JP5622051B2 - Board terminal and board connector using the same - Google Patents

Description

  The present invention relates to a board terminal that protrudes from a printed board and is connected to an external electrical component, and a board connector that uses the board terminal.

  2. Description of the Related Art Conventionally, a printed circuit board used for an internal circuit of an electric junction box of an automobile or the like has a plurality of board terminals protruding to constitute a board connector to which external electric components are connected. For example, as shown in FIG. 1 of Japanese Patent Application Laid-Open No. 2008-35669 (Patent Document 1), such a board terminal includes a fixing portion that is soldered by being inserted into a through-hole of a printed board or the like. On the other hand, the other end protrudes outside the case and serves as a connection portion connected to an external electrical component such as a connector.

  By the way, the fixing portion of the board terminal is often connected to the printed wiring circuit by soldering. As a result, the current input from the external electric component connected to the connection portion of the board terminal is connected to the printed wiring circuit and branched / distributed. On the other hand, when the current input from the connection portion of the board terminal is large, it is difficult to connect the fixed portion to the printed wiring circuit. In such a case, a bus bar that has been stamped into a desired shape is separately provided, and a conductive path for large current is provided by connecting the board terminal and the bus bar via a relay terminal or the like. .

  However, in such a conventional structure, in order to provide another conductive path for a large current, etc., it is necessary to combine a plurality of components such as bus bars and relay terminals and connect them to the substrate terminal, which increases the number of components. The work process was complicated. In addition, it is necessary to stack the bus bar on the printed board via an insulating plate, and it has been difficult to arrange another conductive path for large current or the like on the printed board with high space efficiency. In particular, since the bus bar is formed by press punching a metal plate, it is necessary to prepare a mold according to various circuit shapes, there is a problem of poor yield, and there is a problem that an increase in manufacturing cost is caused. there were.

JP 2008-35669 A

  The present invention has been made in the background of the above-mentioned circumstances, and its solution is to add another conductive path for large current, etc. with a simple structure, at low cost and in a space efficient manner. An object of the present invention is to provide a substrate terminal having a novel structure.

  Furthermore, another object of the present invention is to provide a board connector having a novel structure configured using such board terminals.

The first aspect of the present invention relating to the board terminal is provided with a fixing portion soldered to the printed circuit board on one end side and a connection portion connected to an external electrical component on the other end side. In the board terminal, an electric wire fixing portion to which a core wire of the covered electric wire is fixed is provided at a predetermined length along the extending direction of the intermediate portion at an intermediate portion between the fixing portion and the connection portion. On the other hand, the fixing portion is bent and protruded at a right angle from one end edge portion of the intermediate portion, while the connecting portion is bent at a right angle from the other end edge portion of the intermediate portion and the fixing portion. The intermediate portion extends parallel to the surface of the printed circuit board and is placed on the surface, and the wire fixing portion is provided on the surface of the intermediate portion. It is possible, and characterized that

  In such a board terminal, a conductive path is formed using a covered electric wire. As a result, a conductive path capable of handling a large current can be formed easily and inexpensively with a high yield. Further, since the conductive path is constituted by the covered electric wire, the conductive path can be bent and arranged in an arbitrary shape on the printed circuit board while ensuring insulation. As a result, a conductive path capable of handling a large current can be formed with excellent space efficiency as compared with the case of using a flat bus bar.

  And the electric wire fixing | fixed part to which the core wire of a covered electric wire is fixed is provided in the intermediate part of the terminal for board | substrates. As a result, a conductive path capable of handling a large current can be directly fixed to the substrate terminal with a very simple structure without using a relay terminal or the like. Note that, as described later, welding, caulking and the like can be suitably employed as the core wire fixing mode.

  Moreover, the wire fixing part is provided along the extending direction of the intermediate part. As a result, the core wire portion of the covered electric wire fixed to the electric wire fixing portion can be disposed along the region of the electric wire fixing portion, and the risk of the core wire portion protruding from the board terminal and coming into contact with other members is reduced. I can do it. And since the wire adhering portion is formed along the extending direction of the intermediate portion, the covered electric wire fixed to the electric wire adhering portion is also extended from the board terminal along the extending direction of the intermediate portion. . Therefore, for example, even when a plurality of board terminals are arranged and provided on a printed circuit board in order to configure a board connector, the covered electric wires fixed to the board terminals are not connected to other board terminals or to it. Interference with the fixed covered electric wire can be prevented, and a plurality of substrate terminals can be arranged with a narrower pitch and space efficiency.

First Oite in the state like, while the fixed portion is projected is bent at a right angle from one edge portion of said intermediate portion, said connecting portion is the middle part of the present invention relates to the board terminals A crank shape that is bent at a right angle from the other edge of the printed circuit board and protrudes in a direction opposite to the fixed portion, and the intermediate portion extends parallel to the surface of the printed circuit board and is placed on the surface. The structure in which the wire fixing part is provided on the surface of the intermediate part is employed.

  According to this aspect, the board terminal can be superimposed on the printed board at the wire fixing portion. As a result, the board terminal can be brought into contact with and supported by the printed circuit board against the pushing force when the connector is connected. In addition, the wire fixing portion can be stably supported on the printed board.

According to a second aspect of the present invention relating to the board terminal, in the first aspect, the wire fixing portion is formed with a core-line containing groove extending along the extending direction of the wire fixing portion. It is what.

  According to this aspect, the core wire can be positioned at the wire fixing portion by accommodating the core wire of the covered electric wire in the core wire accommodating groove. In particular, when the core wire is a stranded wire or the like, each wire can be housed in the core wire housing groove to suppress variations in the core wire. As a result, the core wire can be stably fixed by the wire fixing portion. Further, the core wire can be reliably disposed in the region of the wire fixing portion, and contact with other members can be advantageously avoided.

  In addition, although the specific shape of a core wire accommodation ditch | groove is not specifically limited, The bottom face of a core wire accommodation ditch | groove is made into a concave curved surface suitably. If it does in this way, while positioning a core wire along a concave curved surface more stably, when a core wire is a strand wire etc., variation of a core wire can be suppressed more effectively.

A third aspect of the present invention relating to a substrate terminal is the one described in the first or second aspect, wherein a pair of positioning protrusions are integrally formed at both end edges in the width direction of the wire fixing portion. It is what.

  According to this aspect, the core wire can be more reliably positioned on the wire fixing portion by sandwiching the core wire between the pair of positioning protrusions. As a result, more reliable fixation can be performed. In particular, as will be described later, when the core wire is welded to the electric wire fixing portion by ultrasonic welding or the like, it is possible to suppress the blurring of the core wire and perform more reliable welding. Furthermore, by disposing the core wire in the region sandwiched between the pair of positioning projection pieces, the core wire can be protected by the positioning projection piece, and the contact between the core wire and the other member can be more reliably prevented.

According to a fourth aspect of the present invention relating to the board terminal, the core wire of the covered electric wire is welded to the electric wire fixing part of the board terminal in the one described in any one of the first to third aspects. It is what. According to this aspect, the core wire can be easily and inexpensively fixed to the wire fixing portion with a very simple configuration without using a special member. In addition, ultrasonic welding etc. are employ | adopted suitably as welding in this aspect.

A fifth aspect of the present invention relating to a substrate terminal is the one described in any one of the first to third aspects, wherein a pair of caulking fixing pieces are provided at both end edges in the width direction of the wire fixing part. It is integrally formed, and the core wire is fixed to the electric wire fixing part by caulking the caulking fixing piece.

  According to this aspect, the core wire can be fixed to the electric wire fixing portion without using a special member. And since a possibility that a core wire may peel with every plating like the case where a core wire is welded from on plating, plating can be left in an electric wire adhering part. As a result, it is possible to ensure the durability of the substrate terminal.

The first aspect of the present invention relating to the board connector is that the one end side is provided with a fixing portion that is inserted into the through hole of the printed board and soldered, and the other end side is connected to the external connector. A board connector configured by projecting a plurality of board terminals provided in an array on a printed circuit board, wherein at least one of the plurality of board terminals is the first terminal related to the board terminal. It is configured using the board terminal according to any one of the first to fifth aspects, and the core wire exposed at one end of the covered electric wire is fixed to the electric wire fixing part of the board terminal. The covered electric wire extends from the electric wire fixing portion in a direction orthogonal to the arrangement direction of the plurality of substrate terminals.

  According to this aspect, the board connector for connecting the printed board to the external connector can be configured by the plurality of board terminals protruding from the printed board in the arrayed state. Then, by directly fixing the covered electric wire to the board terminal, a conductive path capable of dealing with a large current is configured at low cost with the coated electric wire, and the board terminal is inexpensively configured with respect to the conductive path. It can be connected. Furthermore, since the covered electric wire fixed to the electric wire fixing portion of the board terminal extends in a direction perpendicular to the arrangement direction of the plurality of board terminals, the plurality of board terminals are obstructed by the covered electric wire. Therefore, the board connector can be made compact and the board connector can be made compact.

According to a second aspect of the present invention relating to the board connector, the core wire exposed to the other end of the covered electric wire extending from the board terminal is the branching member according to the first aspect. The first branch fixing portion to which the core wire exposed to the other end of the covered electric wire extending from the board terminal is fixed to the branch member, and another covered electric wire A second branch fixing portion to which the core wire exposed at the terminal is fixed, and a soldering portion that extends from the branch fixing portion and is inserted into the through hole of the printed circuit board and soldered. This constitutes a branch circuit .

  According to this aspect, the core wire of the covered electric wire extending from the terminal for the substrate is fixed to the branch fixing portion, and the core wires of the other plurality of the covered electric wires are fixed to the branch fixing portion from the terminal for the substrate. The extended covered wire can be branched into a plurality of covered wires to branch the conductive path. And according to this aspect, it is possible to form the branch circuit at a low cost and in a space-efficient manner using the covered electric wire with an extremely simple configuration in which the core wire of the covered electric wire is fixed to the branch fixing portion.

  According to the present invention relating to the substrate terminal, the wire fixing portion to which the core wire of the covered wire is fixed is provided along the extending direction of the intermediate portion. Thereby, a conductive path can be formed with a covered electric wire, and a conductive path capable of handling a large current can be formed with excellent space efficiency and cost efficiency. Then, by directly fixing the core wire of the covered electric wire to the electric wire fixing portion, the board terminal can be connected to a conductive path capable of handling a large current at a low cost without using a relay terminal or the like. Further, according to the present invention relating to the board connector, the covered electric wire fixed to the board terminal constituting the board connector is extended in a direction perpendicular to the arrangement direction of the plurality of board terminals, A plurality of board terminals can be arranged in a space-efficient manner at a narrow pitch without being obstructed by a covered electric wire, and a board connector connected to a large current circuit can be formed in a space-efficient manner.

The perspective view of a printed circuit board provided with the connector for boards as a first embodiment of the present invention about a connector for boards. The perspective view of the terminal for board | substrates as 1st embodiment of this invention regarding the terminal for board | substrates used for the connector for board | substrates shown in FIG. The side view of the terminal for board | substrates shown in FIG. The perspective view which shows the adhering state of the covering electric wire to the terminal for board | substrates shown in FIG. The perspective view of the terminal for board | substrates as 2nd embodiment of this invention regarding the terminal for board | substrates used for the connector for board | substrates shown in FIG. The side view of the terminal for board | substrates shown in FIG. The perspective view which shows the adhering state of the covering electric wire to the terminal for board | substrates shown in FIG. The perspective view of the lower surface of the state before the assembly | attachment of a part of board | substrate terminal of the board | substrate connector shown in FIG. The perspective view which shows the assembly | attachment state to the printed circuit board of a branch member. The perspective view of a branch member. The perspective view of the printed circuit board provided with the connector for boards as a second embodiment of the present invention about a connector for boards. The perspective view of the terminal for board | substrates as 3rd embodiment of this invention regarding the terminal for board | substrates used for the connector for board | substrates shown in FIG. The perspective view which shows the adhering state of the covering electric wire to the terminal for board | substrates shown in FIG. The perspective view which shows the adhering state of the covering electric wire to the terminal for board | substrates as a different aspect of this invention regarding the terminal for board | substrates. The perspective view which shows the adhering state of the covered electric wire to the terminal for board | substrates as another aspect of this invention regarding the terminal for board | substrates.

  Embodiments of the present invention will be described below with reference to the drawings.

  First, FIG. 1 shows a printed circuit board 12 provided with board connectors 10a and 10b as a first embodiment of the present invention relating to a board connector. Since these board connectors 10a and 10b have substantially the same structure, the board connector 10 will be described below unless it is necessary to distinguish between them.

  The board connector 10 includes a base 14, a board terminal 16 a as a first embodiment of the present invention related to a board terminal, a board terminal 16 b as a second embodiment, and a board terminal 18 a according to a conventional structure. , 18b are assembled in a penetrating state.

  2 and 3 show the board terminal 16a. The substrate terminal 16a is formed, for example, by stamping a metal plate or the like, and has a structure in which a surface of a base material made of copper or the like is partially plated with tin or the like. The board terminal 16a is bent in a crank shape, and a fixed portion 20 is formed at one end portion, while a connecting portion 22 is formed at the other end portion. An intermediate portion 24 is formed between the fixed portion 20 and the connecting portion 22, and the fixed portion 20 and the connecting portion 22 protrude in opposite directions from both sides of the intermediate portion 24.

  The fixing portion 20 is bent at a right angle from one end edge portion of the intermediate portion 24, and has a square cross section and protrudes perpendicularly from the intermediate portion 24. The connecting portion 22 is bent at a right angle from an end edge on the opposite side to the fixed portion 20 in the intermediate portion 24, and protrudes in a direction opposite to the fixed portion 20 perpendicular to the intermediate portion 24. The connecting portion 22 extends on the intermediate portion 24 side with a longitudinal rectangular cross section having the same width dimension as that of the intermediate portion 24, while extending on the protruding tip side with a square cross section. As a result, the connecting portion 22 is wider on the protruding proximal end side than the protruding distal end side from the intermediate portion 24, and in the intermediate portion in the length direction, both sides in the width direction from the protruding distal end side having a square cross section. The stoppers 26, 26 projecting from each other are formed.

  Further, the intermediate portion 24 has a flat plate shape having a predetermined width dimension over substantially the entire length. In the intermediate portion 24, a wire fixing portion 28 is formed over substantially the entire length of the intermediate portion 24 along the extending direction of the intermediate portion 24 from the connection portion 22 toward the fixing portion 20. A core wire accommodating groove 30 is formed in the wire fixing portion 28. The core-line-accommodating groove 30 extends along the extending direction of the wire fixing portion 28 at the central portion in the width direction of the wire fixing portion 28 and is concave toward the protruding direction of the connection portion 22 (upward in FIG. 3). The groove shape is as follows. The groove bottom surface of the core wire accommodating groove 30 in the present embodiment is a curved surface that is concave upward (information in FIG. 3). Such a core wire containing groove 30 is preferably formed by crushing or the like.

  In addition, tin plating is partially applied to the surface of the substrate terminal 16a at least on the surface excluding the wire fixing portion 28. In the present embodiment, the fixing in the intermediate portion 24 shown by hatching in FIG. Tin plating is applied only to the surface of the fixed part 20 from the edge part on the part 20 side. Therefore, the base material copper is exposed in the electric wire fixing portion 28 in which the core wire accommodating groove 30 is formed. Thereby, it is possible to stably weld the core wire 34 of the covered electric wire 32 described later to the electric wire fixing portion 28. Note that the copper of the base material only needs to be exposed at least on the surface of the wire fixing portion 28 to which the core wire 34 is fixed, and in this embodiment, the copper of the base material is also exposed to the connection portion 22. However, the connection part 22 may be tin-plated.

  As shown in FIG. 4, the board terminal 16 a having such a structure allows the core wire 34 of the covered electric wire 32 to be fixed to the electric wire fixing portion 28. The covered electric wire 32 is a conventionally known single core wire, stranded wire, or the like, and has a structure in which a core wire 34 made of, for example, copper or the like is covered with an insulating film. Then, the core wire 34 is exposed at one end portion of the covered electric wire 32 and is fixed in a state of being overlapped with the electric wire fixing portion 28. The core wire 34 in this embodiment is positioned with respect to the electric wire fixing part 28 by being accommodated in the core wire accommodating concave groove 30, and is welded to the electric wire fixing part 28. As a method for welding the core wire 34, resistance welding, laser welding, or the like can be appropriately employed. In this embodiment, ultrasonic welding is used. That is, in the state where the core wire 34 is superposed on the electric wire fixing portion 28, the contact surface between the core wire 34 and the electric wire fixing portion 28 is made by applying ultrasonic vibration by sandwiching between the horn and anvil of an ultrasonic welding device (not shown). Welded.

  The covered electric wire 32 is welded along the extending direction of the electric wire fixing portion 28. Thereby, the core wire 34 of the covered electric wire 32 is welded in the region of the wire fixing portion 28 without protruding from the wire fixing portion 28. At the same time, the covered electric wire 32 extends from the intermediate portion 24 to the outside of the board terminal 16 a along the extending direction of the intermediate portion 24.

  5 and 6 show the board terminal 16b. In addition, in the board terminal 16b, the same reference numerals are given to the portions having the same structure as the board terminal 16a, and the description thereof will be omitted as appropriate. The board terminal 16b is formed by press punching a metal plate or the like, and has a longitudinal rectangular cross section having a predetermined width dimension over substantially the entire length. Thereby, the connection part 22 and the fixing | fixed part 20 of the terminal 16b for board | substrates are made into the flat plate shape which has a long rectangular cross section with a larger width dimension than the connection part 22 and the fixing | fixed part 20 of the terminal 16a for board | substrates. In addition, projecting piece-shaped stoppers 26 and 26 projecting on both sides in the width direction are formed in the middle portion of the connecting portion 22 in the length direction.

  Similarly to the board terminal 16a, the board terminal 16b has a crank shape in which the connecting portion 22 and the fixing portion 20 protrude from opposite ends of the intermediate portion 24 in opposite directions. The intermediate portion 24 is formed with a wire fixing portion 28. A pair of positioning protrusions 36 and 36 extending along the extending direction of the wire fixing portion 28 are integrally formed at both end portions in the width direction of the wire fixing portion 28 in the board terminal 16b. The positioning protrusions 36, 36 are formed by bending a rectangular protrusion protruding outward in the width direction of the electric wire fixing portion 28 so as to rise from the electric wire fixing portion 28 in the same direction as the connecting portion 22. . In addition, tapered leading surfaces 38 and 38 are formed on the projecting front end surfaces of the positioning protrusions 36 and 36 from the wire fixing portion 28, respectively.

  In addition, the substrate terminal 16b is also tin-plated only on the surface of the fixing portion 20, which is indicated by hatching in FIG. 6, and the wire fixing portion 28 is exposed with the base material copper. As a result, the core wire 34 can be stably welded to the wire fixing portion 28. As with the board terminal 16a, the board terminal 16b in the present embodiment has the base copper exposed at the connection part 22, but the connection part 22 may be tin-plated.

  As shown in FIG. 7, the board terminal 16 b having such a structure is overlapped with the wire fixing portion 28 by inserting the core wire 34 of the covered wire 32 between the positioning protrusions 36 and 36. Then, the core wire 34 is welded to the wire fixing portion 28 by ultrasonic welding or the like while being sandwiched between the positioning protrusions 36 and 36. The covered electric wire 32 is welded without protruding from the electric wire adhering portion 28 with the core wire 34 sandwiched between the positioning protrusions 36 and 36 in an adhering state to the electric wire adhering portion 28. The covered electric wire 32 extends from the intermediate portion 24 to the outside of the board terminal 16b along the extending direction of the intermediate portion 24.

  These board terminals 16a and 16b are fixed to the base 14 together with the board terminals 18a and 18b shown in FIG. FIG. 8 shows a state before the board terminals 16 a and 16 b are assembled to the base 14. Similarly to the board terminals 16a and 16b, the board terminals 18a and 18b have a crank shape in which a fixed portion 20 is formed at one end portion and a connection portion 22 is formed at the other end portion. Yes. The board terminal 18a is formed with a square cross section having a size substantially equal to the connection portion 22 of the board terminal 16a over substantially the entire length. On the other hand, the board terminal 18b is formed with a longitudinal rectangular cross section having a size substantially equal to the connection portion 22 of the board terminal 16b. As for these board terminals 18a and 18b, the stoppers 40 and 40 projecting outward in the width direction are formed by crushing or the like. The substrate terminals 18a and 18b are plated on the entire surface as conventionally known.

  The pedestal 14 is formed from a non-conductive synthetic resin. The pedestal 14 has a structure in which a pair of leg portions 44, 44 protrude and are integrally formed from both longitudinal ends of the main body portion 42 having a substantially longitudinal rectangular plate shape. A plurality of terminal insertion holes 46 are formed through the main body portion 42. In the present embodiment, the plurality of terminal insertion holes 46 are formed in two rows in the longitudinal direction of the main body portion 42. In addition, a reinforcing rib 48 extending along the longitudinal direction of the main body 42 is integrally formed between the leg portions 44 and 44 at the center of the lower surface of the main body 42.

  Substrate terminals 16a, 16b, 18a, and 18b are respectively inserted into the terminal insertion holes 46 of the base 14 having such a structure. These board terminals 16a, 16b, 18a, 18b are inserted into the terminal insertion holes 46 from the lower surface side of the pedestal 14, and the stoppers 26, 40 are locked to the lower surface of the pedestal 14, whereby the insertion amount is defined. Is done. The board terminals 16 a, 16 b, 18 a, and 18 b are fixed to the pedestal 14 while penetrating the pedestal 14 by being inserted into the terminal insertion holes 46 in a press-fitted state. The board terminals 16a and 16b are assembled to the base 14 in a state where the covered electric wire 32 is fixed to the electric wire fixing portion 28 in advance. Thus, the board connectors 10a and 10b are configured.

  As shown in FIG. 1, these board connectors 10a, 10b are soldered by inserting the fixing portions 20 of the board terminals 16a, 16b, 18a, 18b into through holes 49 penetrating the printed circuit board 12, respectively. As a result, the printed circuit board 12 is disposed. Although illustration is omitted, the board terminals 16a, 16b, 18a, and 18b are electrically connected to printed wiring formed on the printed board 12 and connected to the through holes 49 as necessary. If necessary, the board terminal 16 of the board connector 10a and the board terminal 16 of the board connector 10b can be directly connected by the covered electric wire 32. As a result, the plurality of board terminals 16a, 16b, 18a, and 18b project from the printed circuit board 12 in an arrayed state, and the connection portion 22 can be connected to an external connector.

  According to the board connector 10 having such a structure, the covered electric wire 32 can be directly fixed to the electric wire fixing portion 28 of the board terminals 16a and 16b. As a result, it is possible to form a conductive path that can handle a large current with the coated electric wire 32 at a low cost in a space efficient manner, and the substrate terminals 16a and 16b and the coated electric wire 32 can be inexpensively used without using a relay terminal or the like. It can be connected.

  Furthermore, according to the board terminals 16a and 16b, since the covered electric wire 32 extends along the extending direction of the intermediate portion 24, the covered electric wire 32 includes a plurality of board terminals 16a, 16b, 18a, It extends in a direction orthogonal to the arrangement direction of 18b. As a result, the board terminals 16a, 16b, 18a, and 18b can be juxtaposed at a narrow pitch without being obstructed by the covered electric wire 32, and the board connectors 10a and 10b can be made compact. . Furthermore, since the core wire 34 of the covered electric wire 32 is positioned in the region of the wire fixing portion 28, interference between the core wire 34 and other members can be prevented, and electrical connectivity can be stably secured. .

  Further, a core wire accommodating groove 30 is formed in the electric wire fixing portion 28 of the board terminal 16a. Thereby, the core wire 34 of the covered electric wire 32 can be positioned with respect to the electric wire fixing portion 28 by overlapping the core wire accommodating groove 30. As a result, stable welding can be performed on the wire fixing portion 28. In particular, when the core wire 34 is a stranded wire, variations in the core wire 34 can be suppressed. Further, since the bottom surface of the core wire housing groove 30 is a curved surface, the core wire 34 having a circular cross section can be positioned more stably along the core wire housing groove 30. On the other hand, a pair of positioning protrusions 36, 36 are formed on the wire fixing portion 28 of the board terminal 16b. As a result, the core wire 34 can be sandwiched between the positioning protrusions 36 and 36 and positioned with respect to the wire fixing portion 28, and in particular, when the core wire 34 is a stranded wire, variations in the core wire 34 can be suppressed. .

  In addition, the board terminals 16a and 16b are both crank-shaped. As a result, when an external connector is connected to the connection portion 22 of the board terminals 16a and 16b and a pushing force is applied to the board terminals 16a and 16b, the intermediate portion 24 is brought into contact with the printed board 12. Therefore, it is possible to support the substrate terminals 16a and 16b and suppress the deformation of the substrate terminals 16a and 16b and the occurrence of solder cracks.

  In the board connectors 10a and 10b, the covered electric wires 32 extended from the board terminals 16a and 16b can be connected to a bus bar or the like (not shown). Further, it is possible to form a branch circuit by being fixed to the branch member 50 as shown in FIG. 9 and the other covered electric wires 32a, 32b, 32c which are also fixed to the branch member 50.

  As shown in FIG. 10, the branching member 50 is an integrally molded product formed by pressing a metal plate or the like. The branch component 50 has a shape in which a plurality of (four in the present embodiment) soldering portions 54 protrude from an end edge portion of the flat plate-like branch fixing portion 52.

  A plurality of (four in the present embodiment) core wire accommodating grooves 56 are formed in the branch fixing portion 52 by crushing or the like. The core wire receiving groove 56 has substantially the same shape as the core wire receiving groove 30 in the board terminal 16a, opens to the upper surface, and extends from the edge of the branch fixing portion 52 to the inside of the branch fixing portion 52. It is set as the groove shape extended over predetermined dimension toward this. In addition, the groove bottom surface of the core wire accommodating groove 56 is preferably formed in a curved concave shape. In the present embodiment, two such core wire receiving grooves 56 are formed inwardly extending from each of the pair of end edges facing each other in the branch fixing portion 52 to form a total of four. .

  A plurality (four in this embodiment) of the soldering portions 54 extend outward from the end edge portion of the branch fixing portion 52 and are bent at a right angle so as to be orthogonal to the branch fixing portion 52. Protrusions are formed. In the present embodiment, a total of four soldering portions 54 are formed on each of the pair of edge portions facing each other in the branch fixing portion 52, and each of the soldering portions 54 is on the side of the branch fixing portion 52. One end edge portion of the core wire accommodating groove 56 is formed on the end edge portion. However, it is not necessary that the number of the soldering portions 54 and the core wire accommodating concave grooves 56 be the same. For example, two soldering portions 54 are formed on each of the pair of edge portions in the branch fixing portion 52 in total. It may be equal.

  Further, as shown by hatched lines in FIG. 10, the branch member 50 is tin-plated only on the surface of the soldering portion 54, and the base material copper is exposed in the branch fixing portion 52. Thereby, welding of the core wire 34 of the covered electric wire 32 can be performed stably.

  Then, as shown in FIG. 9, the core wire 34 of the covered electric wire 32 extending from the board terminal 16 of the board connector 10 is superposed on one of the core wire receiving grooves 56 of the branch member 50, It is welded by sonic welding or the like. Further, the core wires 34, 34, 34 of the covered electric wires 32 a, 32 b, 32 c are similarly overlapped and welded to the remaining core wire receiving grooves 56. Then, the branching member 50 is fixed on the printed circuit board 12 by the soldering portion 54 of the branching member 50 being inserted into a through hole 49 penetrating the printed circuit board 12 and soldered. If such a branch member 50 is used, a large current can be obtained by connecting the covered electric wire 32 extended from the board terminal 16 of the board connector 10 to the covered electric wires 32a to 32c without connecting to the bus bar or the like. The branch circuit that can cope with the above can be formed in a space efficient and inexpensive manner. Although illustration is omitted, it is of course possible to connect a printed wiring to the through hole 49 and connect the covered electric wire 32 to the printed wiring via the branch circuit 50.

  Next, FIG. 11 shows a printed circuit board 61 provided with board connectors 60a and 60b as a second embodiment of the present invention relating to the board connector. In the following description, members and parts having the same structure as in the first embodiment are given the same reference numerals as those in the first embodiment in the drawing, so that the description is appropriately described. Omitted.

  In the board connectors 60a and 60b, instead of the board terminals 16b in the first embodiment, board terminals 16c according to the third embodiment of the present invention relating to board terminals are assembled to the base 14. . As shown in FIG. 12, the board terminal 16c is formed by press punching a metal plate. Substrate terminal 16c extends with a substantially constant longitudinal rectangular cross-section over the entire length and is bent into a crank shape in substantially the same manner as substrate terminal 16b in the first embodiment. Therefore, the connecting portion 22 and the fixing portion 20 protrude in opposite directions.

  An electric wire fixing portion 28 is formed in the intermediate portion 24, and a pair of caulking fixing pieces 62 and 62 are integrally formed at both end portions in the width direction of the electric wire fixing portion 28. The caulking fixing pieces 62, 62 are protruding pieces extending in the same direction as the protruding direction of the connecting portion 22 at the both end edges in the width direction of the electric wire fixing portion 28 and extending along the extending direction of the electric wire fixing portion 28. ing. Further, unlike the substrate terminal 16a and the substrate terminal 16b, the substrate terminal 16c is plated with tin or the like on the entire surface except for the sheared surface by press punching, and the covered electric wire 32 in the intermediate portion 24 is provided. The overlying surface 64 is also plated.

  As shown in FIG. 13, in the board terminal 16c having such a structure, the core wire 34 of the covered electric wire 32 is inserted between the caulking fixing pieces 62 and 62, and the overlapping surface 64 of the electric wire fixing portion 28 is obtained. Is superimposed. Thereafter, the caulking fixing pieces 62 and 62 are caulked to the overlapping surface 64 side, whereby the core wire 34 is crimped between the caulking fixing pieces 62 and 62 and the overlapping surface 64 and fixed to the electric wire fixing portion 28. The covered electric wire 32 is extended in the extending direction of the intermediate portion 24 in the fixed state to the electric wire fixing portion 28.

  Then, as shown in FIG. 11, the board terminal 16c to which the covered electric wire 32 is fixed in advance is inserted into the terminal insertion hole 46 of the base 14 together with the board terminals 16a, 18a and 18b, and is press-fitted and fixed. Thus, the board connectors 60a and 60b are configured. Of course, it is also possible to form a branch circuit by using the branch member 50 (see FIGS. 9 and 10) in combination with the board connectors 60a and 60b in the present embodiment.

  According to the board terminal 16c having the structure according to the present embodiment, the covered electric wire 32 is caulked and fixed to the electric wire fixing portion 28 by the caulking fixing pieces 62 and 62. Thereby, the covered electric wire 32 can be more easily and firmly fixed without requiring special equipment. Further, since the plating can be left on the wire fixing portion 28, the durability of the board terminal 16c can be ensured.

  As mentioned above, although embodiment of this invention was explained in full detail, this invention is not limited by the specific description. For example, the board terminal does not have to have a crank shape. That is, like the board terminal 66 as a different aspect of the present invention shown in FIG. 14, the connection part 22 and the intermediate part 24 and the fixing part 20 of the board terminal 16a in the first embodiment are aligned. The substrate terminal 16c in the third embodiment may be linearly formed as in the substrate terminal 68 as a further different aspect of the present invention shown in FIG. It may be formed. In this way, further space saving can be achieved.

  Moreover, you may make it adhere | attach the core wire of a some covered electric wire to the electric wire fixation part of the terminal for board | substrates. If it does in this way, it can branch directly to a plurality of covered electric wires from the terminal for substrates, without using a special member.

10a, 10b, 60a, 60b, 66, 68: board connector, 12, 61: printed circuit board, 16a, b, c: board terminal, 20: fixing part, 22: connection part, 24: intermediate part, 28: Wire fixing part, 30: Core wire receiving groove, 32: Coated wire, 34: Core wire, 36: Positioning protrusion, 49: Through hole, 50: Branch member, 52: Branch fixing part, 54: Soldering part, 56: Core wire receiving groove, 62: caulking fixing piece

Claims (7)

In the terminal for the board in which the fixing part to be soldered to the printed circuit board is provided on one end side, and the connection part to be connected to the external electrical component is provided on the other end side,
In the intermediate part between the fixed part and the connecting part, the wire fixing part to which the core wire of the covered electric wire is fixed is provided with a predetermined length along the extending direction of the intermediate part ,
The fixing portion is bent and protruded at a right angle from one end edge of the intermediate portion, while the connecting portion is bent at a right angle from the other end edge of the intermediate portion and opposite to the fixing portion. It has a crank shape that protrudes
The intermediate portion extends parallel to the surface of the printed circuit board and is placed on the surface, and the wire fixing portion is provided on the surface of the intermediate portion . Terminal. The terminal for a board according to claim 1, wherein a core wire receiving groove extending along the extending direction of the wire fixing portion is formed in the wire fixing portion. The terminal for a board according to claim 1 or 2 , wherein a pair of positioning protrusions are integrally formed at both edges in the width direction of the wire fixing portion. The board terminal according to any one of claims 1 to 3 , wherein the core wire of the covered electric wire is welded to the wire fixing portion of the board terminal. A pair of caulking fixing pieces are integrally formed at both end edges in the width direction of the electric wire fixing portion, and the core wire is fixed to the electric wire fixing portion by caulking the caulking fixing pieces. The board terminal according to any one of claims 1 to 3 . One side is provided with a fixed part that is inserted into the through hole of the printed circuit board and soldered, and the other end side is provided with a plurality of connection terminals that are connected to an external connector. A board connector configured by projecting in an array on a board,
Together constitute with the board terminals according to at least one of the plurality of board terminals to any one of claim 1 to 5 one of the covered electric wire to the wire fixing portion of the substrate terminals A board connector characterized in that a core wire exposed at the terminal of the board is fixed, and the covered electric wire is extended from the electric wire fixing portion in a direction perpendicular to the arrangement direction of the plurality of board terminals. The core wire exposed to the other end of the covered electric wire extending from the board terminal is fixed to the branch member,
The branch member is exposed to the first branch fixing portion to which the core wire exposed to the other end of the covered electric wire extending from the board terminal is fixed, and to the end of another covered electric wire. A second branch fixing portion to which the core wire is fixed, and a soldering portion that extends from the branch fixing portion and is inserted into the through hole of the printed circuit board and soldered , thereby forming a branch circuit. board connector according to it has <br/> claim 6 and.

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