JP7229455B2 - Connection structure between electric wires and holding metal fittings - Google Patents

Description

The present invention relates to a structure for connecting electric wires and metal fittings.

The terminal fitting described in Patent Document 1 is formed by bending a metal plate punched into a predetermined shape, and includes a longitudinally extending base portion, a pair of crimping pieces, a connecting portion, and an arm portion. there is
The pair of crimping pieces extend from the left and right side edges of the base portion and are crimped to the sheath of the shielded wire via a braided wire folded back on the outer circumference of the sheath.

The connecting portion extends from one side edge of the base portion in a region behind the crimping piece in the base portion. A bolt or the like inserted through a connection hole formed in the connection portion is connected to the ground member.
The arm portion is arranged opposite the connecting portion with respect to the base portion. The arms and bases adjacent to the arms are crimped to the sheath while wrapping around a portion of the outer circumference of the sheath.

JP 2009-117286 A

However, with respect to the longitudinal direction of the base portion (corresponding to the longitudinal direction of the electric wire), it is necessary to arrange the connection portion at a position separated from the pair of crimping pieces. For this reason, the terminal fittings that hold the electric wires become large in the longitudinal direction of the electric wires. In addition, the arm portion is wound only around a part of the outer circumference of the sheath, and the crimping holding force is weak.
SUMMARY OF THE INVENTION An object of the present invention is to provide a connection structure between an electric wire and a holding metal fitting, which is small in size and has a high crimping holding force.

The invention according to claim 1 comprises an electric wire (20) extending in the longitudinal direction (X) and a single winding direction around the electric wire from the winding start end (50s) to the winding end (50e). a crimping portion (50) which is crimped and fixed to the electric wire in a state in which it is wound to form an overlapped region (OL) and which is formed in a polygonal shape when viewed along the longitudinal direction of the electric wire; a holding metal fitting (30; 30P; 30Q) including an attached portion (60) that is connected directly or indirectly via an intervening portion (62; 63) to the winding start end and attached to an object to be attached; A portion of the crimped fixing portion and a portion of the attached portion overlap each other in the longitudinal direction of the electric wire, and the crimped portion is a predetermined distance from the winding start end with respect to the circumferential direction of the electric wire. A superimposed outer portion, which is a portion within a range, is superimposed on an outer side of a superimposed inner portion, which is a portion within a predetermined range from the end of the winding in the circumferential direction of the electric wire, to form the superimposed region, and the superimposed region is formed in the longitudinal direction of the electric wire. , the crimped and fixed portion includes a linear bottom side portion in which the winding end is arranged in the middle, and a linear side portion adjacent to the bottom side portion and one end of the bottom side portion a curved lower corner portion (57) formed between and separated from the middle portion , the lower corner portion being disposed in the overlapping region and having the winding start end disposed thereon; A connection structure (10; 10P; 10Q) between an electric wire and a holding metal fitting is provided.

Although alphanumeric characters in parentheses represent corresponding components and the like in embodiments described later, this does not mean that the present invention should be limited to those embodiments. The same shall apply hereinafter in this section.
According to the second aspect of the invention, the intermediate portion is connected to the winding start end via a first connection edge (66) extending parallel to the longitudinal direction of the electric wire along the winding start end. A first plate portion (64) is cross-connected to the first plate portion via a second connection edge (67) and cross-connected to the attached portion via a third connection edge (68). and a second plate (65).

According to the third aspect of the invention, a portion of the crimped fixing portion and a portion of the attached portion overlap each other in the longitudinal direction of the electric wire, and the remaining portion of the crimped portion and the remaining portion of the attached portion may be different in position in the longitudinal direction of the electric wire.
According to a fourth aspect of the invention, the first connecting edge and the second connecting edge may be parallel, and the second connecting edge and the third connecting edge may be inclined with respect to each other.
According to a fifth aspect of the present invention, the first connection edge and the second connection edge may be inclined with respect to each other.

In the invention according to claim 1, the crimped fixing portion, which is wound more than once in a predetermined winding direction from the winding start end to the winding end, is crimped and fixed to the electric wire in a state of forming an overlapping region. . Therefore, the opening of the crimping fixing portion is suppressed, and the crimping holding force is increased. In addition, the attached portion is connected to the winding start end directly or indirectly via an intervening portion, and at least a portion of the attached portion and at least a portion of the crimp-fixed portion are separated from each other in the longitudinal direction of the wire. overlapping positions. Therefore, miniaturization can be achieved. In addition, in the crimped fixing portion forming the polygonal shape, at the corners arranged in the overlapping region, the opening of the overlapping inner portion is suppressed by the overlapping outside portion. Therefore, the crimping holding force can be improved.

In the invention according to claim 2, the positional relationship between the first connection edge and the second connection edge, the positional relationship between the second connection edge and the third connection edge, and the relationship between the first plate portion and the second plate portion By setting the crossing angle and the crossing angle between the second plate portion and the mounted portion, it is possible to obtain a desired mounting position and a desired mounting angle with respect to the object to be mounted. Therefore, it is possible to improve the flexibility of mounting while achieving miniaturization .

FIGS. 1(a) and 1(b) are schematic perspective views of a connection structure between an electric wire and a metal fitting according to a first embodiment of the present invention, viewed from different angles. It is a schematic sectional drawing of an electric wire. It is a schematic sectional drawing of the connection structure of an electric wire and a holding metal fitting. FIGS. 4A to 4F are process diagrams sequentially showing a method of connecting electric wires and holding metal fittings. FIGS. 5(a) and 5(b) sequentially show the state before crimping and the state after crimping in the crimping process, which is the final process of the connection method. FIGS. 6A to 6D are schematic diagrams sequentially showing changes in the state of the holding metal fitting material in the crimping process, which is the final process of the connection method. FIG. 7 is a schematic plan view of a connection structure between electric wires and metal fittings according to a second embodiment of the present invention. FIG. 8 is a schematic perspective view of a connection structure between electric wires and metal fittings according to a third embodiment of the present invention. FIG. 9 is a partially broken perspective view from another angle of the metal fitting in the third embodiment.

Embodiments of the present invention will be described below with reference to the drawings.
(First embodiment)
FIGS. 1A and 1B are schematic perspective views of a connection structure 10 between an electric wire and a metal fitting according to a first embodiment of the present invention, viewed from different angles. FIG. 2 is a schematic cross-sectional view of a shielded wire 20 as a wire before crimping. FIG. 3 is a schematic cross-sectional view of a connection structure 10 (hereinbelow also simply referred to as connection structure 10) between an electric wire and a holding metal fitting.

As shown in FIGS. 1(a), (b) and 3, the connection structure 10 includes a shielded wire 20 extending in the longitudinal direction X, a holding metal fitting 30, and a sleeve 40. As shown in FIG.
First, the shielded wire 20 will be described with reference to FIG. The shielded wire 20 includes a plurality of covered wires 21, a tubular braided wire 22 surrounding the plurality of covered wires 21, an insulating sheath 23 surrounding the braided wire 22, and an insulating central member 24. ing. A plurality of covered electric wires 21 are arranged so as to surround the central member 24 . Each covered electric wire 21 includes a conductor portion 21a and an insulating portion 21b surrounding the conductor portion 21a.

At the end of the shielded wire 20, the sheath 23 is stripped. The exposed portion of the braided wire 22 exposed when the sheath 23 is stripped is folded back to form a cylindrical folded portion 22a surrounding the sheath 23 [see also FIGS. 4(c) and 4(d)]. . As shown in FIG. 3, the sleeve 40 is fitted to the outer circumference 23a of the sheath 23 inside the folded portion 22a. That is, the folded portion 22 a of the braided wire 22 surrounds the sheath 23 .

Next, the holding metal fitting 30 will be described.
As shown in FIGS. 1(a) and 1(b), the holding metal fitting 30 includes a caulking fixing portion 50 and an attached portion 60. As shown in FIGS. The holding metal fitting 30 is made of a sheet metal material. The crimping fixing portion 50 extends more than one turn in a predetermined winding direction R [clockwise in FIGS. It is crimped and fixed to the shield wire 20 in a state in which it is wound around the wire to form the overlapping region OL. The crimping fixing portion 50 is in conductive contact with the folded portion 22a, and the holding metal fitting 30 also functions as a terminal metal fitting for grounding.

As shown in FIG. 3 , the crimped fixing portion 50 includes an upper bottom portion 51 , a lower bottom portion 52 parallel to the upper bottom portion 51 , a first leg portion 53 , a first It forms a trapezoidal shape including two legs 54 .
The crimping fixing portion 50 includes a curved first upper corner portion 55 formed between the upper bottom portion 51 and the first leg portion 53 and a curved corner portion 55 formed between the upper bottom portion 51 and the second leg portion 54 . and a shaped second upper corner portion 56 . In addition, the crimping fixing portion 50 is formed between a curved first lower corner portion 57 formed between the lower bottom portion 52 and the first leg portion 53 and between the lower bottom portion 52 and the second leg portion 54 . and a rounded second lower corner portion 58 .

A winding start end 50 s is arranged at the first lower corner portion 57 . The lower bottom portion 52 is wider than the upper bottom portion 51 . A winding end 50 e is arranged in the middle portion 52 P of the lower bottom portion 52 .
In the crimping fixing portion 50, the overlapping outer portion OL1, which is a portion within a predetermined range from the winding start end 50s in the circumferential direction of the shielded wire 20, is a portion within a predetermined range from the winding end 50e in the circumferential direction of the shielded wire 20. A polymerized region OL is formed by polymerizing on the outside of the polymerized inner portion OL2. That is, the overlapping region OL includes an overlapping outer portion OL1 and an overlapping inner portion OL2.

The crimped fixing portion 50 is crimped and fixed to the sleeve 40 via the folded portion 22a in a state in which it is wound around the folded portion 22a more than once in the winding direction R to form the overlapping region OL.
The attached portion 60 is formed of a rectangular plate directly connected to the winding start end 50s and extends outward in parallel with the lower bottom portion 52 . The attached portion 60 is connected to the winding start end 50s via a connecting edge 60a extending in the longitudinal direction X of the shielded wire 20 along the winding start end 50s. The crimping fixing portion 50 and the attached portion 60 are arranged at overlapping positions with respect to the longitudinal direction X of the shielded wire 20 . The attached portion 60 is formed with an insertion hole 61 through which a bolt (not shown) is inserted for attachment to an object to be attached.

The sleeve 40 is made of metal and has a trapezoidal shape similar to the crimping portion 50 . The sleeve 40 forms a trapezoidal shape including an upper bottom portion 41 , a lower bottom portion 42 , a first leg portion 43 and a second leg portion 44 when viewed along the longitudinal direction of the shielded wire 20 .
The sleeve 40 has a curved first upper corner portion 45 formed between the upper bottom portion 41 and the first leg portion 43 and a curved corner portion 45 formed between the upper bottom portion 41 and the second leg portion 44 . and a second upper corner portion 46 . The sleeve 40 also has a curved first lower corner portion 47 formed between the lower bottom portion 42 and the first leg portion 43, and a curved first lower corner portion 47 formed between the lower bottom portion 42 and the second leg portion 44. and a curved second lower corner portion 48 .

The upper bottom portion 41 of the sleeve 40 is arranged inside the upper bottom portion 51 of the crimping fixing portion 50 , and the lower bottom portion 42 of the sleeve 40 is arranged inside the lower bottom portion 52 of the crimping fixing portion 50 . The first leg portion 43 of the sleeve 40 is arranged inside the first leg portion 53 of the crimping portion 50 , and the second leg portion 44 of the sleeve 40 is arranged inside the second leg portion 54 of the crimping portion 50 . are placed in

Also, the first upper corner portion 45 of the sleeve 40 is arranged inside the first upper corner portion 55 of the crimping portion 50 , and the second upper corner portion 46 of the sleeve 40 is arranged at the second corner portion of the crimping portion 50 . It is arranged inside the upper corner portion 56 . A first lower corner portion 47 of the sleeve 40 is positioned inside a first lower corner portion 57 of the crimp portion 50 and a second lower corner portion 48 of the sleeve 40 is positioned at the first lower corner portion 57 of the crimp portion 50 . It is arranged inside the two lower corners 58 .

The first lower corner portion 57 of the crimping fixing portion 50 and the first lower corner portion 47 of the sleeve 40, which are opposed to each other, constitute an overlapping area inner corner portion arranged in the overlapping area OL.
In addition, the first upper corner portion 55 and the first upper corner portion 45 facing each other constitute an overlapping area outside corner portion arranged outside the overlapping area OL. The second upper corner portion 56 and the second upper corner portion 46 facing each other constitute an overlapping area outside corner portion arranged outside the overlapping area OL. The second lower corner portion 58 and the second lower corner portion 48 facing each other constitute an overlapping area outside corner portion arranged outside the overlapping area OL.

Next, a method for connecting the shielded wire 20 and the holding metal fitting 30 will be described in order of steps with reference to FIGS. 4(a) to 4(f) and FIGS.
First, in the sleeve material mounting step shown in FIGS. 4A and 4B, a cylindrical sleeve material 400 for forming the sleeve 40 is attached to the outer circumference 23a of the sheath 23 of the shielded wire 20, and the end of the shielded wire 20 is attached. Fit from the 20a side.

Next, in the sheath removing step shown in FIG. 4(c), the sheath 23 is peeled off and removed from the end 20a of the shielded wire 20 in a predetermined range. Thereby, a predetermined range of the braided wire 22 is exposed from the terminal 20a.
Next, in the braided wire folding step shown in FIG. 4D, the exposed portion of the braided wire 22 is folded back to the outside of the sleeve material 400 to form the folded portion 22a of the braided wire 22 .

4(e) and 4(f), the holding metal material 70 is mounted so as to surround the folded portion 22a from the longitudinal direction X of the shielded wire 20. As shown in FIG.
Specifically, the metal fitting material 70 includes a flat plate-like first plate portion 71 corresponding to the attached portion 60 and an arc plate-like second plate portion 72 corresponding to the outer portion of the first lower corner portion 57 . , a flat plate-like third plate portion 73 corresponding to the outer portion of the lower bottom portion 52 , and an arc plate-like fourth plate portion 74 .

The fourth plate portion 74 has a base end portion 74a connected to the third plate portion 73, and a tip end portion 74b that is close to the inside of the second plate portion 72 with a gap therebetween and forms a winding end portion 50e. including. The shield wire 20 is inserted into the insertion space S formed by the flat third plate portion 73 and the arc plate-shaped fourth plate portion 74 .
Next, in the crimping process shown in FIGS. 5(a) and (b), the holding metal fitting material 70 with the shielded wire 20 inserted is placed on the lower mold 80 of the crimping mold 100, and then the crimping mold 100 is mounted. By lowering the upper mold 90, the inner surface of the cavity C formed between the lower mold 80 and the upper mold 90 crimps into a trapezoidal shape.

Specifically, the lower mold 80 includes a lower bottom portion forming portion 81, a first lower corner portion forming portion 82, and a second lower corner portion forming portion 83, which form part of the inner surface of the cavity C, respectively. including. The lower die 80 also includes a die matching portion 84 and a seat portion 85 that receives the first plate portion 71 corresponding to the attached portion 60 .
The upper mold 90 includes an upper bottom portion forming portion 91, a first leg portion forming portion 92, a second leg portion forming portion 93, and a first upper corner portion forming portion 94, which form part of the inner surface of the cavity C, respectively. and a second upper corner forming portion 95 . In addition, the upper die 90 is positioned between the die-matching portion 96 that contacts the die-matching portion 84 of the lower die 80 in the die-closed state and the seat portion 85 of the lower die 80 in the die-closed state. and a sandwiching portion 97 that sandwiches (mounted portion 60).

Here, FIGS. 6A to 6D are schematic diagrams showing changes in the state of the fourth plate portion 74 during the caulking process. 6A to 6D, illustration of the shield wire 20 and the sleeve 40 is omitted for simplification. From the state before crimping shown in FIG. 6( a ), as shown in FIG. The fourth plate portion 74 is pressed downward by the portion forming portion 92 and the second leg portion forming portion 93, the fourth plate portion 74 is deformed into an elliptical shape elongated vertically, and the distal end portion 74b of the fourth plate portion 74 It abuts on the middle portion of the third plate portion 73 .

Next, as the upper die 90 is further lowered, as shown in FIG. A second linear portion 74d having a shape similar to that of the portion 54, an apex portion 74e having a curved convex shape between the first linear portion 74c and the second linear portion 74d, and a first straight line having a tip portion 74b as a fulcrum. A bent shape portion 74f that is bent with respect to the shape portion is formed.

Next, as shown in FIGS. 6(d) and 5(b), the upper mold 90 is lowered to the clamped state, thereby forming the upper bottom portion 51, the lower bottom portion 52, the first leg portion 53, and the second A leg portion 54, a first upper corner portion 55, a second upper corner portion 56, a first lower corner portion 57, and a second lower corner portion 58 are formed. Further, the overlapped outer portion OL1, which is a portion within a predetermined range from the winding start end 50s corresponding to the base end portion 74a, is outside the overlapped inner portion OL2, which is a portion within a predetermined range from the winding end 50e corresponding to the tip portion 74b. It is polymerized to form a polymerized region OL.

When the upper base portion forming portion 91 of the upper die 90 forms the upper base portion 51 in the final stage of the crimping process, the upper base portion 51 is placed on the overlapping inner portion OL2 corresponding to the bent portion 74f to the overlapping outer portion OL1 side. can be pressed hard. Therefore, it is possible to strongly crimp the overlapping region OL with a high crimping load.
Further, since the first upper corner portion 55 and the second upper corner portion 56 are formed in the final stage of the crimping process, displacement of the winding end 50e in the winding direction R during the crimping process is prevented. There is no Therefore, it is possible to obtain the overlapping region OL having a required length with respect to the winding direction R.

Further, during crimping, the central member 24 of the shielded wire 20 functions to prevent the plurality of covered wires 21 around the central member 24 from being biased or twisted. 3 and 5B, illustration of the central member 24 is omitted.
In the present embodiment, the crimping portion 50, which is wound more than once in the predetermined winding direction R from the winding start end 50s to the winding end portion 50e, is crimped and fixed to the shield wire 20 in a state of forming the overlapping region OL. be done. Since the overlapping region OL suppresses the opening of the crimping fixing portion 50, the crimping holding force can be increased.

Also, the attached portion 60 is directly connected to the winding start end 50s, and the crimped portion 50 and the attached portion 60 overlap each other in the longitudinal direction X of the shielded wire 20 . Therefore, it is possible to reduce the size of the connection structure 10 in the longitudinal direction X of the shielded wire 20 by reducing the size of the holding metal fitting 30 .
Further, when viewed along the longitudinal direction X of the shielded wire 20, the crimped fixing portion 50 is formed in a polygonal shape including a first lower corner portion 57, which is a corner portion arranged in the overlapping region OL. In the first lower corner portion 57 arranged in the overlapping region OL, the opening of the overlapping inner portion OL2 is suppressed by the overlapping outer portion OL1. Therefore, the crimping holding force can be improved.

Also, the overlapping region OL of the crimping portion 50 wound more than once from the winding start end 50s to the winding end portion 50e is crimped and fixed to the inner sleeve 40 to be triple overlapped. Therefore, it is possible to suppress the opening of the crimped fixing portion 50 due to springback and increase the crimped holding force.
In addition, in a state in which the outer crimped fixing portion 50 and the inner sleeve 40 form mutually similar polygonal shapes, the tightening force of the outer crimped fixing portion 50 and the repulsive force of the inner sleeve 40 are counterbalanced, It is possible to reliably suppress the opening of the crimped fixing portion 50 due to springback.

Corresponding corner portions of the crimped fixing portion 50 and the sleeve 40 (first upper corner portions 55 and 45; second upper corner portions 56 and 46; first lower corner portions 57 and 47; 58, 48.), it is possible to reliably suppress the opening of the crimped fixing portion 50 due to springback.
In particular, since the first lower corner portion 57 of the overlapping region OL of the crimped fixing portion 50 is crimped and fixed to the first lower corner portion 47 of the sleeve 40, the opening of the crimped fixing portion 50 due to springback is ensured. can be suppressed.

In addition, the crimped fixing portion 50 forms a trapezoidal shape in a state in which it is wound more than one turn from the winding start end 50s to the winding end 50e. A portion within a predetermined range from the winding start end 50s arranged at the first lower corner portion 57 is used as the overlapped outer portion OL1, and a portion within a predetermined range from the winding end 50e arranged at the middle portion 52P of the lower bottom portion 52 is overlapped. As an inner part OL2, the polymerized outer part OL1 and the polymerized inner part OL2 form an overlapped region OL. Therefore, the opening force F (see FIG. 3) that causes the first leg portion 53 to open the lower end side around the upper end due to the springback of the crimped fixing portion 50 is superimposed at the first lower corner portion 57. It works in the direction of pressing and interfering the inner portion OL2 with the overlapping outer portion OL1. Therefore, it is possible to increase the crimping holding force.
(Second embodiment)
FIG. 7 is a schematic plan view of a connection structure 10P for electric wires and metal fittings according to a second embodiment of the present invention. The second embodiment shown in FIG. 7 differs from the first embodiment shown in FIG. It is that it is connected via a flat plate-like intervening portion 62 . The intervening portion 62 is connected to the winding start end 50s via a connection edge 62a extending in the longitudinal direction X of the shielded wire 20 along the winding start end 50s. Further, a portion of the crimped fixing portion 50 and a portion of the attached portion 60 overlap each other in the longitudinal direction X of the shielded wire 20 .

Interposed portion 62 is parallel to bottom portion 52 (not shown in FIG. 7) of crimped portion 50 . The intervening portion 62 and the attached portion 60 are formed flush with each other. The rectangular mounting portion 60 is connected stepwise to the rectangular intervening portion 62 .
In the present embodiment, as in the first embodiment, by suppressing the opening of the crimping fixing portion 50 formed with the overlapping region OL (not shown in FIG. 7), the crimping holding force can be improved. In addition, since a part of the crimped fixing part 50 and a part of the attached part 60 are arranged so as to overlap each other in the longitudinal direction X of the shielded wire 20, it is possible to freely attach the shielded wire 20 to an object to be attached while achieving miniaturization. degree can be improved.
(Third embodiment)
FIG. 8 is a schematic perspective view of a connection structure 10Q between electric wires and metal fittings according to a third embodiment of the present invention.

The third embodiment of FIG. 8 differs from the first embodiment of FIG. 1B in that, in the connection structure 10Q, in the holding metal fitting 30Q, the attached portion 60 is positioned at the winding start end 50s of the crimped fixing portion 50. It is connected via an angle-shaped intervening portion 63 .
Interposed portion 63 includes a flat first plate portion 64 and a flat second plate portion 65 . The first plate portion 64 is connected to the winding start end 50s of the crimping portion 50 via a first connecting edge 66 extending in the longitudinal direction X of the shielded wire 20 along the winding start end 50s.

FIG. 9 is a partially broken perspective view of the main part of the holding metal fitting 30Q from another angle. As shown in FIGS. 8 and 9 , the second plate portion 65 is cross-connected to the first plate portion 64 via a second connection edge 67 . As shown in FIG. 9, a first intersection angle θ1 formed by the first plate portion 64 and the second plate portion 65 is, for example, a right angle. The first connecting edge 66 and the second connecting edge 67 are parallel to each other.

The second plate portion 65 is cross-connected to the attached portion 60 via a third connection edge 68 . The second connecting edge 67 and the third connecting edge 68 are inclined with respect to each other. A second crossing angle θ2 formed by the second plate portion 65 and the attached portion 60 via the third connecting edge 68 is an obtuse angle.
As shown in FIG. 8 , the attached portion 60 is inclined with respect to the longitudinal direction X of the shielded wire 20 . Also, a portion of the crimped fixing portion 50 and a portion of the attached portion 60 are arranged so that the position in the longitudinal direction X of the shielded wire 20 overlaps.

Each of the connecting edges 66-68 has a predetermined bend R because the holding metal fitting 30Q is made of a sheet metal material. Also, the first connection edge 66 and the second connection edge 67 may be inclined with respect to each other. Also, the second connection edge 67 and the third connection edge 68 may be parallel to each other. Also, the first intersection angle θ1 may be an obtuse angle or an acute angle. Also, the second intersection angle θ2 may be a right angle or an acute angle. Moreover, the attached portion 60 may be formed of a laminated plate that is folded back and overlapped.

In the present embodiment, similarly to the first embodiment, by suppressing the opening of the crimping fixing portion 50 in which the overlapping region OL is formed, the crimping holding force can be improved. In addition, since a part of the crimped fixing part 50 and a part of the attached part 60 are arranged so as to overlap each other in the longitudinal direction X of the shielded wire 20, it is possible to freely attach the shielded wire 20 to an object to be attached while achieving miniaturization. degree can be improved.

In particular, the intervening portion 63 intersects the first plate portion 64 connected to the winding start end 50s at a first connection edge 66 along the winding start end and the first plate portion 64 via a second connection edge 67. It includes a second plate portion 65 that is connected and cross-connected to the attached portion 60 via a third connection edge 68 . Therefore, the positional relationship between the first connecting edge 66 and the second connecting edge 67, the positional relationship between the second connecting edge 67 and the third connecting edge 68, and the relationship between the first plate portion 64 and the second plate portion 65 are By setting the first intersection angle θ1 between the second plate portion 65 and the mounting portion 60 and the second intersection angle θ2 between the second plate portion 65 and the mounting portion 60, it is possible to obtain a desired mounting position and a desired mounting angle with respect to the object to be mounted. can. Therefore, it is possible to improve the flexibility of mounting while achieving miniaturization.

The present invention is not limited to each of the above-described embodiments. For example, although not shown, the holding metal fittings 30; 30P; It may be fixed.
Further, the shape of the crimping fixing portion 50 as viewed along the longitudinal direction X of the shielded wire 20 may be a polygonal shape other than a trapezoidal shape.

Also, in the shielded wire 20 , the covered wire 21 may be arranged instead of the central member 24 .
Also, the present invention may be applied to a normal coated electric wire that does not have a braided wire as an electric wire. In that case, the sleeve 40 may or may not be used.
In addition, the present invention can be modified in various ways within the scope of the claims.

10; 10P; 10Q Connection structure between electric wire and holding metal fitting 20 Shielded wire 30; 30P;
60 Attached portion 62 Interposed portion 63 Interposed portion 64 First plate portion 65 Second plate portion 66 First connection edge 67 Second connection edge 68 Third connection edge OL Overlapping region OL1 Overlapping outer portion OL2 Overlapping inner portion R Winding direction X Longitudinal direction θ1 First intersection angle θ2 Second intersection angle

Claims (5)

a wire extending in the longitudinal direction;
It is crimped and fixed to the electric wire in a state in which it is wound more than once around the electric wire in a single winding direction from the winding start end to the winding end so as to form an overlapping region, and along the longitudinal direction of the electric wire. A holding metal fitting including a crimped fixing portion formed in a polygonal shape when viewed from above, and an attached portion that is connected directly to the winding start end or indirectly via an intervening portion and attached to an object to be attached. prepared,
at least a portion of the crimped fixing portion and at least a portion of the attached portion overlap each other in the longitudinal direction of the electric wire;
In the caulking fixing portion, an overlapping outer portion, which is a portion within a predetermined range from the winding start end in the circumferential direction of the electric wire, is an outer side of an overlapping inner portion, which is a portion within a predetermined range from the winding end in the circumferential direction of the electric wire. is polymerized to form the polymerized region,
When viewed along the longitudinal direction of the electric wire, the crimped fixing portion is adjacent to a linear bottom portion in which the winding end is arranged in the middle, the bottom portion, and one end of the bottom portion . a curved lower corner portion formed between the linear side portion and spaced apart from the intermediate portion , the lower corner portion being disposed in the overlapping region and having the winding start end disposed thereon; A connection structure between an electric wire and a holding metal fitting, including . A connection structure between an electric wire and a holding metal fitting according to claim 1,
The intermediate portion is connected to the winding start end via a first connection edge extending parallel to the longitudinal direction of the electric wire along the winding start end, and via a second connection edge. A connection structure between an electric wire and a holding metal fitting, comprising a second plate portion that is cross-connected to the first plate portion and cross-connected to the attached portion via a third connection edge. A connection structure between an electric wire and a holding metal fitting according to claim 1,
A portion of the crimp-fixing portion and a portion of the attached portion overlap each other in the longitudinal direction of the electric wire, and the remaining portion of the crimp-fixing portion and the remaining portion of the attached portion are separated from each other. , a connection structure between an electric wire and a holding metal fitting, wherein the positions of the electric wire in the longitudinal direction are different. A connection structure between an electric wire and a holding metal fitting according to claim 2,
A connection structure between an electric wire and a holding metal fitting, wherein the first connection edge and the second connection edge are parallel, and the second connection edge and the third connection edge are inclined with respect to each other. A connection structure between an electric wire and a holding metal fitting according to claim 2,
A connection structure between an electric wire and a holding metal fitting, wherein the first connection edge and the second connection edge are inclined with respect to each other.

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