WO2020255710A1 - Electroconductive sheet with metal plates - Google Patents

Abstract

The objective of the present invention is to improve the degree of freedom in an extension direction of an electroconductive sheet as pertains to a structure for securing the electroconductive sheet. An electroconductive sheet with metal plates that is provided with the electroconductive sheet, a first metal plate, and a second metal plate separate from the first metal plate, the first and second metal plates being secured in a manner overlapping each other with the electroconductive sheet partly sandwiched between the first and second metal plates.

Description

Conductive sheet with metal plate

This disclosure relates to a conductive sheet with a metal plate.

Patent Document 1 discloses an electromagnetic shield member including an electromagnetic shield portion for wiring and an electromagnetic shield cover for a connection portion. The electromagnetic shield cover for the connection part is a cover main body that covers the connection at the end of the wiring member, and one end side edge of the electromagnetic shield for wiring by extending from the cover main body and bending and deforming so as to be folded back. It is configured to include a fixing piece that sandwiches and fixes the portion.

JP-A-2017-0222664

Here, it is desired to improve the degree of freedom regarding the extending direction of the conductive sheet such as the electromagnetic shield portion for wiring.

Therefore, the present disclosure aims to improve the degree of freedom in the extending direction of the conductive sheet with respect to the structure for fixing the conductive sheet.

The conductive sheet with a metal plate of the present disclosure includes a conductive sheet, a first metal plate, and a second metal plate that is a separate body from the first metal plate, and includes the first metal plate and the second metal plate. It is a conductive sheet with a metal plate in which the first metal plate and the second metal plate are overlapped and fixed to each other in a state where a part of the conductive sheet is sandwiched between the metal plate and the metal plate. ..

According to the present disclosure, with respect to the structure for fixing the conductive sheet, the degree of freedom in the extending direction of the conductive sheet is improved.

FIG. 1 is an explanatory diagram showing an example in which the electromagnetic shield member according to the first embodiment is provided between two electric devices. FIG. 2 is an exploded perspective view showing one end of the wiring member and the electromagnetic shield member. FIG. 3 is a cross-sectional view showing one end of the wiring member and one end of the electromagnetic shield member. FIG. 4 is a cross-sectional view of the metal plate and the metal cover. FIG. 5 is an explanatory view showing an example in which the conductive sheet with a metal plate according to the second embodiment is provided between two electric devices. FIG. 6 is a perspective view showing a conductive sheet with a metal plate. FIG. 7 is a perspective view showing a conductive sheet with a metal plate according to a modified example.

[Explanation of Embodiments of the present disclosure]
First, embodiments of the present disclosure will be listed and described.

The conductive sheet with a metal plate disclosed in the present disclosure is as follows.

(1) A conductive sheet, a first metal plate, and a second metal plate that is a separate body from the first metal plate are provided, and the first metal plate and the second metal plate are separated from each other. It is a conductive sheet with a metal plate in which the first metal plate and the second metal plate are overlapped and fixed to each other in a state where a part of the conductive sheet is sandwiched. A part of the conductive sheet is sandwiched and fixed between the first metal plate and the second metal plate. Therefore, there are less restrictions on the extending direction of the conductive sheet. As a result, the degree of freedom in the extending direction of the conductive sheet is improved.

(2) The conductive sheet with a metal plate of (1), and the conductive sheet may be an electromagnetic shield member. The degree of freedom in the extending direction of the conductive sheet, which is an electromagnetic shield member, is improved.

(3) The conductive sheet with a metal plate according to (2), at least one of the first metal plate and the second metal plate may be a metal cover that extends so as to cover the electromagnetically shielded target portion. .. The first metal plate and the second metal plate are overlapped with each other, and the conductive sheet is fixed to the metal cover. The first metal plate and the second metal plate are separate bodies. Therefore, in order to fix the conductive sheet, it is not necessary to form a folded portion on the metal cover. Therefore, the degree of freedom in the extending direction of the conductive sheet is improved.

(4) The conductive sheet with a metal plate according to (1), wherein the first metal plate and the second metal plate are fixed to one end of the conductive sheet, and the other end of the conductive sheet is formed. The connection fixing portion is fixed, and at least one of the first metal plate and the second metal plate is provided with a first fixing portion to be fixed to the first ground portion, and the connection fixing portion is fixed to the second ground portion. A second fixing portion to be formed may be provided. A conductive sheet with a metal plate is easily arranged between the first grounding portion and the second grounding portion.

(5) The conductive sheet with a metal plate according to any one of (1) to (4), even if the first metal plate and the second metal plate are fixed to each other by a mechanical clinch portion. Good. The first metal plate and the second metal plate are easily fixed.

(6) The conductive sheet with a metal plate according to (5), wherein the mechanical clinch portion is a sheet formed in a region where the first metal plate and the second metal plate sandwich a part of the conductive sheet. It may include a mechanical clinch portion for the region. The first metal plate and the second metal plate are fixed by firmly sandwiching the conductive sheet around the mechanical clinch portion for the sheet region.

(7) A conductive sheet with a metal plate according to any one of (1) to (6), wherein at least one of the first metal plate and the second metal plate is the first metal plate. A fixing portion may be provided on the side opposite to or to the side of the extending direction of the conductive sheet with respect to the region where the second metal plate and the second metal plate overlap. A second metal plate that is separate from the first metal plate is superposed on the first metal plate. Therefore, on at least one of the first metal plate and the second metal plate, the side or side opposite to the extending direction of the conductive sheet with respect to the region where the first metal plate and the second metal plate overlap. In addition, a fixing portion can be easily provided.

(8) A conductive sheet with a metal plate according to any one of (1) to (7), wherein an opening penetrating the front and back is formed in at least one of the first metal plate and the second metal plate. The edge of the conductive sheet may be located in the opening. The edges of the conductive sheet are observed through the openings. As a result, the position of the edge of the conductive sheet can be easily confirmed.

[Details of Embodiments of the present disclosure]
Specific examples of the electromagnetic shield member of the present disclosure will be described below with reference to the drawings. It should be noted that the present disclosure is not limited to these examples, but is indicated by the scope of claims and is intended to include all modifications within the meaning and scope equivalent to the scope of claims.

[Embodiment 1]
Hereinafter, the electromagnetic shield member according to the first embodiment will be described. The electromagnetic shield member according to the first embodiment is an example of a conductive sheet with a metal plate.

<About the overall configuration>
FIG. 1 is an explanatory diagram showing an example in which an electromagnetic shield member 30 is provided between two electric devices 10 and 14 (first electric device 10 and second electric device 14). The two electric devices 10 and 14 may be, for example, devices mounted on a vehicle or the like. The combination of the two electric devices 10 and 14 is a motor for driving a drive in an electric vehicle and an inverter for driving the motor, or an inverter for driving the motor and supplying power to the inverter. It may be a battery.

The wiring member 20 is connected to at least one of the two electric devices 10 and 14. The wiring member 20 is a member for connecting the first electric device 10 to another electric device or the like. FIG. 1 shows how one end of the wiring member 20 is connected to the first electric device 10. The other end of the wiring member 20 may be connected to the second electric device 14 or may be connected to another electric device.

The electromagnetic shield member 30 is a member that electromagnetically shields at least a part of the wiring member 20. Here, one end of the electromagnetic shield member 30 is fixed to the first electric device 10 in a state of covering the portion of the wiring member 20 on the first electric device 10 side. Further, the other end of the electromagnetic shield member 30 is fixed to the second electric device 14.

<About wiring members>
The configuration in which the wiring member 20 is connected to the first electric device 10 will be described more specifically. FIG. 2 is an exploded perspective view showing one end of the wiring member 20 and the electromagnetic shield member 30, and FIG. 3 is a cross-sectional view showing one end of the wiring member 20 and one end of the electromagnetic shield member 30. FIG. 3 shows a partial cross section of the electromagnetic shield member 30 corresponding to lines III-III of FIG.

Here, the first electric device 10 to be connected to the wiring member 20 includes a housing 11 that houses various electrical elements (see FIGS. 1 and 3). An opening 11h is formed in the housing 11. The first electric device 10 includes an internal wiring member 12. The internal wiring member 12 is formed of a metal plate or the like. For example, as the internal wiring member 12, a metal plate pressed or the like (called a bus bar) can be used. The internal wiring member 12 is electrically connected to an electric element in the electric device 10 in the housing 11. The internal wiring member 12 exists at a position accessible from the outside through the opening 11h. The internal wiring member 12 is connected to a connecting portion 24 provided at one end of the wiring member 20 through the opening 11h.

The wiring member 20 includes a linear wiring member 22 and a connecting portion 24. The linear wiring member 22 is a linear wiring member from the first electric device 10 to another electric device or the like. A connecting portion 24 is provided at one end of the linear wiring member 22. The linear wiring member 22 is connected to the first electric device 10 via the connecting portion 24.

The linear wiring member 22 is a wiring member in which an insulating portion is formed around a linear conductor. As the linear wiring member 22, for example, a coated electric wire including the linear conductor 23a and the covering portion 23b can be used. Here, three linear wiring members 22 are used. Only one or more linear wiring members 22 may be used.

The linear conductor 23a is a linear material formed of a metal material such as copper, a copper alloy, aluminum, or an aluminum alloy. The linear conductor 23a may be composed of a set of a plurality of strands, or may be composed of a single strand. The cross-sectional shape of the linear conductor 23a (the cross-sectional shape orthogonal to the extending direction of the linear conductor 23a) may be circular or square.

The covering portion 23b is an insulating portion that covers the outer periphery of the linear conductor 23a. The covering portion 23b is formed, for example, by extruding and coating a resin around the linear conductor 23a. The covering portion 23b may be a resin tube or the like that covers the periphery of the linear conductor 23a.

The plurality of linear wiring members 22 are held in parallel at the connecting portion 24. The connection portion 24 includes a terminal 25, a housing 26, and a cap 28.

The terminal 25 is formed by pressing a metal plate material such as copper, copper alloy, aluminum, or aluminum alloy. The number of terminals 25 is provided according to the number of linear wiring members 22. Here, three terminals 25 are provided. A device-side connection portion 25a is provided on one end side of the terminal 25. An electric wire side connecting portion 25b is provided on the other end side of the terminal 25. Here, the terminal 25 is formed by bending an elongated plate-shaped metal plate material in an L-shape in opposite directions at each of the two intermediate portions in the extending direction.

The device side connection portion 25a is formed in a thin rectangular shape, and a hole 25ah is formed in the intermediate portion thereof. Then, the device-side connection portion 25a and the internal wiring member 12 are overlapped with each other (see FIG. 3). In this state, the screw is passed through the hole 25ah of the device-side connection portion 25a and the hole on the internal wiring member 12 side and tightened with the nut. As a result, the device-side connection portion 25a and the internal wiring member 12 are electrically and mechanically connected. The electrical and mechanical connection between the device side connection portion and the wiring member side may be made by a mating connection structure of a male terminal shape and a female terminal shape.

The electric wire side connection portion 25b is formed in an elongated plate shape. Then, the linear conductor 23a exposed at the end of the linear wiring member 22 is electrically and mechanically connected to the electric wire side connecting portion 25b. The connection here may be made by ultrasonic welding, resistance welding, soldering, crimp connection or the like.

The housing 26 is a member formed of resin or the like, and is a member that forms a housing recess 26g for accommodating the device-side connection portion 25a while holding the terminal 25 in a constant posture. Here, the housing 26 includes a housing main body portion 26A and an electric wire guide portion 26B.

The housing main body 26A is formed in a long cylindrical shape, more specifically, in a tubular shape in which both ends of a pair of straight lines parallel to each other are connected by arcuate portions that are convex outward. An elongated storage recess 26g is formed inside the housing body 26A. A plurality of electric wire guide portions 26B are provided so as to project outside one straight portion of the housing main body portion 26A.

Then, the electric wire side connecting portions 25b of the plurality of terminals 25 are held in the portion of one straight line portion of the housing main body portion 26A where each electric wire guide portion 26B is formed. As a result, the plurality of terminals 25 are held in parallel at intervals from each other.

In this state, the device-side connection portion 25a of each terminal 25 is arranged so as to project toward the housing recess 26g side of the housing main body portion 26A.

A fixing piece 26p fixed to the housing 11 by screwing or the like is provided on the outer peripheral portion of the housing main body 26A. The fixed piece 26p may be a resin portion integrally formed with the housing main body 26A by a mold, or a metal plate partially insert-molded on the outer peripheral portion of the housing main body 26A. A screw insertion hole is formed in the fixed piece 26p. Then, the fixing piece 26p comes into contact with the outer surface of the housing 11 in a state where one end of the housing body 26A is fitted into the opening 11h of the housing 11. In this state, the screw is inserted into the screw insertion hole of the fixing piece 26p and screwed into the screw hole formed in the housing 11. As a result, the connection portion 24 is fixed to the housing 11.

As described above, in a state where one end of the housing body 26A is fitted into the opening 11h of the housing 11, the device-side connection 25a of the terminal 25 and the internal wiring member 12 are arranged so as to overlap each other. In this state, the connection work between the device-side connection portion 25a and the internal wiring member 12 using screws or the like is performed by utilizing the outward opening of the housing main body portion 26A.

The cap 28 is made of resin or the like, and is a member that closes the opening of the housing recess 26g of the housing body 26A on the side opposite to the housing 11. More specifically, the cap 28 includes a fitting portion 28a that is fitted into the accommodating recess 26g, and a flange portion 28b that protrudes from one end of the fitting portion 28a to the outer peripheral side. Then, in a state where the fitting portion 28a is fitted in the accommodating recess 26g, the flange portion 28b comes into contact with the end surface around the outward opening of the housing main body portion 26A.

The connecting portion 24 keeps one end of the plurality of linear wiring members 22 in a state of being electrically and mechanically connected to the first electric device 10 while being kept in a parallel state.

<About electromagnetic shield members>
As shown in FIGS. 1 to 3, the electromagnetic shield member 30 includes a conductive sheet 32, a shield portion 40 for a connection portion, and a bracket portion 60.

The conductive sheet 32 is a member that electromagnetically shields the portion of the linear wiring member 22 on the connecting portion 24 side. Here, the conductive sheet 32 is arranged on one side in a parallel form of one end side portions of the plurality of linear wiring members 22.

The conductive sheet 32 is a conductive member formed in a sheet shape. The conductive sheet 32 is formed of, for example, a braided metal wire, for example, a braid, a metal cloth, a metal net, or the like. The conductive sheet 32 is formed in a shape that spreads in a square shape. A shield portion 40 for a connecting portion is attached to one end of the conductive sheet 32. The bracket portion 60 is attached to the other end of the conductive sheet 32. The length of the conductive sheet 32 is, for example, a size that can be arranged over the first electric device 10 and the second electric device 14. The width of the conductive sheet 32 is, for example, a size that exceeds the width of the plurality of linear wiring members 22 in the parallel direction.

The connecting portion shield portion 40 is a member that covers the connecting portion 24. The connecting portion shield portion 40 includes a metal cover 42 and a metal plate 48. The connecting portion shield portion 40 is an example of a holding member that keeps the conductive sheet 32 covering at least a part of the electromagnetic shield target portion. In the present embodiment, the portion of the linear wiring member 22 on the connecting portion 24 side is an example of the electromagnetically shielded portion by the conductive sheet 32.

The metal cover 42 is a member formed by pressing a metal plate such as copper, copper alloy, aluminum, or aluminum alloy. The metal cover 42 includes a cover main body 44 and a fixing piece 46.

The cover main body 44 is formed in a shape that spreads so as to cover the connecting portion 24. Here, the connection portion 24 is an example of the electromagnetically shielded target portion. Here, the cover main body portion 44 includes a main plate portion 44a and a peripheral wall portion 44b. The main plate portion 44a is formed in a plate shape that covers the portion of the connecting portion 24 opposite to the housing 11. The peripheral wall portion 44b is formed so as to cover three sides of the connecting portion 24 other than the portion where the electric wire guide portion 26B extends. The edge of the peripheral wall portion 44b is bent outward. The cover main body 44 may be a metal plate material that has been drawn or a metal plate material that has been bent.

A through hole 44h is formed in the central portion of the main plate portion 44a of the cover main body portion 44. Then, the screw S is inserted into the through hole 44h and screwed into the screw hole 28g of the cap 28. As a result, the shield portion 40 for the connecting portion is fixed to the cap 28 (see FIG. 3). Such a form in which the electromagnetic shield member 30 is attached to the wiring member 20 may be referred to as a wiring member with an electromagnetic shield member.

Fixed pieces 46 are projected on both sides of the cover main body 44. A screw insertion hole is formed in the fixing piece 46. With the cover main body 44 covering the connection portion 24, the peripheral wall portion 44b of the cover main body 44 comes into contact with the outer surface of the housing 11 around the connection portion 24. In this state, the screw is inserted into the screw insertion hole of the fixing piece 46 and screwed into the screw hole formed in the housing 11. As a result, the shield portion 40 for the connection portion is fixed to the housing 11.

The depth dimension of the cover main body portion 44 (that is, the protruding dimension of the peripheral wall portion 44b with respect to the main plate portion 44a) is set to be the same as the height dimension of the portion of the connecting portion 24 protruding from the housing 11. As a result, when the connecting portion 24 is fixed to the housing 11 and the connecting portion shield portion 40 is fixed to the housing 11, the main plate portion 44a of the cover main body portion 44 moves the cap 28 to the housing 11 side. Hold down. As a result, the state in which the cap 28 is fitted into the housing 26 is maintained.

When the shield portion 40 for the connection portion is removed from the housing 11, the cap 28 is in a state where it can be removed from the housing 26. When the cap 28 is removed, the connection portion between the device side connection portion 25a and the internal wiring member 12 is exposed. Therefore, the device 10 and the wiring member 20 are in a state suitable for inspection, repair work, and the like. In this respect, the connecting portion shield portion 40 may be grasped as a service cover.

The metal plate 48 is a plate-shaped member that is separate from the metal cover 42. The metal plate 48 is made of a metal plate such as copper, a copper alloy, aluminum, or an aluminum alloy. Here, the metal plate 48 is formed in an elongated plate shape. The metal plate 48 is overlapped and fixed along the edge of the main plate portion 44a to the sandwiching region portion 44r inside the edge on the side where the peripheral wall portion 44b is not provided. The conductive sheet 32 is sandwiched between the sandwiching region portion 44r of the metal cover 42 and the metal plate 48. As a result, the conductive sheet 32 is fixed to the metal cover 42 in a state of being electrically connected to the metal cover 42. The metal cover 42 is an example of the first metal plate, and the metal plate 48 is an example of the second metal plate. It may be understood that the metal cover 42 is an example of the second metal plate and the metal plate 48 is an example of the first metal plate. The two metal plates may partially overlap each other to form a metal cover as a whole. In this case, the conductive sheet may be sandwiched at the portion where the two metal plates partially overlap.

More specifically, the metal plate 48 is overlapped with the sandwiching region portion 44r existing in the portion of the metal cover 42 on the side where the linear wiring member 22 extends. Here, the metal plate 48 is superposed on the inner surface side with respect to the metal cover 42. The metal plate 48 may be superposed on the outer surface side with respect to the metal cover 42.

The metal plate 48 is fixed to the metal cover 42 in a superposed state. Here, the metal plate 48 and the metal cover 42 are fixed to each other by the mechanical clinch portion 50. FIG. 4 shows a cross-sectional view of the mechanical clinch portion 50 that keeps the metal plate 48 and the metal cover 42 in an overlapping state. Here, the mechanical clinch means that the two metal plates are kept in an overlapping state by a mechanical fitting structure of a convex portion formed on one of the two metal plates and a concave portion formed on the other. .. The mechanical clinch portion 50 is a fitting structure portion between such a convex portion 52 and a concave portion 54.

In the example shown in FIG. 4, a convex portion 52 is formed on the metal cover 42, and a concave portion 54 is formed on the metal cover 42. The convex portion 52 is fitted into the concave portion 54, and the metal plate 48 is kept in a state of being overlapped with the metal cover 42. The unevenness relationship between the metal cover 42 and the metal plate 48 may be reversed.

The mechanical clinch portion 50 as described above can be formed by, for example, pressing the metal cover 42 and the metal plate 48 in a state of being overlapped with each other to partially plastically deform the metal cover 42 and the metal plate 48. Further, during or after the press working, the base end side portion of the convex portion 52 and the opening side portion of the concave portion 54 may be plastically deformed so as to be narrowed. In this case, the tip end side portion of the convex portion 52 is wider than the base end side portion thereof, and the back side portion of the concave portion 54 is wider than the opening side portion thereof. This makes it difficult for the convex portion 52 to come out of the concave portion 54.

The mechanical clinch portion 50 may keep the metal cover 42 and the metal plate 48 in an overlapping state. The position and number of the mechanical clinch portions 50 in the overlapping portion of the metal cover 42 and the metal plate 48 are arbitrary. For example, one mechanical clinch portion may be formed in the center of the metal plate in the longitudinal direction. Further, for example, a pair of mechanical clinch portions may be formed at both ends in the longitudinal direction of the metal plate. In the present embodiment, an example is shown in which a plurality of (here, five) mechanical clinch portions 50 are formed at intervals along the longitudinal direction of the metal plate 48.

One end of the conductive sheet 32 is sandwiched and held between the metal cover 42 and the metal plate 48. More specifically, the conductive sheet 32 is sandwiched and held between the facing surfaces of the metal cover 42 and the metal plate 48. The conductive sheet 32 extends in the same direction as the linear wiring member 22 extends from the metal cover 42. In the overlapping region of the metal cover 42 and the metal plate 48, the position of the mechanical clinch portion 50 with respect to the arrangement region of the conductive sheet 32 is arbitrary. For example, the mechanical clinch portion may exist in a region where the metal cover and the metal plate sandwich a part of the conductive sheet. Further, for example, the mechanical clinch portion may exist outside the region where the metal cover and the metal plate sandwich a part of the conductive sheet.

In the present embodiment, the conductive sheet 32 is sandwiched between the metal cover 42 and the metal plate 48 so as to reach the inner edge from the outer edge of the metal plate 48. The mechanical clinch portion 50 is located in the intermediate portion in the short direction of the metal plate 48. Therefore, the mechanical clinch portion 50 is formed in a region where the metal cover 42 and the metal plate 48 sandwich a part of the conductive sheet 32. Such a mechanical clinch portion 50 may be referred to as a seat region mechanical clinch portion.

The mechanical clinch portion 50 is formed at a location where the conductive sheet 32 exists. Therefore, the conductive sheet 32 is sandwiched between the convex portion 52 and the concave portion 54 in the mechanical clinch portion 50. Further, the conductive sheet 32 is strongly sandwiched between the metal cover 42 and the metal plate 48 around the mechanical clinch portion 50.

The metal plate 48 is formed with an opening 48h penetrating the front and back surfaces (see FIG. 2). Here, the opening 48h is formed on the edge of the metal plate 48 opposite to the side on which the conductive sheet 32 extends. The opening 48h is formed in a concave shape that penetrates the front and back while denting inward from the edge. The edge portion of the conductive sheet 32 passes between the metal cover 42 and the metal plate 48 and reaches the opening 48h. A part of the edge portion of the conductive sheet 32 is exposed to the outside through the opening 48h. Therefore, it can be visually confirmed whether or not the edge portion of the conductive sheet 32 is located in the opening 48h through the opening 48h.

The confirmation opening may be formed as a through hole in the middle portion of the metal plate. Further, the confirmation opening may be formed in the metal cover.

The bracket portion 60 is attached to the conductive sheet 32 at the end opposite to the shield portion 40 for the connection portion (see FIG. 2).

The bracket portion 60 includes a bracket plate portion 62 and a metal plate 68.

The bracket plate portion 62 is a member formed of a metal plate such as copper, copper alloy, aluminum, or aluminum alloy. Here, the bracket plate portion 62 includes a bracket main body portion 64 and a fixing portion 66. The bracket main body 64 is formed in an elongated rectangular shape. The fixing portion 66 is formed in the shape of an elongated square plate. The fixing portion 66 extends to the side opposite to the side on which the conductive sheet 32 extends with respect to the bracket main body portion 64. A fixing hole 66h is formed in the fixing portion 66. The fixing portion 66 has the same width as the bracket main body portion 64. The fixing portion 66 may be narrower than the bracket main body portion 64.

The metal plate 68 is a plate-shaped member separated from the bracket plate portion 62. The metal plate 68 is a member formed of a metal plate such as copper, a copper alloy, aluminum, or an aluminum alloy. The metal plate 68 is formed in an elongated rectangular shape like the bracket main body 64. The metal plate 68 is superposed on the bracket main body 64. The metal plate 68 is overlapped and fixed on one main surface of the bracket main body 64. The end portion of the conductive sheet 32 is sandwiched between the metal plate 68 and the bracket main body portion 64. As a result, the conductive sheet 32 is fixed in a state of being electrically connected to the bracket portion 60. The fixing portion 66 is provided on the side opposite to the extending direction of the conductive sheet 32 with respect to the region where the bracket plate portion 62 and the metal plate 68 overlap. Further, the fixing hole 66h is also located on the side opposite to the extending direction of the conductive sheet 32 with respect to the region where the bracket plate portion 62 and the metal plate 68 overlap.

With the bracket portion 60 overlapped with the housing of the second electric device 14, the screw is inserted into the fixing hole 66h and screwed into the screw hole on the housing side. As a result, the bracket portion 60 is fixed to the housing of the second electric device 14. If the housing is a conductive member such as metal, the conductive sheet 32 is electrically connected to the housing via the bracket portion 60.

The bracket plate portion 62 is an example of the first metal plate, and the metal plate 68 is an example of the second metal plate. It may be understood that the bracket plate portion 62 is an example of the second metal plate, and the metal plate 68 is an example of the first metal plate. In addition, fixing holes may be formed in both the bracket plate portion 62 and the metal plate 68.

The bracket plate portion 62 and the metal plate 68 are fixed via the mechanical clinch portion 70 in the same manner as the fixing structure of the metal cover 42 and the metal plate 48.

The configuration in which the metal plates 48 and 68 are fixed to the metal cover 42 or the bracket plate portion 62 is not limited to the above example. As a configuration for fixing the metal plates 48 and 68 to the metal cover 42 or the bracket plate portion 62, for example, spot welding, solder fixing, riveting, screw fixing, caulking fixing and the like can be adopted.

<Effects of the embodiment, etc.>
According to the electromagnetic shield member 30, a part of the conductive sheet 32 is sandwiched and fixed between the metal cover 42 and the metal plate 48. Since the metal cover 42 and the metal plate 48 are separate parts, there are few restrictions on the extending direction of the conductive sheet 32. As a result, the degree of freedom in the extending direction of the conductive sheet 32 is improved. Further, since the conductive sheet 32 is sandwiched between the plate-shaped sandwiching region portion 44r of the metal cover 42 and the metal plate 48, the conductive sheet 32 is stably held in a flatly expanded state.

Further, since the metal cover 42 and the metal plate 48 are not formed with a bent portion for sudden folding, the metal cover 42 and the metal plate 48 are unlikely to be damaged such as plating cracks.

Further, since the conductive sheet 32 extends in the target extension direction (here, the second electric device 14 side) through between the metal cover 42 and the metal plate 48 without being folded back, the conductive sheet 32. The damage applied to 32 is suppressed.

Further, since the metal cover 42 and the metal plate 48 are fixed via the mechanical clinch portion 50, both are easily fixed by press working or the like. In particular, the fixing workability is good as compared with a configuration in which another fixing component such as riveting and screw fixing is used for fixing.

Further, the mechanical clinch portion 50 is formed as a mechanical clinch portion for the seat region in a region where the metal cover 42 and the metal plate 48 sandwich a part of the conductive sheet 32. Therefore, the metal cover 42 and the metal plate 48 can be fixed by firmly sandwiching the conductive sheet 32 around the mechanical clinch portion 50. Similarly, on the bracket portion 60 side as well, the conductive sheet 32 can be firmly sandwiched and fixed.

Further, the metal cover 42 covers the connection portion 24 which is the target portion of the electromagnetic shield. Since the metal plate 48 is separate from the metal cover 42, it is not necessary to form a folded portion on the metal cover 42 in order to fix the conductive sheet 32. Therefore, the metal cover 42 does not have to have an opening for forming the folded-back portion. Therefore, the degree of freedom in the extending direction of the conductive sheet is improved. Further, the metal cover 42 can cover the periphery of the connection portion 24 as much as possible, and the cover function (for example, electromagnetic shield function, protection function, waterproof function, etc.) of the metal cover 42 can be improved.

Further, the metal plate 48 is formed with an opening 48h penetrating the front and back surfaces thereof. Therefore, it is visually confirmed whether or not the edge portion of the conductive sheet 32 can be observed through the opening 48h during or before and after the work of fixing the metal plate 48 to the metal cover 42. As a result, the fixing operation can be performed so that the edge of the conductive sheet 32 does not protrude between the metal cover 42 and the metal plate 48 and is arranged between them.

It is preferable that the edge of the conductive sheet 32 exists in the overlapping region of the metal cover 42 and the metal plate 48 and is not exposed by protruding from the overlapping region in the following points. When the edge of the conductive sheet 32 is within the overlapping region of the metal cover 42 and the metal plate 48, the edge of the conductive sheet 32 is unlikely to be scattered around. Further, it is suppressed that the edge itself of the conductive sheet 32 becomes a medium through which water is transmitted, and it becomes difficult for water to be transmitted between the metal cover 42 and the metal plate 48.

Further, regarding the bracket portion 60, the metal plate 68 is superposed on the bracket plate portion 62. Therefore, the fixing portion 66 can be easily provided on the bracket plate portion 62 on the side opposite to the extending direction of the conductive sheet 32. Since the fixing portion 66 is provided on the side opposite to the extending direction of the conductive sheet 32, not on the side, the bracket portion 60 can be easily arranged in a narrow region.

[Embodiment 2]
Hereinafter, the conductive sheet with a metal plate according to the second embodiment will be described. In the second embodiment, an example in which the conductive sheet with a metal plate is used as a current path, more specifically, as a current path for grounding will be described. In the description of the second embodiment, the description of the configuration as in the first embodiment may be omitted.

FIG. 5 is an explanatory view showing an example in which a conductive sheet 130 with a metal plate is provided between two electric devices 10 and 14 (first electric device 10 and second electric device 14). The two electric devices 10 and 14 may be the same devices as described in the first embodiment. For example, the first electric device 10 may be an inverter, and the second electric device 14 may be a rotary electric machine. It is conceivable that each of the electric devices 10 and 14 has conductive housings 11 and 15 such as a metal housing. The conductive housing 11 is an example of a first grounding portion, and the conductive housing 15 is an example of a second grounding portion. It is not essential that the ground portion is a conductive housing, and may be a conductive plate-shaped portion, a conductive cylinder portion, or the like. The first grounding portion and the second grounding portion may be any portion to be electrically connected in order to have the same potential as the other portions.

A conductive sheet 130 with a metal plate is provided between the electric devices 10 and 14. The conductive sheet 130 with a metal plate includes a conductive sheet 132, a first connection fixing portion 140, and a second connection fixing portion 160. The first connection fixing portion 140 is fixed to one end of the conductive sheet 132. The second connection fixing portion 160 is fixed to the other end of the conductive sheet 132.

Then, the first connection fixing portion 140 is fixed to the conductive housing 11 by screws S or the like. At this time, the first connection fixing portion 140 is electrically connected to the conductive housing 11. At this time, the first connection fixing portion 140 may be directly contacted with the conductive housing 11 and electrically connected, or the first connection fixing portion 140 may be indirectly connected to the conductive housing 11 via another member. May be contacted and electrically connected. Further, the second connection fixing portion 160 is fixed to the conductive housing 15 by screws S or the like. At this time, the second connection fixing portion 160 is electrically connected to the conductive housing 15. At this time, similarly to the above, the second connection fixing portion 160 may directly contact the conductive housing 15 and be electrically connected, or the second connection fixing portion 160 may be electrically connected via another member. It may be indirectly contacted with the housing 15 and electrically connected.

The conductive sheet 130 with a metal plate will be described more specifically. FIG. 6 is a perspective view showing the conductive sheet 130 with a metal plate.

The conductive sheet 132 is the same member as the conductive sheet 32 described in the first embodiment. The conductive sheet 132 is formed in a shape suitable for fixing the first connection fixing portion 140 and the second connection fixing portion 160. Here, the conductive sheet 132 is formed in an elongated rectangular shape.

The first connection fixing portion 140 includes a first metal plate 142 and a second metal plate 148. The first metal plate 142 and the second metal plate 148 are separate bodies. The first metal plate 142 and the second metal plate 148 are overlapped and fixed to each other in a state where a part of the conductive sheet 132 is sandwiched between the first metal plate 142 and the second metal plate 148. Has been done. Here, one end of the conductive sheet 132 in the longitudinal direction is sandwiched between the first metal plate 142 and the second metal plate 148. As a result, the first connection fixing portion 140 including the first metal plate 142 and the second metal plate 148 is fixed to one end of the conductive sheet 132.

More specifically, the first metal plate 142 is a member formed by pressing a metal plate such as copper, copper alloy, aluminum, or aluminum alloy. The first metal plate 142 is formed in an elongated plate shape. A sandwiching portion 144 for sandwiching the conductive sheet 132 is provided at one end of the first metal plate 142 in the longitudinal direction. Here, the sandwiching portion 144 is formed in a rectangular shape that is long in one direction. A first fixing portion 146 is provided at the other end of the first metal plate 142 in the longitudinal direction. The first fixing portion 146 is a portion fixed to the conductive housing 11 which is the first grounding portion. Here, the first fixing portion 146 is formed to be wider than the one end side portion of the first metal plate 142. More specifically, one side edge of the first metal plate 142 extends linearly. The first fixed portion 146 is formed to have a large width by projecting the portion of the first metal plate 142 near the other end of the other side edge outward. A fixing hole 146h is formed in the first fixing portion 146. The first fixing portion 146 is fixed to the conductive housing 11 by screwing it to the conductive housing 11 with the screw S inserted into the fixing hole 146h. The first fixing portion 146 may be fixed to the conductive housing 11 by rivets or the like.

The second metal plate 148 is a member formed by pressing a metal plate such as copper, copper alloy, aluminum, or aluminum alloy. The second metal plate 148 is formed to a size that can partially overlap the second metal plate 148. Here, the second metal plate 148 is formed to have the same size as the sandwiching portion 144 in the first metal plate 142. Then, in a state where the second metal plate 148 is overlapped with the sandwiching portion 144 in the first metal plate 142, one end of the conductive sheet 132 is sandwiched and fixed between the two.

The fixing portion fixed to the conductive housing 11 may be formed on the second metal plate 148, or may be formed on both the first metal plate 142 and the second metal plate 148. That is, when the first connection fixing portion 140 is viewed as a whole, at least one first fixing portion may be provided.

The second metal plate 148 is fixed to the first metal plate 142 in a superposed state. Here, the first metal plate 142 and the second metal plate 148 are fixed to each other by a mechanical clinch portion 150 similar to the mechanical clinch portion 50 in the first embodiment. Here, one mechanical clinch portion 150 is formed on the sandwiching portion 144 and the second metal plate 148. The mechanical clinch portion 150 is preferably formed in a region where the first metal plate 142 and the second metal plate 148 sandwich one end of the conductive sheet 132. In the present embodiment, one end of the conductive sheet 132 is sandwiched in the entire region between the sandwiching portion 144 and the second metal plate 148 in the first metal plate 142. Further, a mechanical clinch portion 150 is formed at the center of the sandwiching portion 144 of the first metal plate 142 (which is also the center of the second metal plate 148). Therefore, one end of the conductive sheet 132 is sandwiched between the first metal plate 142 and the second metal plate 148 all around the mechanical clinch portion 150. The first connection fixing portion 140 does not have to have a cover function for covering the others.

The description of the mechanical clinch unit 150 is the same as that described in the first embodiment. Therefore, the mechanical clinch portion 150 may have a configuration in which the first metal plate 142 and the second metal plate 148 are kept in an overlapping state. Therefore, the position and number of the mechanical clinch portions 150 are arbitrary. For example, the mechanical clinch portion may be provided at a position separated from one end portion of the conductive sheet 132.

One end of the conductive sheet 132 is sandwiched between the sandwiching portion 144 of the first metal plate 142 and the second metal plate 148, and the remaining portion of the conductive sheet 132 is in the longitudinal direction of the first metal plate 142. It extends in the direction orthogonal to it. Therefore, the first fixing portion 146 is provided at a lateral position with respect to the direction in which the conductive sheet 132 extends with respect to the first connecting fixing portion 140. This makes it possible to fix the first connection fixing portion 140 in a narrow area in the extending direction of the conductive sheet 132.

The second connection fixing portion 160 has a similar shape having mirror image symmetry with respect to the first connection fixing portion 140. That is, the second connection fixing portion 160 includes a first metal plate 162 and a second metal plate 168 having the same configuration as the first metal plate 142. Further, a second fixing portion 166 similar to the first fixing portion 146 is formed on the first metal plate 162, which is at least one of the first metal plate 162 and the second metal plate 168. Then, in a state where the other end of the conductive sheet 132 is sandwiched between the sandwiching portion 164 and the second metal plate 168 in the first metal plate 162, the mechanical clinch portion 150 first performs the same as described above. The metal plate 162 and the second metal plate 168 are held in a superposed state. As a result, the first metal plate 162 and the second metal plate 168 are fixed to the other end of the conductive sheet 132. Further, the second fixing portion 166 is fixed to the conductive housing 15 which is the second grounding portion.

Also in the conductive sheet 130 with a metal plate according to the second embodiment, the conductive sheet 132 is sandwiched between the first metal plates 142 and 162 and the second metal plates 148 and 168, as in the first embodiment. In this state, the first metal plates 142 and 162 and the second metal plates 148 and 168 are overlapped and fixed to each other. Therefore, there are less restrictions on the extending direction of the conductive sheet 132. As a result, the degree of freedom in the extending direction of the conductive sheet 132 is improved.

The conductive sheet 130 with a metal plate has the same effect as that of the first embodiment except for the effect of using the conductive sheet 132 as an electromagnetic shield member.

In addition, the shapes of the first metal plates 142 and 162 and the second metal plates 148 and 168 can be simplified, which also contributes to cost reduction.

Further, a first fixing portion 146 is provided on one of the first metal plate 142 and the second metal plate 148 at one end of the conductive sheet 132, and the second connecting fixing portion 160 at the other end of the conductive sheet 132 is provided. Since the second fixing portion 166 is provided, the conductive sheet 130 with a metal plate can be easily formed between the first ground portion (for example, the conductive housing 11) and the second ground portion (for example, the conductive housing 15). Can be disposed.

Further, since the first fixing portion 146 (or the second fixing portion 166) is provided on the side with respect to the extending direction of the conductive sheet 132, a narrow region in the extending direction of the conductive sheet 132 is provided. It is possible to fix the first connection fixing portion 140 (or the second connection fixing portion 160).

FIG. 7 is a perspective view showing a conductive sheet 230 with a metal plate according to a modified example according to the second embodiment. As shown in the figure, a plurality of mechanical clinch portions 250 corresponding to the mechanical clinch portion 150 may be provided in the first connection fixing portion 240 corresponding to the first connection fixing portion 140. In this modification, an example is shown in which two mechanical clinch portions 250 are provided at intervals in the longitudinal direction of the first connection fixing portion 240. In this modification, there is an advantage that the second metal plate 248 corresponding to the second metal plate 148 is less likely to rotate than the first metal plate 242 corresponding to the first metal plate 142. Similarly, a plurality of mechanical clinch portions 250 may be provided in the second connection fixing portion 260 corresponding to the second connection fixing portion 160.

[Modification example]
In the first embodiment, it is not essential that the electromagnetic shield member 30 includes both the connection portion shield portion 40 and the bracket portion 60, and only one of them may be provided. Similarly, in the second embodiment, it is not essential that the conductive sheet 130 with a metal plate includes both the first connection fixing portion 140 and the second connection fixing portion 160, and even if only one of them is provided. Good.

The connecting portion shield portion 40 may have a fixing portion on the side opposite to the extending direction of the conductive sheet 32. Further, the bracket portion 60 may have a cover portion that covers the electromagnetic shield target portion. Further, the positions where the first fixing portion 146 and the second fixing portion 166 are provided with respect to the extending direction of the conductive sheet 132 are arbitrary.

Note that the configurations described in the above embodiment and each modification can be appropriately combined as long as they do not conflict with each other.

10 1st electrical equipment 11 Conductive housing (1st grounding part)
11h Opening 12 Internal wiring member 14 Second electrical equipment 15 Conductive housing (second grounding part)
20 Wiring member 22 Linear wiring member 23a Linear conductor 23b Coating part 24 Connection part 25 Terminal 25a Equipment side connection part 25ah Hole 25b Wire side connection part 26 Housing 26A Housing body 26B Wire guide part 26g Storage recess 26p Fixed piece 28 Cap 28a Fitting part 28b Flange part 28g Screw hole 30 Electromagnetic shield member (conductive sheet with metal plate)
32, 132 Conductive sheet 40 Shielding part for connection part 42 Metal cover 44 Cover body part 44a Main plate part 44b Peripheral wall part 44h Through hole 44r Sandwiching area part 46 Fixed piece 48, 68 Metal plate 48h Opening 50, 70, 150, 250 Mechanical Clinch part 52 Convex part 54 Concave part 60 Bracket part 62 Bracket plate part 64 Bracket body part 66 Fixing part 66h Fixing hole 130, 230 Conductive sheet with metal plate 140, 240 First connection fixing part 142, 162, 242 First metal plate 144, 164 Insertion part 146 First fixing part 146h Fixing hole 148, 168, 248 Second metal plate 160, 260 Second connection fixing part (connection fixing part)
166 2nd fixing part S screw

Claims (8)

1. With a conductive sheet
   The first metal plate and
   A second metal plate that is separate from the first metal plate,
   With
   In a state where a part of the conductive sheet is sandwiched between the first metal plate and the second metal plate, the first metal plate and the second metal plate are overlapped and fixed to each other. Conductive sheet with metal plate.
2. The conductive sheet with a metal plate according to claim 1.
   The conductive sheet is a conductive sheet with a metal plate, which is an electromagnetic shield member.
3. The conductive sheet with a metal plate according to claim 2.
   A conductive sheet with a metal plate, wherein at least one of the first metal plate and the second metal plate is a metal cover that spreads so as to cover the electromagnetically shielded target portion.
4. The conductive sheet with a metal plate according to claim 1.
   The first metal plate and the second metal plate are fixed to one end of the conductive sheet,
   A connection fixing portion is fixed to the other end of the conductive sheet,
   A first fixing portion fixed to the first ground portion is provided on at least one of the first metal plate and the second metal plate.
   A conductive sheet with a metal plate provided with a second fixing portion fixed to a second ground portion on the connection fixing portion.
5. The conductive sheet with a metal plate according to any one of claims 1 to 4.
   A conductive sheet with a metal plate in which the first metal plate and the second metal plate are fixed to each other by a mechanical clinch portion.
6. The conductive sheet with a metal plate according to claim 5.
   The mechanical clinch portion is a conductive sheet with a metal plate, which includes a mechanical clinch portion for a sheet region formed in a region where the first metal plate and the second metal plate sandwich a part of the conductive sheet.
7. The conductive sheet with a metal plate according to any one of claims 1 to 6.
   At least one of the first metal plate and the second metal plate is on the side or side opposite to the extending direction of the conductive sheet with respect to the region where the first metal plate and the second metal plate overlap. A conductive sheet with a metal plate that has a fixing part on the side.
8. The conductive sheet with a metal plate according to any one of claims 1 to 7.
   An opening penetrating the front and back is formed in at least one of the first metal plate and the second metal plate.
   A conductive sheet with a metal plate in which the edge of the conductive sheet is located in the opening.

Images