JPH05247862A - Terminal setting method of fibrous composite row material - Google Patents

Terminal setting method of fibrous composite row material

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Publication number
JPH05247862A
JPH05247862A JP14265391A JP14265391A JPH05247862A JP H05247862 A JPH05247862 A JP H05247862A JP 14265391 A JP14265391 A JP 14265391A JP 14265391 A JP14265391 A JP 14265391A JP H05247862 A JPH05247862 A JP H05247862A
Authority
JP
Japan
Prior art keywords
metal sleeve
fiber composite
composite strip
sleeve
resin layer
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
JP14265391A
Other languages
Japanese (ja)
Other versions
JP2849618B2 (en
Inventor
Takeshi Enomoto
剛 榎本
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.)
Tokyo Rope Manufacturing Co Ltd
Tokyo Seiko Co Ltd
Original Assignee
Tokyo Rope Manufacturing Co Ltd
Tokyo Seiko 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 Tokyo Rope Manufacturing Co Ltd, Tokyo Seiko Co Ltd filed Critical Tokyo Rope Manufacturing Co Ltd
Priority to JP14265391A priority Critical patent/JP2849618B2/en
Publication of JPH05247862A publication Critical patent/JPH05247862A/en
Application granted granted Critical
Publication of JP2849618B2 publication Critical patent/JP2849618B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Abstract

PURPOSE:To provide the subject method designed to effectively prevent the shear or tensile breakages of fibrous composite row materials during sleeve compression processing to improve the setting performance and reliability of a terminal set form. CONSTITUTION:A thin cured resin layer 2 is monolithically formed around the terminal of a fibrous composite row material 1 and the resin layer 2 is engaged with metallic sleeve 5, and a thermosetting resin liquor 3 is filled in-between the resin layer 2 and the metallic sleeve 5 followed by compressing the metallic sleeve 5, and then curing the resin liquor 3 to set the sleeve 5 as terminal set form. In the above setting procedure, part of the metallic sleeve 5 is left uncompressed to provide the inside of the sleeve with an enlarged hole 5a where an enlarged anchoring part 6 of the fibrous composite row material 1 is partly formed, and the sleeve 5 is put to press finishing and compressed at a compression rate of 8-12%.

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、炭素繊維、ガラス繊
維、アラミド繊維等の高強力・低伸度繊維を用いて形成
された繊維複合条材の端末定着法に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a terminal fixing method for a fiber composite strip formed by using high-strength and low-elongation fibers such as carbon fibers, glass fibers and aramid fibers.

【0002】[0002]

【従来の技術】上記繊維複合条材の端末定着法の従来例
を図2によつて説明すると、炭素繊維、ガラス繊維、ア
ラミド繊維等の高強力・低伸度繊維を用いて線状材、棒
状材、あるいは撚合材等に構成されている繊維複合条材
11(図2A参照)の端末部周面に、金属スリーブ15
を嵌装するとともに、金属スリーブ15と繊維複合条材
11の端末部周面との間に、エポキシ樹脂系等の熱硬化
性樹脂液を接着剤として充填し繊維複合条材11に含浸
せしめ(図2B参照)、その熱硬化性樹脂液を硬化させ
て硬化樹脂層12とし、その硬化樹脂層12で金属スリ
ーブ15を繊維複合条材11に一体的に接着した後(図
2C参照)、金属スリーブ15を繊維複合条材11とと
もに回転しつつプレス金型16で少しずつ圧縮加工して
(図2D参照)、繊維複合条材11の端末部に金属スリ
ーブ15を硬化樹脂層12で強力に一体的に接着して端
末定着体に構成し、その端末定着体をナツト、ピン及び
楔付き金属金具(図示省略)等で固定し繊維複合条材1
1の端末部を定着している。2. Description of the Related Art A conventional example of a terminal fixing method for the above-mentioned fiber composite strip will be described with reference to FIG. 2, in which a linear material is formed by using high-strength / low-elongation fibers such as carbon fibers, glass fibers, and aramid fibers. A metal sleeve 15 is formed on the peripheral surface of the end portion of the fiber composite strip 11 (see FIG. 2A) formed of a rod-shaped material or a twisted material.
And a thermosetting resin liquid such as epoxy resin is filled as an adhesive between the metal sleeve 15 and the peripheral surface of the end portion of the fiber composite strip 11 to impregnate the fiber composite strip 11 ( 2B), the thermosetting resin liquid is cured to form a cured resin layer 12, and the metal sleeve 15 is integrally bonded to the fiber composite strip 11 by the cured resin layer 12 (see FIG. 2C). While the sleeve 15 is rotating together with the fiber composite strip 11 and gradually compressed by the press die 16 (see FIG. 2D), the metal sleeve 15 is strongly integrated with the cured resin layer 12 at the end of the fiber composite strip 11. To form a terminal fixing body, which is fixed with nuts, pins, metal fittings with wedges (not shown), etc.
No. 1 terminal has been established.

【0003】[0003]

【発明が解決しようとする課題】従来の上記繊維複合条
材の端末定着法は、繊維複合条材の端末部に嵌装され硬
化樹脂層で一体的に接着されている金属スリーブを圧縮
加工するため、その圧縮加工に際し、繊維複合条材の端
末部に、図2Dに矢示で示すような圧縮応力による剪断
切れや、スリーブ伸びに追従して発生する引張応力によ
る引張切れが生じ易く、そのため、金属スリーブの圧縮
率は7%程度以下に低く制限されており、スリーブ圧着
力、即ち、引張抵抗力の増加には自から限界があり、例
えば、ヨツト等で使用される比較的に小径の高強力・低
伸度繊維複合条材では、前記のような剪断切れや引張切
れによる破断荷重の低下が問題となるなど、製品精度の
バラツキが生じ易く信頼性に問題がある。According to the conventional method for fixing the end of the fiber composite strip, the metal sleeve fitted to the end of the fiber composite strip and integrally bonded with the cured resin layer is compressed. Therefore, during the compression processing, shear breakage due to compressive stress as shown by an arrow in FIG. 2D and tensile breakage due to tensile stress generated following the sleeve elongation are likely to occur at the end portion of the fiber composite strip. The compression ratio of the metal sleeve is limited to about 7% or less, and there is a limit to the increase of the sleeve pressure force, that is, the tensile resistance force. For example, a relatively small diameter used in a jig or the like. The high-strength, low-elongation fiber composite strip material is apt to cause variations in product precision, such as a decrease in breaking load due to shearing or tensile breaking as described above, and thus has a problem in reliability.

【0004】本発明は、上記のような課題に対処するた
めに開発されたものであつて、その目的とする処は、ス
リーブ圧縮加工時における繊維複合条材の剪断切れや引
張切れを効果的に防止し、端末定着体の定着性能、信頼
性を向上した繊維複合条材の端末定着法を提供するにあ
る。The present invention was developed in order to address the above-mentioned problems, and the purpose thereof is to effectively cut shear and tension of the fiber composite strip during sleeve compression processing. Another object of the present invention is to provide a terminal fixing method for a fiber composite strip material, which is improved in the fixing performance and reliability of the terminal fixing member.

【0005】[0005]

【課題を解決するための手段】本発明は、繊維複合条材
の端末部周面に薄い硬化樹脂層を一体的に形成して、硬
化樹脂層に金属スリーブを嵌装し、硬化樹脂層と金属ス
リーブの間に熱硬化性樹脂液を充填して金属スリーブを
圧縮した後、熱硬化性樹脂液を硬化し金属スリーブを端
末定着体として定着することにより、圧縮加工を容易と
し、繊維複合条材の剪断切れや引張切れを効果的に防止
して、金属スリーブの定着性能、信頼性を高めている。SUMMARY OF THE INVENTION According to the present invention, a thin cured resin layer is integrally formed on the peripheral surface of a terminal portion of a fiber composite strip, and a metal sleeve is fitted on the cured resin layer to form a cured resin layer. After filling the thermosetting resin liquid between the metal sleeves and compressing the metal sleeves, the thermosetting resin liquid is cured to fix the metal sleeves as terminal fixing bodies, thereby facilitating the compression process and making the fiber composite strip. It effectively prevents the material from shearing and pulling, improving the fixing performance and reliability of the metal sleeve.

【0006】また、上記繊維複合条材の端末定着法にお
いて、金属スリーブの一部に圧縮しない部分を残し、金
属スリーブ内に部分的な拡大穴部を形成して、拡大穴部
内に繊維複合条材の拡大アンカー部を部分的に形成する
ことにより、さらに、金属スリーブを圧縮率8〜12%
にプレス加工して圧縮することにより、金属スリーブの
定着力をさらに高め、信頼性を向上している。In the terminal fixing method for the fiber composite strip, a part of the metal sleeve is left uncompressed and a partially enlarged hole is formed in the metal sleeve to form a fiber composite strip in the enlarged hole. By partially forming the expanded anchor part of the material, the metal sleeve is further compressed at a compression rate of 8-12%.
By pressing and compressing to the metal sleeve, the fixing force of the metal sleeve is further increased and the reliability is improved.

【0007】[0007]

【作用】繊維複合条材の端末部周面に薄い硬化樹脂層を
一体的に形成して、硬化樹脂層に金属スリーブを嵌装
し、硬化樹脂層と金属スリーブの間に熱硬化性樹脂液を
充填して金属スリーブを圧縮するため、金属スリーブの
圧縮加工に際し、熱硬化性樹脂液が潤滑剤的な役割をな
し、硬化樹脂層により繊維複合条材が保護されて、圧縮
加工時の圧縮応力やスリーブ伸びに伴つて生じる繊維複
合条材の剪断切れや引張切れが効果的に防止され、その
熱硬化性樹脂液を硬化して、繊維複合条材の端末部に、
金属スリーブが前記条材の規格切断荷重以上の荷重で端
末定着体として安定、定着される。[Function] A thin cured resin layer is integrally formed on the peripheral surface of the end portion of the fiber composite strip, a metal sleeve is fitted on the cured resin layer, and a thermosetting resin liquid is placed between the cured resin layer and the metal sleeve. When the metal sleeve is compressed, the thermosetting resin liquid plays a role of a lubricant when the metal sleeve is compressed, and the cured resin layer protects the fiber composite strip, and the compression during compression processing is performed. Shear and tension breaks of the fiber composite strip that occur with stress and sleeve elongation are effectively prevented, and the thermosetting resin liquid is cured to the end of the fiber composite strip.
The metal sleeve is stably and fixed as a terminal fixing member under a load equal to or higher than the standard cutting load of the strip.

【0008】また、上記繊維複合条材の端末定着法にお
いて、金属スリーブの一部に圧縮しない部分を残し、金
属スリーブ内に部分的な拡大穴部を形成して、拡大穴部
内に繊維複合条材の拡大アンカー部を部分的に形成する
ことにより、さらに、金属スリーブを圧縮率8〜12%
にプレス加工して圧縮することにより、金属スリーブの
定着力をさらに高め、信頼性が得られる。Further, in the terminal fixing method of the fiber composite strip material, a part of the metal sleeve is left uncompressed, and a partially enlarged hole is formed in the metal sleeve. By partially forming the expanded anchor part of the material, the metal sleeve is further compressed at a compression rate of 8-12%.
By press working and compressing, the fixing force of the metal sleeve is further enhanced and reliability is obtained.

【0009】[0009]

【実施例】図1に本発明の一実施例の各工程を示し、図
中1は炭素繊維、ガラス繊維、アラミド繊維等の高強力
・低伸度繊維を用いて線状材、棒状材、あるいは撚合材
等に構成されている繊維複合条材、2は繊維複合条材1
の端末部に比較的に薄く塗布され加熱、硬化されて同端
末部に一体的に形成された硬化樹脂層、3は金属スリー
ブ5と硬化樹脂層2の間に充填されたエポキシ樹脂等の
熱硬化性樹脂液、5は金属スリーブ、5aは金属スリー
ブ5の内部に形成された拡大穴部、6は繊維複合条材1
の末端部に形成された拡大アンカー部、10はプレス加
工用ロールであつて、繊維複合条材1の端末部周面に薄
い硬化樹脂層2を一体的に形成して、硬化樹脂層2に金
属スリーブ5を嵌装し、硬化樹脂層2と金属スリーブ5
の間に熱硬化性樹脂液3を充填して金属スリーブ5を圧
縮した後、熱硬化性樹脂液3を硬化し金属スリーブ5を
端末定着体として定着する繊維複合条材の端末定着法に
なつている。EXAMPLE FIG. 1 shows each step of one example of the present invention. In the figure, 1 is a linear material, a rod-shaped material using a high strength / low elongation fiber such as carbon fiber, glass fiber, aramid fiber, Alternatively, the fiber composite strip material 2 is composed of a twisted material or the like, and 2 is the fiber composite strip material 1.
Of the epoxy resin or the like filled between the metal sleeve 5 and the cured resin layer 2 is a resin layer 3 which is relatively thinly applied to the end portion of the Curable resin liquid, 5 is a metal sleeve, 5a is an enlarged hole formed inside the metal sleeve 5, and 6 is a fiber composite strip 1.
The enlarged anchor portions 10 formed at the end portions of the are the pressing rolls, and the thin cured resin layer 2 is integrally formed on the peripheral surface of the end portion of the fiber composite strip 1 to form the cured resin layer 2. The metal sleeve 5 is fitted and the cured resin layer 2 and the metal sleeve 5 are attached.
A terminal fixing method for a fiber composite strip, in which the thermosetting resin liquid 3 is filled between the two to compress the metal sleeve 5, and then the thermosetting resin liquid 3 is cured to fix the metal sleeve 5 as a terminal fixing member. ing.

【0010】また、上記繊維複合条材の端末定着法にお
いて、金属スリーブ5の一部に圧縮しない部分を残し、
金属スリーブ5内に部分的な拡大穴部5aを形成し、拡
大穴部5a内に繊維複合条材1の拡大アンカー部6を部
分的に形成する繊維複合条材の端末定着法になつてお
り、さらに、上記繊維複合条材の端末定着法において、
金属スリーブ5を圧縮率8〜12%にプレス加工して圧
縮する繊維複合条材の端末定着法になつている。In the terminal fixing method for the above fiber composite strip, a part of the metal sleeve 5 is left uncompressed,
This is a terminal fixing method for a fiber composite strip in which a partial expansion hole 5a is formed in the metal sleeve 5 and the expansion anchor portion 6 of the fiber composite strip 1 is partially formed in the expansion hole 5a. , Furthermore, in the terminal fixing method of the above fiber composite strip,
This is a terminal fixing method for a fiber composite strip in which the metal sleeve 5 is pressed to a compression rate of 8 to 12% and compressed.

【0011】さらに詳述すると、繊維複合条材1の端末
部周面には、例えば、その撚合体の谷が埋まる程度、あ
るいは、その外径の5%程度の厚さに薄く熱硬化性樹脂
を塗布、硬化させて、繊維複合条材1に一体的に形成さ
れた硬化樹脂層2とし、硬化樹脂層2は、金属スリーブ
5の圧縮加工時に発生する剪断応力、スリーブ伸びに対
する繊維複合条材1の保護層、及び接着層となる(図1
B参照)。More specifically, on the peripheral surface of the end portion of the fiber composite strip 1, for example, a valley of the twisted body is filled, or a thin thermosetting resin having a thickness of about 5% of its outer diameter. Is applied and cured to form a cured resin layer 2 integrally formed on the fiber composite strip 1. The cured resin layer 2 is a fiber composite strip that resists shear stress and sleeve elongation generated during compression processing of the metal sleeve 5. The protective layer and the adhesive layer of FIG.
(See B).

【0012】次に、繊維複合条材1の端末部周面、即
ち、硬化樹脂層2部に金属スリーブ5を嵌装するととも
に、金属スリーブ5と硬化樹脂層2の間に熱硬化性樹脂
液3を完全に充填し(図1C参照)、熱硬化性樹脂液3
の硬化前に、プレス加工用ロール10で金属スリーブ5
をプレス加工、即ち、圧縮加工する(図1D参照)。そ
の圧縮加工に際し、熱硬化性樹脂液3の余剰分が押し出
され、熱硬化性樹脂液3が潤滑剤的な役割をなし、硬化
樹脂層2により繊維複合条材1が保護されて、圧縮加工
が円滑に遂行され、圧縮応力やスリーブ伸びによる繊維
複合条材1の剪断切れや引張切れが効果的に防止され
て、熱硬化性樹脂液3を硬化し、繊維複合条材1の端末
部に、金属スリーブ5が前記条材1の規格切断荷重以上
の荷重で端末定着体として容易に安定して定着される。Next, the metal sleeve 5 is fitted to the peripheral surface of the fiber composite strip 1, that is, the cured resin layer 2 portion, and the thermosetting resin liquid is interposed between the metal sleeve 5 and the cured resin layer 2. 3 is completely filled (see FIG. 1C), and thermosetting resin liquid 3
Before hardening the metal sleeve 5 with the press roll 10.
Is pressed, that is, compressed (see FIG. 1D). During the compression processing, the surplus of the thermosetting resin liquid 3 is extruded, the thermosetting resin liquid 3 plays a role of a lubricant, and the cured resin layer 2 protects the fiber composite strip 1 to perform the compression processing. Of the fiber composite strip 1 is effectively prevented, and the shearing and pulling of the fiber composite strip 1 due to compressive stress and sleeve elongation are effectively prevented, and the thermosetting resin liquid 3 is hardened to the end portion of the fiber composite strip 1. The metal sleeve 5 is easily and stably fixed as a terminal fixing member under a load equal to or higher than the standard cutting load of the strip 1.

【0013】上記プレス加工は、図1Dに示すように金
属スリーブ5の図示左側を一部残して、プレス加工用ロ
ール10を図示方向に回転させて、金属スリーブ5を図
示右方向に圧縮加工する。その加工により金属スリーブ
5の内部に部分的な拡大穴部5aが形成されるととも
に、拡大穴部5a内に熱硬化性樹脂液3が集中、充満さ
れ、その硬化により繊維複合条材1の拡大アンカー部6
が部分的に形成されて、該拡大アンカー部6は、拡大穴
部5a内で繊維複合条材1の抜止めアンカーの役割をな
し、繊維複合条材1の定着力がさらに効果的に高められ
る。さらに、金属スリーブ5は、圧縮率8〜12%にプ
レス加工して圧縮加工するのが好ましく、金属スリーブ
5の定着力がさらに高めれ、信頼性が得られる。As shown in FIG. 1D, the press working is performed by rotating the press working roll 10 in the direction shown in the figure, leaving a part of the left side of the metal sleeve 5 in the figure, and compressing the metal sleeve 5 in the direction shown in the right. .. By the processing, a partially enlarged hole portion 5a is formed inside the metal sleeve 5, and the thermosetting resin liquid 3 is concentrated and filled in the enlarged hole portion 5a, and the fiber composite strip 1 is enlarged by the hardening. Anchor part 6
Is partially formed, the enlarged anchor portion 6 serves as a retaining anchor of the fiber composite strip 1 in the enlarged hole 5a, and the fixing force of the fiber composite strip 1 is further effectively enhanced. .. Further, it is preferable that the metal sleeve 5 is pressed to a compression rate of 8 to 12% and then compressed, so that the fixing force of the metal sleeve 5 is further enhanced and reliability is obtained.

【0014】 Xは抜け、Yはスリーブ内切れ、Zは条材破断を示す。[0014] X indicates omission, Y indicates inside the sleeve, and Z indicates strip breakage.

【0015】本発明の一実施例として、炭素繊維5.0
mmφで1×7構造の撚合体に構成された規格切断荷重
1,800Kgf の繊維複合条材において、金属スリーブ
は外径10.8mm、内径5.5mm、硬化樹脂層は厚さ
0.1〜0.2mm、熱硬化性エポキシ樹脂、熱硬化性樹
脂液は同じエポキシ樹脂とし、金属スリーブの 圧縮率=(1−加工後スリーブ最小径/加工前スリーブ
外径)×100 として、その圧縮率を8.0〜9.8%、圧縮長さを4
5mmとした資料を製造して、表1に示すような定着荷重
の比較データが得られた。As one embodiment of the present invention, carbon fiber 5.0
In a fiber composite strip with a standard cutting load of 1,800 Kgf configured as a 1 × 7 twisted structure with mmφ, the metal sleeve has an outer diameter of 10.8 mm, an inner diameter of 5.5 mm, and the cured resin layer has a thickness of 0.1 to 0.1 mm. 0.2 mm, thermosetting epoxy resin, thermosetting resin liquid is the same epoxy resin, the compression rate of the metal sleeve = (1-minimum sleeve diameter after processing / sleeve outer diameter before processing) x 100, and the compression rate 8.0-9.8%, compressed length 4
A material having a size of 5 mm was manufactured, and comparative data of fixing load as shown in Table 1 were obtained.

【0016】表1から明らかなように本発明の方法によ
れば、抜けがなく、繊維複合条材の破断荷重がその規格
切断荷重よりも格段に高められており、金属スリーブの
圧縮率は、8%以上において有効であり、また、12%
程度までは効果的な結果であると確認されている。As is clear from Table 1, according to the method of the present invention, there is no omission, the breaking load of the fiber composite strip is much higher than the standard cutting load, and the compressibility of the metal sleeve is Effective above 8% and 12%
To some extent, it has been confirmed that the results are effective.

【0017】上記実施例では、有底の金属スリーブに繊
維複合条材の末端部を挿着する構成について説明した
が、完全な筒状の金属スリーブに繊維複合条材を挿通し
て、その金属スリーブの長さ方向の中央部に拡大穴部、
拡大アンカー部を設ける構成にすることも可能である。In the above embodiment, the structure in which the end portion of the fiber composite strip is inserted into the bottomed metal sleeve has been described, but the fiber composite strip is inserted into the complete cylindrical metal sleeve and the metal Enlarged hole at the center of the sleeve in the length direction,
It is also possible to adopt a configuration in which an enlarged anchor portion is provided.

【0018】[0018]

【発明の効果】本発明は、上述のような構成になつてお
り、繊維複合条材の端末部周面に薄い硬化樹脂層を一体
的に形成して、その硬化樹脂層部に金属スリーブを嵌装
し、硬化樹脂層と金属スリーブの間に熱硬化性樹脂液を
充填して金属スリーブを圧縮するため、その圧縮加工に
際し、熱硬化性樹脂液は潤滑剤的な役割をなし、硬化樹
脂層により保護されて、圧縮応力やスリーブ伸びに伴つ
て生じる繊維複合条材の剪断切れや引張切れが効果的に
防止され、その熱硬化性樹脂液を硬化して、繊維複合条
材の端末部に金属スリーブが端末定着体として安定して
強力に定着される。 また、上記繊維複合条材の端末定
着法において、金属スリーブの一部に圧縮しない部分を
残し、金属スリーブ内に部分的な拡大穴部を形成して、
拡大穴部内に繊維複合条材の拡大アンカー部が部分的に
形成され、さらに、金属スリーブを圧縮率8〜12%に
プレス加工して圧縮することにより、金属スリーブの定
着力をさらに高め、信頼性が得られる。The present invention is constructed as described above, and a thin cured resin layer is integrally formed on the peripheral surface of the end portion of the fiber composite strip, and a metal sleeve is formed on the cured resin layer portion. Since the thermosetting resin liquid is fitted and filled with the thermosetting resin liquid between the cured resin layer and the metal sleeve to compress the metal sleeve, the thermosetting resin liquid plays a role of a lubricant during the compression process. Protected by the layer, effectively prevents shearing and pulling out of the fiber composite strip due to compressive stress and elongation of the sleeve, cures the thermosetting resin liquid, and ends the fiber composite strip. The metal sleeve is stably and strongly fixed as a terminal fixing member. Further, in the terminal fixing method for the above fiber composite strip, a part of the metal sleeve is left uncompressed, and a partial enlarged hole is formed in the metal sleeve.
The expansion anchor part of the fiber composite strip is partially formed in the expansion hole, and the metal sleeve is pressed and compressed to a compression rate of 8 to 12% to further improve the fixing force of the metal sleeve and improve reliability. Sex is obtained.

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

【図1】本発明の一実施例を示す各工程図(A)〜
(E)FIG. 1 is a process chart (A) showing one embodiment of the present invention.
(E)

【図2】従来例を示す各工程図(A)〜(D)である。2A to 2D are process diagrams (A) to (D) showing a conventional example.

【符号の説明】[Explanation of symbols]

1 繊維複合条材 2 硬化樹脂層 3 熱硬化性樹脂液 5 金属スリーブ 5a 拡大穴部 6 拡大アンカー部 DESCRIPTION OF SYMBOLS 1 Fiber composite strip 2 Cured resin layer 3 Thermosetting resin liquid 5 Metal sleeve 5a Expansion hole part 6 Expansion anchor part

Claims (3)

【特許請求の範囲】[Claims] 【請求項1】 繊維複合条材の端末部周面に薄い硬化樹
脂層を一体的に形成して、同硬化樹脂層に金属スリーブ
を嵌装し、前記硬化樹脂層と前記金属スリーブの間に熱
硬化性樹脂液を充填して同金属スリーブを圧縮した後、
前記熱硬化性樹脂液を硬化し前記金属スリーブを端末定
着体として定着することを特徴とする繊維複合条材の端
末定着法。1. A thin cured resin layer is integrally formed on a peripheral surface of a terminal portion of a fiber composite strip, and a metal sleeve is fitted to the cured resin layer, and the metal sleeve is provided between the cured resin layer and the metal sleeve. After filling the thermosetting resin liquid and compressing the metal sleeve,
A terminal fixing method for a fiber composite strip, characterized in that the thermosetting resin liquid is cured and the metal sleeve is fixed as a terminal fixing member. 【請求項2】 請求項1記載の繊維複合条材の端末定着
法において、前記金属スリーブの一部に圧縮しない部分
を残し、同金属スリーブ内に部分的な拡大穴部を形成し
て、前記拡大穴部内に前記繊維複合条材の拡大アンカー
部を部分的に形成することを特徴とする繊維複合条材の
端末定着法。2. The method for fixing a fiber composite strip according to claim 1, wherein a part of the metal sleeve is left uncompressed, and a partial enlarged hole is formed in the metal sleeve. A terminal fixing method for a fiber composite strip, wherein an expanded anchor portion of the fiber composite strip is partially formed in an expanded hole portion. 【請求項3】 請求項1又は請求項2記載の繊維複合条
材の端末定着法において、前記金属スリーブを圧縮率8
〜12%にプレス加工して圧縮することを特徴とする繊
維複合条材の端末定着法。3. The method of fixing a fiber composite strip according to claim 1 or 2, wherein the metal sleeve has a compression ratio of 8
A terminal fixing method for a fiber composite strip, which is characterized by pressing to 12% and compressing.
JP14265391A 1991-05-20 1991-05-20 Terminal fixing method of fiber composite strip Expired - Lifetime JP2849618B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP14265391A JP2849618B2 (en) 1991-05-20 1991-05-20 Terminal fixing method of fiber composite strip

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP14265391A JP2849618B2 (en) 1991-05-20 1991-05-20 Terminal fixing method of fiber composite strip

Publications (2)

Publication Number Publication Date
JPH05247862A true JPH05247862A (en) 1993-09-24
JP2849618B2 JP2849618B2 (en) 1999-01-20

Family

ID=15320369

Family Applications (1)

Application Number Title Priority Date Filing Date
JP14265391A Expired - Lifetime JP2849618B2 (en) 1991-05-20 1991-05-20 Terminal fixing method of fiber composite strip

Country Status (1)

Country Link
JP (1) JP2849618B2 (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010070882A (en) * 2008-09-19 2010-04-02 Toko Bridge Co Ltd Method for terminating rope end
US8479485B2 (en) 2010-03-03 2013-07-09 Kongo Corporation Synthetic fiber rope member, overhead door having the same and method for producing rope member
JPWO2015083214A1 (en) * 2013-12-02 2017-03-16 東綱橋梁株式会社 Rope terminal fixing method, rope with terminal fixing tool, and end fitting for use in rope terminal fixing method

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010070882A (en) * 2008-09-19 2010-04-02 Toko Bridge Co Ltd Method for terminating rope end
US8479485B2 (en) 2010-03-03 2013-07-09 Kongo Corporation Synthetic fiber rope member, overhead door having the same and method for producing rope member
JPWO2015083214A1 (en) * 2013-12-02 2017-03-16 東綱橋梁株式会社 Rope terminal fixing method, rope with terminal fixing tool, and end fitting for use in rope terminal fixing method

Also Published As

Publication number Publication date
JP2849618B2 (en) 1999-01-20

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