JP2013109919A - Structure for mounting shield wire for vehicle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To shield noises generated from a region from which a shield layer of a shield wire is exfoliated.SOLUTION: In a shield structure of a shield wire, the shield wire is inserted in a metallic shield case mounted to a vehicle, and is connected to an electric component in the shield case. A through hole of the shield wire is provided on a side wall of the shield case, and a shielding part surrounding the through hole is provided on a metallic bracket for fixing a harness mounted to an outer face of the shield case to project outward from an outer side of the side wall. An exfoliated region from which a shield layer of the shield wire is exfoliated is surrounded by the shielding part, and a ground terminal connected to the shield layer of the shield wire is connected to the bracket.

Description

  BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shielded wire mounting structure for a vehicle, and more particularly, to block noise from a high-voltage shielded wire inserted into a metal shield case that houses a battery pack mounted on an electric vehicle or a hybrid vehicle, and the shield. It is suitably used for ground connection of a shield layer of an electric wire.

  In the metal shield case that accommodates the battery pack or the like, a high-voltage shielded electric wire is inserted through a through hole provided in the shield case, and the battery pack accommodated in the shield case or an electrical component such as a fuse connected to the battery pack is connected. Connected to the product. Thus, since the high voltage | pressure electric wire connected with high voltage | pressure power sources, such as a battery pack, becomes a noise generation source, the shield electric wire is used.

  As shown in FIG. 7, in the shielded electric wire 100, the electric wire 101 is covered with a shield layer 102 made of a metal braided tube or a metal foil tape, and the shield layer 102 is covered with a sheath 103 made of an insulating cover layer. In the shielded electric wire 100, the sheath 103 is peeled off from the tip by a required dimension to expose the shield layer 102, the exposed shield layer 102 is drawn from the outer periphery of the electric wire 101, and the ground terminal 105 is connected to the tip. The ground terminal 105 is bolted to a metal plate or the like and connected to the ground. Further, the insulation coating layer 101a of the electric wire 101 from which the sheath 103 and the shield layer 102 have been peeled is peeled off, the terminal 106 is connected to the exposed core wire 101b, and the terminal 106 is connected to an electrical component.

When connecting the shielded wire to an electrical component housed in a shield case, if the length of the shielded wire to be wired in the shield case is large, the shield layer is peeled off by placing the peeled portion of the shield layer in the shield case. In addition, the ground terminal connected to the shield layer can be bolted to the inner surface of the shield case for ground connection.
However, if the electrical component in the shield case and the shielded wire are connected immediately after insertion of the shielded wire into the shield case, the sheath of the shielded wire is peeled outside the shield case, the shield layer is pulled out of the wire, and the shield It is necessary to connect the ground on the outer side of the case. Therefore, the shielded wire has a problem that the wire not covered with the shield layer exists outside the shield case, and the shield function is lowered and the ground connection structure is complicated.

In order to deal with the above problem, Japanese Patent Laid-Open No. 8-96868 proposes a ground connection structure for shielded wires. As shown in FIG. 8, the ground connection structure includes a shield wire 210 inserted through a through hole 201 provided in the metal case 200 and a shield cap 220 fixed to the outer surface of the metal case 200 with a bolt 202. The sheath (outer skin) 211 of the shielded electric wire 210 is peeled off at a position inside the shield cap 220, and the shield ring 213 is externally fitted to the exposed metal braided wire (shield layer) 212. A spring piece 230 is mounted between them.
With the above configuration, the portion of the shielded electric wire 210 from which the shield layer 212 has been peeled is positioned within the shield cap 220 and the shield function is maintained. The shield layer 212 of the shielded electric wire 210 is electrically connected to the metal case 200 via the shield ring 213, the spring piece 230, and the shield cap 220, and the shield layer 212 is grounded.

Japanese Patent Laid-Open No. 8-96868

  With the structure of Patent Document 1, the shield ring 213 that is externally fitted to the exposed shield layer 212 of the shielded electric wire 210, the spring piece 230 that contacts the shield ring 213, the shield cap 220 that holds the spring piece 230, and the shield There is a problem that a large number of parts such as bolts 202 for fixing the cap 220 to the metal case 200 are required, resulting in high costs. And since the said earth connection is made for every shield electric wire, if the number of shield electric wires increases, there will be a problem that earth connection work will increase and cost will increase further.

  The present invention has been made in order to solve the above-described problem. When a shielded wire inserted into a shield case needs to be peeled off the shield layer, the shield function can be maintained with a simple configuration. In addition, it is an object to enable ground connection of the shield layer.

To achieve the above object, the present invention is a shielded wire mounting structure in which a shielded wire is inserted into a metal shield case mounted on a vehicle and connected to electrical components in the shield case,
The shield case has a through hole in the side wall of the shield case, and a shield bracket that surrounds the through hole is formed outwardly from the outer surface side of the side wall in a metal bracket for fixing the harness attached to the outer surface of the shield case. It is configured to project to the side, surround the peeled area where the shield layer of the shielded electric wire is peeled off by the shielding portion, and connect the ground terminal connected to the shield layer of the shielded electric wire to the bracket. The mounting structure of the shielded electric wire for vehicles is provided.

  As described above, the shielded wire mounting structure of the present invention has a shielded wire stripping region on a metal bracket attached to the shield case when the stripped region from which the shield layer of the shielded wire is peeled is located outside the shield case. Since there is a shielding part that surrounds and the earth terminal connected to the shield layer is fixed to the bracket for earth connection, there is no need to provide a shielding part and dedicated parts for earth connection, and there are many special parts Compared with the said patent document 1 which has provided, cost reduction can be aimed at significantly.

The shield case is a metal case of a battery pack module mounted on an electric vehicle or a hybrid vehicle. The battery case is accommodated in the shield case and the electrical component is accommodated, and the electrical component is the battery. It is an electrical component including a fuse or a relay connected to the high-voltage power line connected to the pack and the shielded electric wire,
At least a part of the shielded wires is connected to a terminal at a position close to the through hole, and is connected to the electrical component via the terminal.

  Since a shielded electric wire connected to a relay or the like in a battery pack module mounted on an electric vehicle or the like has a high voltage, a peeled area without a shield layer becomes a large noise generation source. Therefore, if the peeled area of the high-voltage shielded electric wire is shielded with a bracket, the generation of large noise can be prevented.

  A plurality of the through holes are provided in parallel on a side wall of the shield case, and a shielding portion provided on the bracket is a U-shaped with both side walls and a connecting wall, and the shielded electric wires inserted into the through holes at the both side walls are provided. The shield wire is sandwiched in the left-right direction, the shield wire is sandwiched between the connection wall and the flange in the vertical direction, and a band clamp wound around the shield wire is inserted and locked in a lock hole provided in the connection wall.

  The shielding portion provided on the bracket is not limited to the U-shape, and may have a shape including a bent upper wall that contacts the flange at the upper end of one side wall. Or you may project the collar part which closes the upper surface opening of a U-shaped shielding part on the flange of a shield case.

  According to the shielded wire mounting structure for a vehicle of the present invention, the shape of the bracket attached to the shield case is improved, and the shielding portion surrounding the portion where the shield layer of the shielded wire is peeled off is provided. Noise generated from shielded wires can be cut off without providing dedicated parts. In addition, since the shield layer of the shielded wire is grounded to the bracket, a separate part for ground connection is not required. Thus, noise shielding of the shielded wire and ground connection of the shield layer can be performed without increasing the number of parts, and a significant reduction in cost can be realized.

It is a schematic sectional drawing which shows 1st Embodiment of this invention. It is a left view of the state mounted in the vehicle body. It is drawing explaining a shield wire. (A) and (B) are the schematic which shows the modification of 1st Embodiment. It is a principal part perspective view of the battery pack module of 2nd Embodiment. (A) is a perspective view of the state which has not attached the cover of the battery pack module, (B) is a perspective view of the state which attached the cover. (A) The front view of a shield wire, (B) is the BB sectional drawing of (A). It is drawing which shows a prior art example.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to 3 show a first embodiment.
An electrical component 2 made of a printed board with a fuse, a relay, or a connector is accommodated in a metal shield case 1 mounted on an automobile, and a shielded electric wire 3 connected to the electrical component 2 is provided on the side wall 1a of the shield case 1 The terminal 4 inserted into the through hole 1 h and connected to the end of the shielded electric wire 3 is connected to the electrical component 2. The shield case 1 is composed of a case body made of aluminum alloy or the like and a lid.

  There are a plurality of shielded electric wires 3 to be inserted into the shield case 1, and as shown in FIG. The shield wire 1 is inserted into the three through holes 1h drilled in parallel with the side wall 1a of the shield case 1, and the terminal 4 connected to the end of each shield wire 3 is located close to the through hole 1h. Is connected to the electrical component 2. Therefore, the sheath on the terminal side of the shielded electric wire 3 and the peeled region X of the shield layer extend to the outside of the shield case 1 through the through hole 1h. Specifically, as shown in FIG. 7, as shown in FIG. 3, the shielded electric wire 3 peels off the required length sheath 3a on the terminal side to expose the shield layer 3b made of a metal braided tube, and exposes the exposed metal. The braided tube is peeled off from the outer periphery of the core electric wire 3 c and extended to the side to be soldered to the ground wire 5, and the ground terminal 6 is attached to the tip of the ground wire 5. The core wire 3c from which the shield layer 3b has been peeled is further stripped of the insulation coating from the tip to expose the core wire, and the terminal 4 is connected to the tip of the core wire by pressure bonding.

  As described above, since it is necessary to skin the shield layer 3b from the terminal for a required length on the terminal side of the shielded wire 3 connecting the terminal 4, the skinned region X passes through the through hole 1h of the shield case 1, The shield case 1 extends outward. Since noise is generated from the extended portion, it is necessary to shield the peeled area located outside the shield case 1.

  On the other hand, a harness fixing bracket 10 is provided on the outer surface of the shield case 1. The bracket 10 is in contact with a bottom wall portion 10r that is bolted to a vehicle body fixing cross member 11 positioned on the outer surface of the bottom wall of the shield case 1 and a lower outer surface of the side wall 1a provided with the through hole 1h from the bottom wall portion 10r. Thus, the side portion 12 is provided by being refracted. A shielding part 13 is provided outward from the upper end of the side part 12.

  The shielding part 13 is substantially U-shaped, the central connecting part 13a protrudes outward from the lower part of the parallel through-holes 1h in the horizontal direction, and both side parts 13b and 13c of the connecting part 13a are refracted upward in the vertical direction. doing. The three through holes 1h are located between the side portions 13b and 13c, and the peeled area X of the three shielded wires 3 inserted into the through holes 1h is sandwiched between the side portions 13b and 13c of the shielding portion 13. . Further, as shown in FIG. 2, the upper ends of both side portions 13b and 13c abut against a flange F projecting from the upper end of the side wall 1a of the shield case 1 and the lower end of the peripheral wall of the lid 1f. Thereby, the connection part 13a of the shielding part 13 opposes the flange F up and down, and the peeled area X of the three shielded wires 3 is sandwiched between the flange F and the connection part 13a. Thus, the noise generated from the peeled area X can be shielded by surrounding the peeled area X of the three shielded wires 3 with the shielding portion 13 of the bracket 10 and the flange F.

  The outward projecting dimension S of the connecting part 13a of the shielding part 13 is a dimension that protrudes outward beyond the peeled area X of the shielded electric wire 3, and is wound around each shielded electric cable 3 along the protruding edge of the connecting part 13a. Clamp locking holes 15 of the band clamp 8 are arranged side by side. Further, a bolt 16 attached to the ground terminal 6 connected to the shield layer 3b of the shielded electric wire 3 and a nut 17 to be screwed are fixed to the connecting portion 13a by soldering.

  Further, as shown in FIG. 2, a vehicle body fixing cross member 11 is projected from the outside of the bottom wall of the shield case 1 and is bolted to the side members A and B.

  As shown in FIG. 4 (A), bent seats 13d and 13e are provided at the upper ends of both side portions 13b and 13c of the shielding portion 13, and the mounting seat portions are bolted to the flange F. good. Further, as shown in FIG. 4B, the upper ends of both side portions 13b and 13c of the shielding portion 13 may be abutted against the flange portion 1u protruding from the shield case lid.

Next, a method for attaching the shielded electric wire 3 to the shield case 1 will be described.
When the shielded wire 3 is inserted through the through-hole 1h of the shield case 1 and the terminal connected to the terminal is connected to the electrical component 2 accommodated in the shield case 1, the peeled area where the sheath 3a and the shield layer 3b of the shielded wire 3 are peeled off X extends outward from the shield case 1. The extended peeled area X is surrounded by the shielding part 13 of the bracket 10 at the lower part and the left and right side parts.
Further, the band clamp 8 is wound around the shield wire 3 at a position close to the peeled area X and fastened, and the clip 8a of the band clamp 8 is inserted into the clamp locking hole 15 provided in the connecting portion 13a of the shielding portion 13. Insert and lock. Further, the bolt 16 is passed through the bolt hole of the ground terminal 6 connected to the shield layer 3b from which the shield wire 3 has been peeled off, and the bolt 16 is screwed to the nut 17 which is soldered to the connecting portion 13a. As a result, the ground terminal 6 is conducted to the shield case 1 via the bracket 10 and connected to the ground.

  The shield case 1 connected to the shield wire 3 as described above is mounted with the shield case 1 by bolting and fixing the vehicle body fixing cross member 11 to the side members A and B of the vehicle. The peeled area X of the shielded electric wire 3 extending outward from the shield case 1 is surrounded by the shielding portion 13 of the metal bracket 10 and the metal flange F, and the peeled area where the shield layer 3b is peeled off. Noise generated from X can be shielded.

  If it is the said structure, in order to shield the noise which generate | occur | produces from the peeling area | region X of the shield electric wire 3, since only the shielding part protrudes from the bracket 10, many components required by the said patent document 1 are included. It becomes unnecessary. Further, the ground connection of the shield layer 3b of the shielded electric wire 3 can be easily performed by simply bolting the ground terminal 6 of the ground wire terminal connected to the shield layer 3b to the bracket 10. In addition, the connection position of the ground terminal 6 can be adjusted to an arbitrary position of the bracket 10.

5 and 6 show a second embodiment.
In the second embodiment, a metal case of a battery pack module 20 mounted on an electric vehicle is used as a shield case 21. The battery pack module 20 is mounted on a portion sandwiched between cross members at the bottom of the floor panel. The shield case 21 includes a main body 21a and a lid 21b. FIG. 6A shows a state where the shield case 21 is not closed with the lid 21b, and FIG. 6B shows a state where the shield case 21 is closed with the lid 21b.

  The battery pack module 20 accommodates a large number of battery packs 25 in a shield case main body 21a, and a space that does not accommodate the battery pack 25 serves as an electrical component accommodating portion 24 including fuses, and mainly accommodates a plurality of high-voltage fuses 26. doing. The power supply side of these high-voltage fuses 26 is connected to the battery pack 25 via a power supply line 27, and the high-voltage fuse 26 is connected to the high-voltage shielded electric wire 3 inserted into the shield case body 21a. The shielded electric wire 3 includes three shielded electric wires 3 inserted from the outside through three through holes 21h drilled in parallel in the side wall of the shield case main body 21a.

  A bracket 10 provided with a shielding portion 13 having a U-shaped connecting portion 13a and both side portions 13b and 13c similar to the first embodiment is attached to the shielding case main body 21a. Since the other structure of this bracket 10 is the same as that of 1st Embodiment, description is abbreviate | omitted.

  As described above, since the shielded electric wire 3 connected to the high-voltage fuse housed in the battery pack module has a high voltage, if the peeled area of the shield layer is located outside the shield case, it becomes a noise generation source. Since it is shielded by 13, noise can be shielded.

DESCRIPTION OF SYMBOLS 1 Shield case 1h Through-hole 3 Shield electric wire 3a Sheath 3b Shield layer 3c Core electric wire 4 Terminal 6 Ground terminal 8 Band clamp
10 Bracket 13 Shield 20 Battery pack module 25 Battery pack

Claims (3)

A shielded wire mounting structure in which a shielded wire is inserted into a metal shield case mounted on a vehicle and connected to electrical components in the shield case,
The shield case has a through hole in the side wall of the shield case, and a shield bracket that surrounds the through hole is formed outwardly from the outer surface side of the side wall in a metal bracket for fixing the harness attached to the outer surface of the shield case. It is configured to project to the side, surround the peeled area where the shield layer of the shielded electric wire is peeled off by the shielding portion, and connect the ground terminal connected to the shield layer of the shielded electric wire to the bracket. A shielded wire mounting structure for a vehicle. The shield case is a case of a battery pack module mounted on an electric vehicle or a hybrid vehicle. The battery case is accommodated in the shield case and the electrical component is accommodated, and the electrical component is connected to the battery pack. An electrical component including a fuse or a relay connected to the high-voltage power supply line and the high-voltage shielded electric wire,
2. The vehicle shield according to claim 1, wherein a terminal of at least a part of the shielded electric wire is connected at a position close to the through hole, and is connected to the electrical component via the terminal. Electric wire mounting structure.   A plurality of the through holes are provided in parallel on a side wall of the shield case, and a shielding portion provided on the bracket is a U-shaped with both side walls and a connecting wall, and the shielded electric wires inserted into the through holes at the both side walls are provided. The sandwiched wire is sandwiched in the left-right direction, the shield wire is sandwiched in the vertical direction between the connecting wall and the flange, and a band clamp wound around the shielded wire is inserted and locked into a locking hole provided in the connecting wall. The mounting structure of the shielded electric wire for vehicles according to claim 1 or claim 2.

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