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JPH0777091B2 - Outdoor PVC insulated wire - Google Patents
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JPH0777091B2 - Outdoor PVC insulated wire - Google Patents

Outdoor PVC insulated wire

Info

Publication number
JPH0777091B2
JPH0777091B2 JP5154276A JP15427693A JPH0777091B2 JP H0777091 B2 JPH0777091 B2 JP H0777091B2 JP 5154276 A JP5154276 A JP 5154276A JP 15427693 A JP15427693 A JP 15427693A JP H0777091 B2 JPH0777091 B2 JP H0777091B2
Authority
JP
Japan
Prior art keywords
vinyl chloride
water
insulated wire
mixture
tight
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 - Fee Related
Application number
JP5154276A
Other languages
Japanese (ja)
Other versions
JPH0794037A (en
Inventor
信博 藤尾
猛 山崎
健二 佐野
純男 松野
秀一 鶴丸
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.)
Tatsuta Electric Wire and Cable Co Ltd
Original Assignee
Tatsuta Electric Wire and Cable 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 Tatsuta Electric Wire and Cable Co Ltd filed Critical Tatsuta Electric Wire and Cable Co Ltd
Priority to JP5154276A priority Critical patent/JPH0777091B2/en
Publication of JPH0794037A publication Critical patent/JPH0794037A/en
Publication of JPH0777091B2 publication Critical patent/JPH0777091B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A30/00Adapting or protecting infrastructure or their operation
    • Y02A30/14Extreme weather resilient electric power supply systems, e.g. strengthening power lines or underground power cables

Landscapes

  • Compositions Of Macromolecular Compounds (AREA)
  • Organic Insulating Materials (AREA)
  • Insulated Conductors (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、撚線導体間の空隙に金
属と塩化ビニル樹脂の両方に接着する水密性混和物を充
填してなる屋外用塩化ビニル絶縁電線に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vinyl chloride insulated electric wire for outdoor use, which is obtained by filling a space between stranded wire conductors with a watertight admixture that adheres to both metal and vinyl chloride resin.

【0002】[0002]

【従来の技術】屋外高圧配電線、屋外低圧配電線等にお
いて、応力腐食断線事故が時折発生する。その原因は、
環境に関係なく、配電線の撚線導体間の空隙に腐食性の
雨水が進入して、導体素線が酸化されることからはじま
るとされている。そのため応力腐食断線事故を防止する
一つの手段として、撚線導体間の空隙に水密性混和物を
充填し、雨水の進入と走水を防止する手段が採用されて
いる。
2. Description of the Related Art Occasionally, a stress corrosion disconnection accident occurs in an outdoor high-voltage distribution line, an outdoor low-voltage distribution line, or the like. The cause is
Regardless of the environment, it is said that corrosive rainwater enters the voids between the twisted wire conductors of the distribution line and oxidizes the conductor wires, which is said to begin. Therefore, as one means for preventing the stress corrosion disconnection accident, a means for preventing the entry of rainwater and running water by filling a space between the twisted wire conductors with a water-tight mixture.

【0003】絶縁電線の撚線導体間の空隙に充填する水
密性混和物としては、エポキシ樹脂と低分子のポリアミ
ド又はポリサルファイド硬化剤を同時に注加して両者の
反応完結によりゴム状の水密性混和物として水密にする
もの、低粘度ゴムに不揮発性油、加硫剤および加硫助剤
を加えて加硫し、ゴム状の水密性混和物として水密にす
るもの、粘着性に富むポリイソブチレンにパラフィン又
は石油ゼリーと更に無機粉末又は無機繊維を加えて熱膨
張収縮性を改良した水密性混和物などが知られている
が、上記の各水密性混和物を採用したものでは、屋外高
圧配電線に使用されているポリエチレン絶縁電線、架橋
ポリエチレン絶縁電線の撚線導体間の空隙への水密性混
和物の充填作業上に問題があったり、該絶縁電線の導体
からの水密性混和物の剥ぎ取りが困難であるという問題
を有しているばかりでなく、外被絶縁体のポリエチレン
樹脂および架橋ポリエチレン樹脂との接着が好ましいも
のとならないため、現在ではEVA(エチレン・酢酸ビ
ニル共重合体)若しくはEEA(エチレン・エチルアク
リレート共重合体)又はこれらのブレンド物を主成分と
するドライタイプの水密性混和物が撚線導体間の空隙に
充填され、水密性屋外高圧配電線として実用に供されて
いる。
As a watertight admixture to be filled in the space between the twisted wire conductors of an insulated electric wire, an epoxy resin and a low molecular weight polyamide or polysulfide curing agent are added at the same time and the reaction between the two is completed to complete a rubbery watertight admixture. Water-tight as a material, low-viscosity rubber to which non-volatile oil, a vulcanizing agent and a vulcanization aid are added and vulcanized to make a water-tight rubber-like mixture, and polyisobutylene with high adhesiveness. Water-tight admixtures in which thermal expansion and contraction properties are improved by adding paraffin or petroleum jelly and inorganic powder or inorganic fibers are known. There is a problem in the filling work of the water-tight mixture into the space between the twisted wire conductors of the polyethylene insulated wire or cross-linked polyethylene insulated wire used in the above, or the water-tight mixture from the conductor of the insulated wire. EVA (ethylene-vinyl acetate copolymer) is currently used because it not only has the problem of being difficult to peel off, but also the adhesion of polyethylene resin and cross-linked polyethylene resin to the insulator is not preferable. Alternatively, EEA (ethylene / ethyl acrylate copolymer) or a dry-type water-tight mixture containing these blends as a main component is filled in the voids between the stranded conductors and is put to practical use as a water-tight outdoor high-voltage distribution line. ing.

【0003】[0003]

【発明が解決しようとする課題】しかし、屋外低圧配電
線として多用される塩化ビニル絶縁電線の場合には、前
記のEVA又はEEAを用いて撚線導体間の空隙を充填
しても、外被絶縁体の塩化ビニル樹脂とは殆ど接着しな
いため、雨水が走水し、十分に水密性にすることができ
ない問題や、該絶縁電線の絶縁体を剥離するとき、絶縁
体のみが剥がれ、導体上に水密性混和物が残り接続上支
障を来すという問題があった。
However, in the case of a vinyl chloride insulated wire which is often used as an outdoor low-voltage distribution line, even if EVA or EEA is used to fill the voids between the stranded conductors, the outer sheath is not covered. Since it hardly adheres to the vinyl chloride resin of the insulator, rainwater will run and it will not be sufficiently watertight, and when the insulator of the insulated wire is peeled off, only the insulator will peel off However, there was a problem that the water-tight mixture remained and hindered the connection.

【0004】そこで本発明は、従来の斯る問題点を解決
し、水密性に優れ、応力腐食断線事故がなく、しかも電
気工事上の作業性の良好な屋外用の塩化ビニル絶縁電線
を提供することを目的とする。
Therefore, the present invention solves the conventional problems described above and provides an outdoor vinyl chloride insulated wire which is excellent in watertightness, has no stress corrosion breakage accident, and has good workability in electrical work. The purpose is to

【0005】[0005]

【課題を解決するための手段】本発明者らは、上記の問
題を解決するために鋭意検討を行った結果、酢酸ビニル
・塩化ビニル共重合体とエチレン・酢酸ビニル共重合体
とが重量比で5〜30:95〜70で、且つ、MI値が
5〜150の範囲にある水密性混和物を撚線導体間の空
隙に充填することにより完全に水密性が保持されること
を見出して本発明を完成したものである。
Means for Solving the Problems As a result of intensive studies to solve the above problems, the present inventors have found that the vinyl acetate / vinyl chloride copolymer and the ethylene / vinyl acetate copolymer are in a weight ratio. It was found that the water tightness is completely maintained by filling the voids between the twisted wire conductors with the water tight mixture having a MI value of 5 to 30:95 to 70 and an MI value of 5 to 150. The present invention has been completed.

【0006】エチレン・酢酸ビニル共重合体とは、通常
使用されるエチレン・酢酸ビニル共重合体であればよい
が、MI値の低いもの又極めて高いものは好ましくな
い。
The ethylene / vinyl acetate copolymer may be an ethylene / vinyl acetate copolymer which is usually used, but one having a low MI value or an extremely high MI value is not preferable.

【0007】本発明に係る屋外用塩化ビニル絶縁電線に
用いられる前記水密性混和物は、酢酸ビニル・塩化ビニ
ル共重合体とエチレン・酢酸ビニル共重合体とが重量比
で5〜30:95〜70の配合割合であることが必要で
あって、酢酸ビニル・塩化ビニル共重合体の配合割合が
5未満である場合、塩化ビニル樹脂絶縁体との接着強度
が十分でなく、逆にその配合割合が30を上回る場合、
塩化ビニル樹脂絶縁体との接着強度は差程向上しないば
かりか、導体との接着性強度が低下すると共に水密性混
和物の材料コストを引き上げる結果となり、好ましくな
い。好ましい配合割合は、酢酸ビニル・塩化ビニル共重
合体15〜25、エチレン・酢酸ビニル共重合体85〜
75である。
The watertight admixture used in the outdoor vinyl chloride insulated wire according to the present invention comprises a vinyl acetate / vinyl chloride copolymer and an ethylene / vinyl acetate copolymer in a weight ratio of 5 to 30:95 to. If the blending ratio of the vinyl acetate / vinyl chloride copolymer is less than 5, the adhesive strength with the vinyl chloride resin insulator is not sufficient, and conversely the blending ratio of 70 is required. Is above 30,
Not only is the adhesive strength with the vinyl chloride resin insulator not significantly improved, but also the adhesive strength with the conductor is reduced and the material cost of the water-tight admixture is increased, which is not preferable. Preferred blending ratios are vinyl acetate / vinyl chloride copolymer 15 to 25, ethylene / vinyl acetate copolymer 85 to
75.

【0008】次に、水密性混和物のMI値は5〜150
の範囲にあることが好ましく、MI値が5未満である場
合、塩化ビニル絶縁電線の撚線導体間の空隙への充填が
困難となる。逆に、MI値が150を上回る場合、エチ
レン・酢酸ビニル共重合体と酢酸ビニル・塩化ビニル共
重合体との混練りが困難となる。かかる事情を考慮した
場合、MI値のより好ましい範囲は、15〜60であ
る。
Next, the MI value of the watertight mixture is 5 to 150.
If the MI value is less than 5, it becomes difficult to fill the voids between the stranded conductors of the vinyl chloride insulated wire. On the other hand, when the MI value exceeds 150, it becomes difficult to knead the ethylene / vinyl acetate copolymer and the vinyl acetate / vinyl chloride copolymer. Considering such circumstances, a more preferable range of MI value is 15 to 60.

【0009】[0009]

【実施例】以下、実施例および比較例にもとづいて本発
明をさらに詳細に説明するが、本発明はかかる実施例の
みに限定されるものではない。
The present invention will be described in more detail based on the following examples and comparative examples, but the present invention is not limited to these examples.

【0010】表1に示す実施例および比較例の組成のも
のをニーダで混練して水密性混和物のチップとした後、
該チップを用いて塩化ビニル樹脂絶縁体と水密性混和物
との接着強度の関係および銅板と水密性混和物との接着
強度の関係を調べた予備試験の結果を第1表の下段に説
明する。
After kneading the compositions of Examples and Comparative Examples shown in Table 1 with a kneader to prepare chips of a water-tight mixture,
The results of preliminary tests for investigating the relationship between the adhesive strength between the vinyl chloride resin insulator and the watertight mixture and the relationship between the adhesive strength between the copper plate and the watertight mixture using the chip will be explained in the lower part of Table 1. .

【0011】次に、予備試験における試料の調整方法に
ついて以下に説明する。A.電線用絶縁配合とした塩化
ビニル樹脂混和物のチップを180℃、3分間予熱した
後、180Kg/cm2 の圧力で3分間加圧して2mm厚のシ
ートを作製し、他に水密性混和物のチップを120℃、
3分間予熱した後、180Kg/cm2 の圧力で3分間加圧
して2mmのシートを作製する。上記両シートを180
℃、6分間予熱した後、180Kg/cm2 の圧力で3分間
加圧して両シートを接合させ、該接合シートの巾25m
m、長さ200mmのダンベルで打ち抜き、その片端の接
合部を小刃で20mm程度切り開いてそれぞれの片端をオ
ートグラフのチャックにはさみ100mm/ 分の引張り速
度でT字型引裂きによる接着強度を測定した。
Next, a method for adjusting the sample in the preliminary test will be described below. A. After preheating the chips of vinyl chloride resin mixture with insulation mixture for electric wire at 180 ° C for 3 minutes, press them at a pressure of 180 kg / cm 2 for 3 minutes to make a sheet with a thickness of 2 mm. The chips at 120 ° C,
After preheating for 3 minutes, it is pressed at a pressure of 180 kg / cm 2 for 3 minutes to prepare a 2 mm sheet. 180 both sheets above
After preheating at 6 ° C for 6 minutes, pressurizing at 180 kg / cm 2 for 3 minutes to join both sheets, and the width of the joined sheet is 25 m.
It was punched out with a m, 200 mm long dumbbell, the joint part at one end was cut open by about 20 mm with a small blade, and each end was pinched by an autograph chuck and the adhesive strength by T-shaped tearing was measured at a pulling speed of 100 mm / min. .

【0012】B.巾25mm、厚さ0.5mm長さ200mm
の銅板の表面をトリクレン溶剤で脱脂したものを、Aで
述べた厚さ2mmの水密性混和物シート上に置き、180
℃、6分間予熱した後、180Kg/cm2 の圧力で3分間
加圧して互いに接合させ、後銅板の形状に切り取り、そ
の片端の接合部を小刃で20mm程度切り開いてそれぞれ
の片端をオートグラフのチャックにはさみ100mm/ 分
の引張り速度でT字型引裂きによる接着強度を測定し
た。
B. Width 25 mm, thickness 0.5 mm, length 200 mm
After degreasing the surface of the copper plate of No. 3 with a trichlene solvent, place it on the water-tight admixture sheet with a thickness of 2 mm described in A.
After preheating at ℃ for 6 minutes, press them at 180 kg / cm 2 for 3 minutes to join them together, cut them out into the shape of a post-copper plate, cut the joint at one end about 20 mm with a small blade and autograph each end. The adhesive strength by T-shaped tearing was measured at a pulling speed of 100 mm / min.

【0013】[0013]

【表1】 [Table 1]

【0014】表1の結果からわかるように、実施例1〜
4の水密性混和物は、比較例1〜3のものに較べて、塩
化ビニル絶縁体との接着強度および銅板との接着強度の
双方においてすぐれている。
As can be seen from the results in Table 1, Examples 1 to 1
The water-tight mixture of No. 4 is superior to those of Comparative Examples 1 to 3 in both adhesive strength with a vinyl chloride insulator and adhesive strength with a copper plate.

【0015】しかし、比較例1〜3の水密性混和物も塩
化ビニル樹脂絶縁体および銅板との接着強度が十分にあ
ることを示している。
However, it is shown that the water-tight mixtures of Comparative Examples 1 to 3 also have sufficient adhesive strength with the vinyl chloride resin insulator and the copper plate.

【0016】表1に示された結果は、シート状による予
備試験であるため、実際の塩化ビニル絶縁電線の撚線導
体間の空隙に水密性混和物を充填して十分な水密性を得
ることができるかどうかを調べた結果について以下説明
する。ニーダーで混練した表1に示す実施例および比較
例の組成の水密性混和物1を2.0mmφ硬銅線の19本
を撚り合せて導体断面積60mm2 の撚線導体2に充填
し、その上に厚さ1.4mmの塩化ビニル樹脂絶縁体3を
被覆して水密性の塩化ビニル絶縁電線を作製し(図1参
照:ただし概念図として示す)、該絶縁電線における水
密性、皮剥性および撚線導体間への充填性をそれぞれ調
べた結果を表2に示す。
Since the results shown in Table 1 are preliminary tests in the form of a sheet, it is necessary to fill the space between the twisted wire conductors of an actual vinyl chloride insulated wire with a watertight mixture to obtain sufficient watertightness. The result of the investigation as to whether or not is possible will be described below. The watertight admixture 1 having the compositions of Examples and Comparative Examples shown in Table 1 kneaded with a kneader was twisted with 19 pieces of 2.0 mmφ hard copper wire to fill a stranded wire conductor 2 having a conductor cross-sectional area of 60 mm 2 , and A vinyl chloride resin insulator 3 having a thickness of 1.4 mm is coated on the top to produce a water-tight vinyl chloride insulated wire (see FIG. 1, but shown as a conceptual diagram). Table 2 shows the results of examining the filling properties between the stranded conductors.

【0017】[0017]

【表2】 [Table 2]

【0018】次に、上記の特性試験について以下に説明
する。水密性とは、水密性混和物を充填した塩化ビニル
絶縁電線を2mに切断し、その片端から0.5Kg/cm2
の水圧をかけて24時間放置した後、該絶縁電線を解体
して導体中への水の侵入距離(cm)を測り、水密性の優
劣を判定する。皮剥性とは、水密性塩化ビニル絶縁電線
の外被絶縁体層を電工ナイフで剥離するとき、水密性混
和物が絶縁体層と一体となって剥離され、撚線導体上に
全く残らないものが好ましいものである。
Next, the above characteristic test will be described below. Water-tightness means that a vinyl chloride-insulated electric wire filled with a water-tight mixture is cut to 2 m and 0.5 Kg / cm 2 from one end
After applying the water pressure for 24 hours and leaving it for 24 hours, the insulated electric wire is disassembled and the water penetration distance (cm) into the conductor is measured to determine the water tightness. Peeling property means that when the outer insulation layer of a watertight vinyl chloride insulated wire is peeled off with an electric knife, the watertight mixture is peeled together with the insulation layer and does not remain on the stranded conductor at all. Is preferred.

【0019】表2の結果から理解されるように、比較例
1及び2に使用する水密性混和物では、比較的短時間の
うちに漏れが起るため好ましくない。比較例3の水密性
混和物は、水密性では良好な結果を示すが、皮剥性に劣
り、電気工事上の作業性において好ましくない。
As can be seen from the results in Table 2, the watertight admixtures used in Comparative Examples 1 and 2 are not preferable because leakage occurs in a relatively short time. The watertight admixture of Comparative Example 3 shows good results in watertightness, but is inferior in peeling property and is not preferable in workability in electrical work.

【0020】しかし、実施例1〜4に使用する水密性混
和物では、0.5Kg/cm2 の水圧下、24時間後におい
て50cm以下の浸水距離に止まり、すぐれた水密性を示
し、又皮剥性及び充填性も共に良好であることがわか
る。
However, the water-tight mixtures used in Examples 1 to 4 show an excellent water-tightness after 24 hours under a water pressure of 0.5 kg / cm 2 , exhibiting an excellent water-tightness and peeling. It can be seen that both the property and the filling property are good.

【0021】本発明に係る屋外用塩化ビニル絶縁電線
は、実施例に示していないが、前記水密性混和物は、酢
酸ビニル・塩化ビニル共重合体とエチレン・酢酸ビニル
共重合体との二成分以外に適宜、安定剤、酸化防止剤、
銅害防止剤、着色剤、可塑剤などを添加して使用するこ
ともできる。
Although the outdoor vinyl chloride insulated wire according to the present invention is not shown in the examples, the watertight mixture is a two-component composition of a vinyl acetate / vinyl chloride copolymer and an ethylene / vinyl acetate copolymer. In addition to the appropriate stabilizers, antioxidants,
A copper damage inhibitor, a coloring agent, a plasticizer, etc. may be added for use.

【0022】[0022]

【発明の効果】本発明に係る屋外用塩化ビニル絶縁電線
は、以上のように構成されているので、十分な水密性が
得られ、この種の絶縁電線で発生していた応力腐食断線
事故を未然に防止することができると共に、該絶縁電線
の外被絶縁体を剥離するとき、水密性混和物が絶縁体と
一体となって剥離されるので、電気工事上の作業性も良
好になる。
Since the outdoor vinyl chloride insulated wire according to the present invention is constructed as described above, sufficient watertightness is obtained, and the stress corrosion disconnection accident which has occurred in this type of insulated wire is prevented. This can be prevented in advance, and since the water-tight mixture is peeled together with the insulator when the jacket insulator of the insulated wire is peeled off, workability in electrical work is also improved.

【0023】更に、本発明は塩化ビニル絶縁電線の撚線
導体間の空隙への水密性混和物の充填を容易に行えて絶
縁電線の製作が容易である上に、充填した水密性混和物
は均質であるから、前記の水密性並びに皮剥性を一層効
果的に発揮してくれる利点がある。
Further, according to the present invention, it is possible to easily fill the space between the stranded wire conductors of the vinyl chloride insulated wire with the water-tight mixture to facilitate the production of the insulated wire. Since it is homogeneous, there is an advantage that it exerts the above-mentioned watertightness and peeling property more effectively.

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

【図1】本発明に係る屋外用塩化ビニル絶縁電線の概念
図である。
FIG. 1 is a conceptual diagram of an outdoor vinyl chloride insulated wire according to the present invention.

【符号の説明】[Explanation of symbols]

1─水密性混和物、2─撚線導体、3─塩化ビニル絶縁
1-watertight mixture, 2-stranded conductor, 3-vinyl chloride insulator

───────────────────────────────────────────────────── フロントページの続き (72)発明者 松野 純男 大阪府東大阪市岩田町2丁目3番1号 タ ツタ電線株式会社内 (72)発明者 鶴丸 秀一 大阪府東大阪市岩田町2丁目3番1号 タ ツタ電線株式会社内 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Sumio Matsuno 2-3-1, Iwata-cho, Higashi-Osaka City, Osaka Prefecture Tatsuta Electric Wire Co., Ltd. (72) Inventor Shuichi Tsurumaru 2-3, Iwata-cho, Higashi-Osaka, Osaka No. 1 Tatsuta Electric Cable Co., Ltd.

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】 酢酸ビニル・塩化ビニル共重合体とエチ
レン・酢酸ビニル共重合体とが重量比で5〜30:95
〜70で、且つ、MI値が5〜150の範囲にある水密
性混和物を撚線導体間の空隙に充填してなることを特徴
とする屋外用塩化ビニル絶縁電線。
1. A vinyl acetate / vinyl chloride copolymer and an ethylene / vinyl acetate copolymer in a weight ratio of 5 to 30:95.
A polyvinyl chloride insulated electric wire for outdoor use, characterized in that a watertight mixture having an MI value of 5 to 150 and a MI value of 5 to 150 is filled in the voids between the stranded wire conductors.
JP5154276A 1993-05-31 1993-05-31 Outdoor PVC insulated wire Expired - Fee Related JPH0777091B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP5154276A JPH0777091B2 (en) 1993-05-31 1993-05-31 Outdoor PVC insulated wire

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP5154276A JPH0777091B2 (en) 1993-05-31 1993-05-31 Outdoor PVC insulated wire

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
JP60297645A Division JPH0687371B2 (en) 1985-12-26 1985-12-26 Outdoor PVC insulated wire

Publications (2)

Publication Number Publication Date
JPH0794037A JPH0794037A (en) 1995-04-07
JPH0777091B2 true JPH0777091B2 (en) 1995-08-16

Family

ID=15580626

Family Applications (1)

Application Number Title Priority Date Filing Date
JP5154276A Expired - Fee Related JPH0777091B2 (en) 1993-05-31 1993-05-31 Outdoor PVC insulated wire

Country Status (1)

Country Link
JP (1) JPH0777091B2 (en)

Also Published As

Publication number Publication date
JPH0794037A (en) 1995-04-07

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