JP3214098U - Free solder connector for coaxial micro cable - Google Patents
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- JP3214098U JP3214098U JP2017004591U JP2017004591U JP3214098U JP 3214098 U JP3214098 U JP 3214098U JP 2017004591 U JP2017004591 U JP 2017004591U JP 2017004591 U JP2017004591 U JP 2017004591U JP 3214098 U JP3214098 U JP 3214098U
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Abstract
【課題】中心導体及び接続用端子が安定的に電気的に接続される同軸マイクロケーブル用フリーハンダ付けコネクタを提供する。【解決手段】金属ケース11及びコネクタ本体20を備え、同軸マイクロケーブルは中心導体と、絶縁体と、少なくとも1層の編組導体と、外部被覆とを有する。コネクタ本体20は接続ヘッド12と、絶縁部品22と、接続用端子30と、支持部材40とを含み、絶縁部品22と接続用端子30との間には導電挟持部品50が配置される。導電挟持部品50は弧状部51、及び弧状部51の両側の端部から所定の長さ上に向けて延伸される1対の可撓部52を有する。また、小型の工具により可撓部52が内に向けて湾曲するように変形され、且つ同軸マイクロケーブルの中心導体に圧着される。【選択図】図2A free-solder connector for a coaxial micro cable, in which a central conductor and a connection terminal are electrically connected stably. The coaxial micro cable includes a central conductor, an insulator, at least one braided conductor, and an outer coating. The connector body 20 includes a connection head 12, an insulation component 22, a connection terminal 30, and a support member 40, and a conductive clamping component 50 is disposed between the insulation component 22 and the connection terminal 30. The conductive clamping component 50 includes an arc-shaped portion 51 and a pair of flexible portions 52 that extend from the ends on both sides of the arc-shaped portion 51 toward a predetermined length. Further, the flexible portion 52 is deformed so as to be curved inward by a small tool, and is crimped to the central conductor of the coaxial micro cable. [Selection] Figure 2
Description
本考案は、同軸マイクロケーブル用フリーハンダ付けコネクタに関し、より詳しくは、導電挟持部品により同軸マイクロケーブルの中心導体とコネクタ本体の接続用端子とが安定的に電気的に接続される同軸マイクロケーブル用フリーハンダ付けコネクタに関する。 The present invention relates to a free soldered connector for a coaxial micro cable, and more specifically, for a coaxial micro cable in which a central conductor of a coaxial micro cable and a connection terminal of a connector body are stably and electrically connected by a conductive clamping component. Related to free solder connector.
従来の同軸マイクロケーブルのコネクタは、機械に電気的に接続される同軸マイクロケーブルにインターフェイスコネクタを有する電子機器であり、信号の伝送に用いられる。現在、同軸マイクロケーブルの接続技術は、ここで述べる”同軸マイクロケーブル”とは、中心導体の直径が0.1mmより大きく、0.8mmより小さい同軸ケーブルを指し、例えばRG178、RG179等がある。このような外径の小さい同軸ケーブルには、SMA、SMB、MCX、MMCX等のような精確なマイクロコネクタを使用する必要がある。先行技術における同軸マイクロケーブルは中心導体と、中心導体の周囲を被覆させる絶縁体と、絶縁体の周囲を被覆させる少なくとも1層の編組導体と、前記編組導体の周囲を被覆させる外部被覆とを備える。前記同軸マイクロケーブルの中心導体は通常、コネクタ内部のプラグに直接半田付けされる。このような半田付け方式には電力が必要で、清潔で明るい作業環境の下で接合作業を行う必要があり、体積の小さいプラグの接合では、より慎重を期して作業する必要がある。接合を行う作業員が前記プラグを持ち、前記中心導体に載せた後に半田付け作業を実行する。 A conventional coaxial microcable connector is an electronic device having an interface connector on a coaxial microcable that is electrically connected to a machine, and is used for signal transmission. At present, the coaxial microcable connection technology described here refers to a coaxial cable having a central conductor diameter larger than 0.1 mm and smaller than 0.8 mm, such as RG178 and RG179. For such a coaxial cable with a small outer diameter, it is necessary to use an accurate microconnector such as SMA, SMB, MCX, MMCX or the like. A coaxial microcable in the prior art includes a central conductor, an insulator covering the periphery of the central conductor, at least one layer of braided conductor covering the periphery of the insulator, and an outer coating covering the periphery of the braided conductor. . The central conductor of the coaxial micro cable is usually soldered directly to the plug inside the connector. Such a soldering method requires electric power, and it is necessary to perform the joining work in a clean and bright working environment, and it is necessary to work more carefully in joining small plugs. A worker who performs the bonding holds the plug and places it on the central conductor, and then performs a soldering operation.
しかしながら、このような電気的接続はプラグの体積が非常に小さい為指で取りにくく作業が難しい場面も多くある。また高熱の半田ごてを使用しての半田付け作業は短時間で作業を終える必要がある為熟練した作業が求められ作業員のストレスも大きく接続に失敗して損害を被る事もある。 However, in such electrical connection, since the volume of the plug is very small, there are many situations where it is difficult to work with a finger and difficult to work. In addition, the soldering work using a high-temperature soldering iron needs to be completed in a short time, so skilled work is required, and the worker's stress is great and the connection may fail and damage may occur.
上述のように、現在、同軸マイクロケーブルの中心導体及びコネクタを堅固に接合させ、半田付けが不要で簡便にケーブル接続出来る構造のコネクタが求められています。 As mentioned above, there is currently a demand for a connector with a structure that allows the central conductor and connector of a coaxial micro-cable to be firmly joined so that it can be easily connected without the need for soldering.
そこで、本考案者は上記の欠点が改善可能と考え、鋭意検討を重ねた結果、合理的設計で上記の課題を効果的に改善する本考案の提案に到った。 Therefore, the present inventor considered that the above-described drawbacks can be improved, and as a result of intensive studies, the present inventor has arrived at a proposal of the present invention that effectively improves the above-described problems with a rational design.
かかる従来の実情に鑑みて、本考案は、同軸マイクロケーブル用フリーハンダ付けコネクタを提供することを目的とする。すなわち、簡易で半田付けが不要な構造により、同軸マイクロケーブルの中心導体とコネクタ本体の接続用端子とを電気的に接続させる。 In view of such conventional circumstances, an object of the present invention is to provide a free soldered connector for a coaxial micro cable. That is, the central conductor of the coaxial micro cable and the connection terminal of the connector main body are electrically connected by a simple structure that does not require soldering.
上述した課題を解決し、上記目的を達成するため、本考案に係る同軸マイクロケーブル用フリーハンダ付けコネクタの特徴は、金属ケース及び前記金属ケースの内部に接合されるコネクタ本体を備え、前記コネクタ本体は接続ヘッドと、絶縁部品と、接続用端子と、支持部材とを含む。前記コネクタは、前記絶縁部品が先端部と、後端部と、前記先端部と後端部との間に形成される弧端部とを有し、前記円弧端部が接合溝からなる。導電挟持部品は前記絶縁部品と前記接続用端子との間に配置され、前記導電挟持部品はU字型構造を呈し、前記絶縁部品の接合溝中に固定され、且つ前記接続用端子のインターフェイス部の周囲に配置される。前記導電挟持部品は弧状部、及び前記弧状部の両側の端部から所定の長さ上に向けて延伸される1対の可撓部を有し、且つ小型の工具により前記可撓部が内に向けて湾曲するように変形され、前記同軸マイクロケーブルの中心導体に圧着され、電気的接続を形成させることを特徴とする。 In order to solve the above-described problems and achieve the above object, the feature of the free soldered connector for a coaxial micro cable according to the present invention includes a metal case and a connector body joined to the inside of the metal case. Includes a connection head, an insulating component, a connection terminal, and a support member. In the connector, the insulating component has a front end portion, a rear end portion, and an arc end portion formed between the front end portion and the rear end portion, and the arc end portion includes a joining groove. The conductive clamping component is disposed between the insulating component and the connection terminal, the conductive clamping component has a U-shaped structure, is fixed in a joining groove of the insulating component, and is an interface portion of the connection terminal Is placed around. The conductive clamping component includes an arc-shaped portion and a pair of flexible portions extending from the ends on both sides of the arc-shaped portion toward a predetermined length, and the flexible portion is formed by a small tool. And is crimped to the central conductor of the coaxial micro cable to form an electrical connection.
以下、図面を参照して本考案に係る同軸マイクロケーブル用フリーハンダ付けコネクタの実施形態について説明する。尚、以下に説明する実施の形態は、実用新案登録請求の範囲に記載された本考案の内容を限定するものではない。また、以下に説明される構成の全てが、本考案の必須要件であるとは限らない。
(実施形態)
Hereinafter, embodiments of a free soldered connector for coaxial micro cables according to the present invention will be described with reference to the drawings. The embodiment described below does not limit the contents of the present invention described in the claims of the utility model registration. In addition, all the configurations described below are not necessarily essential requirements of the present invention.
(Embodiment)
以下に、図1〜7Bを参照しながら、本考案をさらに詳しく説明する。まず、図6Bから分かるように、従来の同軸マイクロケーブル60の末端はカッターにより外部被覆64が剥がされ、中心導体61、絶縁体62、及び編組導体63が部分的に一定の長さ露出される。前記絶縁体62により前記中心導体61の周囲が被覆され、前記編組導体63により前記絶縁体62の周囲が被覆され、前記外部被覆64により前記編組導体63の周囲が被覆される。 Hereinafter, the present invention will be described in more detail with reference to FIGS. First, as can be seen from FIG. 6B, the outer coating 64 is peeled off from the end of the conventional coaxial micro cable 60 by a cutter, and the central conductor 61, the insulator 62, and the braided conductor 63 are partially exposed to a certain length. . The insulator 62 covers the periphery of the central conductor 61, the braided conductor 63 covers the periphery of the insulator 62, and the outer cover 64 covers the periphery of the braided conductor 63.
図1乃至図5Bに示されるように、本考案の同軸マイクロケーブル用フリーハンダ付けコネクタ10は、金属ケース11と、接続ヘッド12と、前記金属ケース11の内部に接合されるコネクタ本体20とを備える。前記接続ヘッド12は前記金属ケース11の前端に連結され、これにはSMA、SMB、MCX、MMCX等の接続インターフェイスが選択される。本考案ではMMCX接続ヘッドで実施される例について説明する。前記接続ヘッド12は雄ねじ本体13と、前記雄ねじ本体13の前端に配置配置される接触用嵌合部材14と、前記雄ねじ本体13の後端に配置配置される挟持部15とを有する。前記接触用嵌合部材14には所定の内径サイズ及びメスコネクタ(図示せず)が形成され、機械的な挟持に用いられる。 As shown in FIG. 1 to FIG. 5B, the coaxial micro cable free soldering connector 10 of the present invention includes a metal case 11, a connection head 12, and a connector body 20 joined to the inside of the metal case 11. Prepare. The connection head 12 is connected to the front end of the metal case 11, and a connection interface such as SMA, SMB, MCX, MMCX is selected for this. In the present invention, an example implemented with an MMCX connection head will be described. The connection head 12 has a male screw main body 13, a contact fitting member 14 disposed at the front end of the male screw main body 13, and a clamping portion 15 disposed at the rear end of the male screw main body 13. The contact fitting member 14 has a predetermined inner diameter and a female connector (not shown), and is used for mechanical clamping.
前記コネクタ本体20は絶縁部品22と、接続用端子30と、支持部材40とを備える。前記絶縁部品22は先端部23と、後端部24と、前記先端部23と後端部24との間に形成される円弧端部25とを有する。前記円弧端部25は接合溝26からなる。前記後端部24は前記接合溝26につながる開孔部27を有する。 The connector body 20 includes an insulating component 22, a connection terminal 30, and a support member 40. The insulating component 22 has a front end portion 23, a rear end portion 24, and an arc end portion 25 formed between the front end portion 23 and the rear end portion 24. The arc end portion 25 is composed of a joining groove 26. The rear end portion 24 has an opening portion 27 connected to the joining groove 26.
前記接続用端子30は前記絶縁部品22内に挿入され、その前端には前記絶縁部品22の先端部23内に配置されるピン形状部31が形成され、その後端にはやや拡大されると共に前記絶縁部品22の後端部24内に配置される末端部32、及び前記ピン形状部31と末端部32との間に形成されると共に前記絶縁部品22の接合溝26に配置されるインターフェイス部33が形成される。前記ピン形状部31はインターフェイスコネクタを有するメスコネクタと電気的に接続される。前記末端部32は開口部34を有し、前記同軸マイクロケーブル60の中心導体61及び絶縁体62が貫入され、且つ前記中心導体61が前記インターフェイス部33に配置される(図6B参照)。 The connection terminal 30 is inserted into the insulating component 22, and a pin-shaped portion 31 disposed in the front end portion 23 of the insulating component 22 is formed at the front end thereof. An end portion 32 disposed in the rear end portion 24 of the insulating component 22 and an interface portion 33 formed between the pin-shaped portion 31 and the end portion 32 and disposed in the joining groove 26 of the insulating component 22. Is formed. The pin-shaped portion 31 is electrically connected to a female connector having an interface connector. The end portion 32 has an opening 34, the central conductor 61 and the insulator 62 of the coaxial micro cable 60 are penetrated, and the central conductor 61 is disposed in the interface portion 33 (see FIG. 6B).
前記支持部材40は金属材料で製造され、本体部41及び管端部42を有する。前記本体部41の内部には前記絶縁部品22の後端部24が収納され、且つ前記絶縁部品22及び前記支持部材40が緊密に結合される(図4参照)。 The support member 40 is made of a metal material and has a main body portion 41 and a tube end portion 42. The rear end portion 24 of the insulating component 22 is accommodated in the main body 41, and the insulating component 22 and the support member 40 are tightly coupled (see FIG. 4).
前記本体部41が前記接続ヘッド12の挟持部15内に挿入され、前記挟持部15が前記本体部41を挟持させることにより、前記支持部材40及び前記接続ヘッド12が結合される。前記同軸マイクロケーブル60の自由端がコネクタ本体20に挿入されると、前記同軸マイクロケーブル60の編組導体63が前記管端部42内に配置され、小型の工具により力が加えられて前記管端部42が前記編組導体63に結合するように変形され、前記コネクタ本体20に接地が形成される(図6D参照)。 The main body portion 41 is inserted into the holding portion 15 of the connection head 12, and the holding portion 15 holds the main body portion 41 so that the support member 40 and the connection head 12 are coupled. When the free end of the coaxial micro cable 60 is inserted into the connector body 20, the braided conductor 63 of the coaxial micro cable 60 is disposed in the tube end portion 42, and a force is applied by a small tool to the tube end. The portion 42 is deformed so as to be coupled to the braided conductor 63, and a ground is formed on the connector body 20 (see FIG. 6D).
本考案の同軸マイクロケーブル用フリーハンダ付けコネクタ10の技術的特徴は、前記コネクタ本体20が前記絶縁部品22と接続用端子30との間に配置される導電挟持部品50を更に備える。前記導電挟持部品50はU字型構造を呈すると共に前記絶縁部品22の接合溝26中に固定され、且つ前記接続用端子30のインターフェイス部33の周囲に配置される。前記導電挟持部品50は弧状部51、及び前記弧状部51の両側の端部から所定の長さ上に向けて延伸される1対の可撓部52を有する(図3、図4及び図5A参照)。小型の工具により前記可撓部52が内に向けて湾曲するように変形され(図5B参照)、且つ前記同軸マイクロケーブル60の中心導体61に圧着され、前記導電挟持部品50及び接続用端子30が電気的に接続される(図6D及び7B参照)。 The technical feature of the free soldered connector 10 for coaxial micro cable according to the present invention further includes a conductive clamping component 50 in which the connector body 20 is disposed between the insulating component 22 and the connection terminal 30. The conductive clamping component 50 has a U-shaped structure, is fixed in the joining groove 26 of the insulating component 22, and is disposed around the interface portion 33 of the connection terminal 30. The conductive clamping component 50 includes an arcuate portion 51 and a pair of flexible portions 52 that extend from the ends on both sides of the arcuate portion 51 toward a predetermined length (FIGS. 3, 4, and 5A). reference). The flexible portion 52 is deformed so as to be bent inward by a small tool (see FIG. 5B), and is crimped to the central conductor 61 of the coaxial micro cable 60. Are electrically connected (see FIGS. 6D and 7B).
図6A乃至図6Fは本考案の同軸マイクロケーブル用フリーハンダ付けコネクタ10が前記同軸マイクロケーブル60に接合される工程図である。まず、図6Aに示されるように、金属ケース11が同軸マイクロケーブル60に挿入される。続いて、同軸マイクロケーブル60の自由端の外部被覆64が部分的に除去され、中心導体61、絶縁体62、及び編組導体63が部分的に一定の長さ露出される(図6B参照)。次いで、前記同軸マイクロケーブル60の自由端が前記コネクタ本体20内に挿入され、中心導体61が前記接続用端子30のインターフェイス部33に配置される(図6C参照)。次に、工具により導電挟持部品50の可撓部52が内に向けて湾曲するように変形され、且つ同軸マイクロケーブル60の中心導体61に圧着されて電気的接続が形成される。同時に、工具により前記管端部42に力が加えられ、前記編組導体63に結合するように変形され、前記コネクタ本体20に接地が形成される(図6D参照)。 6A to 6F are process diagrams for joining the coaxial micro cable free soldering connector 10 of the present invention to the coaxial micro cable 60. FIG. First, as shown in FIG. 6A, the metal case 11 is inserted into the coaxial micro cable 60. Subsequently, the outer coating 64 on the free end of the coaxial micro cable 60 is partially removed, and the central conductor 61, the insulator 62, and the braided conductor 63 are partially exposed to a certain length (see FIG. 6B). Next, the free end of the coaxial micro cable 60 is inserted into the connector main body 20, and the center conductor 61 is disposed on the interface portion 33 of the connection terminal 30 (see FIG. 6C). Next, the flexible portion 52 of the conductive clamping component 50 is deformed so as to be curved inward by a tool, and is crimped to the central conductor 61 of the coaxial micro cable 60 to form an electrical connection. At the same time, a force is applied to the tube end 42 by a tool, and the tube body 42 is deformed so as to be coupled to the braided conductor 63, thereby forming a ground in the connector body 20 (see FIG. 6D).
その後、前記支持部材40の本体部41が前記接続ヘッド12の挟持部15内に挿入され、前記挟持部15により前記本体部41が挟持され、前記接続ヘッド12及び支持部材40が結合される(図6E参照)。 Thereafter, the main body portion 41 of the support member 40 is inserted into the clamping portion 15 of the connection head 12, the main body portion 41 is clamped by the clamping portion 15, and the connection head 12 and the support member 40 are coupled ( (See FIG. 6E).
最後に、接続ヘッド12の雄ねじ本体13が前記金属ケース11内に螺入される。この際、前記接続ヘッド12の接触用嵌合部材14が金属ケース11の外に露出され、メスコネクタに機械的に挟持される(図6F参照)。 Finally, the male screw main body 13 of the connection head 12 is screwed into the metal case 11. At this time, the contact fitting member 14 of the connection head 12 is exposed to the outside of the metal case 11 and mechanically sandwiched between the female connectors (see FIG. 6F).
従って、本明細書に開示された実施例は、本考案を限定するものではなく、説明するためのものであり、このような実施例によって本考案の思想と範囲が限定されるものではない。本考案の範囲は実用新案登録請求の範囲により解釈すべきであり、それと同等の範囲内にある全ての技術は、実用新案登録請求のに含まれるものと解釈すべきである。 Accordingly, the embodiments disclosed herein are for the purpose of explaining, not limiting the present invention, and the spirit and scope of the present invention are not limited by such embodiments. The scope of the present invention should be construed according to the claims for utility model registration, and all technologies within the equivalent scope should be construed as included in the claims for utility model registration.
10 同軸マイクロケーブル用フリーハンダ付けコネクタ
11 金属ケース
12 接続ヘッド
13 雄ねじ本体
14 接触用嵌合部材
15 挟持部
20 コネクタ本体
22 絶縁部品
23 先端部
24 後端部
25 円弧端部
26 接合溝
27 開孔部
30 接続用端子
31 ピン形状部
32 末端部
33 インターフェイス部
34 開口部
40 支持部材
41 本体部
42 管端部
50 導電挟持部品
51 弧状部
52 可撓部
60 同軸マイクロケーブル
61 中心導体
62 絶縁体
63 編組導体
64 外部被覆
DESCRIPTION OF SYMBOLS 10 Free soldering connector 11 for coaxial micro cables 11 Metal case 12 Connection head 13 Male thread main body 14 Contact fitting member 15 Holding part 20 Connector main body 22 Insulation component 23 Front end part 24 Rear end part 25 Arc end part 26 Joining groove 27 Opening Part 30 connection terminal 31 pin-shaped part
32 End portion 33 Interface portion 34 Opening portion 40 Support member 41 Main body portion 42 Tube end portion 50 Conductive clamping component 51 Arc-shaped portion 52 Flexible portion 60 Coaxial micro cable 61 Center conductor 62 Insulator 63 Braided conductor 64 External coating
Claims (1)
前記絶縁部品は先端部と、後端部と、前記先端部と後端部との間に形成される円弧端部とを有し、前記円弧端部は接合溝からなり、
また、導電挟持部品は前記絶縁部品と前記接続用端子との間に配置され、前記導電挟持部品はU字型構造を呈し、前記絶縁部品の接合溝中に固定され、且つ前記接続用端子のインターフェイス部の周囲に配置され、前記導電挟持部品は弧状部、及び前記弧状部の両側の端部から所定の長さ上に向けて延伸される1対の可撓部を有し、且つ小型の工具により前記可撓部が内に向けて湾曲するように変形され、前記同軸マイクロケーブルの中心導体に圧着され、電気的な接続が形成されることを特徴とする同軸マイクロケーブル用フリーハンダ付けコネクタ。 Electrically connected to a coaxial micro cable, the coaxial micro cable comprising a central conductor, an insulator covering the periphery of the central conductor, at least one braided conductor covering the periphery of the insulator, and the braided conductor; An outer cover for covering the periphery, and a metal case and a connector body joined to the inside of the metal case, the connector body including a connection head, an insulating component, a connection terminal, and a support member Free soldered connector for coaxial micro cable,
The insulating component has a front end portion, a rear end portion, and an arc end portion formed between the front end portion and the rear end portion, and the arc end portion includes a joining groove,
The conductive clamping component is disposed between the insulating component and the connection terminal, the conductive clamping component has a U-shaped structure, is fixed in a joining groove of the insulating component, and is connected to the connection terminal. The conductive sandwiching component is disposed around the interface portion, and the conductive clamping component includes an arc-shaped portion, a pair of flexible portions extending from the ends on both sides of the arc-shaped portion toward a predetermined length, and a small size. A free soldering connector for a coaxial micro cable, wherein the flexible part is deformed so as to bend inward by a tool, and is crimped to a central conductor of the coaxial micro cable to form an electrical connection. .
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2017004591U JP3214098U (en) | 2017-10-06 | 2017-10-06 | Free solder connector for coaxial micro cable |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2017004591U JP3214098U (en) | 2017-10-06 | 2017-10-06 | Free solder connector for coaxial micro cable |
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| JP3214098U true JP3214098U (en) | 2017-12-21 |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN114614313A (en) * | 2022-04-13 | 2022-06-10 | 迪赛康科技(深圳)有限公司 | Bandwidth 40GHzminismp connector adapter cable |
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2017
- 2017-10-06 JP JP2017004591U patent/JP3214098U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN114614313A (en) * | 2022-04-13 | 2022-06-10 | 迪赛康科技(深圳)有限公司 | Bandwidth 40GHzminismp connector adapter cable |
| CN114614313B (en) * | 2022-04-13 | 2023-09-19 | 迪赛康科技(深圳)有限公司 | Bandwidth 40ghz mini-type connector adapter cable |
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