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JP6567152B2 - Coil parts and electronic equipment - Google Patents
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JP6567152B2 - Coil parts and electronic equipment - Google Patents

Coil parts and electronic equipment Download PDF

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JP6567152B2
JP6567152B2 JP2018166157A JP2018166157A JP6567152B2 JP 6567152 B2 JP6567152 B2 JP 6567152B2 JP 2018166157 A JP2018166157 A JP 2018166157A JP 2018166157 A JP2018166157 A JP 2018166157A JP 6567152 B2 JP6567152 B2 JP 6567152B2
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coil
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lead
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JP2019004174A (en
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伊藤 賢
賢 伊藤
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Taiyo Yuden Co Ltd
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Description

本発明は、コイル部品及び電子機器に関し、更に具体的には、平角線により形成されるコイルの引出構造に関するものである。   The present invention relates to a coil component and an electronic device, and more specifically to a coil drawing structure formed by a rectangular wire.

携帯機器をはじめとする電子機器の高性能化に伴い、電子機器に使用される部品も高い性能が要求されている。しかしながら、電子機器の高性能化に伴い、部品点数も増加するため、部品自体の小型化の動きが高まっている。これは、巻線を用いた高い電流特性のコイル部品でも同様であり、これまで以上に小型化する対策が検討されている。   As the performance of electronic devices such as portable devices increases, parts used in the electronic devices are also required to have high performance. However, as the performance of electronic devices increases, the number of components also increases, and the movement of miniaturization of components is increasing. The same applies to coil parts with high current characteristics using windings, and measures to further reduce the size are being studied.

高い電流特性を得るために、これまでも平角線と呼ばれる角型の導線を用いたコイル部品は多くあった。しかし、周回部の形成は比較的容易であるが、引出部から端子電極への接続までの導線の引き回しは、導線に方向性があるため曲げ加工などが難しく、大きなスペースを要していた。または、下記特許文献1に示すように、平板形状の周縁部に柱状凸部を有する形状に形成されたタブレットに、断面が平角形状の導線を巻回したコイルを載置し、該コイルの両端部を前記タブレットの柱状凸部の外側側面に沿わせ、その一部を封止材から露出させて外部電極と接続する構造もある。   In order to obtain high current characteristics, there have been many coil parts that use a rectangular conductive wire called a flat wire. However, although it is relatively easy to form the loop portion, the lead wire from the lead portion to the connection to the terminal electrode is difficult to bend due to the direction of the lead wire, and requires a large space. Alternatively, as shown in Patent Document 1 below, a coil formed by winding a conducting wire having a flat cross section is placed on a tablet formed in a shape having a columnar convex portion on a flat peripheral edge, and both ends of the coil are placed. There is also a structure in which the portion is along the outer side surface of the columnar convex portion of the tablet and a part thereof is exposed from the sealing material and connected to the external electrode.

特開2010−245473号公報JP 2010-245473 A

上述した特許文献1に記載の技術では、同文献の第3図に示すように、引出部をブロック(柱状凸部)に固定することで、引出位置を安定させることはできる。しかしながら、前記ブロックを設けるための大きなスペースが必要となり、小型化を進める上での制約になっていた。このため、磁性体中に埋め込むタイプのコイル部品で小型化を進めるためには、引出部を省スペースで精度良く形成することが課題となっている。   In the technique described in Patent Document 1 described above, the drawer position can be stabilized by fixing the drawer portion to a block (columnar convex portion) as shown in FIG. However, a large space for providing the block is required, which is a limitation in promoting downsizing. For this reason, in order to advance downsizing with a coil component of the type embedded in the magnetic body, it is a problem to form the extraction portion with high accuracy in a small space.

本発明は、以上のような点に着目したもので、平角線を用いた空芯コイルにおいて、引出部のスペースを削減し、小型化を図ることができるコイル部品を提供することを、その目的とする。他の目的は、前記コイル部品を用いた電子機器を提供することである。   The present invention focuses on the above points, and an object of the present invention is to provide a coil component that can reduce the space of the lead-out portion and can be miniaturized in an air-core coil using a flat wire. And Another object is to provide an electronic device using the coil component.

本発明のコイル部品は、樹脂と金属磁性材料により形成される磁性体の中にコイルが埋め込まれ、前記磁性体の表面に形成される端子電極を有するコイル部品であって、前記コイルは、導線の断面が長辺と短辺を有する平角線を用い、該平角線をコイル状に周回させた周回部と、前記周回部の終端から前記端子電極まで引き出すための引出部を有しており、前記引出部は、前記周回部の終端の平角線の断面の一方の短辺側へ向けて曲げられていることを特徴とする。主要な形態の一つは、前記引出部が、前記周回部の終端の平角線に対して、90°以下の角度で曲げられていることを特徴とする。   The coil component of the present invention is a coil component in which a coil is embedded in a magnetic body formed of a resin and a metal magnetic material, and has a terminal electrode formed on the surface of the magnetic body. Using a rectangular wire having a long side and a short side in cross section, and having a winding part that circulates the rectangular wire in a coil shape, and a lead-out part for pulling out from the terminal of the winding part to the terminal electrode, The lead-out portion is bent toward one short side of the cross section of the rectangular wire at the end of the winding portion. One of the main forms is characterized in that the lead-out portion is bent at an angle of 90 ° or less with respect to a rectangular wire at the end of the circulating portion.

他の形態は、コイル軸が、前記コイルの周回部により形成され、該コイル軸の軸方向に対して垂直な断面が、長軸と短軸とを有する形状であることを特徴とする。更に他の形態としては、前記コイル軸の軸方向に対して垂直な断面において、前記引出部は、前記周回部の終端を起点として前記引出部の端部に向かう方向が、前記コイル軸から遠ざかる方向であることを特徴とする。あるいは、前記コイル軸の軸方向に対して垂直な断面において、前記引出部の、前記周回部の終端を起点として前記引出部の端部に向かう方向は、前記周回部の外周面に対して、0〜45°の角度を有することを特徴とする。   Another aspect is characterized in that the coil shaft is formed by the coiled portion of the coil, and the cross section perpendicular to the axial direction of the coil shaft has a major axis and a minor axis. As yet another form, in the cross section perpendicular to the axial direction of the coil axis, the direction of the lead-out part from the end of the circulating part toward the end part of the lead-out part moves away from the coil axis. It is a direction. Alternatively, in a cross section perpendicular to the axial direction of the coil axis, the direction of the lead-out portion toward the end of the lead-out portion starting from the end of the turn-around portion is relative to the outer peripheral surface of the turn-around portion. It has an angle of 0 to 45 °.

更に他の形態は、前記コイル軸の軸方向に対して垂直な断面において、前記引出部のそれぞれの周回部の終端が、前記短軸方向の一方側に配置されることを特徴とする。あるいは、前記コイル軸の軸方向に対して垂直な断面において、前記引出部のそれぞれの周回部の終端が、前記長軸方向に前記コイル軸を挟んで配置されることを特徴とする。更に他の形態としては、コイル軸は、前記コイルの周回部により形成され、該コイル軸の軸方向に対して垂直な断面が、オーバル型であることを特徴とする。   Still another embodiment is characterized in that, in a cross section perpendicular to the axial direction of the coil shaft, the terminal end of each of the lead portions is arranged on one side in the short axis direction. Alternatively, in a cross section perpendicular to the axial direction of the coil shaft, the terminal ends of the respective winding portions of the lead-out portion are arranged with the coil shaft interposed therebetween in the major axis direction. In still another embodiment, the coil shaft is formed by a coiled portion of the coil, and a cross section perpendicular to the axial direction of the coil shaft is an oval type.

本発明の電子機器は、前記いずれかに記載のコイル部品を備えたことを特徴とする。本発明の前記及び他の目的,特徴,利点は、以下の詳細な説明及び添付図面から明瞭になろう。   An electronic apparatus according to the present invention includes any one of the coil components described above. The above and other objects, features and advantages of the present invention will become apparent from the following detailed description and the accompanying drawings.

本発明によれば、磁性体中に埋め込まれるコイルが平角線により形成されており、前記コイルの周回部は、前記平角線の断面の一方の長辺側の面が巻軸に対して平行に周回され、コイルの引出部は、前記周回部の終端の平角線の断面の一方の短辺側へ向けて曲げられ、磁性体表面の端子電極に接続される。このため、引出部のスペースを削減でき、無駄なスペースがない小型のコイル部品を得ることができる。特に、前記平角線の断面の一方の短辺方向に向けて引出部を曲げ加工することで、引出部の強度が得られ、引出部の位置が安定することで周回部の巻き緩みが抑制され、特性(インダクタンス)のバラツキを小さくでき、端子電極との接続安定性も得られる。これにより、チップ部品のような小型の部品でも、高い性能の部品を安定して作ることができる。   According to the present invention, the coil embedded in the magnetic body is formed by a flat wire, and the surface of one of the long sides of the cross section of the flat wire is parallel to the winding axis. The coiled portion is bent and bent toward one short side of the cross section of the rectangular wire at the end of the circular portion, and connected to the terminal electrode on the surface of the magnetic body. For this reason, the space | interval of a drawer part can be reduced and the small coil components without a useless space can be obtained. In particular, by bending the drawing portion toward one short side of the cross section of the rectangular wire, the strength of the drawing portion can be obtained, and the winding portion can be prevented from loosening by stabilizing the position of the drawing portion. The variation in characteristics (inductance) can be reduced, and the connection stability with the terminal electrode can be obtained. Thereby, even a small component such as a chip component can stably produce a high-performance component.

本発明の実施例1のコイル部品を示す図であり、(A)は平面図,(B)は前記(A)の一部拡大図,(C)は前記(A)を矢印F1方向から見た側面図,(D)はコイルを形成する平角線の断面形状を示す図である。BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the coil components of Example 1 of this invention, (A) is a top view, (B) is the elements on larger scale of said (A), (C) looks at said (A) from arrow F1 direction. (D) is a diagram showing a cross-sectional shape of a rectangular wire forming a coil. 前記実施例1のコイルの周回手順を示す図である。It is a figure which shows the circulation procedure of the coil of the said Example 1. FIG. 前記実施例1のコイルの具体例を示す図であり、(A)は平面図,(B)は前記(A)を矢印F3a方向から見た側面図,(C)は前記(A)を矢印F3b方向から見た側面図である。It is a figure which shows the specific example of the coil of the said Example 1, (A) is a top view, (B) is the side view which looked at the said (A) from the arrow F3a direction, (C) is the arrow to the said (A). It is the side view seen from F3b direction. 前記実施例1のコイルの他の具体例を示す図であり、(A)は平面図,(B)は前記(A)を矢印F4a方向から見た側面図,(C)は前記(A)を矢印F4b方向から見た側面図である。It is a figure which shows the other specific example of the coil of the said Example 1, (A) is a top view, (B) is a side view which looked at the said (A) from the arrow F4a direction, (C) is said (A) It is the side view which looked at from arrow F4b direction.

以下、本発明を実施するための最良の形態を、実施例に基づいて詳細に説明する。   Hereinafter, the best mode for carrying out the present invention will be described in detail based on examples.

最初に、図1及び図2を参照しながら、本発明の実施例1の基本構造を説明する。図1は、本実施例のコイル部品を示す図であり、(A)は平面図,(B)は前記(A)の一部拡大図,(C)は前記(A)を矢印F1方向から見た側面図,(D)はコイルを形成する平角線の断面形状を示す図である。図2は、本実施例のコイルの周回手順を示す図である。以下、前記コイル部品のコイル部分が空芯コイルとして準備され、これを埋め込みに用いることによって前記コイル部品が構成される場合を例として説明する。図1(A)に示すように、本実施例のコイル部品10は、略直方体状の磁性体12中に、コイル20が埋め込まれた構成となっている。前記磁性体12は、樹脂と金属磁性材料により形成されている。前記磁性体12の底面には、両端側に端子電極14,16が設けられており、前記コイル20の両端の引出部24A,24Bが、前記端子電極14,16に接続されている。   First, the basic structure of Embodiment 1 of the present invention will be described with reference to FIGS. FIG. 1 is a diagram showing a coil component of the present embodiment, where (A) is a plan view, (B) is a partially enlarged view of (A), and (C) is the above (A) from the direction of arrow F1. A side view, (D) is a diagram showing a cross-sectional shape of a rectangular wire forming a coil. FIG. 2 is a diagram showing a coil winding procedure of the present embodiment. Hereinafter, the case where the coil part of the said coil component is prepared as an air core coil, and the said coil component is comprised by using this for embedding is demonstrated as an example. As shown in FIG. 1 (A), the coil component 10 of this embodiment has a configuration in which a coil 20 is embedded in a substantially rectangular magnetic body 12. The magnetic body 12 is made of a resin and a metal magnetic material. Terminal electrodes 14 and 16 are provided on both sides of the bottom surface of the magnetic body 12, and lead portions 24 A and 24 B at both ends of the coil 20 are connected to the terminal electrodes 14 and 16.

本実施例では、前記コイル20の巻線用の導線として、図1(D)に示すように、平角線と呼ばれる導線の断面が長辺30C、30Dと短辺30A,30Bを有する4角形で、導線の表面に絶縁のための被膜付きのものを用いた。前記コイル20は、平角線30を重ねて巻線される周回部22と、該周回部22と前記端子電極14,16をつなぐ引出部24A,24Bにより形成されている。前記周回部22の形成は、α巻といわれる方法で行った。   In the present embodiment, as shown in FIG. 1 (D), the conductor wire for winding of the coil 20 is a rectangular shape having a cross section of a conductor wire called a rectangular wire having long sides 30C, 30D and short sides 30A, 30B. The surface of the conducting wire with a coating for insulation was used. The coil 20 is formed by a winding portion 22 wound with a flat wire 30 and lead portions 24A and 24B connecting the winding portion 22 and the terminal electrodes 14 and 16. The circumference portion 22 was formed by a method called α winding.

具体的には、前記コイル部品10に埋め込まれるコイル20を、空芯コイルとして作るために、図2(A)に示すように、オーバル型と呼ばれる鉄芯40を用意し、この鉄芯40の周囲に、前記平角線30の断面の一方の長辺側の面が接するように周回し、更に周回した平角線30の上に重ねるように繰り返し平角線30を周回させる。すなわち、巻軸に対して平行となるように周回する。このとき、平角線30としては、周回部22と引出部24A,24Bを形成するために必要な長さのものを用い、平角線30の両端からそれぞれの引出部の長さを引いた部分の中間点となる部分を、図2(A)に示すように鉄芯40に当て、一方の端部側を、平角線30の幅の半分の分だけ左右(例えば右側)にずらしてから周回し、もう一方の端部側を、前記平角線30の幅の半分の分だけ左右(例えば左側)にずらしてから周回するようにする。周回の方向は、前記鉄芯40を中心に、それぞれ逆方向に周回させることで、周回方向が逆の周回部22A,22Bが連続した周回部22が形成される(図2(B)及び(C))。   Specifically, in order to make the coil 20 embedded in the coil component 10 as an air core coil, an iron core 40 called an oval type is prepared as shown in FIG. The rectangular wire 30 is circulated so that the surface on the one long side of the cross section of the rectangular wire 30 is in contact with the surroundings, and the rectangular wire 30 is repeatedly circulated so as to overlap the rotated rectangular wire 30. That is, it goes around so as to be parallel to the winding axis. At this time, as the flat wire 30, a wire having a length necessary for forming the winding portion 22 and the lead portions 24 </ b> A and 24 </ b> B is used, and the length of each lead portion is subtracted from both ends of the flat wire 30. As shown in FIG. 2 (A), the intermediate point is applied to the iron core 40, and one end is shifted to the left and right (for example, the right side) by half the width of the flat wire 30 and then circulated. The other end portion side is shifted to the left and right (for example, the left side) by half the width of the flat wire 30 and then circulated. With respect to the direction of circulation, each of the circumferences 22A and 22B having the opposite circulation directions is formed continuously by turning around the iron core 40 in the opposite direction (FIGS. 2 (B) and (B)). C)).

次に、周回部22の両端部に引出部24A,24Bを形成する。周回部22の終端23A,23Bから、平角線30の断面の一方の短辺(例えば短辺30A)の方向へ向かって曲げ加工を行う。このとき、図1(C)に示すように、周回部22A,22Bと引出部24A,24Bとの間にはそれぞれR付けを伴いながら、周回部22の終端23A,23Bにおける平角線30の断面の短辺30Aの面と、引出部24A,24Bの平角線30の断面の短辺30Aの面がなす角度αは、90°以下としている。これにより、導線の被膜のはがれ等をおさえつつ、精度よく引出部24A,24Bを形成することができる。   Next, leading portions 24 </ b> A and 24 </ b> B are formed at both ends of the circumferential portion 22. Bending is performed from the terminal ends 23A and 23B of the winding portion 22 in the direction of one short side (for example, the short side 30A) of the cross section of the rectangular wire 30. At this time, as shown in FIG. 1 (C), a cross section of the rectangular wire 30 at the terminal ends 23A and 23B of the circulating portion 22 with an R attached between the circulating portions 22A and 22B and the lead portions 24A and 24B, respectively. The angle α formed by the surface of the short side 30A and the surface of the short side 30A of the cross section of the flat wire 30 of the lead portions 24A and 24B is 90 ° or less. Thereby, it is possible to form the lead portions 24A and 24B with high accuracy while suppressing peeling of the coating of the conductive wire.

最後に、前記コイル20を磁性体12中に埋め込み、引出部24A,24Bの端部26A,26Bと、端子電極14,16を接続して、コイル部品10とした。磁性体12を構成する磁性材料は、合金磁性粒子と樹脂とを混練したものを用い、金型を使用して、コイル20をセットしてから、磁性材料で埋め込む方法で行った。   Finally, the coil 20 was embedded in the magnetic body 12, and the end portions 26A and 26B of the lead portions 24A and 24B and the terminal electrodes 14 and 16 were connected to form the coil component 10. The magnetic material constituting the magnetic body 12 was obtained by kneading alloy magnetic particles and resin, using a mold, setting the coil 20 and then embedding with a magnetic material.

以上のようにして得られるコイル部品10では、平角線30の巻軸として、断面オーバル型の鉄芯40を用いているため、コイル20の周回部22により形成されるコイル軸28は、該コイル軸28の軸方向の断面が、長軸LAと短軸LBを有するオーバル形状となっている。そして、前記引出部24A,24Bは、前記周回部22の終端23A,23Bから、前記引出部24A,24Bの端部26A,26Bに向けて、前記短軸LB側から見てコイル軸28から遠ざかるように延びている。このとき、前記引出部24A,24Bがコイル軸28となす角度(図1(B)の角度β)は、0〜45°とするとよい。   In the coil component 10 obtained as described above, since the iron core 40 having an oval cross section is used as the winding axis of the flat wire 30, the coil shaft 28 formed by the rotating portion 22 of the coil 20 is The cross section in the axial direction of the shaft 28 has an oval shape having a major axis LA and a minor axis LB. The lead portions 24A and 24B are moved away from the coil shaft 28 when viewed from the short axis LB side toward the end portions 26A and 26B of the lead portions 24A and 24B from the terminal ends 23A and 23B of the circulating portion 22. It extends like so. At this time, an angle between the lead portions 24A and 24B and the coil shaft 28 (angle β in FIG. 1B) is preferably 0 to 45 °.

次に、前記コイル軸28が、長軸LAと短軸LBを有する形状とした場合の引出部24A,24Bの配置について、以下の具体例を参照して説明する。
<具体例1>・・・図3には、具体例1のコイル部品のコイル20Aが示されている。製品サイズ(コイル部品10)の長さLを2.5mm,幅Wを2.0mm,高さHを1.4mmとし、磁性材料は、FeSiBCとFeの磁性粒子とエポキシ樹脂の混合したものを用いた。また、コイル20Aは、断面寸法が0.4×0.1mmのポリイミド被膜付きの平角線を用い、周回部22の周回数は、10.5とした。また、端子電極14,16としては、スパッタリングによりTiを50nm程度の厚さとし、その後にAg入りの導電性ペーストを30μm程度の厚みとなるように塗布し200℃程度の温度で硬化して、それぞれ引出部24A,24Bの端部26A,26Bと接続するようにした。具体例1では、長さと幅の比,L/W=1.25であり、このように寸法比が1.5以下のような場合には、引出部24A,24Bは、コイル軸28の断面の短軸LBの一方の端部側に配置するようがよい。このように短軸の一方側に配置することで、周回部22のL方向の寸法を大きくでき、L×Wが2.5mm×2.0mmのような寸法であっても、抵抗値の低いコイル部品を作ることができる。この寸法比により引出部を配置することで、周回部と引出部を埋め込む磁性体12の肉厚を同じような厚みとすることができ、磁性体の欠陥は生じにくくなる。
Next, the arrangement of the lead-out portions 24A and 24B when the coil shaft 28 has a shape having a long axis LA and a short axis LB will be described with reference to the following specific example.
<Specific example 1> FIG. 3 shows a coil 20A of the coil component of specific example 1. FIG. The product size (coil component 10) has a length L of 2.5 mm, a width W of 2.0 mm and a height H of 1.4 mm. The magnetic material is a mixture of FeSiBC and Fe magnetic particles and epoxy resin. Using. Moreover, the coil 20A used the rectangular wire with a polyimide film whose cross-sectional dimension is 0.4x0.1mm, and the frequency | count of the circumference | surroundings part 22 was 10.5. Further, as the terminal electrodes 14 and 16, Ti is formed to a thickness of about 50 nm by sputtering, and then a conductive paste containing Ag is applied to a thickness of about 30 μm and cured at a temperature of about 200 ° C., respectively. The end portions 26A and 26B of the lead portions 24A and 24B are connected. In the first specific example, the ratio of length to width, L / W = 1.25, and when the dimensional ratio is 1.5 or less in this way, the lead-out portions 24A and 24B are cross sections of the coil shaft 28. It is good to arrange on one end side of the short axis LB. By arranging on one side of the short axis in this way, the dimension of the circumferential portion 22 in the L direction can be increased, and the resistance value is low even when L × W is 2.5 mm × 2.0 mm. Coil parts can be made. By arranging the drawing portion with this dimensional ratio, the thickness of the magnetic body 12 embedding the winding portion and the drawing portion can be made the same thickness, and defects in the magnetic body are less likely to occur.

<具体例2>・・・図4には、具体例2のコイル部品のコイル20Bが示されている。製品サイズ(コイル部品10)を、長さLを2.0mm,幅Wを1.2mm,高さHを1.0mmとし、磁性材料は、FeSiBCとFeの磁性粒子とエポキシ樹脂を混合したものを用いた。また、コイル20Bは、断面寸法が0.3×0.06mmポリイミド被膜付きの平角線30を用い、周回部22の周回数は11とした。端子電極14,16は、スパッタTi+導電性ペーストAg入りにより作成した。具体例2では、長さと幅の比,L/W=1.67であり、寸法比が1.5より大きい。このように寸法が1.5より大きい場合には、引出部24A,24Bが、前記断面の長軸LA方向で前記コイル軸28を挟んで配置されると、周回部22のW方向の寸法を大きくでき、L×Wが2.0mm×1.2mmのような小型のチップ部品でも、抵抗値の低い部品を作ることができる。   <Specific Example 2> FIG. 4 shows a coil 20B of the coil component of Specific Example 2. The product size (coil component 10) has a length L of 2.0 mm, a width W of 1.2 mm, a height H of 1.0 mm, and the magnetic material is a mixture of FeSiBC and Fe magnetic particles and an epoxy resin. Was used. Moreover, the coil 20B used the rectangular wire 30 with a cross-sectional dimension of 0.3 * 0.06mm polyimide coating, and the circumference | surroundings part 22 set the frequency | count of the revolution to 11. FIG. The terminal electrodes 14 and 16 were prepared by containing sputtered Ti + conductive paste Ag. In specific example 2, the ratio of length to width, L / W = 1.67, and the dimensional ratio is larger than 1.5. Thus, when the dimension is larger than 1.5, when the lead-out parts 24A and 24B are arranged with the coil shaft 28 sandwiched in the direction of the long axis LA of the cross section, the dimension of the rotating part 22 in the W direction is increased. Even a small chip component such as L × W of 2.0 mm × 1.2 mm can be made to have a low resistance value.

このように、実施例1によれば、次のような効果がある。
(1)磁性体12中に埋め込まれるコイル20が平角線30により形成されており、前記コイル20の周回部22は、前記平角線30の断面の一方の長辺側の面が、巻軸(鉄芯40)に対して平行に周回され、コイル20の引出部24A,24Bは、前記周回部22の終端23A,23Bの平角線の断面の一方の短辺側に向けて曲げられ、磁性体12の表面の端子電極14,16に接続される。このため、引出部24A,24Bのスペースを削減でき、無駄なスペースがない小型のコイル部品10を得ることができる。特に、前記平角線30の断面の一方の短辺方向に向けて引出部24A,24Bを曲げ加工することで、引出部24A,24Bの強度が得られ、引出部24A,24Bの位置が安定することで、周回部22の巻き緩みが抑制され、特性(インダクタンス)のバラツキを小さくでき、端子電極14,16との接続安定性も得られる。これにより、チップ部品のような小型の部品でも、高い性能の部品を安定して作ることができる。
Thus, according to the first embodiment, there are the following effects.
(1) The coil 20 embedded in the magnetic body 12 is formed by a rectangular wire 30, and the circumferential portion 22 of the coil 20 has a surface on one long side of the cross section of the rectangular wire 30. The lead portions 24A and 24B of the coil 20 are bent in parallel to the iron core 40) and bent toward one short side of the cross section of the flat wire of the terminal ends 23A and 23B of the winding portion 22 to form a magnetic body. 12 are connected to terminal electrodes 14 and 16 on the surface. For this reason, the space | interval of drawer part 24A, 24B can be reduced, and the small coil component 10 without a useless space can be obtained. In particular, by bending the lead portions 24A and 24B toward one short side of the cross section of the rectangular wire 30, the strength of the lead portions 24A and 24B can be obtained, and the positions of the lead portions 24A and 24B are stabilized. Thus, loosening of the winding portion 22 is suppressed, variation in characteristics (inductance) can be reduced, and connection stability with the terminal electrodes 14 and 16 is also obtained. Thereby, even a small component such as a chip component can stably produce a high-performance component.

(2)周回部22の終端23A,23Bにおける前記引出部24A,24Bの曲げ角度を90°以下に抑えることで、平角線30の被膜にダメージを与えることなく、ショート不良が生じることがない。
(3)周回部22のコイル軸28の断面が長軸LAと短軸LBを有する形状とすることで、引出位置を必要な位置に配置でき、部品寸法を有効に使うことができる。
(4)引出部24A,24Bの引出方向を、周回部22から離れる方向とすることで、引出部24A,24Bが周回部22と接触しにくくなり、ショート不良などを生じることがない。
(5)引出部24A,24Bは曲げ加工時の戻りを小さくでき加工精度がよく、引出部24A,24Bのスペースを小さくでき、周回部22を大きくできる。また、加工の工数が少なくなる。
(6)周回部22をオーバル型とすることで周回部22の導線の曲率を確保でき、導線の被膜がはがれることがなく、特に断面積の大きな導線でも巻線できる。
(2) By suppressing the bending angle of the lead-out portions 24A and 24B at the terminal ends 23A and 23B of the circulating portion 22 to 90 ° or less, a short circuit defect does not occur without damaging the coating of the rectangular wire 30.
(3) By making the cross section of the coil shaft 28 of the revolving part 22 have a major axis LA and a minor axis LB, the drawing position can be arranged at a necessary position, and the component dimensions can be used effectively.
(4) By setting the extraction direction of the extraction portions 24A and 24B to be the direction away from the circulation portion 22, the extraction portions 24A and 24B are less likely to come into contact with the rotation portion 22, and a short circuit failure does not occur.
(5) The lead-out portions 24A and 24B can reduce the return at the time of bending, have high processing accuracy, can reduce the space of the lead-out portions 24A and 24B, and can increase the circumference portion 22. In addition, the number of processing steps is reduced.
(6) By making the circulating portion 22 into an oval type, the curvature of the conducting wire of the circulating portion 22 can be secured, and the coating of the conducting wire is not peeled off, and even a conducting wire having a particularly large cross-sectional area can be wound.

なお、本発明は、上述した実施例に限定されるものではなく、本発明の要旨を逸脱しない範囲内において種々変更を加え得ることができる。例えば、以下のものも含まれる。
(1)前記実施例で示した形状,寸法,材質は一例であり、必要に応じて適宜変更してよい。
(2)前記実施例では、コイル部品10の底面に端子電極14,16を設けることとしたが、これも一例であり、必要に応じて適宜変更可能である。
(3)前記具体例で示した寸法も一例であり、同様の効果を奏する範囲内で適宜設計変更可能である。また、コイルの周回部の巻き数も一例であり、必要に応じて適宜増減してよい。
(4)前記実施例では、コイル20の断面形状をオーバル型としたが、これも一例であり、八角形や四角形などの多角形であっても、角をR付けしたような形状であればよい。例えば、導線の幅の3倍程度の曲率を設けることで、同様の効果を奏する巻線を得ることができる。
In addition, this invention is not limited to the Example mentioned above, A various change can be added in the range which does not deviate from the summary of this invention. For example, the following are also included.
(1) The shapes, dimensions, and materials shown in the above embodiments are examples, and may be changed as appropriate.
(2) In the above-described embodiment, the terminal electrodes 14 and 16 are provided on the bottom surface of the coil component 10, but this is also an example and can be appropriately changed as necessary.
(3) The dimensions shown in the specific examples are also examples, and the design can be changed as appropriate within a range where the same effects can be obtained. Moreover, the number of turns of the winding part of the coil is also an example, and may be appropriately increased or decreased as necessary.
(4) In the above-described embodiment, the cross-sectional shape of the coil 20 is an oval type, but this is also an example, and even if it is a polygon such as an octagon or a rectangle, the shape is such that the corner is rounded. Good. For example, by providing a curvature that is about three times the width of the conducting wire, a winding that exhibits the same effect can be obtained.

本発明によれば、磁性体中に埋め込まれるコイルが平角線により形成されており、前記コイルの周回部は、前記平角線の断面の一方の長辺側の面が巻軸に対して平行に周回され、コイルの引出部は、前記周回部の終端の平角線の断面の一方の短辺に向けて曲げられ、磁性体表面の端子電極に接続される。このため、引出部のスペースを削減して小型化ができるため、コイル部品の用途に適用できる。特に、前記平角線の断面の一方の短辺方向に向けて引出部を曲げ加工することで、引出部の強度が得られ、引出部の位置が安定することで周回部の巻き緩みが抑制され、特性(インダクタンス)のバラツキを小さくでき、端子電極との接続安定性も得られるため、高性能のコイル部品の用途に好適である。   According to the present invention, the coil embedded in the magnetic body is formed by a flat wire, and the surface of one of the long sides of the cross section of the flat wire is parallel to the winding axis. The coiled portion is bent and bent toward one short side of the cross section of the rectangular wire at the end of the circular portion, and connected to the terminal electrode on the surface of the magnetic body. For this reason, since it can reduce in size by reducing the space of a drawer part, it can apply to the use of a coil component. In particular, by bending the drawing portion toward one short side of the cross section of the rectangular wire, the strength of the drawing portion can be obtained, and the winding portion can be prevented from loosening by stabilizing the position of the drawing portion. Since variation in characteristics (inductance) can be reduced and connection stability with the terminal electrode can be obtained, it is suitable for high performance coil parts.

10:コイル部品
12:磁性体
14,16:端子電極
20,20A,20B:コイル
22,22A,22B:周回部
23A,23B:終端
24A,24B:引出部
26A,26B:端部
28:コイル軸
30:平角線
30A,30B:短辺
30C,30D:長辺
40:鉄芯
LA:長軸
LB:短軸
10: Coil parts 12: Magnetic body 14, 16: Terminal electrodes 20, 20A, 20B: Coils 22, 22A, 22B: Circulating portions 23A, 23B: Terminal portions 24A, 24B: Lead portions 26A, 26B: End portions 28: Coil shaft 30: Rectangular wire 30A, 30B: Short side 30C, 30D: Long side 40: Iron core LA: Long axis LB: Short axis

Claims (9)

樹脂と金属磁性材料により形成される磁性体の中にコイルが埋め込まれ、前記磁性体の表面に形成される端子電極を有するコイル部品であって、
前記コイルは、
導線の断面が長辺と短辺を有する平角線を用い、該平角線をコイル状に周回させた周回部と、前記周回部の終端から前記端子電極まで引き出すための引出部を有しており、
前記引出部は、前記周回部の終端の平角線の断面の一方の短辺側へ向けて曲げられていることを特徴とするコイル部品。
A coil component in which a coil is embedded in a magnetic body formed of a resin and a metal magnetic material and has a terminal electrode formed on the surface of the magnetic body,
The coil is
The cross section of the conducting wire uses a flat wire having a long side and a short side, and has a winding portion that circulates the flat wire in a coil shape, and a lead-out portion for drawing from the terminal end of the winding portion to the terminal electrode. ,
The coil component, wherein the lead-out portion is bent toward one short side of a cross section of a rectangular wire at a terminal end of the winding portion.
前記引出部は、前記周回部の終端の平角線に対して、90°以下の角度で曲げられていることを特徴とする請求項1記載のコイル部品。   2. The coil component according to claim 1, wherein the lead portion is bent at an angle of 90 ° or less with respect to a rectangular wire at a terminal end of the winding portion. コイル軸は、前記コイルの周回部により形成され、該コイル軸の軸方向に対して垂直な断面が、長軸と短軸とを有する形状であることを特徴とする請求項1又は2記載のコイル部品。   3. The coil shaft according to claim 1 or 2, wherein the coil shaft is formed by a circular portion of the coil, and a cross section perpendicular to the axial direction of the coil shaft has a major axis and a minor axis. Coil parts. 前記コイル軸の軸方向に対して垂直な断面において、前記引出部は、前記周回部の終端を起点として前記引出部の端部に向かう方向が、前記コイル軸から遠ざかる方向であることを特徴とする請求項3記載のコイル部品。   In the cross section perpendicular to the axial direction of the coil axis, the leading portion of the leading portion starts from the terminal end of the winding portion, and the direction toward the end of the leading portion is a direction away from the coil shaft. The coil component according to claim 3. 前記コイル軸の軸方向に対して垂直な断面において、前記引出部の、前記周回部の終端を起点として前記引出部の端部に向かう方向は、前記周回部の外周面に対して、0〜45°の角度を有することを特徴とする請求項4記載のコイル部品。   In a cross section perpendicular to the axial direction of the coil axis, the direction of the lead-out portion toward the end of the lead-out portion starting from the end of the turn-around portion is 0 to the outer peripheral surface of the turn-around portion. The coil component according to claim 4, wherein the coil component has an angle of 45 °. 前記コイル軸の軸方向に対して垂直な断面において、前記引出部のそれぞれの周回部の終端が、前記短軸方向の一方側に配置されることを特徴とする請求項3〜5のいずれか一項に記載のコイル部品。   The cross-section perpendicular to the axial direction of the coil axis is such that the terminal end of each of the drawn portions is arranged on one side in the short axis direction. The coil component according to one item. 前記コイル軸の軸方向に対して垂直な断面において、前記引出部のそれぞれの周回部の終端が、前記長軸方向に前記コイル軸を挟んで配置されることを特徴とする請求項3〜5のいずれか一項に記載のコイル部品。   6. The cross section perpendicular to the axial direction of the coil axis, the terminal end of each of the lead portions is arranged with the coil axis sandwiched in the major axis direction. The coil component according to any one of the above. コイル軸は、前記コイルの周回部により形成され、該コイル軸の軸方向に対して垂直な断面が、オーバル型であることを特徴とする請求項1〜7のいずれか一項に記載のコイル部品。   8. The coil according to claim 1, wherein the coil axis is formed by a winding portion of the coil, and a cross section perpendicular to the axial direction of the coil axis is an oval type. parts. 請求項1〜のいずれか一項に記載のコイル部品を備えたことを特徴とする電子機器。 An electronic apparatus comprising the coil component according to any one of claims 1 to 8 .
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