
し次のように接着剤Bが塗布される。図4は、基材Aへ
の接着剤Bの塗布の1例を示す要部の平面図である。こ
の図4の例では、帯状の基材Aの例えば表面等の一方面
1 に対し、接着剤Bを図中実線表示のごとく、幅方向
Cに沿って所定ピッチPかつ所定幅で条線状に、基材A
の幅方向Cと直交する長手方向Dの一定長さにわたりか
つ同一一定長さ毎の間隔Eを置き、繰り返し塗布してな
る。次に図5は、基材Aの接着剤Bの塗布の他の例を示
す要部の平面図である。この図5の例では、帯状の基材
Aの例えば表面等の一方面A1 に対し、接着剤Bを図中
実線表示のごとく、長手方向Dに沿って所定ピッチPか
つ所定幅で条線状に、長手方向Dの一定長さにわたりか
つ同一一定長さ毎の間隔Eを置き、繰り返し塗布してな
る。
In the first coating device 9, the adhesive B is applied to the base material A as follows. FIG. 4 is a plan view of a main part showing an example of application of the adhesive B to the base material A. In the example of FIG. 4, with respect to one surface A 1 of the example surface or the like of the strip-shaped substrate A, as in the figure the solid line displays the adhesive B, striations at a predetermined pitch P and a predetermined width along the width direction C In the form, substrate A
Are applied repeatedly over a certain length in the longitudinal direction D orthogonal to the width direction C of the same and at intervals of the same fixed length. Next, FIG. 5 is a plan view of a main part showing another example of application of the adhesive B on the base material A. In the example of FIG. 5, with respect to one surface A 1 of the example surface or the like of the strip-shaped substrate A, as in the figure the solid line displays the adhesive B, striations at a predetermined pitch P and a predetermined width along the longitudinal direction D It is applied repeatedly over a certain length in the longitudinal direction D and at intervals of the same certain length.

【0024】さてこのようにして、第1塗布装置9にて
接着剤Bが所定のごとく塗布された基材Aは、直ちにガ
イドロール3に導かれて乾燥装置14に至り一旦乾燥さ
れた後、ガイドロール3を介し第2塗布装置15へと搬
送される。この第2塗布装置15は、前述の第1塗布装
置9と同様の構成よりなり、図3等に示すごとく受け皿
10,プリントロール11,バックアップロール12等
を備えてなるとともに、第1塗布装置9と同期連動し搬
送される基材Aに対し所定のタイミングで駆動されるよ
うに、ドライブギア等を用いたメカ的制御又は電気的制
御が行われている。そしてこの第2塗布装置15では、
次のように接着剤Bが塗布される。
The substrate A on which the adhesive B has been applied as described above in the first application device 9 is immediately led to the guide roll 3 and reaches the drying device 14 where it is once dried. It is transported to the second coating device 15 via the guide roll 3. The second coating device 15 has a configuration similar to that of the first coating device 9 described above, and includes a tray 10, a print roll 11, a backup roll 12, and the like as shown in FIG. Mechanical control or electric control using a drive gear or the like is performed so that the base material A conveyed in synchronization with the drive is driven at a predetermined timing. And in this second coating device 15,
The adhesive B is applied as follows.

【0025】すなわちまず図4に示した例のように、第
1塗布装置9により接着剤Bが基材Aの一方面A1 に対
し、間隔Eを置き幅方向Cに塗布されていた場合は、次
のごとくなる。この場合には図4中破線表示のごとく、
基材Aの例えば裏面等の他方面A2 に接着剤Bが、幅方
向Cに沿って同一所定ピッチPで条線状に、前述の同期
連動制御に基づき各間隔E対応位置に対しそれぞれ塗布
される。次に図5に示した例のように、第1塗布装置9
により接着剤Bが基材Aの一方面A1 に対し、間隔Eを
置き幅方向Cではなく長手方向Dに塗布されていた場合
は、次のごとくなる。この場合には図5中破線表示のご
とく、基材Aの例えば裏面等の他方面A2 に接着剤B
が、長手方向Dに沿って上記一方面A1 側の接着剤Bと
半ピッチずつずれた位置関係のもとに、同一所定ピッチ
Pで条線状に、前述の同期連動制御に基づき各間隔E対
応位置に対しそれぞれ塗布される。さてこのようにし
て、第2塗布装置15にて接着剤Bが所定のごとく塗布
された基材Aは、直ちにガイドロール3に導かれて再び
乾燥装置14へと搬送されて乾燥される。なお図示例で
は、このように第1塗布装置9に対応した乾燥装置14
と第2塗布装置15に対応した乾燥装置14とが共通
で、装置全体のコンパクト化が図られているが、勿論図
示例によらず各々個別つまり2個の乾燥装置を採用する
ようにしてもよい。
[0025] That is, first as in the example shown in FIG. 4, the adhesive B is to one surface A 1 of the base material A by the first application device 9, when having been applied in the width direction C by an interval E is It looks like this: In this case, as indicated by a broken line in FIG.
Adhesive B on the other side A 2 of example the rear surface or the like of the base material A, the striations form at the same predetermined pitch P along the width direction C, respectively applied to each interval E corresponding position based on the synchronous interlocking control of the aforementioned Is done. Next, as in the example shown in FIG.
Adhesive B is to one surface A 1 of the substrate A, if it is applied in the longitudinal direction D rather than the width direction C by an interval E, made as follows by. In this case, as in FIG. 5 in dashed, adhesives B on the other side A 2 of example the rear surface or the like of the base material A
But longitudinally along the D to the original positional relationship shifted by adhesive B and the half pitch of the one surface A 1 side, the striations form at the same predetermined pitch P, each interval based on the synchronous interlocking control of the aforementioned E is applied to each corresponding position. The base material A to which the adhesive B has been applied as described above by the second application device 15 in this manner is immediately guided by the guide roll 3, and is again conveyed to the drying device 14 and dried. In the illustrated example, the drying device 14 corresponding to the first coating device 9 as described above is used.
And the drying device 14 corresponding to the second coating device 15 is common, and the entire device is made compact. Of course, each drying device may be used independently, that is, two drying devices may be employed regardless of the illustrated example. Good.

【0026】さてしかる後、基材Aはガイドロール3に
導かれ次の工程へと向かう。図2は、この実施例の説明
に供する重積工程等の正面説明図である。以下この図2
に沿って説明すると、16は折目設定装置であり、折目
設定装置16により基材Aの折曲対象箇所F(図4,図
5参照)が特定される。この折目設定装置16は、図示
例では幅方向Cに1対の間欠的な凸条17と凹溝18を
備えた上下ロール19,20が用いられるとともに、前
述の第1塗布装置9および第2塗布装置15と同期連動
し搬送される基材Aに対し所定のタイミングで駆動され
るように、メカ的制御又は電気的制御が行われている。
そしてこのような折目設定装置16の上下ロール19,
20間に基材Aが挟み込まれつつ通過することにより、
次のように折曲対象箇所Fが例えばミシン目状に形成さ
れる。すなわち、まず図4の例のように幅方向Cに接着
剤Bが塗布された場合には、基材Aの一方面A1 に塗布
された接着剤Bと他方面A2 に塗布された接着剤Bとの
各境界部分において、図中想像線表示のごとく、幅方向
Cに沿って前期所定ピッチPの1/4ピッチずれた位置
に、折曲対象箇所Fが略線状例えばミシン目状に各々形
成される。なお上記1/4ピッチの設定は、塗布された
接着剤Bの条線幅の中心線を基準として行われる。次に
図5の例のように長手方向Dに接着剤Bが塗布された場
合には、基材Aの一方面A1 に塗布された接着剤Bと他
方面A2 に塗布された接着剤Bとの各境界部分を、図中
想像線表示のごとく、幅方向Cに沿った折曲対象箇所F
が略線状例えばミシン目状に各々形成される。
After a while, the substrate A is guided by the guide roll 3 and proceeds to the next step. FIG. 2 is an explanatory front view of a stacking process and the like for explaining this embodiment. This figure 2
In the following description, reference numeral 16 denotes a fold setting device, and the fold setting device 16 specifies a bending target portion F (see FIGS. 4 and 5) of the base material A. In the illustrated example, the upper and lower rolls 19 and 20 each having a pair of intermittent ridges 17 and concave grooves 18 in the width direction C are used as the fold setting device 16, and the first coating device 9 and the The mechanical control or the electrical control is performed such that the base material A conveyed in synchronization with the two-coating device 15 is driven at a predetermined timing.
And the upper and lower rolls 19 of such a fold setting device 16,
By passing while the substrate A is sandwiched between 20,
The bending target portion F is formed, for example, in a perforated shape as follows. That is, if the adhesive B in the width direction C as in the example of FIG. 4 has been applied is first applied to one surface A glue B and the other surface A 2 applied to the first substrate A bonding At each boundary portion with the agent B, as shown by the imaginary line in the figure, the bending target portion F is substantially linear, for example, perforated at a position shifted by 1/4 pitch of the predetermined pitch P along the width direction C. Are formed respectively. Note that the setting of the ピ ッ チ pitch is performed with reference to the center line of the line width of the applied adhesive B. Then when the adhesive B is applied in the longitudinal direction D, as in the example of FIG. 5, the adhesive was applied to one surface A 1 of the base material A B and the other surface A 2 to be coated adhesive B, as indicated by the imaginary line in the figure, the bending target portion F along the width direction C
Are formed in a substantially linear shape, for example, in a perforated shape.

【0027】さて、このようにして接着剤Bが塗布され
かつ折曲対象箇所Fが特定された基材Aは、次の重積装
置21へと搬送される。なお装置全体としては、基材A
が少なくともこの位置まで搬送され張り出された状態か
ら、スタートする。さて重積装置21で基材Aは、まず
例えば上下3列に並設されたローラ群22にて反転搬送
された後、1対の移動ローラ23間へと導かれる。移動
ローラ23は、所定間隔を存して左右対をなし、ほぼ前
述の一定長さ分つまり折曲対象箇所F間の長さ分、図中
実線表示の位置から破線表示の位置まで左右に往復動す
るようになっている。又この移動ローラ23の往復動は
基材Aの送り込み量に対応し、基材Aが上記一定長さ分
ローラ群22から送り込まれる間に1回往動又は復動す
るようになっている。
The substrate A on which the adhesive B is applied and the bending target portion F is specified in this manner is transported to the next stacking device 21. Note that, as a whole, the substrate A
Starts from a state in which is conveyed to and protrudes at least to this position. The substrate A is first reversed and conveyed by a group of rollers 22 arranged in, for example, three rows in the upper and lower rows, and then guided between a pair of moving rollers 23. The moving rollers 23 form a left and right pair with a predetermined interval, and reciprocate right and left from the position indicated by the solid line to the position indicated by the broken line in the figure, for the above-described fixed length, that is, the length between the bending target positions F. It works. The reciprocating movement of the moving roller 23 corresponds to the feeding amount of the base material A, and the base material A moves forward or backward once while the base material A is fed from the roller group 22 by the predetermined length.

【0028】そこで基材Aは、このような移動ローラ2
3にて導かれ更に送られつつ、折曲対象箇所Fに少なく
とも押圧力が加えられ、もって前述の一定長さ毎に連続
的に折曲されじぐざぐ状に折り畳んで重積される。すな
わち図示例では、移動ローラ23にて導かれ送られた基
材Aは、左右両側に配され間欠的に駆動される押圧片2
4のいずれか一方により、その折曲対象箇所Fが外側か
ら押打され、次に係る左右の押圧片24の直下にそれぞ
れ配され回転する例えば3重で徐徐にピッチが狭く鋭角
的に形成されたスパイラルローラ状の折曲部材25に
て、左右の折曲対象箇所Fが順次嵌挿されることによ
り、折りぐせがつけられ重積される。このようにして基
材Aは、一定長さ毎に連続的に反転折曲され、左右の折
目が各々上下で一致しかつ上下が各々密接されたじぐざ
ぐ状に、次々と折り畳まれる。そして図示例では、コン
ベア26にてリフター27上に排出され、略ブロック状
にリフター27上に重積される。なお図示例によらず、
コンベア26を用いずリフター27がコンベア26の位
置に置かれ、その上に直接基材Aが重積されるようにし
てもよい。図中28は静電気発生防止装置であり、基材
Aが非金属の場合に使用されるが、基材Aが金属箔より
なる場合には不用である。
Then, the base material A is provided with such a moving roller 2.
While being guided and further fed at 3, at least a pressing force is applied to the bending target portion F, whereby the sheet is continuously bent at predetermined lengths and folded in a zigzag manner and stacked. That is, in the illustrated example, the base material A guided and fed by the moving roller 23 is a pressing piece 2 which is disposed on both left and right sides and is driven intermittently.
4, the bending target portion F is pressed from the outside, and is disposed immediately below the left and right pressing pieces 24, respectively, and rotates. The left and right bending target portions F are sequentially fitted and inserted by the spiral roller-shaped bending member 25 to be folded and stacked. In this manner, the base material A is continuously inverted and bent at a constant length, and is successively folded in a zigzag manner in which the left and right folds are vertically aligned and the upper and lower sides are closely contacted. In the illustrated example, the sheet is discharged onto the lifter 27 by the conveyor 26 and stacked on the lifter 27 in a substantially block shape. Note that regardless of the illustrated example,
The lifter 27 may be placed at the position of the conveyor 26 without using the conveyor 26, and the base material A may be directly stacked thereon. In the figure, reference numeral 28 denotes a static electricity generation preventing device, which is used when the base material A is non-metal, but is unnecessary when the base material A is made of metal foil.

【0029】本発明に係るハニカムコアの製造方法は、
以上のようになっている。そこで以下のごとくなる。
The method for manufacturing a honeycomb core according to the present invention comprises:
It is as above. Therefore, it becomes as follows.

【0030】このハニカムコアの製造方法では、まず帯
状の基材Aの一方面A1 および他方面A2 の両面に一定
長さの間隔Eで繰り返し接着剤Bが塗布され、図4の例
では幅方向Cに図5の例では長手方向Dに塗布される。
そして基材A両面の接着剤Bの各境界部分にて折曲対象
箇所Fが各々特定され、移動ローラ23にて基材Aを導
き送りつつ折曲対象箇所Fに押圧片24および折曲部材
25にて押圧力を加え、一定長さ毎に折曲し折り畳んで
ブロック状に重積する。しかる後、接着剤Bの融点温度
に加熱加圧して重積接着し、重積方向に沿って両端を切
断してから、重積方向に引張り力を加え展張することに
より、図6に示したハニカムコアGが製造されるに至
る。すなわち、図6の要部平面図に示したように、ハニ
カムコアGは、正六角形等の中空柱状の多数のセルHの
平面的集合体よりなり、このセルHを形成するセル壁J
が前述により基材Aが展張されたものよりなる。さてこ
のハニカムコアGの製造方法はこのように製造されるの
で、次の第1,第2,第3,第4のごとくなる。
In this method for manufacturing a honeycomb core, first, an adhesive B is repeatedly applied on both sides of one side A 1 and the other side A 2 of a strip-shaped base material A at a constant interval E. In the example of FIG. In the example of FIG. 5, the coating is applied in the longitudinal direction D in the width direction C.
A bending target portion F is specified at each boundary portion of the adhesive B on both surfaces of the base material A, and the pressing piece 24 and the bending member are guided to the bending target position F while guiding the base material A by the moving roller 23. A pressing force is applied at 25, and the sheet is bent at predetermined lengths, folded, and stacked in a block shape. Thereafter, the adhesive was heated and pressurized to the melting point temperature of the adhesive B to perform lamination bonding, cutting both ends along the lamination direction, and then applying a tensile force in the lamination direction to expand the laminate, as shown in FIG. The honeycomb core G is manufactured. That is, as shown in the main part plan view of FIG. 6, the honeycomb core G is formed of a planar aggregate of a large number of hollow columnar cells H such as regular hexagons, and the cell walls J forming the cells H are formed.
Is formed by spreading the base material A as described above. Now, since the method for manufacturing the honeycomb core G is manufactured in this way, the following first, second, third, and fourth methods are obtained.

【0031】第1に、基材Aへの接着剤Bの塗布は、各
々プリントロール11を備えた第1塗布装置9および第
2塗布装置15により、容易に自動化できる。又基材A
へ折曲対象箇所Fを連続的に特定すること、および移動
ローラ23にて導きつつ押圧力を加え連続的に折り畳み
重積することも、例えば折目設定装置16および重積装
置21として容易に装置化され自動化される。更にその
間の基材Aの搬送も、ガイドロール3等を用い容易に自
動化できる。このようにこのハニカムコアGの製造方法
では、基材Aへの接着剤Bの塗布から基材Aの重積まで
の工程を、一連の装置で連続的・自動的に実施できるよ
うになる。
First, the application of the adhesive B to the base material A can be easily automated by the first coating device 9 and the second coating device 15 each having the print roll 11. Substrate A
The folding target portion F can be continuously specified, and the pressing force can be applied continuously while being guided by the moving roller 23 to continuously fold and stack, for example, as the fold setting device 16 and the stacking device 21. Equipment and automation. Further, the conveyance of the substrate A during that time can be easily automated using the guide roll 3 or the like. As described above, in the method for manufacturing the honeycomb core G, the steps from the application of the adhesive B to the substrate A to the stacking of the substrate A can be continuously and automatically performed by a series of devices.

【0032】第2に、このようにこの製造方法では、接
着剤Bの塗布そして基材Aの重積等は手作業によらず行
え、しかも手作業でないのでメカ的処置により基材Aの
伸縮への対応も容易であり、又基材Aが不透明な場合で
も問題がなく、更に重積装置21を用いることができる
ので特に重積時に条線状の接着剤Bが正確に半ピッチず
つずれた位置関係となり、ピッチずれが防止される。又
従来例のように基材Aをドラムに巻き取らないので、こ
の面からもピッチずれが防止されるとともに、基材Aの
巻きぐせ・アールも防止され、事後の展張時等における
取扱に支障が生じることはない。
Second, in this manufacturing method, the application of the adhesive B and the lamination of the base material A can be performed without manual operation. It is easy to respond to the problem, and there is no problem even when the base material A is opaque. Further, since the stacking device 21 can be used, especially when stacking, the strip-shaped adhesive B is accurately shifted by a half pitch. And the pitch shift is prevented. In addition, since the base material A is not wound around the drum as in the conventional example, the pitch deviation is prevented from this surface, and the base material A is prevented from being rolled up and rounded, which hinders handling at the time of subsequent expansion or the like. Does not occur.

【0033】第3に、同様にこの製造方法では、従来例
のように基材Aをドラムに巻き取らないので、事後、切
断箇所たる端部に傾斜状の不使用部分は発生せず、歩留
まりよく基材AからハニカムコアGが製造される。
Thirdly, similarly, in this manufacturing method, since the substrate A is not wound around the drum as in the conventional example, no unused portion having an inclined shape is generated at the end, which is a cut portion, and the yield is reduced. The honeycomb core G is often manufactured from the base material A.

【0034】第4に、しかもこれらは、接着剤Bを帯状
の基材Aに対し適宜、幅方向C又は長手方向Dに沿って
塗布することにより、任意かつ自在に実現可能である。
つまり従来のハニカムコアGの製造方法にあっては、そ
の用途等に応じ接着剤Bを幅方向C又は長手方向Dのい
ずれかに塗布しなければならないことが多々あったが、
この製造方法によるとこのような規制は一切なく自在に
塗布することが可能である。しかもこの製造方法にあっ
ては、使用される基材Aは、アルミ箔等の金属箔である
かアラミド紙,塩ビシート,紙等の非金属であるかを問
わず、広く自在に適用可能である。
Fourth, these can be arbitrarily and freely realized by appropriately applying the adhesive B to the strip-shaped substrate A along the width direction C or the longitudinal direction D.
In other words, in the conventional method for manufacturing the honeycomb core G, the adhesive B often had to be applied in either the width direction C or the longitudinal direction D depending on the use or the like,
According to this manufacturing method, it is possible to apply freely without such restrictions. Moreover, in this manufacturing method, the substrate A used can be widely and freely applied irrespective of whether it is a metal foil such as an aluminum foil or a nonmetal such as aramid paper, a PVC sheet, and paper. is there.

【0035】[0035]

【発明の効果】本発明に係るハニカムコアの製造方法
は、以上説明したごとく、まず請求項1および請求項3
では、基材の両面に順次所定のごとく接着剤を塗布し、
請求項2および請求項4では、更に事後特定された折曲
対象箇所に押圧力を加えて折り畳み重積することによ
り、次の効果を発揮する。
As described above, the method for manufacturing a honeycomb core according to the present invention is first described in claims 1 and 3.
Then, apply the adhesive on both sides of the base material sequentially as specified,
According to the second and fourth aspects, the following effects are exhibited by further applying the pressing force to the bending target portion specified afterwards and folding and stacking.

【0036】第1に、接着剤塗布から重積までの工程を
一連の装置で連続的・自動的に実施可能となり、生産効
率が著しく向上する。すなわち、ハニカムコアの製造方
法において、接着剤の塗布から重積までを一連の一貫し
た装置で集約的かつ連続的に実現できるようになり、従
来例に比し所用時間が著しく短縮され作業スペースも非
常に減少し作業も容易化される等、生産効率が著しく向
上しコスト面にも優れている。
First, the steps from the application of the adhesive to the stacking can be continuously and automatically performed by a series of devices, and the production efficiency is remarkably improved. In other words, in the method of manufacturing the honeycomb core, the steps from application of the adhesive to piling can be performed intensively and continuously by a series of integrated devices, and the required time is remarkably reduced as compared with the conventional example, and the working space is also reduced. The production efficiency is remarkably improved and the cost is excellent, for example, the work is greatly reduced and the work is simplified.

【0037】第2に、ピッチずれ,巻きぐせ等も防止さ
れ、高品質・高精度なハニカムコアが安定的に得られ
る。すなわち、重積等が手作業によらず行なえるように
なり、基材の伸縮への対応も容易であり、又基材が不透
明な場合でも問題がなく、更に従来例のように基材をド
ラムに巻き取らないので、ピッチずれおよび巻きぐせ等
が確実に防止され、もってセル形状が均一なハニカムコ
アが容易に得られる。
Secondly, pitch deviation, curling and the like are also prevented, and a high quality and high accuracy honeycomb core can be stably obtained. In other words, it is possible to carry out stacking and the like without manual work, it is easy to cope with expansion and contraction of the base material, and there is no problem even when the base material is opaque. Since it is not wound around a drum, pitch deviation and curling are reliably prevented, and a honeycomb core having a uniform cell shape can be easily obtained.

【0038】第3に、歩留まり等も良く、この面からも
コスト面に優れている。すなわち、従来例のように基材
をドラムに巻き取らないので、事後切断箇所たる端部に
傾斜状の不使用部分は発生せず廃棄される無駄がないと
ともに、各種のドラムを予め準備する必要もない等、コ
スト面に優れている。
Third, the yield is good and the cost is also excellent. That is, since the base material is not taken up on the drum as in the conventional example, no inclined unused portion is generated at the end, which is a post-cutting point, so that there is no waste to be discarded and various drums need to be prepared in advance. There is no cost.

【0039】第4に、しかもこれらは、接着剤を帯状の
基材に対し適宜、請求項1および請求項2ではその幅方
向に沿って塗布し、又請求項3および請求項4ではその
長手方向に沿って塗布することにより、任意かつ自在に
実現可能である。更に使用される基材も金属,非金属を
問わず、広く自在に適用可能である。
Fourth, in these, the adhesive is applied to the strip-shaped base material as appropriate in the width direction in claims 1 and 2, and in the longitudinal direction in claims 3 and 4, By applying along the direction, it can be realized arbitrarily and freely. Further, the substrate used can be widely and freely applied irrespective of metal or nonmetal.

【0040】このように、この種従来例に存した問題点
が一掃される等、本発明の発揮する効果は顕著にして大
なるものがある。
As described above, the effects exhibited by the present invention are remarkably large, for example, the problems existing in this type of conventional example are eliminated.

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

【図1】本発明に係るハニカムコアの製造方法の実施例
の説明に供する、塗布工程その他の正面説明図である。
FIG. 1 is an explanatory front view of a coating step and other drawings for explaining an embodiment of a method for manufacturing a honeycomb core according to the present invention.

【図2】同実施例の説明に供する、重積工程等の正面説
明図である。
FIG. 2 is an explanatory front view of a stacking process and the like for explaining the embodiment.

【図3】第1,第2塗布装置の要部を示し、(1)図は
左側面図、(2)図は正面図、(3)図は右側面図であ
る。
FIGS. 3A and 3B show main parts of the first and second coating apparatuses, wherein FIG. 1A is a left side view, FIG. 3B is a front view, and FIG. 3C is a right side view.

【図4】基材への接着剤の塗布の1例を示す、要部の平
面図である。
FIG. 4 is a plan view of a main part showing an example of application of an adhesive to a base material.

【図5】基材への接着剤の塗布の他の例を示す、要部の
平面図である。
FIG. 5 is a plan view of a main part showing another example of applying an adhesive to a base material.

【図6】ハニカムコアの要部の平面図である。FIG. 6 is a plan view of a main part of the honeycomb core.

【符号の説明】[Explanation of symbols]

A 基材 A1 一方面 A2 他方面 B 接着剤 C 幅方向 D 長手方向 E 間隔 F 折曲対象箇所 23 移動ローラA Base material A 1 One side A 2 Other side B Adhesive C Width direction D Longitudinal direction E Interval F Folding point 23 Moving roller

Claims (4)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 帯状の基材の一方面に対し接着剤を、幅
方向に沿い所定ピッチで条線状に、該基材の長手方向の
一定長さにわたりかつ同一一定長さ毎の間隔を置き、繰
り返し塗布し、次に該基材の他方面に対し該接着剤を、
幅方向に沿い上記と同一所定ピッチで条線状に、上記各
間隔対応位置に対しそれぞれ塗布する工程、を有してな
ることを特徴とするハニカムコアの製造方法。
1. An adhesive is applied to one surface of a strip-shaped base material at a predetermined pitch along the width direction over a predetermined length in the longitudinal direction of the base material and at intervals of the same fixed length. And repeatedly apply, then apply the adhesive to the other side of the substrate,
A method of coating the honeycomb core in the form of a stripe along the width direction at the same predetermined pitch as described above, at the positions corresponding to the respective intervals.
【請求項2】 請求項1記載の工程の後、該基材の一方
面に塗布された該接着剤と他方面に塗布された該接着剤
との各境界部分において、幅方向に沿い上記所定ピッチ
の1/4ピッチずれた位置に、略線状の折曲対象箇所を
各々特定し、次に該基材を1対の移動ローラ間に導き、
ほぼ上記一定長さ分左右に往復動する該移動ローラにて
導き更に送りつつ、上記折曲対象箇所に少なくとも押圧
力を加え、もって該基材を、上記一定長さ毎に連続的に
折曲しじぐざぐ状に折り畳んで重積する工程、を有して
なることを特徴とするハニカムコアの製造方法。
2. The method according to claim 1, wherein, at each boundary between the adhesive applied to one surface of the base material and the adhesive applied to the other surface, the predetermined widthwise direction is determined. At a position shifted by 1/4 pitch of the pitch, a substantially linear bending target portion is specified, and then the base material is guided between a pair of moving rollers.
At least a pressing force is applied to the bending target portion while being guided and further fed by the moving roller that reciprocates right and left by the fixed length substantially, and the base material is continuously bent at the fixed length. A method of folding the product in a zigzag manner and stacking the products.
【請求項3】 帯状の基材の一方面に対し接着剤を、長
手方向に沿い所定ピッチで条線状に、長手方向の一定長
さにわたりかつ同一一定長さ毎の間隔を置き、繰り返し
塗布し、次に該基材の他方面に対し該接着剤を、長手方
向に沿い上記と半ピッチずつずれた位置関係のもとに同
一所定ピッチで条線状に、上記各間隔対応位置に対しそ
れぞれ塗布する工程、を有してなることを特徴とするハ
ニカムコアの製造方法。
3. An adhesive is repeatedly applied to one surface of a strip-shaped base material in a streak shape at a predetermined pitch along the longitudinal direction over a predetermined length in the longitudinal direction and at intervals of the same constant length. Then, the adhesive is applied to the other surface of the substrate in the form of a stripe at the same predetermined pitch based on a positional relationship shifted by a half pitch from the above along the longitudinal direction. A method for manufacturing a honeycomb core, comprising a step of applying each of them.
【請求項4】 請求項3記載の工程の後、該基材の一方
面に塗布された該接着剤と他方面に塗布された該接着剤
との各境界部分を、幅方向に沿った略線状の折曲対象箇
所として特定し、次に該基材を1対の移動ローラ間に導
き、ほぼ上記一定長さ分左右に往復動する該移動ローラ
にて導き更に送りつつ、上記折曲対象箇所に少なくとも
押圧力を加え、もって該基材を、上記一定長さ毎に連続
的に折曲しじぐざぐ状に折り畳んで重積する工程、を有
してなることを特徴とするハニカムコアの製造方法。
4. After the step according to claim 3, each boundary portion between the adhesive applied to one surface of the base material and the adhesive applied to the other surface is substantially aligned along the width direction. Identify it as a linear bending target portion, and then guide the base material between a pair of moving rollers, guide the base material by the moving rollers that reciprocate right and left by the fixed length substantially, and further send the base material. A step of applying at least a pressing force to a target portion, and continuously folding and laminating the base material at every predetermined length to stack the honeycomb core. Manufacturing method.
JP2419165A 1990-12-27 1990-12-27 Manufacturing method of honeycomb core Expired - Lifetime JP3069132B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2419165A JP3069132B2 (en) 1990-12-27 1990-12-27 Manufacturing method of honeycomb core

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2419165A JP3069132B2 (en) 1990-12-27 1990-12-27 Manufacturing method of honeycomb core

Publications (2)

Publication Number Publication Date
JPH04232040A JPH04232040A (en) 1992-08-20
JP3069132B2 true JP3069132B2 (en) 2000-07-24

Family

ID=18526839

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2419165A Expired - Lifetime JP3069132B2 (en) 1990-12-27 1990-12-27 Manufacturing method of honeycomb core

Country Status (1)

Country Link
JP (1) JP3069132B2 (en)

Also Published As

Publication number Publication date
JPH04232040A (en) 1992-08-20

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