JP2004165133A - Flat harness - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a flat harness in which waste of materials can be reduced. <P>SOLUTION: This flat harness 1 is constituted of a flat cable 2, connectors 3a to 3d, and a relay connector 6. A connecting terminal 20 built in the connector 3c is connected to conductors 4a, 4b of the flat cable 2 via its crimp part 20a. A mold part 9 to seal these connected parts is formed in such a state that only the connected part of the conductors 4a, 4b and the connecting terminal 20 is contained by a mounting part of the connector 3c of the flat harness 1, and is not formed at the parts of the other conductors 4c to 4d which are not connected to the connecting terminal 20. Because of this, compared with the case in which the mold part 9 in a state containing the whole of each conductors 4a to 4e is formed, consumption amount of the mold resin is suppressed and the waste of the materials is reduced. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a flat harness including a flat cable (Flat Cable: FC) or a flexible flat cable (Flexible Flat Cable: FFC) for connecting electrical components (auxiliary equipment) mounted on an automobile or the like. The present invention relates to a flat harness that can reduce waste.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, wire harnesses have been mainly used for connecting electrical components (auxiliary machines) such as automobiles. A wire harness is formed by bundling electric wires connecting each of the auxiliary devices into a harness shape. Usually, crimp terminals are attached to the ends of the electric wires constituting the harness. It is built into a connector that is connected to a connector or the like provided in the device. In addition to the wire harness, a flat harness in which an electric wire is formed in a planar shape and a plurality of wirings can be arranged in an orderly manner is also often used.
[0003]
When a connector is mounted on this flat harness, generally, in order to increase the strength of the connector mounting portion of the flat harness, the connector has a housing cover mounted on the connector housing, and the flat harness mounted on the housing cover is bent. There is provided a strain relief for holding in a state where the connection terminal is provided and for reducing a load on a connection terminal provided on the connector (for example, see Patent Document 1).
[0004]
[Patent Document 1]
JP-A-10-148661 (pages 3-4, FIG. 3-7)
[0005]
[Problems to be solved by the invention]
However, when a connector having such a structure is mounted on a flat harness, the number of components of the connector increases, and the strength of the connector mounting portion cannot always be increased. However, if a molded portion is formed on the entire connector mounting portion, the molded portion is also formed on a portion that does not need to be sealed, so that the mold resin is wasted in the molded portion forming process. There is.
[0006]
The present invention has been made in an attempt to solve such a problem, and has as its object to provide a flat harness that can reduce waste of materials.
[0007]
[Means for Solving the Problems]
A flat harness according to the present invention includes a cable in which a plurality of conductors are covered with an insulating coating and arranged in a plane, and attached to a plurality of locations in the longitudinal direction of the cable, each of which is a cable of the plurality of conductors. It has a connection terminal connected to at least a part thereof, and includes a plurality of connectors for connecting an external circuit and the conductor via the connection terminal. A molded part for sealing only a connection portion between a predetermined conductor and the connection terminal among the conductors of the cable passing therethrough is formed.
[0008]
According to the present invention, in the mounting portion of each connector of the cable constituting the flat harness, a molded portion for sealing only the connection portion between the predetermined conductor and the connection terminal among the conductors of the cable passing through the mounting portion is formed. Therefore, no mold portion is formed in the mounting portion to seal the conductor not connected to the connection terminal, and accordingly, the amount of mold resin to be consumed in the mold portion forming step can be reduced. Thereby, material waste can be reduced.
[0009]
The cable is a flat cable having a structure in which each of a plurality of conductors is covered with an insulating coating, and the insulating coatings are coupled to each other, or a plurality of conductors are formed in a plane by lamination or extrusion. It is preferable that the flexible flat cable has a structure covered with an insulating coating.
[0010]
Further, the cable has a slit or cut of a predetermined length formed along the conductor, which penetrates at least a predetermined conductor and an insulating coating between the predetermined conductor and an adjacent conductor in a mounting portion of each connector. Is preferably provided in the conductor arrangement direction.
[0011]
A plurality of connectors of the flat harness of the present invention include a connector housing having a terminal receiving hole for receiving a connection terminal, and the connection terminal built in the connector housing may be configured as follows. That is, (1) a cylindrical connection formed by punching / bending a plate-like metal base material and connecting to another connection terminal provided on another connector connected to an external circuit on the distal end side. Part, a crimping portion that cuts into the insulation coating of the cable on the base end side, sandwiches a predetermined conductor and presses against it, and a terminal accommodating hole when accommodated in the terminal accommodating hole at a predetermined position between the connecting portion and the crimping portion. And a closing lid. Or (2) a plate-shaped connection portion formed by punching / bending a plate-shaped metal base material and connected to another connection terminal provided on another end of another connector connected to an external circuit. And a press-contact portion that cuts into the insulating coating of the cable at the base end side, and presses and presses a predetermined conductor in between.The connection portion of the connection terminal is attached to the connection portion and directly fitted to another connection terminal. A cylindrical fitting connection portion is provided. For example, if it is configured as in (1), it is possible to prevent the mold resin forming the molded part from entering the terminal receiving hole, and if it is configured as in (2), the connection in (1) is possible. The function of the section can be provided to the connection section of (2).
[0012]
In the case where the connection terminal is configured as in (1), it is preferable that the lid formed between the connection part and the pressure contact part is formed so that the vertical cross-sectional shape becomes a U-shape. By being formed in a U-shape, the terminal receiving hole can be closed twice.
[0013]
In addition, the press contact part of the connection terminal is formed to be thinner than other parts constituting the connection terminal by coining, or is formed to be thicker than other parts constituting the connection terminal by bending. preferable.
[0014]
In addition, the connector housing is provided with a projection that is inserted into a part of each of the plurality of slits or cuts provided in the cable and makes the plurality of slits or cuts spread in the conductor arrangement direction. Is preferred. This makes it possible to easily spread the mold resin to the connection portion between the conductor of the connector mounting portion and the connection terminal.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.
FIG. 1 is a simplified layout diagram showing a flat harness according to one embodiment of the present invention, FIG. 2 is a partially enlarged view of the flat harness, FIG. 3 is a cross-sectional view taken along line AA ′ of FIG. 2, and FIG. FIG. 5 is a cross-sectional view taken along line BB ′ of FIG. 4.
The flat harness 1 includes a flat cable 2 composed of a plurality of conductors arranged in a plane and covered with an insulating coating, a plurality of connectors 3a, 3b, 3c, and 3d mounted on the flat cable 2, and a flat cable 2. Auxiliary devices 7a, 7b, 7c, 7d each comprising a connector connecting portion which is composed of a relay connector 6 mounted at a predetermined position between both ends of the cable 2 and has connectors 3a to 3d fitted thereto. It is attached to the module 90 and the like, and electrically connects the respective auxiliary machines 7a to 7d. The connectors 3a to 3d have connection terminals (not shown) connected to the auxiliary devices 7a to 7d, and the relay connector 6 has relay connection terminals (not shown) connected to other harnesses. Further, a molded portion described later is formed at a connection portion between the connector 3a to 3d, the connection terminal of the relay connector 6, and the connection terminal for relay and the conductor of the flat cable 2.
[0016]
The flat cable 2 (see FIG. 3) is formed by connecting conductors 4a, 4b, 4c, 4d, and 4e made of a wire material such as a single wire or a stranded wire of a round conductor made of Cu or Al to polyethylene terephthalate (PET), polyethylene naphthalate, or the like. (PEN), polyimide (PI), polyolefin (PO), and the like, covered with an insulating coating 5 made of an insulating resin, and a flat portion in which the insulating coatings 5 are connected to each other by a bridge portion 5a made of the same insulating resin as the insulating coating 5. Consists of a cable structure. Note that the flat cable 2 may be a so-called flexible flat cable having a structure in which a conductor 4 made of a rectangular conductor is covered with an insulating coating 5 formed two-dimensionally by lamination or extrusion.
[0017]
The connection terminal is connected to a predetermined conductor at a portion where the connectors 3a to 3d are mounted among the conductors 4a to 4e constituting the flat cable 2, and the relay connection terminal is each conductor 4a to 4e constituting the flat cable 2. And the relay connector 6 at the mounting portion. The connection terminal and the relay connection terminal are, for example, press-contact terminals having a press-contact portion that cuts into the insulating coating 5 of the flat cable 2 on the base end side and press-contacts the conductor 4 therebetween, and the connectors 3a to 3d and the relay connector 6 are provided. Are press-contacted to the conductor 4 in a predetermined connection manner at the mounting portion of the.
[0018]
As shown in FIGS. 2 and 3, the mounting portions of the flat cables 2 of the connectors 3 a to 3 d of the flat harness 1 (in this example, the connector 3 c is selected and described) are press-contact portions of connection terminals 20 described later. The flat cable 2 is sealed with a mold portion 9 including only a connection portion between the flat cable 2 and predetermined conductors 4a and 4b. For this reason, the molded part 9 is not formed in the portions of the conductors 4c to 4d that pass through the mounting portion of the connector 3c and are not connected to the connection terminals. As described above, in the mounting portion of the flat harness 1 where the connectors 3a to 3d are mounted, the molded portion 9 is formed so as to include only the connection portion between the predetermined conductor (for example, the conductors 4a and 4b in the connector 3c) and the connection terminal 20. As a result, the consumption of the molding resin can be suppressed as compared with the case where the molding portion 9 including the entire conductors 4a to 4e constituting the flat cable 2 is formed at the mounting portion of the connectors 3a to 3d. And material waste can be reduced. The bridge 5a between the conductors 4a and 4b connected to the connection terminal 20 of the flat cable 2 and the bridge 5a between the conductor 4b and the adjacent conductor 4c are provided along the conductors 4a and 4b, respectively. Are formed in the direction in which the conductors 4a to 4e are arranged. This facilitates the press-contact between the conductors 4a and 4b and the press-contact portion 20a of the connection terminal 20, and also forms the press-contact portion 20a. It is designed to absorb pitch shifts.
[0019]
On the other hand, as shown in FIGS. 4 and 5, the mounting portion of the relay connector 6 of the flat harness 1 in the flat cable 2 includes a press-contact portion 30 a of a relay connection terminal 30 described later and each of the conductors 4 a to 4 a to form the flat cable 2. It is sealed with a mold portion 9 that includes a connection portion with the 4e (that is, includes the flat cable 2). Further, a slit 22 having a predetermined length is formed along each of the conductors 4a to 4e in the bridge portion 5a between each of the conductors 4a to 4e connected to the relay connection terminal 30 of the flat cable 2. A plurality is formed in the arrangement direction of 4e. The relay connector 6 includes a guide 23 for guiding each of the conductors 4a to 4e to the press contact portion 30a of the relay connection terminal 30, and a protrusion 24 for expanding each slit 22 in the arrangement direction of each of the conductors 4a to 4e. Is formed. These guides 23 and protrusions 24 are inserted into each slit 22. Since the projections 24 widen the slits 22, the molding resin forming the mold portion 9 is sufficiently filled between the flat cable 2 and the relay connector 6 through the slits 22 as shown in FIG. , And the molded portion 9 is formed so as to completely cover the conductors 4a to 4e. For this reason, the connection between the relay connector 6 and the mold part 9 can be strengthened, and the waterproof property can be improved. The slit 22 also facilitates the press-contact between the conductors 4a to 4e and the press-contact portion 30a of the relay connection terminal 30, and absorbs a pitch shift of the press-contact portion 30a.
[0020]
As shown in FIG. 6, the same effect as described above can be obtained by forming a cut 25 in the bridge portion 5a instead of the slit 22 described above and inserting the guide 23 or the protrusion 24 into the cut 25. Obtainable. As shown in FIGS. 7 and 8, when a notch 25 is formed instead of the slit 22, a rib protrusion 24 a having a triangular cross section is formed on the relay connector 6 as a protrusion 24 for expanding the notch 25. You may do it. The same effect can be obtained with the rib projection 24a.
[0021]
FIG. 9 is an exploded perspective view of the relay connector 6 for explaining the relay connection terminal 30 incorporated in the relay connector 6 of the flat harness 1, and FIG. 10 is a cross-sectional view taken along the line DD 'of FIG. In addition, the description which overlaps with the part already described is omitted below. Further, here, the relay connection terminal 30 will be described using the relay connector 6, but the structure described for the connectors 3a to 3d and the connection terminal 20 can be applied.
The relay connector 6 includes a relay connector housing 6a made of a resin molded member having the relay terminal receiving hole 11 for receiving the relay connection terminal 30 in addition to the guide 23 and the protrusion 24. The relay connection terminal 30 is housed in the relay terminal housing hole 11. The relay connection terminal 30 is formed by punching / bending a plate-shaped metal base material, and has another end accommodated in another connector of another harness fitted to the relay connector 6 on the distal end side. A cylindrical connecting portion 30b connected to the connecting terminal, and a plurality of press-contact portions 30a which are bifurcated at the base end side and which press-contact each other of the conductors 4a to 4e of the flat cable 2 between the branched ends. And Further, the relay connection terminal 30 is provided at a position between the connection portion 30b and the press contact portion 30a (in this example, a position slightly closer to the connection portion 30b than the base end of the press contact portion 30a). A cover portion 30c is formed to close the opening end of the relay terminal housing hole 11 on the side of the press contact portion 30a when the 30 (particularly, the connection portion 30b) is completely housed in the relay terminal housing hole 11. The lid 30c is press-fitted into the relay terminal receiving hole 11 without any gap. For this reason, the lid portion 30c prevents the molding resin forming the molding portion 9 from flowing into the relay terminal receiving hole 11. Thereby, it is possible to prevent the cylindrical space of the connection portion 30b of the relay connection terminal 30 from being unnecessarily molded and sealed.
[0022]
FIG. 11 is an exploded perspective view of the relay connector 6 for explaining another relay connection terminal 30 ′ built in the relay connector 6 of the flat harness 1.
The relay connection terminal 30 ′ has a plate-shaped connection portion 30 b ′ connected to another connection terminal housed in another connector of another harness fitted with the relay connector 6 on the distal end side, and a base end. And a plurality of press-contact portions 30a which press the two flat conductors 4a to 4e of the flat cable 2 therebetween and press-contact each other between the branch ends. A cylindrical fitting connection portion 33 that is directly fitted to another connection terminal is connected. In this case, the lid 30c is not formed on the relay connection terminal 30 'in this case. Instead, an end portion between the connection portion 30b' and the press contact portion 30a in the direction orthogonal to the member thickness direction. The terminal piece 30d for press-fitting positioning is formed at a predetermined position, and the opening end of the relay terminal housing hole 11 on the side of the press contact portion 30a is shaped so that the connection portion 30b 'can be fitted without a gap. For this reason, if the terminal piece 30d is press-fitted into the relay terminal receiving hole 11, it is possible to prevent the molding resin forming the mold portion 9 from flowing into the relay terminal receiving hole 11 similarly to the lid 30c. Has become.
[0023]
As shown in FIG. 12, in the press contact portion 30a of the relay connection terminal 30 ', the member thickness t1 on the distal end side of the press contact portion 30a is larger than the member thickness t2 of the other portion of the relay connection terminal 30'. For example, a coining process is performed so that the thickness is reduced. This is because, in this way, the required member strength of each of the press contact portion 30a and the connection portion 30b 'can be adjusted by the member thickness. The coining process on the tip side of the press contact portion 30a is preferably performed on the relay connection terminal 30 of the above example.
[0024]
FIG. 13 is a cross-sectional view showing the internal structure of the fitting connection portion 33.
The fitting connection part 33 connected to the connection part 30b 'of the relay connection terminal 30' includes a first fitting piece 34 into which the connection part 30b 'of the relay connection terminal 30' is fitted. A second fitting piece 35 for fitting the connecting portion 36 of another connection terminal is provided together with the fitting piece 34. Since the first and second fitting pieces 34 and 35 are in contact with the connection portions 30b 'and 36, respectively, the relay connection terminal 30' and the other connection terminals are electrically connected. The fitting connection portion 33 is a member that allows a so-called male (plug type) connection terminal such as the relay connection terminal 30 ′ to be converted into a female (receptacle type) connection terminal and used. .
[0025]
FIG. 14 is an exploded perspective view of the relay connector 6 for explaining still another relay connection terminal 40 built in the relay connector 6 of the flat harness 1.
The relay connection terminal 40 is formed by punching / bending a plate-shaped metal base material, and the other connection terminal housed in a connector of another harness fitted to the relay connector 6 on the distal end side. And a plurality of press-contact portions 40a whose front ends are branched into two branches at the base end side and which press-contact each other with the conductors 4a to 4e of the flat cable 2 sandwiched between the branch ends. Further, at a position between the connecting portion 40b and the press contact portion 40a, when the relay connecting terminal 40 (particularly, the connecting portion 40b) is completely housed in the relay terminal housing hole 11, the relay terminal housing is provided. A plurality of lids 40c for closing the opening end of the hole 11 on the side of the pressure contact portion 40a are formed by bending or pressing. Like the lid 30c of the relay connection terminal 30, the lid 40c is press-fitted into the relay terminal receiving hole 11 without any gap, for example, so that the molding resin forming the mold part 9 flows into the relay terminal receiving hole 11. In order to prevent this, it is possible to prevent the cylindrical space of the connection portion 40b of the relay connection terminal 40 from being unnecessarily molded and sealed. If a plurality of lids 40c are formed along the direction of insertion into the relay terminal receiving hole 11 by bending or pressing as in the case of the lid 40c, the opening end of the relay terminal receiving hole 11 can be formed. Can be double-sealed, it is possible to improve the performance of preventing the inflow of the mold resin.
[0026]
As shown in FIG. 15, in the press contact portion 40 a of the relay connection terminal 40, the member thickness t1 on the distal end side of the press contact portion 40 a is larger than the member thickness t2 of the other portion of the relay connection terminal 40. For example, a bending process is performed. In this way, the required strength of each of the press-contact portions 40a and the connection portions 40b can be adjusted by the member thickness. For example, the press-contact portions 40a Can further increase the pressure contact strength.
[0027]
【The invention's effect】
As described above, according to the present invention, at the mounting portion of each connector of the cable constituting the flat harness, of the conductors of the cable passing through the mounting portion, only the connection portion between the predetermined conductor and the connection terminal is sealed. Since the mold part for stopping is formed, the mold part for sealing the conductor not connected to the connection terminal is not formed in this mounting part, and accordingly, the amount of the mold resin to be consumed in the mold part forming process is reduced. Can be. Thereby, there is an effect that the waste of the material can be reduced.
[Brief description of the drawings]
FIG. 1 is a simplified layout diagram showing a flat harness according to an embodiment of the present invention.
FIG. 2 is a partially enlarged view of the flat harness.
FIG. 3 is a sectional view taken along line AA ′ of FIG. 2;
FIG. 4 is a partially omitted enlarged view of the flat harness.
FIG. 5 is a sectional view taken along the line BB ′ of FIG. 4;
FIG. 6 is a partially omitted enlarged view of a flat harness in which a cut is formed instead of a slit.
FIG. 7 is a partially omitted enlarged view of a flat harness in which a rib projection is formed instead of a projection.
FIG. 8 is a sectional view taken along the line CC ′ of FIG. 7;
FIG. 9 is an exploded perspective view of the relay connector for describing a relay connection terminal incorporated in the relay connector of the flat harness.
FIG. 10 is a sectional view taken along line DD ′ of FIG. 9;
FIG. 11 is an exploded perspective view of the relay connector for explaining another relay connection terminal built in the relay connector of the flat harness.
FIG. 12 is a side view of the relay connection terminal.
FIG. 13 is a sectional view showing the internal structure of the fitting connection portion.
FIG. 14 is an exploded perspective view of the relay connector for explaining still another relay connection terminal incorporated in the relay connector of the flat harness.
FIG. 15 is a side view of the relay connection terminal.
[Description of Signs] 1 ... Flat harness, 2 ... Flat cable, 3 ... Connector, 4 ... Conductor, 5 ... Insulation coating, 6 ... Relay connector, 7 ... Auxiliary equipment, 9 ... Mold part, 11 ... Relay terminal accommodation hole, Reference numeral 20: connection terminal, 20a, 30a: press-contact portion, 22: slit, 23: guide, 24: projection, 24a: rib projection, 25: cut, 30, 40: relay connection terminal, 30b: connection portion, 30c ... lid part, 30d ... terminal piece, 33 ... fitting connection part, 34 ... first fitting piece, 35 ... second fitting piece.

Claims (10)

A cable in which a plurality of conductors are covered with an insulating coating and arranged in a plane,
It has connection terminals attached to a plurality of locations in the longitudinal direction of the cable and each is connected to at least a part of the plurality of conductors, and connects an external circuit and the conductor via the connection terminals. And a plurality of connectors to
In a mounting portion of the connector of the cable, a molded portion for sealing only a connection portion between a predetermined conductor and the connection terminal among the conductors of the cable passing through the mounting portion is formed. And flat harness. 2. The flat harness according to claim 1, wherein the cable is a flat cable having a structure in which each of the plurality of conductors is covered with an insulating coating, and the insulating coatings are connected to each other. 3. 2. The flat harness according to claim 1, wherein the cable is a flexible flat cable having a structure in which the plurality of conductors are covered with an insulating coating formed two-dimensionally by lamination or extrusion. 3. The cable has a predetermined length formed along the conductor, which penetrates at least the predetermined conductor and the insulating coating between the predetermined conductor and a conductor adjacent to the predetermined conductor at a mounting portion of each connector. The flat harness according to any one of claims 1 to 3, wherein a plurality of slits or cuts are provided in the arrangement direction of the conductors. The plurality of connectors includes a connector housing having a terminal receiving hole for receiving the connection terminal,
The connection terminal is formed by punching / bending a plate-shaped metal base material, and has a cylindrical shape connected to another connection terminal provided on another connector connected to the external circuit on the distal end side. A connection portion, a press-contact portion that bites into the insulating coating of the cable on the base end side, sandwiches the predetermined conductor and presses the same, and is housed in the terminal receiving hole at a predetermined position between the connection portion and the press-contact portion. The flat harness according to any one of claims 1 to 4, further comprising: a lid for closing the terminal receiving hole. The flat harness according to claim 5, wherein the lid portion of the connection terminal is formed such that a vertical cross-sectional shape thereof becomes a U-shape. The plurality of connectors includes a connector housing having a terminal receiving hole for receiving the connection terminal,
The connection terminal is formed by punching / bending a plate-shaped metal base material, and is connected to another connection terminal provided in another connector connected to the external circuit on the distal end side. A connection portion, comprising a press-contact portion that cuts into the insulating coating of the cable on the base end side and press-contacts the predetermined conductor by sandwiching the predetermined conductor.
The connecting part of the connection terminal is provided with a cylindrical fitting connection part which is attached to the connection part and directly fitted with the other connection terminal. Or the flat harness according to claim 1. The flat harness according to any one of claims 5 to 7, wherein the press contact portion of the connection terminal is formed thinner than other portions constituting the connection terminal by coining. The flat harness according to any one of claims 5 to 7, wherein the press-contact portion of the connection terminal is formed to be thicker than other portions constituting the connection terminal by bending. The connector housing includes a protrusion that is inserted into a part of each of the plurality of slits or cuts provided in the cable, and that sets the plurality of slits or cuts in a state of being expanded in the arrangement direction of the conductor. The flat harness according to any one of claims 5 to 9, wherein the flat harness is provided.

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