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JPH05277597A - Manufacture of honeycomb panel - Google Patents

Manufacture of honeycomb panel

Info

Publication number
JPH05277597A
JPH05277597A JP4071921A JP7192192A JPH05277597A JP H05277597 A JPH05277597 A JP H05277597A JP 4071921 A JP4071921 A JP 4071921A JP 7192192 A JP7192192 A JP 7192192A JP H05277597 A JPH05277597 A JP H05277597A
Authority
JP
Japan
Prior art keywords
side plate
honeycomb
honeycomb core
welding
corrugated
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
Application number
JP4071921A
Other languages
Japanese (ja)
Other versions
JP2609028B2 (en
Inventor
Katsuhiro Minamida
勝宏 南田
Masashi Oikawa
昌志 及川
Atsushi Sugibashi
敦史 杉橋
Akira Ishibashi
彰 石橋
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.)
Nippon Steel Corp
Original Assignee
Nippon Steel Corp
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 Nippon Steel Corp filed Critical Nippon Steel Corp
Priority to JP4071921A priority Critical patent/JP2609028B2/en
Priority to KR1019930703650A priority patent/KR960005425B1/en
Priority to EP93906854A priority patent/EP0589054A1/en
Priority to PCT/JP1993/000399 priority patent/WO1993019933A1/en
Publication of JPH05277597A publication Critical patent/JPH05277597A/en
Priority to US08/485,884 priority patent/US5635306A/en
Application granted granted Critical
Publication of JP2609028B2 publication Critical patent/JP2609028B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Laser Beam Processing (AREA)
  • Laminated Bodies (AREA)

Abstract

PURPOSE:To obtain a rigid panel which can be joined easily by welding the end part of a waveform of a honeycomb core and a side plate, and subsequently, welding the top part of a corrugated groove and the upper face sheet, and next, joining a bottom part of the corrugated groove part and the lower face sheet and joining the side plate. CONSTITUTION:A welding laser beam L is moved along the waveform of a contact part between the end part of a honeycomb core 3 and a side plate 5, and the honeycomb core 3 and the side plate 5 are welded and joind. Subsequently, the top part of a corrugated groove of the honeycomb core 3 and the upper face sheet 2a are welded by radiating the laser beam L from the bottom part side of the corrugated groove. Next, a bottom part of the corrugated groove of the honeycomb core 3 and the lower face sheet 2b are welded and joined by using the laser beam L. In such a way, a honeycomb panel structure which can be joined easily, has no welding marks and is excellent in corrosion resistance is obtained.

Description

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

【0001】[0001]

【産業上の利用分野】この発明は、ステンレス鋼または
チタン等の金属よりなるハニカムパネルに関する。本発
明のハニカムパネルは上下面で一対のフェースシートに
挾まれたハニカムコアよりなる。通常ハニカムコアは波
形断面であり、フェースシートとは接着または溶接等に
よって接合されている。このような構造のハニカムパネ
ルは非常に軽く、かつ強度に優れている。この種のハニ
カムパネルは航空機や船舶、車輌等に使用される。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a honeycomb panel made of metal such as stainless steel or titanium. The honeycomb panel of the present invention comprises a honeycomb core sandwiched between a pair of face sheets on the upper and lower surfaces. Usually, the honeycomb core has a corrugated cross section and is joined to the face sheet by adhesion or welding. The honeycomb panel having such a structure is very light and has excellent strength. This type of honeycomb panel is used in aircraft, ships, vehicles and the like.

【0002】[0002]

【従来の技術】広い面積のハニカム構造物は、ハニカム
パネル同士を相互に接合して形成する。図9は特開昭6
2−238072号に記載の接合方法の例である。図9
でフェースシート2a,2bや2a',2b'は、ハニカ
ムコア3を接合する際に歪が発生し易いために、寸法精
度が悪く、また板厚が薄い。図9(A)の2aと2a'を
また2bと2b'とを接合するとハニカムパネルは接合
されるが、2aと2a'等の突き合わせ溶接は、2aと
2a'等の板厚が薄く且つ寸法精度が悪いために容易で
はない。
2. Description of the Related Art A honeycomb structure having a large area is formed by joining honeycomb panels to each other. FIG. 9 shows JP-A-6
It is an example of the joining method described in No. 2-238072. Figure 9
Since the face sheets 2a, 2b and 2a ', 2b' are likely to be distorted when joining the honeycomb cores 3, the dimensional accuracy is poor and the plate thickness is thin. When the honeycomb panels are joined by joining 2a and 2a ′ and 2b and 2b ′ of FIG. 9 (A), the butt welding of 2a and 2a ′ and the like is thin and the dimensions of 2a and 2a ′ and the like are small. Not easy due to poor accuracy.

【0003】図9(B)では、ハニカムパネルの厚さより
も大きい高さのインサート材4を挾んで、インサート材
4を介して2aと2a'とを、また2bと2b'とを溶接
する。しかし図9(B)の方法は、コアの接合は行われず
フェースシートのみの接合であるために、十分な接合強
度が得られないという問題点がある。また突出したイン
サート材4によって、接合部が盛り上がり美観が損なわ
れる。更に接合の都度インサート材を挿入する工程は煩
瑣である。
In FIG. 9B, an insert material 4 having a height larger than the thickness of the honeycomb panel is sandwiched, and 2a and 2a 'and 2b and 2b' are welded through the insert material 4. However, the method of FIG. 9B has a problem in that sufficient bonding strength cannot be obtained because the cores are not bonded and only the face sheet is bonded. Further, the protruding insert material 4 raises the joint portion and spoils the appearance. Furthermore, the step of inserting the insert material each time joining is complicated.

【0004】[0004]

【発明が解決しようとする課題】本発明は十分な接合強
度を確保することができ、かつ接合部に盛り上がりがな
いために接合後の表面が美麗であり、更に接合を容易に
行うことができる、ハニカムパネルの製造方法の提供を
課題としている。
According to the present invention, a sufficient joining strength can be secured, and since there is no swelling at the joining portion, the surface after joining is beautiful and further joining can be performed easily. It is an object to provide a method for manufacturing a honeycomb panel.

【0005】[0005]

【課題を解決するための手段および作用】図1は本発明
の方法の説明図である。図1(A)はハニカムコア3の例
で、予め波板状に形成されている。波の形状は特に限定
するものではなく、台形を連続せしめた波板や、あるい
は曲線を連続せしめた波板であってもよい。
FIG. 1 is an explanatory view of the method of the present invention. FIG. 1A shows an example of the honeycomb core 3, which is previously formed in a corrugated plate shape. The shape of the wave is not particularly limited, and may be a corrugated plate having a continuous trapezoid or a continuous corrugated curve.

【0006】図1(B)はハニカムコア3と側板5の接合
を示す図である。本発明ではハニカムコア3の波形の端
面と側板5とを波形の端面に沿って溶接接合する。本発
明の側板5は、ハニカムコア3と同じかあるいは同等の
材質のものを用いることができる。例えば溶接用レーザ
ビームLをハニカムコア3の端部と側板5の接触部の波
形に沿って走行させて、波形の端面に沿ってハニカムコ
ア3と側板5とを溶接接合する。図中LHはレーザ溶接
ヘッドでLFはレーザビームをLHに伝送する光ファイ
バーの例である。
FIG. 1 (B) is a view showing the joining of the honeycomb core 3 and the side plate 5. In the present invention, the corrugated end surface of the honeycomb core 3 and the side plate 5 are welded and joined along the corrugated end surface. The side plate 5 of the present invention may be made of the same material as or a material similar to that of the honeycomb core 3. For example, the welding laser beam L is caused to travel along the waveform of the contact portion between the end portion of the honeycomb core 3 and the side plate 5, and the honeycomb core 3 and the side plate 5 are welded and joined along the end face of the waveform. In the figure, LH is a laser welding head, and LF is an example of an optical fiber for transmitting a laser beam to the LH.

【0007】図1(C)は上面フェースシート2aの取付
を示す図である。この取付はハニカムコア3の波溝の頂
部と上面フェースシート2aとを、波溝の底部側から、
エネルギビーム、例えばレーザビームLを照射して溶接
する。本発明では波溝の底部側から照射条件を予め選択
したエネルギビームを用いて溶接するため、上面フェー
スシート2aの外面には溶接痕が発生しない。図中では
1箇所の溶接になっているが、必要とされるハニカムパ
ネルの強度に応じて1箇所あるいは2箇所あるいは3箇
所と決定され、溶接形態もシーム溶接あるいはパルス溶
接を決定すればよい。従って強固でかつ美麗な表面のハ
ニカムパネルを製造することができる。図中6は上面フ
ェースシート2aとハニカムコア3との接合部である。
FIG. 1C is a view showing the attachment of the upper face sheet 2a. For this attachment, the top of the wave groove of the honeycomb core 3 and the upper face sheet 2a are placed from the bottom side of the wave groove.
The welding is performed by irradiating an energy beam, for example, a laser beam L. In the present invention, welding is performed from the bottom side of the wave groove by using the energy beam whose irradiation condition is preselected, so that no welding mark is generated on the outer surface of the upper face sheet 2a. Although the welding is performed at one location in the figure, it is determined to be one location, two locations or three locations depending on the required strength of the honeycomb panel, and the welding mode may be determined by seam welding or pulse welding. Therefore, it is possible to manufacture a honeycomb panel having a strong and beautiful surface. Reference numeral 6 in the figure denotes a joint between the upper face sheet 2a and the honeycomb core 3.

【0008】図1(D)は下面フェースシート2bの取付
を示す図である。この取付は、ハニカムコア3の波溝の
底部と下面フェースシート2bとを、例えばレーザビー
ムLを用いて溶接接合することによって行う。下面フェ
ースシート2bの外面には溶接痕が発生するが、下面フ
ェースシート2b側を、外観が重要ではない、例えばハ
ニカム構造物の裏面とする事によって、ハニカム構造物
の外観が損なわれる事がない。図中7は下面フェースシ
ート2bとハニカムコア3との接合部の例である。
FIG. 1D is a view showing the attachment of the lower face sheet 2b. This attachment is performed by welding and joining the bottom of the wave groove of the honeycomb core 3 and the lower face sheet 2b using, for example, the laser beam L. Welding marks are generated on the outer surface of the lower face sheet 2b, but the appearance of the lower face sheet 2b is not important, for example, the rear face of the honeycomb structure does not impair the outer appearance of the honeycomb structure. .. Reference numeral 7 in the drawing is an example of a joint portion between the lower face sheet 2b and the honeycomb core 3.

【0009】本発明では上面フェースシート2aは側板
5と溶接し、また下面フェースシート2bも側板5と溶
接するが、これ等の溶接は、ハニカムコアとフェースシ
ートとの溶接の前に行ってもよいし、後で行ってもよ
い。
In the present invention, the upper face sheet 2a is welded to the side plate 5, and the lower face sheet 2b is also welded to the side plate 5. However, these weldings may be performed before the welding of the honeycomb core and the face sheet. Good or you can go later.

【0010】図2はこのようにして作成した本発明のハ
ニカムパネルの作用の説明図で、(A)は平面の説明図、
(B)は正面の説明図、(C)は矢視イ−イ断面の説明図で
ある。ハニカムパネル1は、上面フェースシート2a、
下面フェースシート2b、ハニカムコア3、側板5で形
成され、ハニカムパネル1'は、上面フェースシート2
a'、下面フェースシート2b'、ハニカムコア3'、側
板5'で形成されている。
FIG. 2 is an explanatory view of the operation of the honeycomb panel of the present invention produced in this way, (A) is an explanatory plan view,
(B) is an explanatory view of the front surface, and (C) is an explanatory view of a cross section taken along the line EE. The honeycomb panel 1 includes an upper face sheet 2a,
The lower face sheet 2b, the honeycomb core 3 and the side plates 5 are formed, and the honeycomb panel 1'is formed of the upper face sheet 2
a ', the lower face sheet 2b', the honeycomb core 3 ', and the side plate 5'.

【0011】ハニカム構造物を作成する際には、2枚の
ハニカムパネル1と1'とを接合するが、図2(A)およ
び(B)に示す如く接合に際しては、側板5と5'とを突
き合わせて、例えば溶接8によって相互に接合する。
When the honeycomb structure is produced, the two honeycomb panels 1 and 1'are joined together. However, as shown in FIGS. 2A and 2B, the side plates 5 and 5'are joined together. Are abutted and joined to each other, for example by welding 8.

【0012】図9に示す如く、従来のハニカムパネルの
接合は、上面フェースシート2aと2a'との接合と下
面フェースシート2bと2b'との接合であり、あるい
はインサート材4を介した2aと2a'および2bと2
b'との接合である。しかしフェースシートを接合した
だけでは、接合部の剛性や強度が小さいという問題点が
ある。
As shown in FIG. 9, a conventional honeycomb panel is joined to the upper face sheets 2a and 2a 'and the lower face sheets 2b and 2b', or to the 2a via the insert material 4. 2a 'and 2b and 2
It is a joint with b '. However, there is a problem that rigidity and strength of the joint portion are small only by joining the face sheets.

【0013】本発明では、図1(B)で述べた如く、ハニ
カムコア3の端面と側板5とは、波形の端面に沿って溶
接接合されている。図2の9,9’はこの溶接部であ
る。この溶接9(9')によって、側板5(5')はハニカム
コア3(3')の全ての剛性や強度を受けついでいる。こ
のため側板5と5'とを溶接8によって接合すると、ハ
ニカムコア3と3'の剛性や強度は全て接合部に受けつ
がれて、接合部で剛性や強度が劣化する事がない。従っ
て本発明のハニカムパネル1と1'を相互に接合したハ
ニカム構造物は、継目がない長尺のハニカムパネルと同
じ剛性や強度を有する。
In the present invention, as described with reference to FIG. 1B, the end face of the honeycomb core 3 and the side plate 5 are welded to each other along the corrugated end face. Reference numeral 9 and 9'in FIG. 2 are the welded portions. By this welding 9 (9 '), the side plate 5 (5') receives all the rigidity and strength of the honeycomb core 3 (3 '). For this reason, when the side plates 5 and 5'are joined by welding 8, the rigidity and strength of the honeycomb cores 3 and 3'are all received by the joint, and the rigidity and strength do not deteriorate at the joint. Therefore, the honeycomb structure in which the honeycomb panels 1 and 1'of the present invention are bonded to each other has the same rigidity and strength as a seamless long honeycomb panel.

【0014】本発明のハニカムパネルは、相互に接合す
るに際して、ハニカムパネルの厚さよりも大きい高さ
の、図9のインサート材4を用いない。従って接合部が
盛り上ることなく、美麗な接合部を得ることができる。
When the honeycomb panels of the present invention are bonded to each other, the insert material 4 of FIG. 9 having a height larger than the thickness of the honeycomb panels is not used. Therefore, it is possible to obtain a beautiful joint without raising the joint.

【0015】側板5を有しないハニカムパネルは、フェ
ースシート2a,2bとハニカムコアを接合する際の歪
によって、フェースシート2a,2bの端部の寸法精度
が悪く、またフェースシート2a,2bは板厚が薄いた
めに、ハニカムパネルの相互の溶接には熟練を要する。
本発明のハニカムパネルはフェースシートの端部は側板
に溶接接合してあるために、フェースシート2a,2b
の端部の寸法精度は高く、また5と5'の広い突合せ面
に溶接接合を行うために、ハニカムパネルの相互の溶接
を簡易に行うことができる。
In the honeycomb panel having no side plate 5, the dimensional accuracy of the end portions of the face sheets 2a and 2b is poor due to the distortion when the face sheets 2a and 2b and the honeycomb core are joined, and the face sheets 2a and 2b are not plate-shaped. Due to the small thickness, welding the honeycomb panels together requires skill.
In the honeycomb panel of the present invention, since the end portion of the face sheet is welded and joined to the side plate, the face sheets 2a and 2b are
The dimensional accuracy of the ends of the honeycomb panel is high, and since the welded joints are formed on the wide butt surfaces 5 and 5 ', the honeycomb panels can be easily welded to each other.

【0016】図3は、ハニカムコアの波形の端面を嵌合
せる波形の嵌合溝10を設けた側板5の説明図である。
ハニカムコア3の板厚よりも大きい溝幅t1の嵌合溝1
0を、予め側板5に、例えば切削加工等により刻設して
おく。ハニカムコアの波形の端面と側板5との溶接接合
に際しては、ハニカムコア3の波形の端面を側板の嵌合
溝10に先ず嵌合せ、その後図1(B)で示した波形の切
断面に沿って溶接を行う。この方法によると、ハニカム
コアと側板との溶接に際して、溶接部が相互に固定され
るために、溶接作業が容易であり、また寸法精度が優れ
た接合部を形成することができる。
FIG. 3 is an explanatory view of the side plate 5 provided with the corrugated fitting groove 10 for fitting the corrugated end surface of the honeycomb core.
Fitting groove 1 having a groove width t 1 larger than the thickness of the honeycomb core 3
0 is previously engraved on the side plate 5 by, for example, cutting. When welding the corrugated end surface of the honeycomb core and the side plate 5, the corrugated end surface of the honeycomb core 3 is first fitted into the fitting groove 10 of the side plate, and then along the corrugated cutting surface shown in FIG. 1 (B). Welding. According to this method, when the honeycomb core and the side plate are welded, the welded portions are fixed to each other, so that the welding operation is easy and a joined portion with excellent dimensional accuracy can be formed.

【0017】図3で、嵌合溝10の溝幅t1を大きくす
ると、ハニカムコア3を側板5に容易にセットする事が
できるが、ハニカムコア3と嵌合溝10の隙間が大きく
なり、溶接速度が低下する事を余儀なくされる。この際
には嵌合溝10とハニカムコア3の隙間を金属充填材
(ペースト等)で充填し、その後で波形の端面に沿った図
1(B)で示した溶接を行う。この方法によると、ハニカ
ムコアと側板を容易にセットする事ができ、且つ高速度
で溶接を行うことができる。金属充填材としては、ニッ
ケル粉末を接着剤と混練した市販のペーストや、金属線
等を用いる事ができる。
In FIG. 3, if the groove width t 1 of the fitting groove 10 is increased, the honeycomb core 3 can be easily set on the side plate 5, but the gap between the honeycomb core 3 and the fitting groove 10 becomes large, Welding speed is reduced. At this time, the gap between the fitting groove 10 and the honeycomb core 3 is filled with a metal filling material.
Filling with (paste or the like), and then welding shown in FIG. 1 (B) along the end face of the corrugation is performed. According to this method, the honeycomb core and the side plate can be easily set and the welding can be performed at a high speed. As the metal filler, a commercially available paste prepared by kneading nickel powder with an adhesive, a metal wire, or the like can be used.

【0018】図4は、ハニカムコアの波形の端面と嵌合
せる波形の、厚さがd1とd2とで形成された段差を有す
る側板5の例である。この側板5を用いると、ハニカム
コアを側板5に容易に密着してセットする事ができる。
この際には、図1(B)で述べた溶接接合を、ハニカムコ
アの波形の端部を側板の段差に嵌合せた後で行う。この
方法を用いると、簡易に且つ高能率で、ハニカムコアと
側板とを溶接接合することができる。
FIG. 4 shows an example of a side plate 5 having a step formed by the thicknesses d 1 and d 2 of a corrugation that is fitted to the corrugated end surface of the honeycomb core. When this side plate 5 is used, the honeycomb core can be set in close contact with the side plate 5 easily.
At this time, the welding joining described in FIG. 1 (B) is performed after fitting the corrugated end of the honeycomb core to the step of the side plate. By using this method, the honeycomb core and the side plate can be easily welded and joined together with high efficiency.

【0019】図5は、断面がL字型の側板5を用いた本
発明のハニカムパネルの説明図である。上面フェースシ
ート2aと下面フェースシート2bとハニカムコア3と
L字型側板5aよりなるハニカムパネル1と、上面フェ
ースシート2a'と下面フェースシート2b'とハニカム
コア3'とL字型側板5a'よりなるハニカムパネル1'
とを、支柱11上で接合する場合、L字型側板5a,5
a'のそれぞれのフランジ部を例えば溶接13,13'で
支柱11にそれぞれ接合すると、支柱11を介して、ハ
ニカムパネル1と1'を強い接合強度で簡易に接合する
ことができる。図中12は必要に応じて用いる蓋で、上
面フェースシート2aと2a'に溶接し、平坦で美麗な
接合部を形成することができる。
FIG. 5 is an explanatory view of the honeycomb panel of the present invention using the side plate 5 having an L-shaped cross section. From the upper face sheet 2a, the lower face sheet 2b, the honeycomb core 3 and the L-shaped side plate 5a, the upper face sheet 2a ', the lower face sheet 2b', the honeycomb core 3'and the L-shaped side plate 5a '. Honeycomb panel 1 '
When joining and on the pillar 11, the L-shaped side plates 5a, 5
When the respective flange portions of a ′ are joined to the support columns 11 by welding 13 and 13 ′, for example, the honeycomb panels 1 and 1 ′ can be easily bonded via the support columns 11 with high bonding strength. Reference numeral 12 in the drawing denotes a lid which is used if necessary, and can be welded to the upper face sheets 2a and 2a 'to form a flat and beautiful joint.

【0020】図6は、断面がコ字型の側板5bを用いた
本発明のハニカムパネルの説明図である。例えば横梁1
4とハニカムパネルとの嵌合せ接合は、従来のハニカム
パネルでは難しい。断面がコ字型の側板5bを有するハ
ニカムパネル1と断面がコ字型の側板5b'を有するハ
ニカムパネル1'は、側板5b,5b'を横梁14に嵌合
せて容易に接合する事ができる。この際、必要に応じ
て、横梁14と側板5b等を相互に溶接等によって更に
高強度に接合できることはいう迄もない。
FIG. 6 is an explanatory view of the honeycomb panel of the present invention using the side plate 5b having a U-shaped cross section. For example, horizontal beam 1
It is difficult to fit and join 4 and the honeycomb panel with a conventional honeycomb panel. The honeycomb panel 1 having the side plate 5b having a U-shaped cross section and the honeycomb panel 1 ′ having the side plate 5b ′ having a U-shaped cross section can be easily joined by fitting the side plates 5b and 5b ′ to the cross beam 14. .. At this time, it goes without saying that the transverse beam 14 and the side plate 5b and the like can be joined to each other with higher strength by welding or the like, if necessary.

【0021】図7は、横向凸の断面の側板5cを有する
ハニカムパネル1と、横向凹の断面の側板5dを有する
ハニカムパネル1'との接合の説明図である。ハニカム
パネル1と1'とは側板の凸部と凹部を相互に嵌合せる
事によって、簡易に接合する事ができる。この際、5c
と5dとを更に溶接等によって高強度に接合できる事は
いうまでもない。
FIG. 7 is an explanatory view of the joining of the honeycomb panel 1 having the side plate 5c having the laterally convex cross section and the honeycomb panel 1'having the side plate 5d having the laterally concave cross section. The honeycomb panels 1 and 1'can be easily joined by fitting the convex portions and the concave portions of the side plates to each other. At this time, 5c
It is needless to say that and 5d can be joined with high strength by welding or the like.

【0022】ハニカムパネルの一の側面に側板を配した
例を述べたが、本発明には、ハニカムコアの他方の波形
の切断面にも側板を配することができ多数のハニカムパ
ネルを接合する際に上記と同じ作用効果を奏する事はい
うまでもなく、また更にハニカムコアの波形の溝と平行
なハニカムパネルの側面にも側板を配することができ、
同じ作用効果が得られる事もいうまでもない。従ってこ
れ等のハニカムパネルも本発明に含まれる。
Although an example in which the side plate is arranged on one side surface of the honeycomb panel has been described, in the present invention, the side plate can also be arranged on the other corrugated cut surface of the honeycomb core to join a large number of honeycomb panels. It goes without saying that the same effect as described above can be obtained when the side plate is arranged on the side surface of the honeycomb panel parallel to the corrugated grooves of the honeycomb core.
It goes without saying that the same effect can be obtained. Therefore, these honeycomb panels are also included in the present invention.

【0023】図8はその例の説明図である。ハニカムパ
ネルの四つ側面に断面がL型の側板5e,5f,5g,
5hを配した本発明のハニカムパネル1は、前後左右に
互いに強い接合力で簡易に他のハニカムパネルを接合す
る事ができ、また接合に際して接合面は美麗である。
FIG. 8 is an explanatory diagram of the example. Side plates 5e, 5f, 5g having L-shaped cross sections on four side surfaces of the honeycomb panel,
The honeycomb panel 1 of the present invention in which 5h is arranged can easily join other honeycomb panels to each other with a strong joining force in front, back, left and right, and the joining surface is beautiful at the time of joining.

【0024】[0024]

【実施例】以下添付図面を参照して本発明の実施例を詳
細に説明する。以下に説明する実施例は本発明を原理的
に説明するものであり、発明を限定する意味合いを持た
ないのは勿論である。
Embodiments of the present invention will now be described in detail with reference to the accompanying drawings. The embodiments described below are intended to explain the present invention in principle, and needless to say have no meaning to limit the invention.

【0025】実施例で用いたハニカムパネルを構成する
ハニカムコアは、図1(A)に示すようにステンレス製で
その厚みは300μmであり、台形形状を連続せしめた
波板で、波の周期は35mm、波の高さは40mm、フ
ェースシートと接する面が台形の底に相当し、5mmの
幅を持つ。側板5は図1(B)に示すようにL字型のステ
ンレス製で、高さ幅ともに40mm、長さ300mm、
肉厚5mmである。
The honeycomb core constituting the honeycomb panel used in the example is made of stainless steel and has a thickness of 300 μm as shown in FIG. 1 (A). It is a corrugated plate having a continuous trapezoidal shape and the wave period is 35 mm, the wave height is 40 mm, the surface in contact with the face sheet corresponds to the bottom of the trapezoid, and has a width of 5 mm. The side plate 5 is made of L-shaped stainless steel as shown in FIG. 1 (B), and has a height width of 40 mm and a length of 300 mm,
The wall thickness is 5 mm.

【0026】波板3と側板5との接合は図1(B)に示す
ように、前述の成形後のハニカムコアの波形端部と側板
5を接触させ、該接触部に溶接用レーザビームLを照射
した。なお、レーザは一般の溶接によく用いられる連続
波発振のYAGレーザを用い光ファイバーLFにてレー
ザ溶接ヘッドLHまでビームを伝送し溶接を行った。こ
の時の加工条件は出力240W、加工速度毎分1mであ
った。このハニカムコアと側板の接合工程を図8に示す
如くハニカムパネルの四方に行った。
As shown in FIG. 1B, the corrugated plate 3 and the side plate 5 are joined to each other by bringing the corrugated end portion of the honeycomb core after molding into contact with the side plate 5, and welding laser beam L to the contact portion. Was irradiated. The laser used was a continuous wave oscillation YAG laser often used in general welding, and the beam was transmitted to the laser welding head LH by the optical fiber LF for welding. The processing conditions at this time were an output of 240 W and a processing speed of 1 m / min. The process of joining the honeycomb core and the side plate was performed on all sides of the honeycomb panel as shown in FIG.

【0027】その後図1(C)、図1(D)に示すようにハ
ニカムコアと同様の材質のフェースシートをハニカムコ
アに重ね合わせ、先ず図1(C)の如くハニカムコア側か
らフェースシート2aの表面に溶接痕ができない条件で
接合を行い、次に反対側のフェースシート2bの溶接を
行った。さらに側板とフェースシートの接合をフェース
シートの表面に溶接痕が出ないように横から行った。こ
のときのレーザの溶接条件は600W、加工速度毎分1
mであった。
Thereafter, as shown in FIGS. 1 (C) and 1 (D), a face sheet made of the same material as the honeycomb core is superposed on the honeycomb core. First, as shown in FIG. 1 (C), the face sheet 2a is placed from the honeycomb core side. Were joined under the condition that no welding mark was formed on the surface of the above, and then the face sheet 2b on the opposite side was welded. Further, the side plate and the face sheet were joined from the side so that no welding mark was formed on the surface of the face sheet. The welding conditions of the laser at this time are 600 W and the processing speed is 1 per minute.
It was m.

【0028】これによって、1辺が300mmの正方形
のハニカムパネルを成形した。このような側板付きのハ
ニカムパネルを用い、ハニカムパネルの側板のフランジ
先端部同士をTIG溶接によって接合した。また、図5
に示すように側板5とT形の他部材11との接合を行っ
た。
As a result, a square honeycomb panel having one side of 300 mm was formed. Using honeycomb panels with such side plates, the flange tip portions of the side plates of the honeycomb panels were joined by TIG welding. Also, FIG.
The side plate 5 and the T-shaped other member 11 were joined as shown in FIG.

【0029】このようにして相互に接合したハニカムパ
ネルを用い、曲げテストを行ったところ、接合部やハニ
カムパネルの破断がなく強固で、かつ少なくとも一方の
表面に溶接痕のなく耐食性に優れたハニカムパネル構造
物を得ることができた。
When a bending test was performed using the honeycomb panels thus bonded to each other, the honeycomb was strong without breakage of the bonded part or the honeycomb panel, and had excellent corrosion resistance with no welding marks on at least one surface. A panel structure could be obtained.

【0030】[0030]

【発明の効果】本発明は、ハニカムパネル同士のあるい
は他部材への接合が容易で、従来のハニカムパネル同士
の接合では強度が十分得られずまたハニカムパネル表面
に溶接痕ができるという問題がなく、かつ側板の使用に
よる強固なハニカムパネルが得られ溶接痕がハニカムパ
ネル構造物の表面にないハニカムパネルである。その結
果、従来よりも組み立てが容易であり、かつ耐食性に優
れたハニカムパネルの使用が可能になった。
EFFECTS OF THE INVENTION According to the present invention, it is easy to join honeycomb panels to each other or to other members, and there is no problem that sufficient strength cannot be obtained by the conventional joining of honeycomb panels and that welding marks are left on the honeycomb panel surface. In addition, a strong honeycomb panel can be obtained by using the side plate, and there is no welding mark on the surface of the honeycomb panel structure. As a result, it has become possible to use a honeycomb panel that is easier to assemble than conventional and has excellent corrosion resistance.

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

図1は本発明のハニカムパネルの製造方法の説明図、図
2は本発明のハニカムパネルの作用の説明図、図3は嵌
合溝を設けた側板の説明図、図4は段差を有する側板の
説明図、図5はL字型の側板を用いた本発明のハニカム
パネルの説明図、図6はコ字型の側板を用いた本発明の
ハニカムパネルの説明図、図7は横向き凹と横向き凸の
側板を用いた本発明のハニカムパネルの説明図、図8は
四つの側面に側板を配した本発明のハニカムパネルの説
明図、図9はハニカムパネルの公知の接合方法の説明
図、である。
1 is an explanatory view of a method for manufacturing a honeycomb panel of the present invention, FIG. 2 is an explanatory view of an operation of the honeycomb panel of the present invention, FIG. 3 is an explanatory view of a side plate provided with a fitting groove, and FIG. 4 is a side plate having a step. 5 is an explanatory view of a honeycomb panel of the present invention using an L-shaped side plate, FIG. 6 is an explanatory view of a honeycomb panel of the present invention using a U-shaped side plate, and FIG. An explanatory view of a honeycomb panel of the present invention using a laterally convex side plate, FIG. 8 is an explanatory view of a honeycomb panel of the present invention in which side plates are arranged on four side surfaces, and FIG. 9 is an explanatory view of a known bonding method of the honeycomb panel, Is.

【符号の説明】[Explanation of symbols]

1(1'):ハニカムパネル、 2(2a,2b):フェー
スシート、 3:ハニカムコア、 4:インサート材、
5(5a,5b,5c,5d,5e,5f,5g,5
h):側板、 6:溶接部、 7:溶接部、 8:溶接
部、 9(9'):溶接部、 10:嵌合溝、 11:他
の構造部材、 12:蓋、 13:溶接、14:他の構
造部材。
1 (1 '): Honeycomb panel, 2 (2a, 2b): Face sheet, 3: Honeycomb core, 4: Insert material,
5 (5a, 5b, 5c, 5d, 5e, 5f, 5g, 5
h): side plate, 6: welded part, 7: welded part, 8: welded part, 9 (9 ′): welded part, 10: fitting groove, 11: other structural member, 12: lid, 13: welded, 14: Other structural member.

───────────────────────────────────────────────────── フロントページの続き (72)発明者 石橋 彰 神奈川県相模原市並木4−1−36−201 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Akira Ishibashi 4-1-36-201 Namiki, Sagamihara City, Kanagawa Prefecture

Claims (5)

【特許請求の範囲】[Claims] 【請求項1】波板状のハニカムコアの波形の端面と側板
とを波形の端面に沿って溶接接合し、ハニカムコアの波
溝の頂部と上面フェースシートとを波溝の底部側からエ
ネルギビームを用いて溶接し、ハニカムコアの波溝の底
部と下面フェースシートとを溶接接合し、ハニカムコア
とフェースシートとの溶接の前あるいは溶接後にフェー
スシートと側板とを溶接することを特徴とする、ハニカ
ムパネルの製造方法。
1. A corrugated honeycomb core having corrugated end faces and side plates welded to each other along the corrugated end faces by welding, and a top portion of the corrugated grooves of the honeycomb core and an upper face sheet from the bottom side of the corrugated grooves to the energy beam. Welding using, the bottom portion of the corrugation of the honeycomb core and the lower face sheet are welded and joined together, and the face sheet and the side plate are welded before or after the welding of the honeycomb core and the face sheet. Manufacturing method of honeycomb panel.
【請求項2】側板がハニカムコアの波形の端面と嵌合せ
る波形の嵌合溝を有する側板で、ハニカムコアの波形の
端面と側板との溶接接合が、ハニカムコアの波形の端面
を側板の嵌合溝に嵌合わせ、その後波形の端面に沿って
行う溶接接合である事を特徴とする、請求項1に記載の
ハニカムパネルの製造方法。
2. A side plate having a corrugated fitting groove for fitting the corrugated end face of the honeycomb core, wherein the corrugated end face of the honeycomb core and the side plate are welded to each other by fitting the corrugated end face of the honeycomb core to the side plate. The method for manufacturing a honeycomb panel according to claim 1, wherein the welding is performed by fitting the groove into a mating groove and then performing welding along the corrugated end surface.
【請求項3】嵌合溝の溝幅がハニカムコアの厚さよりも
大きい嵌合溝であって、ハニカムコアの波形の端面と側
板との溶接接合が、ハニカムコアの波形の端面を側板の
嵌合溝に嵌合わせ、嵌合溝とハニカムコアの隙間を金属
充填材で充填し、その後波形の端面に沿って行う溶接接
合である事を特徴とする、請求項2に記載のハニカムパ
ネルの製造方法。
3. A fitting groove in which the width of the fitting groove is larger than the thickness of the honeycomb core, and the corrugated end surface of the honeycomb core and the side plate are welded to each other by fitting the corrugated end surface of the honeycomb core to the side plate. The manufacturing of a honeycomb panel according to claim 2, wherein the welding is performed by fitting in a mating groove, filling a gap between the mating groove and the honeycomb core with a metal filler, and then performing welding along the corrugated end face. Method.
【請求項4】側板がハニカムコアの波形の端面と嵌合せ
る波形の段差を有する側板で、ハニカムコアの波形の端
面と側板との溶接接合が、ハニカムコアの波形の端面を
側板の段差に嵌合わせ、その後波形の端面に沿って行う
溶接接合である事を特徴とする、請求項1に記載のハニ
カムパネルの製造方法。
4. A side plate having a corrugated step for fitting the corrugated end surface of the honeycomb core, wherein the corrugated end surface of the honeycomb core and the side plate are welded to each other by fitting the corrugated end surface of the honeycomb core to the step of the side plate. The method for manufacturing a honeycomb panel according to claim 1, wherein the joining is performed by welding and then along the corrugated end face.
【請求項5】側板が、断面がL字型のあるいはコ字型の
あるいは横向凸のあるいは横向凹の断面の側板であるこ
とを特徴とする、請求項1または2または3または4に
記載のハニカムパネルの製造方法。
5. The side plate according to claim 1, 2 or 3 or 4, wherein the side plate is a side plate having an L-shaped section, a U-shaped section, a laterally convex section or a laterally concave section. Manufacturing method of honeycomb panel.
JP4071921A 1992-03-30 1992-03-30 Manufacturing method of honeycomb panel Expired - Fee Related JP2609028B2 (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
JP4071921A JP2609028B2 (en) 1992-03-30 1992-03-30 Manufacturing method of honeycomb panel
KR1019930703650A KR960005425B1 (en) 1992-03-30 1993-03-30 Honeycomb panel and method for manufacturing the same
EP93906854A EP0589054A1 (en) 1992-03-30 1993-03-30 Honeycomb panel and method for manufacturing the same
PCT/JP1993/000399 WO1993019933A1 (en) 1992-03-30 1993-03-30 Honeycomb panel and method for manufacturing the same
US08/485,884 US5635306A (en) 1992-03-30 1995-06-07 Honeycomb panel and process for producing same

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP4071921A JP2609028B2 (en) 1992-03-30 1992-03-30 Manufacturing method of honeycomb panel

Publications (2)

Publication Number Publication Date
JPH05277597A true JPH05277597A (en) 1993-10-26
JP2609028B2 JP2609028B2 (en) 1997-05-14

Family

ID=13474485

Family Applications (1)

Application Number Title Priority Date Filing Date
JP4071921A Expired - Fee Related JP2609028B2 (en) 1992-03-30 1992-03-30 Manufacturing method of honeycomb panel

Country Status (1)

Country Link
JP (1) JP2609028B2 (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7642481B2 (en) * 2006-08-15 2010-01-05 The Boeing Company Apparatus and method for forming corrugated members
JP2010502482A (en) * 2006-09-11 2010-01-28 ティッセンクルップ スチール アクチェンゲゼルシャフト Structured composite sheet
WO2021167551A1 (en) * 2020-02-20 2021-08-26 T.C. Piri Reis Universitesi Construction element developed for use in shipbuilding sector, aircraft industry and all other structural constructions

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS58196165A (en) * 1982-05-11 1983-11-15 アロイ・スポツト・ウエルダ−ス・インコ−ポレ−テツド Method of brazing honeycomb panel
JPH0233980U (en) * 1988-08-29 1990-03-05
JPH04182091A (en) * 1990-11-19 1992-06-29 Mitsubishi Electric Corp Honeycomb block for laser beam machining table

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS58196165A (en) * 1982-05-11 1983-11-15 アロイ・スポツト・ウエルダ−ス・インコ−ポレ−テツド Method of brazing honeycomb panel
JPH0233980U (en) * 1988-08-29 1990-03-05
JPH04182091A (en) * 1990-11-19 1992-06-29 Mitsubishi Electric Corp Honeycomb block for laser beam machining table

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7642481B2 (en) * 2006-08-15 2010-01-05 The Boeing Company Apparatus and method for forming corrugated members
JP2010502482A (en) * 2006-09-11 2010-01-28 ティッセンクルップ スチール アクチェンゲゼルシャフト Structured composite sheet
WO2021167551A1 (en) * 2020-02-20 2021-08-26 T.C. Piri Reis Universitesi Construction element developed for use in shipbuilding sector, aircraft industry and all other structural constructions

Also Published As

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