JPH1022040A - Calking method for compression terminal - Google Patents
Calking method for compression terminalInfo
- Publication number
- JPH1022040A JPH1022040A JP17195096A JP17195096A JPH1022040A JP H1022040 A JPH1022040 A JP H1022040A JP 17195096 A JP17195096 A JP 17195096A JP 17195096 A JP17195096 A JP 17195096A JP H1022040 A JPH1022040 A JP H1022040A
- Authority
- JP
- Japan
- Prior art keywords
- compression
- terminal
- die
- burr
- caulking
- 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.)
- Pending
Links
Landscapes
- Manufacturing Of Electrical Connectors (AREA)
- Connections Effected By Soldering, Adhesion, Or Permanent Deformation (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、銅やアルミニウム
製でなる導体の撚線用圧縮端子における圧縮ダイスでの
かしめ方法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for caulking a conductor made of copper or aluminum with a compression die in a compression terminal for stranded wire.
【0002】[0002]
【従来の技術】従来、この種の端子としては、JIS
C 2804−1984圧縮端子があり、例えば、硬銅
撚線用端子(C形)2−100を例に説明すると、JI
S C3105では、硬銅撚線(H)100mm2 、撚線
構成19/2.6、撚線断面積100.9mm2 、銅端子
外径寸法D=23mm、内径(穴径)d1 =13.6mm、
端子断面積270.7mm2 、圧縮後の対辺寸法Dc=1
9.9mm故、正六角形の圧縮ダイスにてかしめるとすれ
ば、図1に示す如く、Dc=ルート3/2×Ddとな
り、Dd=Dとなる。但し、Ddはダイス対角寸法であ
る。言い換えれば、端子外径寸法Dと同じの六角ダイス
対角寸法Ddを用いてかしめる。この時のダイス断面積
は343.85mm2 となる。また、かしめの度合いを示
す圧縮率は、圧縮率(%)=ダイス断面積/端子断面積
+撚線の断面積×100の式によって求められる。従っ
て、C2−100の圧縮率を求めると、約7.3%とな
る。2. Description of the Related Art Conventionally, this type of terminal is JIS
There is a C 2804-1984 compression terminal. For example, a terminal (C type) 2-100 for hard copper stranded wire will be described as JI.
In SC3105, hard copper stranded wire (H) 100 mm 2 , stranded wire configuration 19 / 2.6, stranded wire cross-sectional area 100.9 mm 2 , copper terminal outer diameter D = 23 mm, inner diameter (hole diameter) d 1 = 13 .6mm,
Terminal cross-sectional area 270.7 mm 2 , opposite side dimension Dc = 1 after compression
If it is caulked with a regular hexagonal compression die because of 9.9 mm, Dc = root 3/2 × Dd and Dd = D as shown in FIG. Here, Dd is a diagonal dimension of the die. In other words, crimping is performed using a hexagonal die diagonal dimension Dd that is the same as the terminal outer diameter dimension D. The die cross-sectional area at this time is 343.85 mm 2 . Further, the compression ratio indicating the degree of caulking is obtained by the formula of compression ratio (%) = die cross section / terminal cross section + cross section of stranded wire × 100. Therefore, when the compression ratio of C2-100 is obtained, it is about 7.3%.
【0003】以上、JIS C 2804に規定された
銅端子100mm2 について、かしめ関係の数値を述べた
が、一般には、この例のごとく、端子の圧縮部外径と同
じ対角寸法を有する六角ダイスを用いてかしめる例が多
く採用されており、規定の引張り荷重や電気特性は十分
に満足するものであることは言うまでもない。[0003] The numerical values of the caulking relationship for the copper terminal 100 mm 2 specified in JIS C 2804 have been described above. In general, as in this example, a hexagonal die having the same diagonal dimension as the outer diameter of the compression portion of the terminal is used. It is needless to say that many examples of caulking using are used, and the specified tensile load and electric characteristics are sufficiently satisfied.
【0004】[0004]
【発明が解決しようとする課題】引張り荷重を前述の圧
縮端子よりも上げたい場合があり、接続される導体撚線
で、引張り荷重をより上げる必要がある。一般に、圧縮
率が低いと引張り試験において、撚線が引き抜けてしま
い、圧縮率の上昇とともに引張り荷重も上昇し、最後に
は導体撚線が切断する現象となり、引張り荷重もほぼ最
高値となる。In some cases, it is necessary to increase the tensile load more than the above-mentioned compression terminal, and it is necessary to further increase the tensile load in the conductor stranded wire to be connected. In general, when the compressibility is low, in the tensile test, the stranded wire is pulled out, the tensile load also increases with the increase in the compressibility, finally the phenomenon that the conductor stranded wire is cut, and the tensile load almost reaches the maximum value .
【0005】前述した圧縮率の式からわかるように、圧
縮率を上げるには、端子断面積及び撚線の断面積が変わ
らないとすれば、ダイス対角寸法Ddを小さくして圧縮
率を上げる手段も一般に行われている。この場合、図2
に示す如く、上下のダイスの入口で端子の外径部を噛ん
でしまい、当然のことながら端子にバリF1が生じ、こ
のバリF1が上下ダイス間に入り込んで上下ダイスが完
全に押し切れず、所定の圧縮率が得られなくなる。ま
た、このような場合のバリF1は、鋭利に尖った形状と
なり、このまま使用するには邪魔になり、例えば、周囲
に絶縁する場合等は電気的に弱点となってしまうのであ
る。As can be seen from the above-described equation of the compression ratio, if the terminal cross-section and the cross-sectional area of the stranded wire are not changed in order to increase the compression ratio, the compression ratio is increased by reducing the diagonal dimension Dd of the die. Means are also commonly used. In this case, FIG.
As shown in the figure, the outer diameter portion of the terminal is bitten at the entrance of the upper and lower dies, and of course, burrs F1 are generated in the terminal, and the burrs F1 enter between the upper and lower dies, and the upper and lower dies cannot be completely pushed. A predetermined compression ratio cannot be obtained. Further, the burr F1 in such a case has a sharply pointed shape, which hinders use as it is. For example, when it is insulated around, it becomes an electrical weak point.
【0006】さらに、ダイスを60°回転して再度押し
直すことも行う場合があるが、鋭利で長いバリF1のた
め、経常的に端子外周に不完全な形で残ってしまい、結
局はバリを除去する手間がかかるという問題があった。In some cases, the die is rotated again by 60 ° and then pushed again. However, due to the sharp and long burrs F1, the dies are usually left in an incomplete form on the outer periphery of the terminal. There was a problem that it took time to remove.
【0007】そこで、本発明の解決すべき課題(目的)
は、上下に分割するダイスで圧縮率を高めて圧縮するこ
とで不可避的に発生するバリを鋭利のものとせずに所定
の圧縮率を得ることの可能な、圧縮端子のかしめ方法を
提供することにある。Therefore, the problems to be solved by the present invention (objects)
The object of the present invention is to provide a method of caulking a compression terminal capable of obtaining a predetermined compression ratio without sharpening burrs that are inevitably generated by increasing the compression ratio with a die that is divided into upper and lower parts and compressing the compression terminal. It is in.
【0008】[0008]
【課題を解決するための手段】本発明により提供する圧
縮端子のかしめ方法は、端子圧縮外径より圧縮ダイスの
対角寸法が小さめの該圧縮ダイスを用いて端子を圧縮す
る方法において、圧縮ダイス本体の圧縮面と同圧縮ダイ
ス本体の分割部との稜角部に、端子のかしめにより生ず
るバリを吸収でき、且つ、鋭利なバリ形状とならないよ
うに丸みをもたせた形状のバリ吸収溝を有する圧縮ダイ
スによって端子をかしめる方法からなる。According to the present invention, there is provided a method for caulking a compression terminal, comprising the step of compressing a terminal using a compression die having a diagonal dimension smaller than that of a terminal compression outer diameter. Compression having a burr-absorbing groove with a rounded shape that can absorb burrs generated by caulking of terminals and does not have a sharp burr shape, at the ridge corner between the compression surface of the main body and the divided portion of the compression die main body. It consists of a method of caulking the terminal with a die.
【0009】(上下に)分割するダイスのかしめにより
生ずる端子のバリは、同じ量だけダイス外にはみ出して
くるが、このバリは予めダイスの分割部におけるバリ吸
収溝に吸収させ、バリの形状は溝の形状とほぼ同じとな
り、丸みを帯びた溝と同じような形状寸法のバリとな
る。The burrs of the terminals caused by the caulking of the (up and down) dies protrude out of the dies by the same amount, but the burrs are absorbed in advance in the burr absorption grooves in the divided portions of the dies, and The shape is substantially the same as the shape of the groove, and the burr has the same shape and size as the rounded groove.
【0010】通常、六角ダイスでかしめて生ずる端子圧
縮部の鋭利なバリの形状、寸法は、端子断面積、導体撚
線断面積及び使用ダイス寸法により当然異なるが、その
同じ条件で生ずるバリの面積とほぼ同じか少し大きめの
面積を有する丸みがかった溝をダイス入口の両側に設け
ると良い。また、前記バリ吸収溝は、圧縮ダイス本体に
おける上下分割部の双方に設けると良いが、場合によっ
ては、当該圧縮ダイス本体の上か下の一方に設けるよう
にしても良い。Usually, the shape and dimensions of the sharp burrs of the terminal compression portion formed by crimping with a hexagonal die naturally vary depending on the terminal cross-sectional area, the conductor stranded wire cross-sectional area and the size of the die used, but the area of the burrs generated under the same conditions It is preferable to provide rounded grooves having substantially the same or slightly larger area as those on both sides of the die entrance. The burr-absorbing groove may be provided on both the upper and lower divided portions of the compression die body, but may be provided on one of the upper and lower parts of the compression die body in some cases.
【0011】また、上記の方法において、さらに上記の
溝を有しない圧縮ダイスを用いこれを60°回転してか
しめる、圧縮端子のかしめ方法をも提供する。In addition, the present invention also provides a method for caulking a compression terminal, comprising using a compression die having no groove and rotating the same by 60 °.
【0012】[0012]
【発明の実施の形態】図1は、本発明の実施例にして、
(イ)圧縮ダイスの構造を示し、(ロ)は該圧縮ダイス
にてかしめられた圧縮端子の圧縮形状を示している。こ
の実施例では、(イ)のように、上下に分割される圧縮
ダイス本体の上下部のそれぞれにおいて、圧縮面と分割
部との稜角部に、丸みがかった形状のバリ吸収溝Eを設
けた、圧縮ダイスを用いる。かかる、バリ吸収溝Eの面
積は、次のようにして求めると良い。即ち、一般に、六
角ダイスは、手持ちがあり、対象物を設定したダイスに
て、圧縮率を高くしたかしめにより生ずる鋭利なバリを
作り、その縦断面積を求める。その後、当該バリの縦断
面積とほぼ同じか若干大きめの面積を持ち、且つ、鋭利
とならない丸みがかった形状寸法とした溝Eをダイス入
口に設けたダイスを製作する。FIG. 1 shows an embodiment of the present invention.
(A) shows the structure of the compression die, and (B) shows the compressed shape of the compression terminal caulked by the compression die. In this embodiment, as shown in (a), in each of the upper and lower parts of the compression die body which is divided into upper and lower parts, a burr-absorbing groove E having a round shape is provided at the ridge between the compression surface and the division part. And a compression die. The area of the burr absorption groove E may be obtained as follows. That is, in general, a hexagonal die is hand-held, and a sharp burr generated by caulking with a high compression ratio is formed with a die on which an object is set, and its vertical cross-sectional area is obtained. After that, a die having an area approximately equal to or slightly larger than the vertical cross-sectional area of the burr and having a groove E having a rounded shape which is not sharpened is provided at the die entrance.
【0013】上記のようなバリ吸収溝E付き圧縮ダイス
にて圧縮端子をかしめると、図1(ロ)のような端子圧
縮形状となり、丸みがかったバリF2の形状となる。こ
の丸みがかったバリF2によれば、従来の鋭利なバリに
て派生していた問題、即ち、上下ダイス間に入り込んで
上下ダイスが完全に押し切れず、所定の圧縮率が得られ
なくなることや、周囲に絶縁する場合等は電気的に弱点
となってしまうこと等をなくすることができる。従っ
て、当該バリF2を有したままでも、そのまま使用する
ことができる。When the compression terminal is caulked by the compression die having the above-mentioned burr-absorbing groove E, the terminal has a compressed shape as shown in FIG. 1 (b) and has a rounded burr F2 shape. According to the rounded burr F2, a problem derived from the conventional sharp burr, that is, the upper and lower dies cannot be completely pushed by entering between the upper and lower dies, and a predetermined compression ratio cannot be obtained. In the case of insulated surroundings, it is possible to eliminate the possibility of becoming an electrical weak point. Therefore, even if the flash F2 is provided, it can be used as it is.
【0014】本発明によれば、上記のようにバリ吸収溝
付き圧縮ダイスによりかしめられた圧縮端子に対して、
さらに、一般の溝なしダイスで対象物を60°回転さ
せ、再度かしめれば、前記のように生じたバリF2が折
り曲がり等を生ぜずに、ダイス形状に平滑に押し切るこ
とが可能となり、端子表面を平滑に仕上げる要求にも応
じられる。According to the present invention, with respect to the compression terminal caulked by the compression die having the burr absorption groove as described above,
Further, if the object is rotated by 60 ° using a general grooveless die and swaged again, the burr F2 generated as described above can be smoothly pressed into a die shape without bending or the like, and the terminal It can also meet the demand for a smooth surface.
【0015】[0015]
【発明の効果】以上説明したような本発明によれば、上
下に分割するダイスで圧縮率を高めて圧縮することで不
可避的に発生するバリを鋭利のものとせずに所定の圧縮
率を得ることの可能な、圧縮端子のかしめ方法を提供す
るという所期の課題(目的)を達成することができる。According to the present invention as described above, a predetermined compression ratio can be obtained without increasing sharpness of burrs which are inevitably generated by increasing the compression ratio with the dice which are divided into upper and lower portions to perform compression. It is possible to achieve a desired object (object) of providing a method of caulking a compression terminal, which can perform the method.
【0016】そして、本発明の当該圧縮端子のかしめ方
法によると、バリ取り作業が不必要となるから、量の多
いかしめ作業には非常に効率アップとなる。また、かし
め後の圧縮部表面は、丸みがかったバリとなるので、絶
縁処理する場合等、電気的な面で有利となる。さらに、
分割ダイスは完全に押し切れるので、所定の圧縮率即
ち、かしめ条件が得られる。という効果を奏する。According to the compression terminal caulking method of the present invention, the deburring operation is not required, so that the efficiency of the large-capacity caulking operation is greatly improved. In addition, the surface of the compressed portion after caulking becomes a rounded burr, which is advantageous in terms of electrical properties, for example, in the case of insulation treatment. further,
Since the split dies are completely pushed out, a predetermined compression ratio, that is, a caulking condition is obtained. This has the effect.
【図1】本発明の実施例にして、(イ)は溝付きの圧縮
ダイスの形状を示す説明図、(ロ)は溝付き圧縮ダイス
にて圧縮された端子の圧縮部形状の説明図。BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory view showing a shape of a grooved compression die according to an embodiment of the present invention, and FIG. 1B is an explanatory view of a shape of a compressed portion of a terminal compressed by a grooved compression die.
【図2】従来例にして、正六角形ダイス対角寸法と圧縮
後の対辺寸法の関係を示す説明図。FIG. 2 is an explanatory view showing a relationship between a diagonal dimension of a regular hexagonal die and a diagonal dimension after compression in a conventional example.
【図3】従来例にして、ダイス六角寸法Ddを小さめに
して圧縮率を高める方法の説明図。FIG. 3 is an explanatory view of a method of increasing the compression ratio by making the hexagonal dimension Dd of the die smaller in the conventional example.
Dc ダイス対辺寸法 Dd ダイス対角寸法 E ダイスの分割部に設けた溝 F2 溝付きダイスにより発生したバリ Dc Dice diagonal dimension Dd Dice diagonal dimension E Groove provided in the divided part of dice F2 Burr generated by grooved die
─────────────────────────────────────────────────────
────────────────────────────────────────────────── ───
【手続補正書】[Procedure amendment]
【提出日】平成8年7月11日[Submission date] July 11, 1996
【手続補正1】[Procedure amendment 1]
【補正対象書類名】明細書[Document name to be amended] Statement
【補正対象項目名】0002[Correction target item name] 0002
【補正方法】変更[Correction method] Change
【補正内容】[Correction contents]
【0002】[0002]
【従来の技術】従来、この種の端子としては、JIS
C 2804−1984圧縮端子があり、例えば、硬銅
撚線用端子(C形)2−100を例に説明すると、JI
S C3105の硬銅撚線(H)100mm 2 は撚線構成
19/2.6で撚線断面積は100.8mm 2 である。一
方、銅端子外径寸法D=23mm、内径(穴径)d1 =1
3.6mm、端子断面積270mm2 、圧縮後の対辺寸法D
c=19.9mm故、正六角形の圧縮ダイスにてかしめる
とすれば、図2に示す如く、2. Description of the Related Art Conventionally, this type of terminal is JIS
There is a C 2804-1984 compression terminal. For example, a terminal (C type) 2-100 for hard copper stranded wire will be described as JI.
100 mm 2 of hard copper stranded wire (H) of SC3105 has a stranded wire configuration of 19 / 2.6 and a stranded wire cross-sectional area of 100.8 mm 2 . one
One, copper terminal outer diameter D = 23 mm, inner diameter (hole diameter) d 1 = 1
3.6 mm, terminal cross-sectional area 270 mm 2 , opposite dimension D after compression
c = 19.9 mm therefore if caulked at regular hexagonal compression dies, as shown in FIG. 2,
【数1】 となり、Dd=Dとなる。但し、Ddはダイス対角寸法
である。言い換えれば、端子外径寸法Dと同じの六角ダ
イス対角寸法Ddを用いてかしめる。この時のダイス断
面積は343.85mm2 となる。また、かしめの度合い
を示す圧縮率は、(Equation 1) And Dd = D. Here, Dd is a diagonal dimension of the die. In other words, crimping is performed using a hexagonal die diagonal dimension Dd that is the same as the terminal outer diameter dimension D. The die cross-sectional area at this time is 343.85 mm 2 . The compression ratio indicating the degree of caulking is
【数2】 の式によって求められる。従って、C2−100の圧縮
率を求めると、約7.3%となる。(Equation 2) It is calculated by the following equation. Therefore, when the compression ratio of C2-100 is obtained, it is about 7.3%.
【手続補正2】[Procedure amendment 2]
【補正対象書類名】明細書[Document name to be amended] Statement
【補正対象項目名】0005[Correction target item name] 0005
【補正方法】変更[Correction method] Change
【補正内容】[Correction contents]
【0005】前述した圧縮率の式からわかるように、圧
縮率を上げるには、端子断面積及び撚線の断面積が変わ
らないとすれば、ダイス対角寸法Ddを小さくして圧縮
率を上げる手段も一般に行われている。この場合、図3
に示す如く、上下のダイスの入口で端子の外径部を噛ん
でしまい、当然のことながら端子にバリF1が生じ、こ
のバリF1が上下ダイス間に入り込んで上下ダイスが完
全に押し切れず、所定の圧縮率が得られなくなる。ま
た、このような場合のバリF1は、鋭利に尖った形状と
なり、このまま使用するには邪魔になり、例えば、周囲
に絶縁する場合等は電気的に弱点となってしまうのであ
る。As can be seen from the above-described equation of the compression ratio, if the terminal cross-section and the cross-sectional area of the stranded wire are not changed in order to increase the compression ratio, the compression ratio is increased by reducing the diagonal dimension Dd of the die. Means are also commonly used. In this case, as shown in FIG. 3
As shown in the figure, the outer diameter portion of the terminal is bitten at the entrance of the upper and lower dies, and of course, burrs F1 are generated in the terminal, and the burrs F1 enter between the upper and lower dies, and the upper and lower dies cannot be completely pushed. A predetermined compression ratio cannot be obtained. Further, the burr F1 in such a case has a sharply pointed shape, which hinders use as it is. For example, when it is insulated around, it becomes an electrical weak point.
Claims (4)
小さめの該圧縮ダイスを用いて端子を圧縮する方法にお
いて、圧縮ダイス本体の圧縮面と同圧縮ダイス本体の分
割部との稜角部に、端子のかしめにより生ずるバリを吸
収でき、且つ、鋭利なバリ形状とならないように丸みを
もたせた形状のバリ吸収溝を有する圧縮ダイスによって
端子をかしめる、圧縮端子のかしめ方法。1. A method of compressing a terminal using a compression die having a diagonal dimension of a compression die smaller than a terminal compression outer diameter, wherein a ridge portion between a compression surface of the compression die body and a divided portion of the compression die body. A method of caulking a compressed terminal, wherein the terminal is caulked by a compression die having a burr-absorbing groove having a rounded shape so that a burr generated by caulking of the terminal can be absorbed and a sharp burr shape is not formed.
ものの面積とほぼ同じか少し大きめの面積を有するよう
にして、ダイス入口の両側に設ける、請求項1記載の圧
縮端子のかしめ方法。2. A method for caulking a compression terminal according to claim 1, wherein said burr-absorbing groove is provided on both sides of a die entrance so as to have an area substantially equal to or slightly larger than an area of a sharp burr-shape. .
る上下分割部の双方もしくは上か下の一方に設ける、請
求項1または請求項2記載の圧縮端子のかしめ方法。3. The method according to claim 1, wherein the burr-absorbing groove is provided on both the upper and lower divided portions of the compression die body, or on one of the upper and lower portions.
小さめのを用いる場合において、圧縮ダイス本体の上下
二つ割りの両端に端子のかしめにより生ずるバリを吸収
でき、且つ鋭利なバリ形状とならないように丸みをもた
せた形状のバリ吸収溝を有する圧縮ダイスで端子をかし
め、さらに上記の溝を有しない圧縮ダイスを用いこれを
60°回転してかしめる、圧縮端子のかしめ方法。4. When the diagonal dimension of the compression die is smaller than the outer diameter of the compressed terminal, burrs generated by caulking the terminal at both ends of the upper and lower halves of the compression die body can be absorbed, and a sharp burr shape is not formed. A method of caulking a compression terminal, comprising caulking a terminal with a compression die having a burr-absorbing groove having a rounded shape as described above, and further rotating the terminal by 60 ° using a compression die having no groove.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP17195096A JPH1022040A (en) | 1996-07-02 | 1996-07-02 | Calking method for compression terminal |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP17195096A JPH1022040A (en) | 1996-07-02 | 1996-07-02 | Calking method for compression terminal |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH1022040A true JPH1022040A (en) | 1998-01-23 |
Family
ID=15932802
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP17195096A Pending JPH1022040A (en) | 1996-07-02 | 1996-07-02 | Calking method for compression terminal |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH1022040A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| DE19906831A1 (en) * | 1999-02-18 | 2000-09-14 | Tyco Electronics Logistics Ag | Method for crimping of sleeve on workpiece by using holder that accommodates outside perimeter of non-distorted sleeve and providing at least one alternate notch at outside perimeter of basic geometry |
| JP2016110770A (en) * | 2014-12-04 | 2016-06-20 | 株式会社フジクラ | Wire with terminal and crimping device |
-
1996
- 1996-07-02 JP JP17195096A patent/JPH1022040A/en active Pending
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| DE19906831A1 (en) * | 1999-02-18 | 2000-09-14 | Tyco Electronics Logistics Ag | Method for crimping of sleeve on workpiece by using holder that accommodates outside perimeter of non-distorted sleeve and providing at least one alternate notch at outside perimeter of basic geometry |
| JP2016110770A (en) * | 2014-12-04 | 2016-06-20 | 株式会社フジクラ | Wire with terminal and crimping device |
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