JP4311575B2 - Wire wound chip type common mode choke coil - Google Patents

Wire wound chip type common mode choke coil Download PDF

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JP4311575B2
JP4311575B2 JP2005290235A JP2005290235A JP4311575B2 JP 4311575 B2 JP4311575 B2 JP 4311575B2 JP 2005290235 A JP2005290235 A JP 2005290235A JP 2005290235 A JP2005290235 A JP 2005290235A JP 4311575 B2 JP4311575 B2 JP 4311575B2
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shaped electrode
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common mode
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JP2007103596A (en
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和博 松本
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Tokyo Parts Ind Co Ltd
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Description

本発明は、各種の電子回路に用いられる小型で表面実装が可能な巻線チップ型コモンモードチョークコイルに関する。   The present invention relates to a small-sized and surface-mountable wound chip type common mode choke coil used in various electronic circuits.

チップ型コモンモードチョークコイルは、例えば、図9(a)に示すようなドラムコアの巻芯部91に、図9(b)に示すように2本の巻線92a,92bが巻回され、その両端末が巻芯部91の両端側の鍔部に設けられた脚状電極部93a〜93dに熱圧着などの方法により電気的に接続され構成されている。   In the chip type common mode choke coil, for example, two windings 92a and 92b are wound around a core 91 of a drum core as shown in FIG. 9A, as shown in FIG. Both terminals are configured to be electrically connected to leg-shaped electrode portions 93a to 93d provided at the flanges on both ends of the core 91 by a method such as thermocompression bonding.

しかしながら、巻線92a,92bの端末(被膜が除去されて導体が露出している部分)を各脚状電極部93a〜93dに接続するにあたっては、例えば一方の巻線92aの端末が、接続されるべき脚状電極部93aに隣接する脚状電極部93bに接触して短絡したり(図9(b)参照)、十分な絶縁距離を確保できずに耐圧の劣化や絶縁不良を生じるという問題がある。また、図9(c)に示すように、脚状電極部93bの側面が巻芯部の軸方向に垂直に切り立っているため、巻線92bが略直角に曲折することになり、断線しやすいという問題もある。   However, when connecting the ends of the windings 92a and 92b (portions where the film is removed and the conductor is exposed) to the leg-shaped electrode portions 93a to 93d, for example, the end of one winding 92a is connected. There is a problem that the leg-shaped electrode part 93b adjacent to the leg-shaped electrode part 93a to be contacted is short-circuited (see FIG. 9B) or a sufficient insulation distance cannot be secured, resulting in deterioration of breakdown voltage or insulation failure. There is. Further, as shown in FIG. 9C, since the side surface of the leg-shaped electrode portion 93b stands perpendicular to the axial direction of the winding core portion, the winding 92b is bent at a substantially right angle and is easily disconnected. There is also a problem.

上記のような問題を解決するために、例えば特許文献1では、図10に示すように、脚状電極部93a〜93dの外周の一部を所定の傾斜平面101として形成している。このような構成によれば、巻線92aの端末が、接続されるべき脚状電極部93aに隣接する脚状電極部93bに接触して短絡を生じたり、耐圧の劣化や絶縁不良が生じるのを防止する効果や、巻線の曲折角度が緩やかになり、この曲折部分での巻線の断線を防止する効果が期待できる。   In order to solve the above problems, for example, in Patent Document 1, a part of the outer periphery of the leg-shaped electrode portions 93a to 93d is formed as a predetermined inclined plane 101 as shown in FIG. According to such a configuration, the end of the winding 92a comes into contact with the leg electrode part 93b adjacent to the leg electrode part 93a to be connected, causing a short circuit, deterioration of breakdown voltage, or insulation failure. The effect of preventing the winding and the winding angle of the winding become gentle, and the effect of preventing the wire breakage at the bent portion can be expected.

特開平11―204346号公報JP-A-11-204346

しかしながら、外部応力等による巻線の断線を防止するためには空中配線を最小限にすることが極めて重要であるものの、図10に示したような構成では図11に黒塗りで示す空中配線部分102が長くなり、断線が生じ易くなるという問題がある。   However, although it is extremely important to minimize the aerial wiring in order to prevent disconnection of the winding due to external stress or the like, in the configuration as shown in FIG. 10, the aerial wiring part shown in black in FIG. There is a problem that 102 becomes long and disconnection is likely to occur.

また、図10のような構成においても巻線の端末が傾斜平面101の上辺に沿って移動し配線位置がずれる危険性があり、例えば巻線92aが脚状電極部93a上で位置ずれすることにより脚状電極部93bの電極に端末が接触して短絡を生じたり、耐圧の劣化や絶縁不良を招いたりする場合がある。また、巻線92aが移動した場合、逆に傾斜平面101を設けたことによって配線が脚状電極部93bの傾斜平面101に沿って上方に移動し易くなり、傾斜平面部分の電極に端末が接触しないまでも、耐圧の劣化や絶縁不良を招き易くなる。さらに、脚状電極部上で端末が移動すると、脚状電極部に端末を接続する際の圧着の信頼性が低下する問題がある。   Further, even in the configuration as shown in FIG. 10, there is a risk that the end of the winding moves along the upper side of the inclined plane 101 and the wiring position shifts. For example, the winding 92a is displaced on the leg-shaped electrode portion 93a. As a result, the terminal may come into contact with the electrode of the leg-shaped electrode portion 93b to cause a short circuit, or the breakdown voltage may be deteriorated or the insulation may be poor. In addition, when the winding 92a moves, the inclined plane 101 is provided on the contrary, whereby the wiring easily moves upward along the inclined plane 101 of the leg-shaped electrode portion 93b, and the terminal contacts the electrode of the inclined plane portion. If not, the breakdown voltage is likely to deteriorate and the insulation will be poor. Furthermore, when the terminal moves on the leg-shaped electrode part, there is a problem that the reliability of crimping when the terminal is connected to the leg-shaped electrode part is lowered.

本発明は、かかる事情に鑑みてなされたものであり、空中配線を少なくして断線を生じにくい高信頼性のコモンモードチョークコイルを提供することを目的とする。
また、本発明は、巻線の端末の移動を防止して、耐圧の劣化や絶縁不良を回避すると共に、電極部に端末を接続する際の圧着の信頼性を向上し得るコモンモードチョークコイルを提供することを目的とする。
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a highly-reliable common mode choke coil that is less likely to cause disconnection by reducing aerial wiring.
In addition, the present invention provides a common mode choke coil that prevents the terminal of the winding from moving, avoids deterioration of breakdown voltage and insulation failure, and improves the reliability of crimping when connecting the terminal to the electrode part. The purpose is to provide.

上記の目的を達成するために、本発明は、巻芯部(11)と、前記巻芯部(11)の両端側に形成された2つの鍔部(12,12)と、前記2つの鍔部のそれぞれに互いに前記巻芯部の軸方向に直交する方向に間隔を置いて2つずつ形成された計4つの脚状電極部(15a,15b,15c,15d)と、前記巻芯部に巻回され、端末が前記脚状電極部に接続された2本の巻線(31a,31b)を具備する巻線チップ型コモンモードチョークコイルにおいて、
一方の巻線(31a)の端末が接続される2つの前記脚状電極部(15a,15d)には、前記巻芯部(11)の軸方向に平行な立ち上がり面から上面にかけて凸状曲面部(16a,16d)が形成され、さらに前記凸状曲面部(16a,16d)の前記巻芯部(11)と反対の側に隣接して前記巻芯部(11)の軸方向に対して垂直な段部(17a,17d)が形成され、
他方の巻線(31b)の端末が接続される他の2つの前記脚状電極部(15b,15c)には、前記巻芯部(11)の軸方向に直交する立ち上がり面から上面にかけて凸状曲面部(16b,16c)が形成され、
一方の巻線(31a)の端末は、前記凸状曲面部(16a,16d)の湾曲方向と略平行に前記巻芯部(11)から導出され、前記段部(17a,17d)で位置決めされて2つの前記脚状電極部(15a,15d)に接続され、
他方の巻線(31b)の端末は、前記凸状曲面部(16b,16c)の湾曲方向と略平行に前記巻芯部(11)から導出されて他の2つの前記脚状電極部(15b,15c)に接続されていることを特徴としているものである。
In order to achieve the above object, the present invention provides a core portion (11) , two flange portions (12, 12) formed on both ends of the core portion (11), and the two flanges. A total of four leg-shaped electrode portions (15a, 15b, 15c, 15d) formed at intervals in a direction perpendicular to the axial direction of the core portion, and a portion of the core portion. In a wound chip type common mode choke coil comprising two windings (31a, 31b) wound and having a terminal connected to the leg electrode part,
The two leg-shaped electrode portions (15a, 15d) to which the ends of one winding (31a) are connected are convex curved surface portions extending from the rising surface parallel to the axial direction of the core portion (11) to the upper surface. (16a, 16d) is formed, and is adjacent to the opposite side of the core portion (11) of the convex curved surface portion (16a, 16d) and perpendicular to the axial direction of the core portion (11). Step portions (17a, 17d) are formed,
The other two leg-shaped electrode portions (15b, 15c) to which the terminal of the other winding (31b) is connected are convex from the rising surface to the upper surface perpendicular to the axial direction of the core portion (11). Curved surface portions (16b, 16c) are formed,
The terminal of one winding (31a) is led out from the core part (11) substantially parallel to the bending direction of the convex curved surface parts (16a, 16d), and is positioned by the step parts (17a, 17d). Connected to the two leg-shaped electrode portions (15a, 15d),
The other end of the winding (31b) is led out from the core portion (11) substantially parallel to the bending direction of the convex curved surface portions (16b, 16c), and the other two leg-shaped electrode portions (15b). , 15c) .

また、本発明の巻線チップ型コモンモードチョークコイルは、前記他方の巻線(31b)が接続される2つの前記脚状電極部(15b,15c)には、さらに前記凸状曲面部(16b,16c)に隣接して前記巻芯部(11)の軸方向に平行な段部(17b,17c)が形成され、前記他方の巻線(31b)の端末は、前記段部(17b,17c)で位置決めされて2つの前記脚状電極部(15b,15c)に接続されていることを特徴としているものである。 In the wound chip type common mode choke coil of the present invention, the two convex electrode portions (15b, 15c) to which the other winding (31b) is connected are further provided with the convex curved surface portion (16b). , parallel stepped portions in the axial direction of the winding core portion adjacent to 16c) (11) (17b, 17c) are formed, the terminal of the other winding (31b), said stepped portions (17b, 17c ) And is connected to the two leg-shaped electrode portions (15b, 15c).

本発明の巻線チップ型コモンモードチョークコイルによれば、脚状電極部が、巻線の端末(被膜が除去されて導体が露出している部分)が当接する電極形成領域に凸状曲面部を有することにより、空中配線を最小限にしつつ端末の曲折を緩やかにして端末に掛かるストレスを減少でき、断線不良や被膜剥離による絶縁不良を効果的に防止して信頼性の高いコモンモードチョークコイルを実現することができる。   According to the wound chip type common mode choke coil of the present invention, the leg-shaped electrode portion has a convex curved surface portion in the electrode forming region where the end of the winding (the portion where the coating is removed and the conductor is exposed) abuts. It is possible to reduce the stress applied to the terminal by minimizing the bending of the terminal while minimizing the aerial wiring, effectively preventing the disconnection failure and the insulation failure due to the film peeling, and the highly reliable common mode choke coil Can be realized.

また、脚状電極部が、凸状曲面部の下側に電極が形成されていない垂直面部を有するものにあっては、仮に巻線の端末が脚状電極部上で移動した場合にも、端末が接続すべき電極以外の電極と短絡したり、耐圧の劣化や絶縁不良を招いたりするのを効果的に防止でき、より一層信頼性の高いコモンモードチョークコイルを実現することができる。   In addition, in the case where the leg-shaped electrode portion has a vertical surface portion where no electrode is formed below the convex curved surface portion, even if the end of the winding moves on the leg-shaped electrode portion, It is possible to effectively prevent a terminal from being short-circuited with an electrode other than the electrode to be connected, or to cause a deterioration in breakdown voltage or an insulation failure, thereby realizing a common mode choke coil with higher reliability.

また、脚状電極部が、凸状曲面部に隣接して巻線の端末を位置決めするための段部を有するものにあっては、脚状電極部上での端末の移動を防止して端末を安定させることができる。このため、端末を電極部に精度良く熱圧着することができると共に、端末の移動によって引き起こされる耐圧の劣化や絶縁不良を確実に回避することができ、極めて信頼性の高いコモンモードチョークコイルを実現することができる。   Further, when the leg-shaped electrode portion has a step portion for positioning the end of the winding adjacent to the convex curved surface portion, the terminal is prevented from moving on the leg-shaped electrode portion. Can be stabilized. For this reason, the terminal can be thermocompression bonded to the electrode part with high accuracy, and it is possible to reliably avoid deterioration of breakdown voltage and insulation failure caused by the movement of the terminal, realizing an extremely reliable common mode choke coil. can do.

また、巻芯部が、断面形状が五角以上の多角形もしくは楕円もしくは円の巻線部と、該巻線部の両側に位置し断面形状が四角形で前記巻線部よりも大断面の非巻線部を有するものにあっては、巻線に掛かるテンションの均一化と巻線へ掛かるストレスの低減を図ることができると共に、脚状電極部に凸状曲面部を設けたことと相俟って空中配線をより一層短くすることができる。このため、外部応力等による断線不良をより一層効果的に防止することができ、且つ、巻線位置を一定にして特性のバラツキを抑えることができ、極めて高品質・高信頼性のコモンモードチョークコイルを実現することができる。   In addition, the winding core part is a polygonal or elliptical or circular winding part with a cross-sectional shape of five or more corners, and the winding part is located on both sides of the winding part and has a quadrangular cross-sectional shape with a larger cross section than the winding part. In the case of a wire having a wire portion, the tension applied to the winding can be made uniform and the stress applied to the winding can be reduced, and this is combined with the provision of the convex curved portion on the leg electrode portion. Thus, the aerial wiring can be further shortened. For this reason, disconnection failure due to external stress etc. can be more effectively prevented, and the winding position can be kept constant to suppress variations in characteristics, resulting in extremely high quality and high reliability common mode choke. A coil can be realized.

本発明の巻線チップ型コモンモードチョークコイルは、電源ライン又は信号ラインから伝わる高周波の同相成分のノイズを除去するために用いられ、巻芯部と、該巻芯部の両端側に配設され、複数の脚状電極部が互いに所定の間隔を置いて形成された鍔部と、前記巻芯部に巻回され、端末が前記脚状電極部に接続された複数の巻線を具備するものである。   The wound chip type common mode choke coil of the present invention is used for removing high-frequency in-phase component noise transmitted from a power supply line or a signal line, and is disposed on both ends of the core and the core. A plurality of leg-like electrode portions each having a flange portion formed at a predetermined interval; and a plurality of windings wound around the core portion and having terminals connected to the leg-like electrode portions. It is.

そして、特に本発明の巻線チップ型コモンモードチョークコイルでは、巻線の端末が接続される脚状電極部の電極形成領域の少なくとも一部に凸状曲面部を設けることにより、空中配線を最小限にしつつ端末の曲折を緩やかにして端末に掛かるストレスの低減を図り、断線不良や被膜剥離による絶縁不良を防止したものである。   In particular, in the wound chip type common mode choke coil of the present invention, the aerial wiring is minimized by providing a convex curved surface portion in at least a part of the electrode forming region of the leg electrode portion to which the end of the winding is connected. In this way, the bending of the terminal is moderated to reduce the stress applied to the terminal, thereby preventing disconnection failure and insulation failure due to film peeling.

以下、本発明の実施形態例を図面に基づいて説明する。   Embodiments of the present invention will be described below with reference to the drawings.

(第1の実施形態例)
図1は本例の巻線チップ型コモンモードチョークコイルを構成するコアの構造を示す斜視図、図2は図1のコアに電極膜を付与した状態を示す斜視図、図3は本例の巻線チップ型コモンモードチョークコイルの平面図、図4は図3の要部を示す斜視図、図5は図3中のA−A断面図である。なお、図4及び図5では、電極膜を省略している。
(First embodiment)
1 is a perspective view showing the structure of a core constituting the wound chip type common mode choke coil of this example, FIG. 2 is a perspective view showing a state where an electrode film is applied to the core of FIG. 1, and FIG. 4 is a plan view of the wound chip type common mode choke coil, FIG. 4 is a perspective view showing the main part of FIG. 3, and FIG. 5 is a cross-sectional view taken along line AA in FIG. In FIGS. 4 and 5, the electrode film is omitted.

図1に示すように、本例のチップ型コモンモードチョークコイルを構成するコア10は、フェライトから形成されており、巻芯部11の両端側に鍔部12を備えている。そして、この鍔部12に溝13を設けて形成した4つの脚部にそれぞれ浸漬法などにより電極膜14を付与し、4つの脚状電極部15a〜15dを形成している(図2参照)。   As shown in FIG. 1, the core 10 constituting the chip-type common mode choke coil of this example is made of ferrite, and has flanges 12 on both ends of the core 11. And the electrode film 14 is provided to each of the four leg portions formed by providing the groove 13 in the flange portion 12 by a dipping method or the like to form the four leg-shaped electrode portions 15a to 15d (see FIG. 2). .

脚状電極部15aと脚状電極部15dには、巻芯部11の軸方向に平行な立ち上がり面(巻芯部11に隣接する側の立ち上がり面)から上面にかけて凸状曲面部16aと凸状曲面部16dがそれぞれ形成されている。また、脚状電極部15bと脚状電極部15cには、巻芯部11の軸方向に直交する立ち上がり面(巻芯部11に隣接する側の立ち上がり面)から上面にかけて凸状曲面部16bと凸状曲面部16cがそれぞれ形成されている。   The leg-shaped electrode portion 15a and the leg-shaped electrode portion 15d are provided with a convex curved surface portion 16a and a convex shape from the rising surface parallel to the axial direction of the core portion 11 (the rising surface on the side adjacent to the core portion 11) to the upper surface. A curved surface portion 16d is formed. In addition, the leg-shaped electrode portion 15b and the leg-shaped electrode portion 15c include a convex curved surface portion 16b extending from a rising surface orthogonal to the axial direction of the core portion 11 (a rising surface on the side adjacent to the core portion 11) to the upper surface. Convex curved surface portions 16c are respectively formed.

また、脚状電極部15aと脚状電極部15dには、凸状曲面部16aと凸状曲面部16dに隣接して、巻芯部11の軸方向に対して垂直な段部17aと段部17dがそれぞれ形成されている。   Further, the leg-shaped electrode portion 15a and the leg-shaped electrode portion 15d are adjacent to the convex curved surface portion 16a and the convex curved surface portion 16d, and are stepped by a step 17a and a stepped portion perpendicular to the axial direction of the core portion 11. 17d is formed.

さらに、4つの脚状電極部15a〜15dには、前記凸状曲面部の下側に電極膜14が形成されていない垂直面部18がそれぞれ形成されている(図2参照)。   Further, each of the four leg-shaped electrode portions 15a to 15d is formed with a vertical surface portion 18 where the electrode film 14 is not formed below the convex curved surface portion (see FIG. 2).

一方、巻芯部11は、断面八角形の巻線部11aと、この巻線部11aの両側に位置する断面四角形の非巻線部11bとで構成されている。なお、巻線部11aは、非巻線部11bの角を面取りした形態を有しており、巻線部11aと非巻線部11bの境界部分には段差状の境界部11cを有している。   On the other hand, the winding core part 11 is composed of a winding part 11a having an octagonal cross section and a non-winding part 11b having a rectangular cross section located on both sides of the winding part 11a. In addition, the winding part 11a has the form which chamfered the corner | angular part of the non-winding part 11b, and has the step-shaped boundary part 11c in the boundary part of the winding part 11a and the non-winding part 11b. Yes.

そして、図3に示すようにコア10の巻線部11aに、2本の巻線31a,31bを巻回し、一方の巻線31aの2つの端末は脚状電極部15a,15dに、他方の巻線31bの2つの端末は脚状電極部15b,15cにそれぞれ熱圧着などの方法により電気的に接続される。これにより、4端子、2回路型の巻線チップ型コモンモードチョークコイルが形成される。   Then, as shown in FIG. 3, two windings 31a and 31b are wound around the winding portion 11a of the core 10, and two ends of one winding 31a are connected to the leg-shaped electrode portions 15a and 15d and the other end. The two ends of the winding 31b are electrically connected to the leg-shaped electrode portions 15b and 15c by a method such as thermocompression bonding. As a result, a four-terminal, two-circuit type wound chip type common mode choke coil is formed.

本例においては、脚状電極部15a〜15dが、巻線の端末が当接する電極形成領域に凸状曲面部16a〜16dを有するため、図4及び図5に示されるように端末の曲折を緩やかにして端末に掛かるストレスを減少させることができる。特に本例では、脚状電極部15a,15dについては巻芯部11の軸方向に平行な立ち上がり面から上面にかけて湾曲する凸状曲面部16a,16dを設け、脚状電極部15b,15cについては巻芯部11の軸方向に直交する立ち上がり面から上面にかけて湾曲する凸状曲面部16b,16cを設けているため、凸状曲面部の湾曲方向とこれに接続される各巻線の端末の引き出し方向が概ね平行になり、極めて効果的に端末に掛かるストレスを減少させることができる。   In this example, the leg-shaped electrode portions 15a to 15d have the convex curved surface portions 16a to 16d in the electrode forming region where the ends of the windings abut, so that the terminals are bent as shown in FIGS. It is possible to reduce the stress applied to the terminal gently. In particular, in this example, the leg-shaped electrode portions 15a and 15d are provided with convex curved surface portions 16a and 16d that are curved from the rising surface parallel to the axial direction of the core portion 11 to the upper surface, and the leg-shaped electrode portions 15b and 15c are provided. Since the convex curved surface portions 16b and 16c that curve from the rising surface perpendicular to the axial direction of the core portion 11 to the upper surface are provided, the curved direction of the convex curved surface portion and the pulling-out direction of the terminal of each winding connected thereto Are substantially parallel to each other, and the stress applied to the terminal can be reduced extremely effectively.

また、前述のような凸状曲面部15a〜15dを設けると共に、巻線部11aの断面形状を八角形にして円(もしくは楕円)に近づけたこととにより、空中配線を格段に短くすることができ、断線不良や被膜剥離による絶縁不良を極めて効果的に防止することができる。   Further, the above-described convex curved surface portions 15a to 15d are provided, and the cross-sectional shape of the winding portion 11a is made an octagon so as to be close to a circle (or an ellipse), so that the aerial wiring can be remarkably shortened. It is possible to prevent the disconnection failure and the insulation failure due to the peeling of the film very effectively.

さらに、本例においては、巻回し後の配線部分が長い巻線31aの端末が接続される脚状電極部15a,15dには、凸状曲面部16a,16dに隣接して段部17a,17dを設けているため、図4に示すように、段部17a(17d)に係止させるようにして巻線31aの端末を位置決めし、脚状電極部上での端末の移動を防止して端末を安定させることができる。このため、端末を脚状電極部に精度良く熱圧着することができると共に、端末の移動によって引き起こされる耐圧の劣化や絶縁不良を確実に回避することができる。   Further, in this example, the stepped portions 17a and 17d are adjacent to the convex curved surface portions 16a and 16d on the leg-shaped electrode portions 15a and 15d to which the ends of the winding 31a having a long wiring portion are connected. As shown in FIG. 4, the terminal of the winding 31a is positioned so as to be locked to the stepped portion 17a (17d), and the terminal is prevented from moving on the leg-shaped electrode portion. Can be stabilized. For this reason, the terminal can be thermocompression bonded to the leg-shaped electrode portion with high accuracy, and the deterioration of the breakdown voltage and the insulation failure caused by the movement of the terminal can be surely avoided.

また、巻芯部11が、巻線部11aの両側に巻線部11aよりも大断面の非巻線部11bを有し、巻線部11aと非巻線部11bとの間に段差状の境界部11cを形成しているため、この巻線部11aに巻回しすることにより、自動的に巻線位置を一定にすることができると共に、巻線部11aの断面形状を八角形にして芯内部からの角度を鈍角にして円(もしくは楕円)に近づけることにより、巻線に掛かるテンションの均一化と巻線へ掛かるストレスの低減を図ることができ、特性のバラツキを抑えることができる。   Moreover, the winding core part 11 has a non-winding part 11b having a larger cross section than the winding part 11a on both sides of the winding part 11a, and a stepped shape is formed between the winding part 11a and the non-winding part 11b. Since the boundary portion 11c is formed, the winding position can be automatically made constant by winding around the winding portion 11a, and the cross-sectional shape of the winding portion 11a is made an octagon. By making the angle from the inside obtuse and approaching a circle (or ellipse), the tension applied to the winding can be made uniform and the stress applied to the winding can be reduced, and variations in characteristics can be suppressed.

また、脚状電極部15a〜15dが、凸状曲面部16a〜16dの下側に電極が形成されていない垂直面部18a〜18dを有するため、仮に巻線の端末が脚状電極部上で移動した場合にも、特に巻回し後の配線部分が長い巻線31aの端末が接続すべき電極以外の電極と短絡したり、耐圧の劣化や絶縁不良を招いたりするのを効果的に防止することができる。   Further, since the leg-shaped electrode portions 15a to 15d have vertical surface portions 18a to 18d on which no electrodes are formed below the convex curved surface portions 16a to 16d, the end of the winding temporarily moves on the leg-shaped electrode portion. Even in this case, in particular, it is possible to effectively prevent the end of the winding 31a having a long wiring portion from being short-circuited with an electrode other than the electrode to be connected, or causing a deterioration in breakdown voltage or an insulation failure. Can do.

なお、本例のチップ型コモンモードチョークコイルは天板を備えていない構成のものであるが、図6に示すように、天板61を備えた構成とすることもできる。   In addition, although the chip type common mode choke coil of this example is a thing of the structure which is not provided with the top plate, it can also be set as the structure provided with the top plate 61 as shown in FIG.

(第2の実施形態例)
図7は本例の巻線チップ型コモンモードチョークコイルを構成するコアの構造を示す斜視図、図8は本例の巻線チップ型コモンモードチョークコイルの平面図である。なお、図7及び図8において、図1及び図3と同一符号を付した部分は同一部分又は相当する部分を示している。また、図7及び図8では、脚状電極部の電極膜を省略している。
(Second Embodiment)
FIG. 7 is a perspective view showing the structure of the core constituting the wound chip type common mode choke coil of this example, and FIG. 8 is a plan view of the wound chip type common mode choke coil of this example. In FIGS. 7 and 8, the same reference numerals as those in FIGS. 1 and 3 denote the same or corresponding parts. Moreover, in FIG.7 and FIG.8, the electrode film of the leg-shaped electrode part is abbreviate | omitted.

本例の巻線チップ型コモンモードチョークコイルの基本的な構成は第1の実施形態例のものと同様であり、以下に異なる点を説明する。   The basic configuration of the wound chip type common mode choke coil of this example is the same as that of the first embodiment, and different points will be described below.

第1の実施形態例では巻回し後の配線部分が長い巻線31aの端末が接続される脚状電極部15a,15dにのみ段部17a,17dを形成したが、本例では脚状電極部15b,15cにも、凸状曲面部16bと凸状曲面部16cに隣接して、巻芯部11の軸方向に平行な段部17bと段部17cがそれぞれ形成されている。   In the first embodiment, the stepped portions 17a and 17d are formed only in the leg-shaped electrode portions 15a and 15d to which the ends of the winding 31a having a long wiring portion are connected, but in this example, the leg-shaped electrode portions are formed. Also on 15b and 15c, a stepped portion 17b and a stepped portion 17c parallel to the axial direction of the core portion 11 are formed adjacent to the convex curved portion 16b and the convex curved portion 16c, respectively.

巻線31bは巻回し後の配線部分が短いため、比較的簡単に脚状電極部上で端末を位置決めすることができるが、本例のように脚状電極部15b,15cにも段部17b,17cを形成することにより、全ての端末を極めて確実かつ簡単に位置決めすることができ、端末を電極部に容易に精度良く熱圧着することができる。   Since the winding 31b has a short wiring portion after being wound, the terminal can be positioned on the leg-shaped electrode portion relatively easily. However, as in this example, the stepped portion 17b is also provided on the leg-shaped electrode portions 15b and 15c. , 17c, all the terminals can be positioned extremely reliably and easily, and the terminals can be easily and accurately thermocompression bonded to the electrode portion.

以上説明したように、本発明の巻線チップ型コモンモードチョークコイルは、空中配線を最小限にしつつ端末の曲折を緩やかにして端末に掛かるストレスを減少でき、断線不良や被膜剥離による絶縁不良の無い高信頼性のコモンモードチョークコイルを安定して量産することができるものである。   As described above, the wound chip type common mode choke coil of the present invention can reduce the stress applied to the terminal by minimizing the bending of the terminal while minimizing the aerial wiring, and can prevent the insulation failure due to disconnection failure or film peeling. High reliability common mode choke coil without mass can be stably mass-produced.

なお、本発明は前述した実施形態例に限定されるものではなく、例えば巻芯部、鍔部、脚状電極部、凸状曲面部、段部などの形態、巻線の巻回態様などに関し、本発明の要旨を逸脱しない範囲で種々変更可能であることはいうまでもない。   Note that the present invention is not limited to the above-described embodiment example, and relates to, for example, forms such as a winding core portion, a collar portion, a leg-shaped electrode portion, a convex curved surface portion, a stepped portion, and a winding manner of a winding. Needless to say, various modifications can be made without departing from the scope of the present invention.

本発明の第1の実施形態例に係る巻線チップ型コモンモードチョークコイルを構成するコアの構造を示す斜視図である。It is a perspective view which shows the structure of the core which comprises the coil | winding chip | tip type | mold common mode choke coil which concerns on the 1st Example of this invention. 図1のコアに電極膜を付与した状態を示す斜視図である。It is a perspective view which shows the state which provided the electrode film to the core of FIG. 本発明の第1の実施形態例に係る巻線チップ型コモンモードチョークコイルを示す平面図である。1 is a plan view showing a wound chip type common mode choke coil according to a first embodiment of the present invention. 本発明の第1の実施形態例に係る巻線チップ型コモンモードチョークコイルの要部を示す斜視図である。It is a perspective view which shows the principal part of the coil | winding chip | tip type | mold common mode choke coil which concerns on the 1st Example of this invention. 図3中のA−A断面図である。It is AA sectional drawing in FIG. 本発明の第1の実施形態例に係る巻線チップ型コモンモードチョークコイルに天板を設けた斜視図である。It is the perspective view which provided the top plate in the winding chip | tip common mode choke coil which concerns on the 1st Example of this invention. 本発明の第2の実施形態例に係る巻線チップ型コモンモードチョークコイルを構成するコアの構造を示す斜視図である。It is a perspective view which shows the structure of the core which comprises the coil | winding chip | tip type | mold common mode choke coil which concerns on the 2nd Example of this invention. 図7のコアに巻線を巻回した状態を示す平面図である。It is a top view which shows the state which wound the coil | winding around the core of FIG. 従来の一般的なチップ型コモンモードチョークコイルの説明図であり、(a)はドラムコアの斜視図、(b)及び(c)は巻線と電極部との接続状態を示す部分平面図及び部分側面図である。It is explanatory drawing of the conventional common chip type common mode choke coil, (a) is a perspective view of a drum core, (b) and (c) are the partial top views and parts which show the connection state of a coil | winding and an electrode part. It is a side view. 従来例のチップ型コモンモードチョークコイルの説明図であり、(a)はドラムコアの斜視図、(b)は巻線と電極部との接続状態を示す部分平面図である。It is explanatory drawing of the chip type common mode choke coil of a prior art example, (a) is a perspective view of a drum core, (b) is a partial top view which shows the connection state of a coil | winding and an electrode part. 従来例のチップ型コモンモードチョークコイルにおける空中配線を説明する図10(b)中のB−B断面図である。It is BB sectional drawing in FIG.10 (b) explaining the aerial wiring in the chip type common mode choke coil of a prior art example.

符号の説明Explanation of symbols

10 コア
11 巻芯部
11a 巻線部
11b 非巻線部
11c 境界部
12 鍔部
13 溝
14 電極膜
15a〜15d 脚状電極部
16a〜16d 凸状曲面部
17a,17d 段部
18 垂直面部
31a,31b 巻線
61 天板
91 巻芯部
92a,92b 巻線
93a〜93d 脚状電極部
101 傾斜平面
102 空中配線部分
DESCRIPTION OF SYMBOLS 10 Core 11 Winding part 11a Winding part 11b Non-winding part 11c Boundary part 12 Gutter part 13 Groove 14 Electrode films 15a-15d Leg-like electrode parts 16a-16d Convex curved-surface part 17a, 17d Step part 18 Vertical surface part 31a, 31b Winding 61 Top plate 91 Core part 92a, 92b Winding 93a-93d Leg electrode part 101 Inclined plane 102 Aerial wiring part

Claims (2)

巻芯部(11)と、前記巻芯部(11)の両端側に形成された2つの鍔部(12,12)と、前記2つの鍔部のそれぞれに互いに前記巻芯部の軸方向に直交する方向に間隔を置いて2つずつ形成された計4つの脚状電極部(15a,15b,15c,15d)と、前記巻芯部に巻回され、端末が前記脚状電極部に接続された2本の巻線(31a,31b)を具備する巻線チップ型コモンモードチョークコイルにおいて、
一方の巻線(31a)の端末が接続される2つの前記脚状電極部(15a,15d)には、前記巻芯部(11)の軸方向に平行な立ち上がり面から上面にかけて凸状曲面部(16a,16d)が形成され、さらに前記凸状曲面部(16a,16d)の前記巻芯部(11)と反対の側に隣接して前記巻芯部(11)の軸方向に対して垂直な段部(17a,17d)が形成され、
他方の巻線(31b)の端末が接続される他の2つの前記脚状電極部(15b,15c)には、前記巻芯部(11)の軸方向に直交する立ち上がり面から上面にかけて凸状曲面部(16b,16c)が形成され、
一方の巻線(31a)の端末は、前記凸状曲面部(16a,16d)の湾曲方向と略平行に前記巻芯部(11)から導出され、前記段部(17a,17d)で位置決めされて2つの前記脚状電極部(15a,15d)に接続され、
他方の巻線(31b)の端末は、前記凸状曲面部(16b,16c)の湾曲方向と略平行に前記巻芯部(11)から導出されて他の2つの前記脚状電極部(15b,15c)に接続されている、ことを特徴とする巻線チップ型コモンモードチョークコイル。
The core portion (11), the two flange portions (12, 12) formed on both ends of the core portion (11), and the two flange portions, respectively, in the axial direction of the core portion. A total of four leg-shaped electrode portions (15a, 15b, 15c, 15d) formed at intervals in the orthogonal direction, and wound around the core portion, and the terminal is connected to the leg-shaped electrode portion In a wound chip type common mode choke coil having two wound windings (31a, 31b),
The two leg-shaped electrode portions (15a, 15d) to which the ends of one winding (31a) are connected are convex curved surface portions extending from the rising surface parallel to the axial direction of the core portion (11) to the upper surface. (16a, 16d) is formed, and is adjacent to the opposite side of the core portion (11) of the convex curved surface portion (16a, 16d) and perpendicular to the axial direction of the core portion (11). Step portions (17a, 17d) are formed,
The other two leg-shaped electrode portions (15b, 15c) to which the terminal of the other winding (31b) is connected are convex from the rising surface to the upper surface perpendicular to the axial direction of the core portion (11). Curved surface portions (16b, 16c) are formed,
The terminal of one winding (31a) is led out from the core part (11) substantially parallel to the bending direction of the convex curved surface parts (16a, 16d), and is positioned by the step parts (17a, 17d). Connected to the two leg-shaped electrode portions (15a, 15d),
The other end of the winding (31b) is led out from the core portion (11) substantially parallel to the bending direction of the convex curved surface portions (16b, 16c), and the other two leg-shaped electrode portions (15b). 15c), a wire wound chip type common mode choke coil.
前記他方の巻線(31b)が接続される2つの前記脚状電極部(15b,15c)には、さらに前記凸状曲面部(16b,16c)に隣接して前記巻芯部(11)の軸方向に平行な段部(17b,17c)が形成され、
前記他方の巻線(31b)の端末は、前記段部(17b,17c)で位置決めされて2つの前記脚状電極部(15b,15c)に接続されていることを特徴とする請求項1に記載の巻線チップ型コモンモードチョークコイル。
Two leg-shaped electrode portions (15b, 15c) to which the other winding (31b) is connected are further adjacent to the convex curved surface portions (16b, 16c ) of the core portion (11). Steps (17b, 17c) parallel to the axial direction are formed,
The terminal of said other coil | winding (31b) is positioned by the said step part (17b, 17c), and is connected to the two said leg-shaped electrode parts (15b, 15c), It is characterized by the above-mentioned. Wound chip type common mode choke coil as described.
JP2005290235A 2005-10-03 2005-10-03 Wire wound chip type common mode choke coil Expired - Fee Related JP4311575B2 (en)

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