JP5585547B2 - Terminal block - Google Patents

Terminal block Download PDF

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JP5585547B2
JP5585547B2 JP2011150173A JP2011150173A JP5585547B2 JP 5585547 B2 JP5585547 B2 JP 5585547B2 JP 2011150173 A JP2011150173 A JP 2011150173A JP 2011150173 A JP2011150173 A JP 2011150173A JP 5585547 B2 JP5585547 B2 JP 5585547B2
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welded
welding
plate portion
fastening plate
terminal block
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久人 多藝
剛 山下
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Denso Corp
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Description

本発明は、電子機器に含まれる複数の電子部品を電気的に接続する端子台に関する。   The present invention relates to a terminal block for electrically connecting a plurality of electronic components included in an electronic device.

従来から、溶接工程を行うことにより複数の電子部品を互いに電気的に接続した電子機器が知られている(下記特許文献1参照)。図10、図11に、この電子機器の一例であるDC−DCコンバータの一部を示す。同図に示すごとく、この電子機器9は、電子部品としてリアクトル91と複数のダイオード92とを備える。   Conventionally, an electronic device in which a plurality of electronic components are electrically connected to each other by performing a welding process is known (see Patent Document 1 below). 10 and 11 show a part of a DC-DC converter which is an example of the electronic apparatus. As shown in the figure, the electronic device 9 includes a reactor 91 and a plurality of diodes 92 as electronic components.

個々のダイオード92は、アノード端子93及びカソード端子94を備える。これらの端子93,94の先端に溶接部930,940が形成されている。溶接部930,940は、リアクトル91の軸線方向(A方向;図11参照)に突出している。
また、リアクトル91には、溶接部930,940と同一方向に突出した被溶接部910が形成されている。 Each diode 92 includes an anode terminal 93 and a cathode terminal 94. Welded portions 930 and 940 are formed at the tips of these terminals 93 and 94. The welds 930 and 940 protrude in the axial direction of the reactor 91 (direction A; see FIG. 11).
In addition, the reactor 91 is formed with a welded portion 910 that protrudes in the same direction as the welded portions 930 and 940.

図11に示すごとく、溶接工程を行う際には、アノード端子93の溶接部930と、リアクトル91の被溶接部910とを重ね合わせ、溶接具95によって挟むと共に、溶接電流Iを流して抵抗熱を発生させる。この抵抗熱によって、溶接部930と被溶接部910とを溶接する。   As shown in FIG. 11, when performing the welding process, the welded portion 930 of the anode terminal 93 and the welded portion 910 of the reactor 91 are overlapped and sandwiched by the welding tool 95, and the welding current I is passed to cause resistance heat. Is generated. The welded part 930 and the welded part 910 are welded by this resistance heat.

また、ダイオード92のカソード端子94(図10参照)の溶接部940には、図示しない別の電子部品の電極端子が溶接される。このように、複数の溶接部930,940に抵抗溶接を行うことにより、ダイオード92やリアクトル91等の電子部品を互いに電気的に接続し、電子回路を構成している。   In addition, an electrode terminal of another electronic component (not shown) is welded to the welding portion 940 of the cathode terminal 94 (see FIG. 10) of the diode 92. In this way, by performing resistance welding on the plurality of welded portions 930 and 940, electronic components such as the diode 92 and the reactor 91 are electrically connected to each other to constitute an electronic circuit.

なお、電子機器9を製造する際には、1個の溶接具95を使って、溶接部930,940を1個ずつ順番に溶接する。すなわち、ある溶接部930aに溶接工程を行った後、溶接具95を別の溶接部930bに移動させ、この溶接部930bを溶接する。これを順次行うことにより、全ての溶接部930,940を溶接する。   When manufacturing the electronic device 9, the welding portions 930 and 940 are sequentially welded one by one using one welding tool 95. That is, after performing a welding process on a certain welded part 930a, the welding tool 95 is moved to another welded part 930b, and this welded part 930b is welded. By sequentially performing this, all the welds 930 and 940 are welded.

特開2003−23772号公報Japanese Patent Laid-Open No. 2003-23772

しかしながら、従来の電子機器9は、複数の溶接部930,940が電子機器9内に分散配置されているため、溶接工程を行う際に、溶接具95の移動距離が長くなるという問題があった。また、溶接具95を様々な方向へ移動させなければならないため、制御が難しくなると共に、移動時間もかかるという問題があった。   However, the conventional electronic device 9 has a problem that the moving distance of the welding tool 95 becomes long when the welding process is performed because the plurality of welded portions 930 and 940 are dispersedly arranged in the electronic device 9. . Further, since the welding tool 95 has to be moved in various directions, there is a problem that it is difficult to control and it takes a moving time.

例えば、ある溶接部930a(図10参照)と別の溶接部930bとを連続して溶接する際には、溶接具95を移動させる際に、溶接具95が溶接部930a,930b等に引っ掛からないようにする必要がある。そのため、例えば、溶接部930aと被溶接部910aとを溶接具95で挟んで溶接した後、溶接具95を開き、上記軸線方向(A方向)に溶接具95を一旦引き上げ、別の溶接部930bの上方まで移動させる必要がある。続いて、溶接具95を上記軸線方向から上記溶接部930bに接近させて、溶接部930bと被溶接部910bとを挟持する必要がある。   For example, when welding a welded part 930a (see FIG. 10) and another welded part 930b continuously, the welder 95 is not caught by the welded parts 930a, 930b, etc. when the welder 95 is moved. It is necessary to do so. Therefore, for example, after the welded part 930a and the welded part 910a are sandwiched and welded by the welding tool 95, the welding tool 95 is opened, the welding tool 95 is once pulled up in the axial direction (A direction), and another welded part 930b It is necessary to move to above. Subsequently, it is necessary to bring the welding tool 95 close to the welded part 930b from the axial direction so as to sandwich the welded part 930b and the welded part 910b.

このように従来の電子機器9は、複数の溶接部930,940を溶接する際に、溶接具95に複雑な動き方をさせる必要があった。また、溶接部930,940間の移動距離も長かった。そのため、溶接工程を行いにくく、時間もかかるという問題があった。   As described above, the conventional electronic device 9 needs to make the welding tool 95 move in a complicated manner when welding the plurality of welded portions 930 and 940. Moreover, the moving distance between the welds 930 and 940 was also long. Therefore, there is a problem that it is difficult to perform the welding process and takes time.

この問題は、複数の電子部品92,91を直接、溶接している限り、容易に解決できない。例えば、アノード端子93の溶接部930とカソード端子94の溶接部940とを接近配置させると、溶接具95の移動距離を短くすることができるが、カソード端子94がアノード端子93やリアクトル91に接触して短絡する可能性がある。そのため、複数の電子部品を直接、溶接するのではなく、別の部品、例えば端子台を電子機器内に設けることにより、複数の溶接部930,940を、短絡することなく近接配置させ、溶接工程を容易に行えるようにすることが望まれていた。   This problem cannot be easily solved as long as the plurality of electronic components 92 and 91 are directly welded. For example, when the welded part 930 of the anode terminal 93 and the welded part 940 of the cathode terminal 94 are arranged close to each other, the moving distance of the welding tool 95 can be shortened, but the cathode terminal 94 contacts the anode terminal 93 and the reactor 91. May cause a short circuit. Therefore, rather than directly welding a plurality of electronic components, by providing another component, for example, a terminal block, in the electronic device, the plurality of welded portions 930 and 940 are arranged close to each other without being short-circuited, and the welding process It has been desired to make it easy to perform.

本発明は、かかる背景に鑑みてなされたもので、電子部品の溶接工程を容易に行うことができる端子台を提供しようとするものである。   The present invention has been made in view of such a background, and an object of the present invention is to provide a terminal block capable of easily performing a welding process of electronic components.

本発明の一態様は、複数の電子部品を備える電子機器の内部に設けられ、該複数の電子部品を電気的に接続する端子台であって、
基板部と、該基板部から該基板部の板厚方向に立設した溶接部と、上記基板部に導通した締結板部とを備える複数のバスバーと、
絶縁材料からなり、上記複数のバスバーを、上記溶接部と上記締結板部とが露出した状態で封止する封止部材とを備え、
上記複数の溶接部は櫛歯状に一列に配列しており、
上記複数の電子部品には、その電極端子が、締結部材によって上記締結板部に締結される被締結電子部品と、上記溶接部に溶接される被溶接電子部品とがあり、
個々の上記溶接部に、上記被溶接電子部品の電極端子を、上記複数の溶接部の立設方向と配列方向との双方に直交する幅方向から重ね合わせて溶接するよう構成され、
上記封止部材は、上記締結板部が露出する露出面を備えた封止本体部を有し、上記幅方向において、上記被溶接電子部品の電極端子と、上記溶接部と、上記封止本体部とがこの順に配置され、上記複数の溶接部と上記封止本体部との間に、上記配列方向に沿った所定の隙間が形成されており、
上記バスバーは、上記基板部と上記締結板部との間を繋ぐ連結板部を備え、上記幅方向における上記基板部の一端から上記溶接部が立設し、上記幅方向における上記基板部の他端から上記連結板部が上記溶接部の立設方向と同一方向に立設し、上記締結板部は上記連結板部と直交した状態で該連結板部に接続していることを特徴とする端子台にある(請求項1)。 One aspect of the present invention is a terminal block that is provided inside an electronic device including a plurality of electronic components and electrically connects the plurality of electronic components,
A plurality of bus bars comprising a substrate portion, a welded portion erected from the substrate portion in the plate thickness direction of the substrate portion, and a fastening plate portion conducted to the substrate portion;
It is made of an insulating material, and includes a sealing member that seals the plurality of bus bars with the welded portion and the fastening plate portion exposed.
The plurality of welds are arranged in a row in a comb shape,
The plurality of electronic components include a fastened electronic component whose electrode terminal is fastened to the fastening plate portion by a fastening member, and a welded electronic component welded to the welded portion,
The electrode terminals of the electronic parts to be welded are individually welded to the individual welded portions by overlapping them from the width direction perpendicular to both the standing direction and the arrangement direction of the plurality of welded portions,
The sealing member includes a sealing main body having an exposed surface from which the fastening plate is exposed, and in the width direction, the electrode terminal of the electronic component to be welded, the welding portion, and the sealing main body. Parts are arranged in this order, and a predetermined gap along the arrangement direction is formed between the plurality of welded parts and the sealing main body part ,
The bus bar includes a connecting plate portion that connects the substrate portion and the fastening plate portion, and the welded portion is erected from one end of the substrate portion in the width direction, and other than the substrate portion in the width direction. The connecting plate portion is erected from the end in the same direction as the standing direction of the welded portion, and the fastening plate portion is connected to the connecting plate portion in a state orthogonal to the connecting plate portion. It is in the terminal block (claim 1).

上記端子台においては、上記複数の溶接部を櫛歯状に一列に配列してある。そして、上記被溶接電子部品の電極端子を、上記幅方向から重ね合わせて溶接するよう構成してある。また、複数の溶接部と上記封止本体部との間に、上記配列方向に沿った所定の隙間を形成してある。
このようにすると、複数の溶接部を溶接する工程を容易に行えるようになる。すなわち、上記構成にすると、溶接工程を行う際に、一対の溶接具を用意し、この一対の溶接具のうち一方の溶接具を上記隙間に挿入すると共に、該一方の溶接具と他方の溶接具との間で、上記溶接部と上記電極端子とを上記幅方向に挟持し、抵抗溶接を行うことができる。そして、1個の溶接部を溶接した後、溶接具を開き、溶接具を上記立設方向へ移動させることなく上記配列方向へ移動させ、続いて、隣にある別の溶接部を溶接することができる。この工程を繰り返すことにより、全ての溶接部を溶接することができる。このように、溶接具を立設方向へ移動させることなく、一方向(配列方向)へ移動させつつ溶接を行えるので、溶接具の動き方を簡素にすることができると共に、溶接具の移動時間を短くすることが可能になる。 In the terminal block, the plurality of welds are arranged in a row in a comb shape. And it is comprised so that the electrode terminal of the said to-be-welded electronic component may be piled up and welded from the said width direction. A predetermined gap is formed along the arrangement direction between the plurality of welds and the sealing main body.
If it does in this way, the process of welding a some welding part can be performed now easily. That is, with the above configuration, when performing the welding process, a pair of welding tools are prepared, and one of the pair of welding tools is inserted into the gap, and the one welding tool and the other welding tool are inserted. The welding part and the electrode terminal can be sandwiched in the width direction with the tool, and resistance welding can be performed. And after welding one weld, open the welding tool, move the welding tool in the arrangement direction without moving it in the standing direction, and then weld another welding part next to it Can do. By repeating this process, all the welds can be welded. Thus, since welding can be performed while moving in one direction (arrangement direction) without moving the welding tool in the standing direction, the movement of the welding tool can be simplified and the movement time of the welding tool can be achieved. Can be shortened.

また、上記端子台は、複数のバスバーを上記封止部材によって封止しているため、この複数のバスバーをしっかりと固定することができる。そのため、個々のバスバーに含まれる溶接部が互いに近接する位置に配置されていても、溶接部同士が接触して短絡する等の不具合が生じにくい。   Moreover, since the said terminal block has sealed the several bus bar with the said sealing member, this several bus bar can be fixed firmly. Therefore, even if the welds included in the individual bus bars are arranged at positions close to each other, problems such as short-circuiting due to contact between the welds hardly occur.

以上のごとく、本例によれば、電子部品の溶接工程を容易に行うことができる端子台を提供することができる。   As described above, according to this example, it is possible to provide a terminal block that can easily perform a welding process of electronic components.

実施例1における端子台の斜視図。The perspective view of the terminal block in Example 1. FIG. 実施例1におけるバスバーの斜視図。FIG. 3 is a perspective view of a bus bar in the first embodiment. 実施例1における、被溶接電子部品の電極端子を溶接した状態における端子台の斜視図。The perspective view of the terminal block in the state which welded the electrode terminal of the to-be-welded electronic component in Example 1. FIG. 図3に示す端子台の、締結板部を通りXZ面に平行な断面図。Sectional drawing which passes along a fastening board part of the terminal block shown in FIG. 3, and is parallel to XZ surface. 実施例1における、溶接工程の説明図。Explanatory drawing of the welding process in Example 1. FIG. 図5に続く図。The figure following FIG. 図3に示す端子台の、固定部を通りXZ面に平行な断面図。Sectional drawing which passes along a fixing | fixed part and is parallel to XZ surface of the terminal block shown in FIG. 実施例1における、電子機器の回路図。FIG. 3 is a circuit diagram of an electronic device in Embodiment 1. 実施例1における、被溶接電子部品の回路図。FIG. 3 is a circuit diagram of an electronic component to be welded in Example 1. 従来例における、電子機器の部分平面図。The fragmentary top view of the electronic device in a prior art example. 溶接工程を行う際における、図10のA−A断面図。FIG. 11 is a cross-sectional view taken along line AA in FIG. 10 when performing a welding process.

上記端子台は、例えば、ハイブリッド車や電気自動車等の車両に搭載される電力変換装置に用いることができる。   The said terminal block can be used for the power converter device mounted in vehicles, such as a hybrid vehicle and an electric vehicle, for example.

また、上記バスバーは、上記基板部と上記締結板部との間を繋ぐ連結板部を備え、上記幅方向における上記基板部の一端から上記溶接部が立設し、上記幅方向における上記基板部の他端から上記連結板部が上記溶接部の立設方向と同一方向に立設し、上記締結板部は上記連結板部と直交した状態で該連結板部に接続している。
そのため、溶接部を溶接する工程と、上記締結板部を締結する工程とを、それぞれ行いやすくなる。すなわち、バスバーを上記形状にすると、上記立設方向に対して締結板部を垂直に向けることができる。そのため、締結工程を行う際には、上記被締結電子部品の電極端子を締結板部に重ね合わせ、上記締結部材を立設方向から締結板部に接近させて、これら電極端子と締結板部とを締結することができる。また、溶接工程を行う際には、一対の溶接具を立設方向から溶接部に接近させ、この一対の溶接具によって溶接部と電極端子とを挟持し、溶接を行うことができる。このように、溶接具と締結部材とを、それぞれ同一方向(上記立設方向)から接近させることができるため、溶接工程および締結工程を行いやすくなる。 In addition, the bus bar includes a connecting plate portion that connects the substrate portion and the fastening plate portion, the welding portion is erected from one end of the substrate portion in the width direction, and the substrate portion in the width direction. the other end the connecting plate portion is erected upright in the same direction as the direction of the weld from, the fastening plate has you are connected to the connecting plate portion in a state of being perpendicular to the connecting plate.
Therefore , it becomes easy to perform the process of welding a welding part, and the process of fastening the said fastening plate part, respectively. That is, when the bus bar has the above shape, the fastening plate portion can be directed perpendicular to the standing direction. Therefore, when performing the fastening process, the electrode terminals of the electronic parts to be fastened are superposed on the fastening plate portion, and the fastening member is made to approach the fastening plate portion from the standing direction, and the electrode terminals, the fastening plate portion, Can be concluded. Moreover, when performing a welding process, a pair of welding tools can be approached to a welding part from the standing direction, and a welding part and an electrode terminal can be clamped with this pair of welding tools, and welding can be performed. In this way, the welding tool and the fastening member can be brought close to each other from the same direction (the above-mentioned standing direction), so that the welding process and the fastening process can be easily performed.

また、上記締結部材は雄螺子部と雌螺子部とからなり、上記封止部材は、上記電子機器を収納する収納ケースの固定壁部に、上記複数の溶接部が上記固定壁部の法線方向を向いた状態で固定されており、上記雌螺子部は、上記固定壁部と上記締結板部との間に配置されていることが好ましい(請求項)。
この場合には、固定壁部と締結板部との間の空間に雌螺子部を配置できるので、この空間を有効利用することができる。これにより、端子台をコンパクトに形成することが可能になる。 The fastening member includes a male screw portion and a female screw portion, and the sealing member is disposed on a fixed wall portion of a storage case for storing the electronic device, and the plurality of weld portions are normal to the fixed wall portion. are fixed in a state of oriented, the female screw portion is preferably disposed between the stationary wall part and the fastening plate (claim 2).
In this case, since the female screw portion can be arranged in the space between the fixed wall portion and the fastening plate portion, this space can be used effectively. This makes it possible to form the terminal block in a compact manner.

また、上記溶接部の上記立設方向から見た場合に、上記被溶接電子部品の少なくとも一部が上記封止部材と重なるように構成されていることが好ましい(請求項)。
この場合には、上記立設方向から見た場合における、上記被溶接電子部品と上記封止部材とが占める面積を少なくすることができる。これにより、電子機器を小型化することが可能になる。 Further, it is preferable that at least a part of the welded electronic component overlaps with the sealing member when viewed from the standing direction of the welded portion (claim 3 ).
In this case, the area occupied by the welded electronic component and the sealing member when viewed from the standing direction can be reduced. This makes it possible to reduce the size of the electronic device.

(実施例1)
上記端子台に係る実施例について、図1〜図9を用いて説明する。
図1、図2に示すごとく、本例の端子台1は、複数のバスバー3と、封止部材4とを備える。バスバー3は、基板部31と、該基板部31から基板部31の板厚方向へ立設した溶接部33と、基板部31に導通した締結板部34とを備える。封止部材4は絶縁材料からなり、複数のバスバー3を、溶接部33と締結板部34とが露出した状態で封止している。 Example 1
Examples relating to the terminal block will be described with reference to FIGS.
As shown in FIGS. 1 and 2, the terminal block 1 of this example includes a plurality of bus bars 3 and a sealing member 4. The bus bar 3 includes a substrate portion 31, a welded portion 33 erected from the substrate portion 31 in the plate thickness direction of the substrate portion 31, and a fastening plate portion 34 that is electrically connected to the substrate portion 31. The sealing member 4 is made of an insulating material and seals the plurality of bus bars 3 with the welded portion 33 and the fastening plate portion 34 exposed.

複数の溶接部33は櫛歯状に一列に配列している。複数の電子部品2には、被締結電子部品20(図8参照)と、被溶接電子部品21とがある。
図3に示すごとく、被締結電子部品20の電極端子22は、締結部材5によって締結板部34に締結される。また、個々の溶接部33に、被溶接電子部品21の電極端子23を、複数の溶接部33の立設方向(X方向)と配列方向(Y方向)との双方に直交する幅方向(Z方向)から重ね合わせて溶接するよう構成されている。 The plurality of welds 33 are arranged in a row in a comb shape. The plurality of electronic components 2 include an electronic component 20 to be fastened (see FIG. 8) and an electronic component 21 to be welded.
As shown in FIG. 3, the electrode terminal 22 of the fastened electronic component 20 is fastened to the fastening plate portion 34 by the fastening member 5. Further, the electrode terminal 23 of the electronic component 21 to be welded is connected to each welded portion 33 in the width direction (Z) orthogonal to both the standing direction (X direction) and the arrangement direction (Y direction) of the plurality of welded portions 33. It is configured to overlap and weld from (direction).

封止部材4は、締結板部34が露出する露出面41を備えた封止本体部40を有する。図3、図4に示すごとく、上記幅方向(Z方向)において、被溶接電子部品21の電極端子23と、溶接部33と、封止本体部40とがこの順に配置され、複数の溶接部33と封止本体部40との間に、配列方向(Y方向)に沿った所定の隙間dが形成されている。   The sealing member 4 has a sealing main body portion 40 having an exposed surface 41 from which the fastening plate portion 34 is exposed. As shown in FIGS. 3 and 4, in the width direction (Z direction), the electrode terminal 23 of the electronic component 21 to be welded, the welded portion 33, and the sealing main body portion 40 are arranged in this order, and a plurality of welded portions A predetermined gap d along the arrangement direction (Y direction) is formed between 33 and the sealing body 40.

図1、図2に示すごとく、本例の端子台1は第1バスバー3aと、第2バスバー3bと、第3バスバー3cとの3個のバスバー3を備える。また、端子台1は12本の溶接部33を有する。この12本の溶接部33は、上述したように一列に配列されている。   As shown in FIGS. 1 and 2, the terminal block 1 of the present example includes three bus bars 3 including a first bus bar 3a, a second bus bar 3b, and a third bus bar 3c. The terminal block 1 has twelve welds 33. The twelve welded portions 33 are arranged in a line as described above.

封止部材4は、上記封止本体部40と、該封止本体部40からZ方向に突出した凸部42とを備える。この凸部42によって、バスバー3の基板部31を封止している。また、凸部42の端面420から、基板部31の一部がZ方向に突出している。そして、この基板部31から溶接部33が、基板部31の板厚方向に突出している。溶接部33と封止本体部40との間には、上記隙間dが設けられている。
また、封止本体部40の上記露出面41から、3個のバスバー3の締結板部34がそれぞれ露出している。個々の締結板部34には、後述する雄螺子部51を挿入するための貫通孔340が形成されている。 The sealing member 4 includes the sealing main body portion 40 and a convex portion 42 protruding from the sealing main body portion 40 in the Z direction. The convex portion 42 seals the substrate portion 31 of the bus bar 3. Further, a part of the substrate portion 31 protrudes in the Z direction from the end surface 420 of the convex portion 42. A welded portion 33 protrudes from the substrate portion 31 in the thickness direction of the substrate portion 31. The gap d is provided between the welded portion 33 and the sealing main body portion 40.
Further, the fastening plate portions 34 of the three bus bars 3 are respectively exposed from the exposed surface 41 of the sealing main body portion 40. Each fastening plate portion 34 is formed with a through hole 340 for inserting a male screw portion 51 described later.

封止部材4は、2個の固定部12(12a,12b)を有する。それぞれの固定部12には、ボルト挿入孔13が貫通形成されている。このボルト挿入孔13にボルト14(図7参照)を挿入し、電子機器10の収納ケース11に形成したボス110に螺合することにより、端子台1を収納ケース11に固定している。   The sealing member 4 has two fixing parts 12 (12a, 12b). Bolt insertion holes 13 are formed through the respective fixing portions 12. The terminal block 1 is fixed to the storage case 11 by inserting a bolt 14 (see FIG. 7) into the bolt insertion hole 13 and screwing it into a boss 110 formed in the storage case 11 of the electronic device 10.

また、本例の端子台1は、ハイブリッド車や電気自動車等の車両に搭載するためのDC−DCコンバータに用いられる。DC−DCコンバータは、図8に示すごとく、被締結電子部品20としてのトランス20aおよびリアクトル20bと、被溶接電子部品21としてのダイオードモジュール21とを備える。トランス20aは2個の二次コイル71,72を有する。2個の二次コイルのうち一方の二次コイル71は、第1バスバー3aの締結板部34aに締結される。他方の二次コイル72は、第2バスバー3bの締結板部34bに締結される。リアクトル20bは、第3バスバー3cの締結板部34cに締結される。また、図3に示すごとく、ダイオードモジュール21の電極端子23は、溶接部33に溶接される。このように、本例の端子台1は、DC−DCコンバータに含まれる複数の電子部品2(トランス20a、リアクトル20b、ダイオードモジュール21)を電気的に接続するために用いられる。   Moreover, the terminal block 1 of this example is used for the DC-DC converter mounted in vehicles, such as a hybrid vehicle and an electric vehicle. As shown in FIG. 8, the DC-DC converter includes a transformer 20 a and a reactor 20 b as electronic components 20 to be fastened, and a diode module 21 as an electronic component 21 to be welded. The transformer 20a has two secondary coils 71 and 72. One secondary coil 71 of the two secondary coils is fastened to the fastening plate portion 34a of the first bus bar 3a. The other secondary coil 72 is fastened to the fastening plate portion 34b of the second bus bar 3b. Reactor 20b is fastened to fastening plate portion 34c of third bus bar 3c. As shown in FIG. 3, the electrode terminal 23 of the diode module 21 is welded to the welded portion 33. Thus, the terminal block 1 of this example is used for electrically connecting a plurality of electronic components 2 (transformer 20a, reactor 20b, diode module 21) included in the DC-DC converter.

ダイオードモジュール21は、それぞれ3本の電極端子23を有する。本例では、4個のダイオードモジュール21が有する合計12本の電極端子23を、それぞれ溶接部33に溶接した。
個々の溶接部33には、ダイオードモジュール21の電極端子23側に向って円弧状に湾曲した湾曲部330が形成されている。電極端子23と溶接部33とをZ方向に重ね合わせ、湾曲部330を電極端子23に接触させた状態で、電極端子23と溶接部33とを溶接してある。 Each of the diode modules 21 has three electrode terminals 23. In this example, a total of twelve electrode terminals 23 included in the four diode modules 21 are welded to the welds 33, respectively.
Each welded portion 33 is formed with a curved portion 330 that is curved in an arc shape toward the electrode terminal 23 side of the diode module 21. The electrode terminal 23 and the welded portion 33 are welded in a state where the electrode terminal 23 and the welded portion 33 are overlapped in the Z direction and the curved portion 330 is in contact with the electrode terminal 23.

溶接を行う際には、図5に示すごとく、一組の溶接具6a,6bを用意し、この溶接具6a,6bによって、1本の電極端子23と1本の溶接部33とからなる溶接対8をZ方向に挟持する。そして、溶接具6a,6b間に溶接電流Iを流して抵抗熱を発生させ、溶接対8を溶接する。   When performing welding, as shown in FIG. 5, a set of welding tools 6 a and 6 b is prepared, and a welding consisting of one electrode terminal 23 and one welding portion 33 is prepared by the welding tools 6 a and 6 b. The pair 8 is sandwiched in the Z direction. And the welding current I is sent between the welding tools 6a and 6b, resistance heat is generated, and the welding pair 8 is welded.

この後、図6に示すごとく、溶接具6a,6bを開く。そして、溶接具6a,6bをY方向に移動させ、隣にある別の溶接対8を溶接具6a,6bによって挟持した後、溶接電流Iを流して溶接する。このようにして、Y方向における一端(図3参照)に位置する溶接対8aから、他端に位置する溶接対8bまで、順次溶接を行う。
なお、上記隙間dは、溶接具6a,6bを開いた状態でも、一方の溶接具6aが封止本体部40に接触しないように、その長さが定められている。 Thereafter, as shown in FIG. 6, the welding tools 6a and 6b are opened. The welding tools 6a and 6b are moved in the Y direction, and another adjacent welding pair 8 is sandwiched between the welding tools 6a and 6b, and then welded with a welding current I flowing. In this way, welding is sequentially performed from the welding pair 8a positioned at one end (see FIG. 3) in the Y direction to the welding pair 8b positioned at the other end.
The length of the gap d is determined so that one welding tool 6a does not contact the sealing body 40 even when the welding tools 6a and 6b are opened.

図4に示すごとく、バスバー3は、基板部31と締結板部34との間を繋ぐ連結板部32を備える。Z方向における基板部31の一端311から溶接部33が突出している。連結板部32は、Z方向における基板部31の他端312から、溶接部33の立設方向と同一方向に立設している。締結板部34は、連結板部32に直交した状態で、連結板部32に接続している。   As shown in FIG. 4, the bus bar 3 includes a connecting plate portion 32 that connects between the substrate portion 31 and the fastening plate portion 34. A welding portion 33 protrudes from one end 311 of the substrate portion 31 in the Z direction. The connecting plate portion 32 is erected in the same direction as the erected direction of the welded portion 33 from the other end 312 of the substrate portion 31 in the Z direction. The fastening plate portion 34 is connected to the connecting plate portion 32 in a state orthogonal to the connecting plate portion 32.

また、封止本体部40には雌螺子部52がインサート成形されている。締結板部34に、被締結電子部品20の電極端子22を重ね合わせ、雄螺子部51を挿入して雌螺子部52に螺合する。これにより、電極端子22と締結板部34とを締結し、電極端子22を端子台1に固定するようになっている。   A female screw portion 52 is insert-molded in the sealing main body portion 40. The electrode terminal 22 of the electronic component 20 to be fastened is superposed on the fastening plate portion 34, and the male screw portion 51 is inserted and screwed into the female screw portion 52. Thereby, the electrode terminal 22 and the fastening plate part 34 are fastened, and the electrode terminal 22 is fixed to the terminal block 1.

ダイオードモジュール21は、2個のダイオード24(図9参照)と、該ダイオード24を封止する樹脂部214とを備える。ダイオードモジュール21は、収納ケース11の固定壁部116と、端子台1との間に配置されている。
樹脂部214は、略直方体形状(図3参照)を呈しており、ボルト15を挿入するためのボルト挿通孔215を有する。また、収納ケース11には螺子孔115が形成されている。ボルト15をボルト挿通孔215に挿入し、螺子孔115に螺合することにより、ダイオードモジュール21を収納ケース11に固定している。 The diode module 21 includes two diodes 24 (see FIG. 9) and a resin portion 214 that seals the diodes 24. The diode module 21 is disposed between the fixed wall portion 116 of the storage case 11 and the terminal block 1.
The resin portion 214 has a substantially rectangular parallelepiped shape (see FIG. 3), and has a bolt insertion hole 215 for inserting the bolt 15. A screw hole 115 is formed in the storage case 11. The diode module 21 is fixed to the storage case 11 by inserting the bolt 15 into the bolt insertion hole 215 and screwing it into the screw hole 115.

図9に示すごとく、ダイオードモジュール21内の2個のダイオード24a,24bのうち、一方のダイオード24aは、そのアノード端子が第1電極端子23aに接続している。また、他方のダイオード24bのアノード端子は第3電極端子23cに接続している。2個のダイオード24a,24bのカソード端子は、それぞれ第2電極端子23bに接続している。第2電極端子23bは、第1電極23aと第3電極23cの間に位置している。このようにすることで、第1電極端子23a及び第3電極端子23cに流れる入力電流iと、第2電極端子23bに流れる出力電流2iとの向きを逆にし、これらの電極端子23a〜23cの間に生じるインダクタンスを低減している。   As shown in FIG. 9, of the two diodes 24a and 24b in the diode module 21, the anode terminal of one diode 24a is connected to the first electrode terminal 23a. The anode terminal of the other diode 24b is connected to the third electrode terminal 23c. The cathode terminals of the two diodes 24a and 24b are connected to the second electrode terminal 23b, respectively. The second electrode terminal 23b is located between the first electrode 23a and the third electrode 23c. By doing so, the direction of the input current i flowing through the first electrode terminal 23a and the third electrode terminal 23c and the direction of the output current 2i flowing through the second electrode terminal 23b are reversed, and these electrode terminals 23a-23c The inductance generated between them is reduced.

図2に示すごとく、第1バスバー3aは、第1溶接部33aと、第3溶接部33cと、第4溶接部33dと、第6溶接部33fとの、4本の溶接部33を備える。Y方向における、第1溶接部33aと第3溶接部33cとの間隔D1は、第4溶接部33dと第6溶接部33fとの間隔D3と同程度である。第3溶接部33cと第4溶接部33dとの間隔D2は、上記間隔D1,D3よりも狭い。
また、第2バスバー3bは、第7溶接部33gと、第9溶接部33iと、第10溶接部33jと、第12溶接部33mとの、4本の溶接部33を備える。 As shown in FIG. 2, the 1st bus-bar 3a is provided with the four welding parts 33 of the 1st welding part 33a, the 3rd welding part 33c, the 4th welding part 33d, and the 6th welding part 33f. An interval D1 between the first welded portion 33a and the third welded portion 33c in the Y direction is substantially the same as an interval D3 between the fourth welded portion 33d and the sixth welded portion 33f. An interval D2 between the third welded portion 33c and the fourth welded portion 33d is narrower than the intervals D1 and D3.
Moreover, the 2nd bus-bar 3b is provided with the four welding parts 33 of the 7th welding part 33g, the 9th welding part 33i, the 10th welding part 33j, and the 12th welding part 33m.

第3バスバー3cは、第2溶接部33bと、第5溶接部33eと、第8溶接部33hと、第11溶接部33kとの、4本の溶接部33を備える。第2溶接部33bは、第1溶接部33aと第3溶接部33cとの間に位置し、第5溶接部33eは、第4溶接部33dと第6溶接部33fとの間に位置する。同様に、第8溶接部33hは、第7溶接部33gと第9溶接部33iの間に位置し、第11溶接部33kは、第10溶接部33jと第12溶接部33mとの間に位置する。   The third bus bar 3c includes four welded portions 33 including a second welded portion 33b, a fifth welded portion 33e, an eighth welded portion 33h, and an eleventh welded portion 33k. The second weld 33b is located between the first weld 33a and the third weld 33c, and the fifth weld 33e is located between the fourth weld 33d and the sixth weld 33f. Similarly, the eighth weld 33h is located between the seventh weld 33g and the ninth weld 33i, and the eleventh weld 33k is located between the tenth weld 12j and the twelfth weld 33m. To do.

図3に示すごとく、第1ダイオードモジュール21aの第1電極端子23aは第1溶接部33aに溶接され、第2電極端子23bは第2溶接部33bに溶接される。また、第3電極端子23cは第3溶接部33cに溶接される。他のダイオードモジュール21の電極端子23も同様に、溶接部33d〜33mに溶接される。   As shown in FIG. 3, the 1st electrode terminal 23a of the 1st diode module 21a is welded to the 1st welding part 33a, and the 2nd electrode terminal 23b is welded to the 2nd welding part 33b. The third electrode terminal 23c is welded to the third welding portion 33c. Similarly, the electrode terminals 23 of the other diode modules 21 are also welded to the welded portions 33d to 33m.

上述したように、第1バスバー3aの締結板部34aは、トランス20a(図8参照)の一方の二次コイル71に接続され、第2バスバー3bの締結板部34bは他方の二次コイル72に接続される。二次コイル71,72に発生する電流i(二次電流)は、ブリッジ回路70の動作に伴って交互に向きが替わる。この電流iを、ダイオードモジュール21によって整流している。   As described above, the fastening plate portion 34a of the first bus bar 3a is connected to one secondary coil 71 of the transformer 20a (see FIG. 8), and the fastening plate portion 34b of the second bus bar 3b is connected to the other secondary coil 72. Connected to. The direction of the current i (secondary current) generated in the secondary coils 71 and 72 alternates with the operation of the bridge circuit 70. This current i is rectified by the diode module 21.

電流iの流れを、第1ダイオードモジュール21a(図3参照)を例にとって説明する。第1ダイオードモジュール21aのダイオード24に対して順方向に電圧が加わる場合は、二次コイル71から電流iが締結板部34aに流れ込む。電流iは、連結板部32、基板部31(図2参照)を流れ、さらに溶接部33a,33c、第1モジュール21aの電極端子23a,23cを流れる。その後、電流iはダイオード24(図9参照)を流れ、第2電極端子23bから出力される。そして電流iは、第2電極端子23bから第2溶接部33bを通り、第3バスバー3cの基板部31および連結板部32(図2参照)を流れて、締結板部34cから出力される。   The flow of the current i will be described by taking the first diode module 21a (see FIG. 3) as an example. When a voltage is applied in the forward direction to the diode 24 of the first diode module 21a, the current i flows from the secondary coil 71 into the fastening plate portion 34a. The current i flows through the connecting plate portion 32 and the substrate portion 31 (see FIG. 2), and further flows through the welding portions 33a and 33c and the electrode terminals 23a and 23c of the first module 21a. Thereafter, the current i flows through the diode 24 (see FIG. 9) and is output from the second electrode terminal 23b. Then, the current i passes from the second electrode terminal 23b through the second welding portion 33b, flows through the substrate portion 31 and the connecting plate portion 32 (see FIG. 2) of the third bus bar 3c, and is output from the fastening plate portion 34c.

本例の作用効果について説明する。図3に示すごとく、本例では、複数の溶接部33を櫛歯状に一列に配列した。そして、被溶接電子部品21の電極端子23を、Z方向から重ね合わせて溶接するよう構成した。また、複数の溶接部33と封止本体部40との間に、Y方向に沿った所定の隙間dを形成した。
このようにすると、複数の溶接部33を溶接する工程を容易に行えるようになる。すなわち、溶接工程を行う際には、図5に示すごとく、一対の溶接具6a,6bを用意し、一方の溶接具6aを隙間dに挿入すると共に、該一方の溶接具6aと他方の溶接具6bとの間で、溶接対8をZ方向に挟持し、抵抗溶接を行うことができる。そして、一個の溶接対8を溶接した後、図6に示すごとく、溶接具6a,6bを開き、溶接具6a,6bをX方向へ移動させることなくY方向へ移動させ、続いて、隣にある別の溶接対8を溶接することができる。この工程を繰り返すことにより、全ての溶接対8を溶接することができる。このように、溶接具6a,6bをX方向へ移動させることなく、一方向(Y方向)へ移動させつつ溶接を行えるので、溶接具6a,6bの動き方を簡素にすることができると共に、溶接具6a,6bの移動時間を短くすることが可能になる。 The effect of this example will be described. As shown in FIG. 3, in this example, a plurality of welds 33 are arranged in a row in a comb shape. And the electrode terminal 23 of the to-be-welded electronic component 21 was comprised so that it might overlap and weld from a Z direction. Further, a predetermined gap d along the Y direction was formed between the plurality of welds 33 and the sealing main body 40.
If it does in this way, the process of welding the some welding part 33 can be performed now easily. That is, when performing the welding process, as shown in FIG. 5, a pair of welding tools 6a and 6b are prepared, and one welding tool 6a is inserted into the gap d and the welding tool 6a and the other welding tool are inserted. The welding pair 8 can be clamped in the Z direction between the tool 6b and resistance welding can be performed. Then, after welding one welded pair 8, as shown in FIG. 6, the welding tools 6a and 6b are opened, and the welding tools 6a and 6b are moved in the Y direction without moving in the X direction. One other weld pair 8 can be welded. By repeating this process, all the welding pairs 8 can be welded. In this way, welding can be performed while moving the welding tools 6a and 6b in one direction (Y direction) without moving the welding tools 6a and 6b in the X direction, so that the manner of movement of the welding tools 6a and 6b can be simplified. It becomes possible to shorten the movement time of the welding tools 6a and 6b.

また、本例の端子台1は、複数のバスバー3を封止部材4によって封止しているため、これら複数のバスバー3をしっかりと固定することができる。そのため、個々のバスバー3に含まれる溶接部33が互いに近接する位置に配置されていても、溶接部33同士が接触して短絡する等の不具合が生じにくい。   Moreover, since the terminal block 1 of this example has sealed the several bus-bar 3 with the sealing member 4, these several bus-bar 3 can be fixed firmly. Therefore, even if the welding parts 33 included in the individual bus bars 3 are arranged at positions close to each other, problems such as short-circuiting due to contact between the welding parts 33 are unlikely to occur.

また、図4に示すごとく、バスバー3は連結板部32を備える。Z方向における基板部31の一端311から溶接部33が立設し、Z方向における基板部31の他端312から、連結板部32が、溶接部33の立設方向(X方向)と同一方向に立設している。そして、締結板部34は連結板部32と直交した状態で連結板部32に接続している。
このようにすると、溶接部33を溶接する工程と、締結板部34を締結する工程とを、それぞれ行いやすくなる。すなわち、バスバー3を上記形状にすると、X方向に対して締結板部34を垂直に向けることができる。そのため、締結工程を行う際には、被締結電子部品20の電極端子22を締結板部34に重ね合わせ、雄螺子部51をX方向から締結板部34に接近させて、雄螺子部51を雌螺子部52に螺合させることにより、これら電極端子22と締結板部34とを締結することができる。また、溶接工程を行う際には、溶接具6a,6bをX方向から溶接部33に接近させ、この溶接具6a,6bによって溶接対8を挟持し、溶接を行うことができる。このように、溶接具6と雄螺子部51とを、それぞれ同一方向(X方向)から接近させることができるため、溶接工程および締結工程を行いやすくなる。 Further, as shown in FIG. 4, the bus bar 3 includes a connecting plate portion 32. The welded portion 33 is erected from one end 311 of the substrate portion 31 in the Z direction, and the connecting plate portion 32 is in the same direction as the erected direction (X direction) of the welded portion 33 from the other end 312 of the substrate portion 31 in the Z direction. Is standing. The fastening plate portion 34 is connected to the connecting plate portion 32 in a state orthogonal to the connecting plate portion 32.
If it does in this way, it will become easy to perform the process of welding the welding part 33, and the process of fastening the fastening plate part 34, respectively. That is, when the bus bar 3 has the above shape, the fastening plate portion 34 can be directed perpendicular to the X direction. Therefore, when performing the fastening process, the electrode terminal 22 of the electronic component 20 to be fastened is superposed on the fastening plate portion 34, the male screw portion 51 is brought close to the fastening plate portion 34 from the X direction, and the male screw portion 51 is moved. The electrode terminal 22 and the fastening plate portion 34 can be fastened by being screwed to the female screw portion 52. Moreover, when performing a welding process, the welding tools 6a and 6b can be approached to the welding part 33 from a X direction, the welding pair 8 can be clamped by these welding tools 6a and 6b, and welding can be performed. Thus, since the welding tool 6 and the male screw part 51 can be made to approach from the same direction (X direction), respectively, it becomes easy to perform a welding process and a fastening process.

また、図7に示すごとく、本例の端子台1は、電子機器10を収納する収納ケース11の固定壁部116に、溶接部33を固定壁部116の法線方向(X方向)に向けた状態で固定されている。そして、図4に示すごとく、固定壁部116と締結板部34との間に、雌螺子部52が配置されている。
このようにすると、固定壁部116と締結板部34との間の空間Sに雌螺子部52を配置できるので、この空間Sを有効利用することができる。これにより、端子台1をコンパクトに形成することが可能になる。 Further, as shown in FIG. 7, the terminal block 1 of this example is directed to the fixed wall portion 116 of the storage case 11 that stores the electronic device 10, and the welded portion 33 is directed to the normal direction (X direction) of the fixed wall portion 116. It is fixed in the state. As shown in FIG. 4, the female screw portion 52 is disposed between the fixed wall portion 116 and the fastening plate portion 34.
If it does in this way, since female screw part 52 can be arranged in space S between fixed wall part 116 and fastening plate part 34, this space S can be used effectively. Thereby, it becomes possible to form the terminal block 1 compactly.

また、図4に示すごとく、本例では、X方向から見た場合に、被溶接電子部品(ダイオードモジュール21)の少なくとも一部が封止部材4と重なるように構成されている。
このようにすると、X方向から見た場合における、被溶接電子部品21と封止部材4とが占める面積を少なくすることができる。これにより、電子機器10を小型化することが可能になる。 Further, as shown in FIG. 4, in this example, the electronic component to be welded (diode module 21) is configured to overlap the sealing member 4 when viewed from the X direction.
If it does in this way, the area which the to-be-welded electronic component 21 and the sealing member 4 occupy when it sees from a X direction can be decreased. Thereby, the electronic device 10 can be reduced in size.

以上のごとく、本例によれば、電子部品の溶接工程を容易に行うことができる端子台を提供することができる。   As described above, according to this example, it is possible to provide a terminal block that can easily perform a welding process of electronic components.

1 端子台
2 電子部品
20 被締結電子部品
21 被溶接電子部品
3 バスバー
31 基板部
32 連結板部
33 溶接部
34 締結板部
4 封止部材
40 封止本体部
5 締結部材
d 隙間 DESCRIPTION OF SYMBOLS 1 Terminal block 2 Electronic component 20 Electronic component to be fastened 21 Electronic component to be welded 3 Bus bar 31 Substrate part 32 Connecting plate part 33 Welding part 34 Fastening plate part 4 Sealing member 40 Sealing main body part 5 Fastening member d Gap

Claims (3)

複数の電子部品を備える電子機器の内部に設けられ、該複数の電子部品を電気的に接続する端子台であって、
基板部と、該基板部から該基板部の板厚方向に立設した溶接部と、上記基板部に導通した締結板部とを備える複数のバスバーと、
絶縁材料からなり、上記複数のバスバーを、上記溶接部と上記締結板部とが露出した状態で封止する封止部材とを備え、
上記複数の溶接部は櫛歯状に一列に配列しており、
上記複数の電子部品には、その電極端子が、締結部材によって上記締結板部に締結される被締結電子部品と、上記溶接部に溶接される被溶接電子部品とがあり、
個々の上記溶接部に、上記被溶接電子部品の電極端子を、上記複数の溶接部の立設方向と配列方向との双方に直交する幅方向から重ね合わせて溶接するよう構成され、
上記封止部材は、上記締結板部が露出する露出面を備えた封止本体部を有し、上記幅方向において、上記被溶接電子部品の電極端子と、上記溶接部と、上記封止本体部とがこの順に配置され、上記複数の溶接部と上記封止本体部との間に、上記配列方向に沿った所定の隙間が形成されており、
上記バスバーは、上記基板部と上記締結板部との間を繋ぐ連結板部を備え、上記幅方向における上記基板部の一端から上記溶接部が立設し、上記幅方向における上記基板部の他端から上記連結板部が上記溶接部の立設方向と同一方向に立設し、上記締結板部は上記連結板部と直交した状態で該連結板部に接続していることを特徴とする端子台。 A terminal block provided inside an electronic device including a plurality of electronic components and electrically connecting the plurality of electronic components,
A plurality of bus bars comprising a substrate portion, a welded portion erected from the substrate portion in the plate thickness direction of the substrate portion, and a fastening plate portion conducted to the substrate portion;
It is made of an insulating material, and includes a sealing member that seals the plurality of bus bars with the welded portion and the fastening plate portion exposed.
The plurality of welds are arranged in a row in a comb shape,
The plurality of electronic components include a fastened electronic component whose electrode terminal is fastened to the fastening plate portion by a fastening member, and a welded electronic component welded to the welded portion,
The electrode terminals of the electronic parts to be welded are individually welded to the individual welded portions by overlapping them from the width direction perpendicular to both the standing direction and the arrangement direction of the plurality of welded portions,
The sealing member includes a sealing main body having an exposed surface from which the fastening plate is exposed, and in the width direction, the electrode terminal of the electronic component to be welded, the welding portion, and the sealing main body. Parts are arranged in this order, and a predetermined gap along the arrangement direction is formed between the plurality of welded parts and the sealing main body part ,
The bus bar includes a connecting plate portion that connects the substrate portion and the fastening plate portion, and the welded portion is erected from one end of the substrate portion in the width direction, and other than the substrate portion in the width direction. The connecting plate portion is erected from the end in the same direction as the standing direction of the welded portion, and the fastening plate portion is connected to the connecting plate portion in a state orthogonal to the connecting plate portion. Terminal block. 請求項に記載の端子台において、上記締結部材は雄螺子部と雌螺子部とからなり、上記封止部材は、上記電子機器を収納する収納ケースの固定壁部に、上記複数の溶接部が上記固定壁部の法線方向を向いた状態で固定されており、上記雌螺子部は、上記固定壁部と上記締結板部との間に配置されていることを特徴とする端子台。 2. The terminal block according to claim 1 , wherein the fastening member includes a male screw portion and a female screw portion, and the sealing member is provided on a fixed wall portion of a storage case for storing the electronic device, on the plurality of welded portions. Is fixed in a state in which it faces the normal direction of the fixed wall portion, and the female screw portion is disposed between the fixed wall portion and the fastening plate portion. 請求項1又は請求項2に記載の端子台において、上記溶接部の上記立設方向から見た場合に、上記被溶接電子部品の少なくとも一部が上記封止部材と重なるように構成されていることを特徴とする端子台。 3. The terminal block according to claim 1 , wherein at least a part of the welded electronic component overlaps the sealing member when viewed from the standing direction of the welded portion. A terminal block characterized by that.
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