JP6648522B2 - Cable and harness - Google Patents

Description

  The present invention relates to a cable and a harness.

  Conventionally, a cable provided with a sheath around a plurality of electric wires has been known. In such a cable, a lubricant such as talc powder is applied to the periphery of the electric wire in order to facilitate peeling of the electric wire from the sheath. There is a problem that the workability is deteriorated due to scattering.

  Therefore, there has been proposed a cable in which a tape member is spirally wound around a plurality of electric wires and a sheath is provided around the tape member (for example, see Patent Document 1).

  By providing a tape member around the electric wire, the electric wire can be easily peeled from the sheath without applying a lubricant to the electric wire.

JP 2014-220043 A

  However, since the cable described in Patent Document 1 uses a tape member made of paper tape, the tape member made of paper tape may not be removed at the same time as the sheath when performing terminal processing. Therefore, there is a case where it is necessary to remove the tape member after removing the sheath, and there has been a problem that the operation of the terminal processing becomes complicated.

  Therefore, an object of the present invention is to provide a cable and a harness that can be easily processed.

  The present invention has, for the purpose of solving the above problems, a plurality of electric wires, a tape member wound around the plurality of electric wires, and an outer skin covered on an outer periphery of the tape member, The tape member provides a cable in which at least a surface in contact with the outer cover is made of the same material as the outer cover, and the tape member is welded to the outer cover and is not welded to the plurality of electric wires.

  Further, the present invention provides a harness including the cable and a connector attached to an end of the electric wire, for the purpose of solving the above problem.

  According to the present invention, it is possible to provide a cable and a harness that can be easily processed.

1 is a block diagram showing a configuration of a vehicle using a cable according to one embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the cable which concerns on one Embodiment of this invention, (a) is a cross-sectional view, (b) is a fracture | rupture sectional drawing which represented the outer skin and the tape member in the cross section. It is a schematic structure figure of a harness concerning one embodiment of the present invention. It is a cross-sectional view of a cable according to a modified example of the present invention. It is a cross-sectional view of a cable according to a modified example of the present invention.

[Embodiment]
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

(Description of the vehicle to which the cable is applied)
FIG. 1 is a block diagram showing a configuration of a vehicle using the cable according to the present embodiment.

  As shown in FIG. 1, a vehicle 100 is provided with an electric parking brake (hereinafter, referred to as EPB) 101 as an electric braking device.

  The EPB 101 includes an EPB electric motor 101a and an EPB control unit 101b.

  The EPB electric motor 101a is a wheel-side device mounted on the wheel 102 of the vehicle 100. The EPB control unit 101b is mounted on an ECU (Electronic Control Unit) 103 which is a vehicle-side device of the vehicle 100. Note that the EPB control unit 101b may be mounted on a control unit other than the ECU 103, or may be mounted on a dedicated hardware unit.

  Although not shown, the EPB electric motor 101a is provided with a piston to which a brake pad is attached, and the piston is moved by the rotation of the EPB electric motor 101a to move the brake pad of the wheel 102. It is configured to press against the disk rotor of the wheel to generate a braking force. A pair of first electric wires 5 is connected to the EPB electric motor 101a as a power supply line for supplying a drive current to the EPB electric motor 101a.

  The EPB control unit 101b outputs a drive current to the EPB electric motor 101a for a predetermined time (for example, one second) when the parking brake activation switch 101c is operated from the off state to the on state when the vehicle 100 is stopped. The brake pad is pressed against the disk rotor of the wheel 102 so as to generate a braking force on the wheel 102. The EPB control unit 101b outputs a drive current to the EPB electric motor 101a when the parking brake operation switch 101c is operated from the on state to the off state or when the accelerator pedal is depressed, and the brake is output. The pad is separated from the disk rotor of the wheel to release the braking force on the wheel 102. That is, the operation state of the EPB 101 is configured to be maintained after the parking brake operation switch 101c is turned on and until the parking brake operation switch 101c is turned off or the accelerator pedal is depressed. Note that the parking brake operation switch 101c may be a lever-type or pedal-type switch.

  Further, an ABS device 104 is mounted on the vehicle 100. The ABS device 104 includes an ABS sensor 104a and an ABS control unit 104b.

  The ABS sensor 104a is a rotation speed detection sensor that detects the rotation speed of the running wheel 102, and is mounted on the wheel 102. The ABS control unit 104b controls the braking device based on the output of the ABS sensor 104a to control the braking force of the wheels 102 so that the wheels 102 are not locked during a sudden stop, and is mounted on the ECU 103. A pair of second electric wires 6 are connected to the ABS sensor 104a as signal lines.

  The cable 1 according to the present embodiment is obtained by covering the first electric wire 5 and the second electric wire 6 collectively with the outer cover 4 (see FIG. 2). The cable 1 extending from the wheel 102 is connected to a wire group 107 in a relay box 106 provided on the vehicle body 105, and is connected to the ECU 103 and a battery (not shown) via the wire group 107.

  Although only one wheel 102 is shown in FIG. 1 for simplification of the drawing, the EPB electric motor 101a and the ABS sensor 104a may be mounted on each wheel 102 of the vehicle 100. The vehicle 100 may be mounted only on the front wheels or only on the rear wheels.

(Description of cable 1)
FIGS. 2A and 2B are diagrams showing the cable 1 according to the present embodiment, in which FIG. 2A is a cross-sectional view, and FIG.

  As shown in FIGS. 2A and 2B, the cable 1 is covered with a plurality of electric wires 2, a tape member 3 wound around the plurality of electric wires 2, and an outer periphery of the tape member 3. And an outer skin 4.

  In the cable 1, a plurality of electric wires 2 are twisted with each other, and a tape member 3 is spirally wound around the plurality of electric wires 2.

  In the present embodiment, the plurality of electric wires 2 include a pair of first electric wires 5 as power supply lines for supplying a drive current to the electric motor 101a for the EPB 101 mounted on the wheels 102 of the vehicle 100.

  In the present embodiment, a plurality of electric wires 2 are a multi-core electric wire 8 in which a pair of second electric wires 6 as signal lines for an ABS sensor 104 a mounted on the wheel 102 are collectively covered by an inner sheath 7. Contains.

  Here, a case will be described in which the cable 1 has a total of three electric wires 2 including two first electric wires 5 and one multi-core electric wire 8, but the number of the electric wires 2 is not limited to this. For example, when a large number of electric wires 2 are provided, a multi-layer structure may be adopted in which a plurality of electric wires 2 are spirally wound around an inner layer portion where the plurality of electric wires 2 are twisted to form an outer layer portion.

  The first electric wire 5 is configured by coating a first insulator 52 made of an insulating resin such as cross-linked polyethylene around a first conductor 51 in which a good conductive element such as copper is twisted.

  As a wire used for the first conductor 51, a wire having a diameter of 0.05 mm or more and 0.30 mm or less can be used. When a wire having a diameter of less than 0.05 mm is used, sufficient mechanical strength cannot be obtained, and there is a possibility that bending resistance may decrease. When a wire having a diameter of more than 0.30 mm is used, the flexibility of the cable 1 is increased. May decrease.

  The outer diameter of the first conductor 51 of the first electric wire 5 and the thickness of the first insulator 52 may be appropriately set according to the required magnitude of the drive current. In the present embodiment, the outer diameter of the first conductor 51 is set to 1.5 mm or more and 3.0 mm or less in consideration of the fact that the first electric wire 5 is a power supply line for supplying a drive current to the electric motor 101 a for the EPB 101. At the same time, the outer diameter of the first electric wire 5 was set to 2.0 mm or more and 4.0 mm or less.

  The second electric wire 6 is formed by covering a second conductor 61 formed by twisting a highly conductive element such as copper around a second insulator 62 made of an insulating resin such as cross-linked polyethylene. It is an electric wire. As the element wire used for the second conductor 61, a wire having a diameter of 0.05 mm or more and 0.30 mm or less can be used similarly to the first conductor 51.

  The pair of second electric wires 6 are collectively covered with the inner sheath 7 while being in contact with each other and being twisted. A multi-core electric wire 8 is obtained by covering a pair of second electric wires 6 collectively with an inner sheath 7. The inner sheath 7 is made of, for example, urethane resin. In the present embodiment, a case will be described in which a two-core multi-core electric wire 8 is used, but the number of cores of the multi-core electric wire 8 is not limited to this. Further, the electric wire 2 may have a plurality of multi-core electric wires 8.

  The outer diameter of the second electric wire 6 is smaller than the outer diameter of the first electric wire 5. In the present embodiment, in order to twist the multi-core electric wire 8 in which the two second electric wires 6 are covered with the inner sheath 7 and the pair of first electric wires 2, the outer diameter of the cable 1 is close to a circular shape. Therefore, it can be said that it is desirable to use the second electric wire 6 having a diameter of about half of the outer diameter of the first electric wire 5. Specifically, as the second electric wire 6, an outer diameter of 1.0 mm or more and 1.8 mm or less, and an outer diameter of the second conductor 61 of 0.4 mm or more and 1.0 mm or less can be used.

  In the cable 1, two first electric wires 5 and one multi-core electric wire 8 are twisted, and the tape member 3 is wound around the periphery thereof in a spiral shape. The two first electric wires 5 and one multi-core electric wire 8 are twisted in a state of being in contact with each other. Further, a part of one multi-core electric wire 8 is arranged in an inner valley portion between the two first electric wires 5.

  Note that the EPB 101 basically supplies a drive current to the electric motor 101a when the vehicle stops. On the other hand, the ABS sensor 104a is used when the vehicle is running, and the ABS sensor 104a is not used when the driving current is supplied to the first electric wire 5. Therefore, in the present embodiment, the shield conductor provided around the multi-core electric wire 8 is omitted. By omitting the shield conductor, the outer diameter of the cable 1 can be reduced as compared with the case where the shield conductor is provided, and the number of components can be reduced to reduce the cost.

  Although the case where the first electric wire 5 supplies a drive current to the EPB electric motor 101a is described here, the first electric wire 5 is, for example, an electromechanical brake (hereinafter referred to as EMB) provided on the wheel 102. ) May be used to supply a drive current to the electric motor. In this case, a current flows through the first electric wire 5 even while the vehicle 100 is traveling. Therefore, in order to suppress malfunction of the ABS device 104 due to noise, the periphery of the multi-core electric wire 8 or a pair of first electric wires 5 It can be said that it is desirable to provide a shield conductor around the. It is also possible to provide a shield conductor on the outer peripheral side of each conductor of the pair of first electric wires 5 so that each of the pair of first electric wires 5 is a shielded electric wire.

  Further, although the case where the second electric wire 6 is a signal line for the ABS sensor 104a is described here, the second electric wire 6 detects another sensor provided on the wheel 102, for example, a temperature sensor or a tire pressure. It may be a signal line used for an air pressure sensor or the like, a damper line used for controlling a vibration damping device of the vehicle 100, or a signal line for EMB control (such as a CAN cable). You may. Even when the first electric wire 5 supplies a drive current to the EPB electric motor 101a, when the second electric wire 6 is used while the vehicle 100 is stopped, malfunction due to noise is suppressed. In addition, it can be said that it is desirable to provide a shield conductor around the multi-core electric wire 8.

  The outer diameter of the aggregate 9 formed by twisting the three electric wires 2 (two first electric wires 5 and one multi-core electric wire 8) is, for example, about 5 mm to 9 mm. The twist pitch of the electric wires 2 in the aggregate 9 is preferably set to such a degree that unnecessary load is not applied to the electric wires 2 in consideration of the outer diameter of the aggregate 9. Here, the twist pitch of the wires 2 in the assembly 9 is set to about 50 mm, but the twist pitch of the wires 2 is not limited to this. In addition, the twist pitch of the electric wire 2 is an interval along a longitudinal direction of the aggregate 9 at which an arbitrary electric wire 2 (the first electric wire 5 or the multi-core electric wire 8) is located at the same position in the circumferential direction of the aggregate 9.

  The tape member 3 is spirally wound around the assembly 9, and the tape member 3 contacts all the electric wires (a pair of the first electric wire 5 and the multi-core electric wire 8) covered by the tape member 3. ing. The tape member 3 is spirally wound around the assembly 9 so that a part of the tape member 3 in the width direction (the direction perpendicular to the longitudinal direction and the thickness direction of the tape member 3) overlaps. The width at which the tape members 3 overlap is, for example, １ ／ or more and 以下 or less of the width of the tape members 3. In the present embodiment, the portion where the tape members 3 overlap is not bonded by an adhesive or the like.

  The width of the tape member 3 may be such that the tape member 3 does not wrinkle when the tape member 3 is wound, and the tape member 3 having a smaller width as the outer diameter of the entire assembly 9 becomes smaller is used. Is desirable. Specifically, when the outer diameter of the assembly 9 is 5 mm to 9 mm, the width of the tape member 3 may be about 20 mm to 50 mm. The winding pitch of the tape member 3, that is, the interval along the longitudinal direction at which the tape member 3 is at the same position in the circumferential direction (for example, the interval between one end portions in the width direction) is adjusted by the width and the overlapping width of the tape member 3. Is possible.

  An outer skin 4 is provided around the tape member 3. In the present embodiment, the first electric wire 5 supplies the drive current to the EPB electric motor 101a, and the shield conductor is omitted because the time during which the drive current flows through the first electric wire 5 is relatively short. A shield conductor may be provided between the tape member 3 and the outer cover 4 or on the outer periphery of the outer cover 4 depending on the use of the first electric wire 5 or the like.

  Now, in the cable 1 according to the present embodiment, the tape member 3 and the outer cover 4 are made of the same material, and the tape member 3 is welded to the outer cover 4 but not to the plurality of electric wires 2.

  Here, a resin tape made of urethane-based resin was used as the tape member 3, and the outer cover 4 was made of urethane-based resin. When the tape member 3 and the outer cover 4 are made of the same material, the tape member 3 and the outer cover 4 can be welded and integrated by heat generated when the outer cover 4 is subjected to extrusion coating. As a result, it is possible to easily remove the outer cover 4 and the tape member 3 at the same time by using a dedicated strip device or the like at the time of terminal processing, and it is possible to improve workability of terminal processing.

  The thickness of the tape member 3 is adjusted so that the heat of extruding the outer cover 4 does not melt the entire tape member 3. Specifically, it is desirable that the thickness of the tape member 3 be 0.03 mm or more and 0.10 mm or less. If the thickness of the tape member 3 is as thin as less than 0.03 mm, the tape member 3 may be melted by the heat at the time of extrusion-coating the outer cover 4, and the thickness of the tape member 3 exceeds 0.10 mm and becomes thick. Then, it becomes difficult to wind the tape member 3 around the assembly 9, and in particular, a gap is easily generated between the tape member 3 and the assembly 9 in the vicinity of the portion where the tape member 3 overlaps. This may cause problems such as the cable 1 becoming easily buckled and the bending characteristics in the longitudinal direction of the cable becoming uneven.

  The tape member 3 may be subjected to embossing (fine unevenness processing) on an inner surface that comes into contact with the electric wire 2. Thereby, the first insulator 52 of the first electric wire 5 and the inner sheath 7 are easily slipped (the coefficient of friction is small) with respect to the tape member 3, and the friction between the electric wire 2 and the tape member 3 is reduced. It is possible to reduce the stress applied to the electric wire 2 and improve the bending resistance. In addition, since the gap between the electric wire 2 and the tape member 3 becomes slippery, terminal processing (removal of the tape member 3 and the outer cover 4) becomes easier.

  In the present embodiment, the case where the tape member 3 and the outer cover 4 are made of the same material has been described, but for example, an additive such as a coloring agent may be added to the outer cover 4. That is, the tape member 3 and the outer cover 4 only need to be composed of the same material as the main component.

  Further, a tape member having a laminated structure of two or more layers can be used as the tape member 3. In this case, the surface of the tape member 3 that contacts the assembly 9 may be formed of a resin layer or the like having a smaller coefficient of friction with respect to the electric wire 2 than the urethane resin. That is, as the tape member 3, at least a surface in contact with the outer skin 4 may be made of the same material as the outer skin 4.

  Further, in the cable 1 according to the present embodiment, the tape member 3 and the outer sheath 4 project inward from a common tangent passing through the outer circumferences of two electric wires 2 which are arranged on the outermost layer and are adjacent in the circumferential direction. It has an inward protruding portion 10 which is formed so as to enter the valley between the matching electric wires 2 and is formed in a spiral shape along the longitudinal direction of the cable. In FIG. 2A, a common tangent passing through the outer peripheral surfaces of the two first electric wires 5 is denoted by reference numeral 11. When three or more electric wires 2 are used, a common tangent passing through the outer peripheral surfaces of two adjacent electric wires 2 exists on the inner peripheral side and the outer peripheral side of the cable 1. Indicates a tangent on the outer peripheral side of the cable 1. Further, the common tangent here is a tangent perpendicular to the longitudinal direction of the cable.

  That is, in the present embodiment, the tape member 3 and the outer cover 4 enter the outer valley portions of the adjacent electric wires 2. In the cable 1, in the valley portion between the electric wires 2, the electric wire 2 is in contact with the tape member 3, and the tape member 3 is in contact with the outer cover 4.

  Thereby, the hollow portion formed around the electric wire 2 is reduced, and buckling is less likely to occur even when the cable 1 is bent or twisted. In addition, since the tape member 3 enters the valley between the electric wires 2 and the movement of the tape member 3 in the radial direction is restricted by the outer cover 4, the tape member 3 is hard to move in the longitudinal direction of the cable. Become. That is, in the valley portion between the electric wires 2, the tape member 3 is sandwiched between the outer cover 4 and the electric wire 2, and the relative movement of the tape member 3 in the cable longitudinal direction can be suppressed. .

  If the inwardly projecting length of the inwardly projecting portion 10 is short, the effect of suppressing buckling and the effect of inhibiting the movement of the tape member 3 may not be sufficiently obtained. , Ie, the distance d between the common tangent line 11 passing through the outer peripheral surface of the adjacent electric wire 2 and the tip of the inwardly protruding portion 10 is the electric wire 2 having the largest outer diameter among the electric wires 2 (here, Then, it is desirable that the outer diameter of the first electric wire 5) is 3% or more, preferably 10% or more.

  For example, when the outer diameter of the first electric wire 5 is 3 mm, it can be said that the distance d is desirably at least 0.1 mm or more. Although it depends on the outer diameter of the electric wire 2 to be used, it is desirable that the distance d is at least 0.1 mm or more, preferably 0.3 mm or more in order to obtain the effect of having the inwardly protruding portion 10. . Note that the distance d does not need to be always constant, and some fluctuation is allowed.

  Further, if the projecting length of the inwardly protruding portion 10 is too large, a part of the tape member 3 cannot be removed by a dedicated stripping device or the like, and the workability at the time of terminal processing may be reduced. Is preferably 40% or less, preferably 35% or less of the outer diameter of the wire 2 having the largest outer diameter (the first wire 5 in this case) among the plurality of wires 2. Although it depends on the outer diameter of the electric wire 2 to be used, it can be said that the distance d is desirably 1 mm or less from the viewpoint of easily removing the outer cover 4.

  If the twisting direction of the plurality of electric wires 2 is different from the winding direction of the tape member 3, the tape member 3 is less likely to enter the valley portion of the adjacent electric wires 2. It is desirable that the directions be the same. Thereby, when the tape member 3 is wound around the assembly 9 while applying an appropriate tension, the tape member 3 can easily enter the valley portion of the adjacent electric wire 2. Thereafter, if the outer skin 4 is provided around the tape member 3 by extrusion coating, the inwardly protruding portion 10 is formed.

  Here, the twist direction of the electric wire 2 means that when the cable 1 is viewed from the distal end side (the side where the tape member 3 overlaps), the electric wire 2 rotates from the base end side to the distal end side. Refers to the direction. The winding direction of the tape member 3 refers to the direction in which the tape member 3 rotates from the base end side to the front end side when the cable 1 is viewed from the front end side (the side where the tape member 3 overlaps). Say.

  Further, by setting the twisting direction of the electric wire 2 and the winding direction of the tape member 3 to be the same direction, when unwinding the tape member 3 at the time of end processing, the twist of the electric wire 2 is naturally loosened. Is easy to loosen. Thereby, the disassembly of the cable 1 is improved, and the workability when performing the terminal processing is improved.

  Further, by setting the twisting direction of the electric wire 2 and the winding direction of the tape member 3 to be the same direction, when the cable 1 is twisted, the electric wire 2 and the tape member 3 open and close in synchronization. Thus, it is possible to suppress an excessive load from being applied to a part of the cable 1 by dispersing the load due to the twist, and it is possible to improve the durability against the twist.

  If the twist pitch of the electric wire 2 is reduced, the cable 1 is easily bent and the flexibility is improved, but the twist is not enough and the durability against twisting is reduced. Conversely, when the twist pitch of the wire 2 is increased, the durability against twisting is improved, but the flexibility is reduced. In the present embodiment, when a twist is applied, the load can be dispersed by opening and closing the electric wire 2 and the tape member 3 in synchronism, so that the twist pitch of the electric wire 2 is reduced and the flexibility is improved. Even in this case, it is possible to ensure sufficient durability against twisting.

  Also, in order to make the tape member 3 more easily enter the valley portion of the adjacent electric wire 2, it can be said that it is desirable that the twist pitch of the plurality of electric wires 2 and the winding pitch of the tape member 3 be equal. Here, “the twist pitch of the plurality of wires 2 and the winding pitch of the tape member 3 are equal” means that the twist pitch of the wires 2 and the winding pitch of the tape member 3 completely match. In addition to those in which the twist pitch of the plurality of electric wires 2 and the winding pitch of the tape member 3 are slightly different (within ± 10%), it is also included.

  The inward protrusion 10 is desirably formed over the entire length of the cable 1 in the longitudinal direction. However, the inward protrusion 10 may be interrupted on the way. That is, the cable 1 may not have the inwardly protruding portion 10 formed in a part of the longitudinal direction. For example, by changing the winding pitch of the tape member 3 at a terminal portion (a predetermined distance from the terminal) of the cable 1, the inward protruding portion 10 is not formed (or the protruding length (distance d) of the inward protruding portion 10 is reduced). It is also possible to improve the workability when processing the terminal.

  In the present embodiment, the case where the inwardly protruding portions 10 are formed between the three electric wires 2 (valley portions) has been described. However, the present invention is not limited to this, and at least between the electric wires 2 (valley portions). It is sufficient that the inward protruding portion 10 is formed at one of the positions.

  In the present embodiment, both the tape member 3 and the outer cover 4 are configured to protrude inward from the tangent line 11. However, the present invention is not limited to this. For example, when a relatively thick tape member 3 is used. May be configured such that only the tape member 3 protrudes inward from the tangent line 11.

(Explanation of harness using cable 1)
FIG. 3 is a schematic configuration diagram of the harness according to the present embodiment.

  As shown in FIG. 3, the harness 20 includes the cable 1 according to the present embodiment and a connector attached to an end of the electric wire 2.

  In FIG. 3, the left side in the figure shows the end on the wheel 102 side, and the right side in the figure shows the end on the vehicle body 105 side (relay box 106 side). In the following description, the end of the harness 20 on the wheel 102 side is referred to as “one end”, and the end on the vehicle body 105 side (relay box 106 side) is referred to as “other end”.

  A wheel side power supply connector 21a for connection with the EPB electric motor 101a is attached to one end of the pair of first electric wires 5 of the electric wire 2, and the other end of the pair of first electric wires 5 is attached to the other end of the pair of first electric wires 5. Is provided with a vehicle body side power supply connector 21b for connection to the electric wire group 107 in the relay box 106.

  At one end of the multi-core electric wire 8 (a pair of second electric wires 6), an ABS sensor 104a formed by resin molding so as to cover the inner sheath 7 is attached. At the other end of 6), a vehicle body-side ABS connector 22 for connection to the electric wire group 107 in the relay box 106 is attached.

  Here, the case where the connectors are individually provided for the first electric wire 5 and the multi-core electric wire 8 (the second electric wire 6) has been described, but a dedicated connector for connecting all the electric wires 2 collectively is provided. No problem.

(Operation and effect of the embodiment)
As described above, in the cable 1 according to the present embodiment, at least the surface of the tape member 3 that is in contact with the outer cover 4 is made of the same material as the outer cover 4, and the tape member 3 is welded to the outer cover 4. , Are not welded to the plurality of electric wires 2.

  With this configuration, since the tape member 3 is integrated with the outer skin 4, the tape member 3 can easily remove the outer skin 4 at the same time using a dedicated strip device or the like. It will be easier.

  Further, in the cable 1 according to the present embodiment, the tape member 3 and the outer cover 4 project inward from a common tangential line 11 passing through the outer circumferences of two electric wires 2 arranged on the outermost layer and adjacent in the circumferential direction, It has an inward protruding portion 10 which is formed so as to be inserted between the valley portions of the adjacent electric wires 2 and is spirally formed along the longitudinal direction of the cable.

  By having the inward protruding portion 10 that enters the valley portion of the electric wire 2, the hollow portion around the electric wire 2 is made smaller than that without the inward protruding portion 10, and the cable 1 is bent or twisted. Even if it is performed, it becomes possible to suppress that the cable 1 buckles.

  Further, since the inwardly protruding portion 10 suppresses the movement of the tape member 3, it is possible to suppress the tape member 3 from moving in the longitudinal direction of the cable, and the tape member 3 overlaps a part of the cable 1 to increase flexibility. It is possible to suppress problems such as lowering.

(Modification)
In the above embodiment, the case where the electric wire 2 has the multi-core electric wire 8 has been described, but the electric wire 2 may not have the multi-core electric wire 8 as shown in FIGS. FIG. 4 shows a case where three wires 2 are used, and FIG. 5 shows a case where two wires 2 are used. However, the number of wires 2 may be four or more. The electric wire 2 does not need to be a power supply line, but may be a signal line.

  Further, in the above embodiment, the outer cover 4 has a single-layer structure, but may have a two or more-layer structure. By forming the outer cover 4 with two or more layers and performing extrusion coating a plurality of times, the cross-sectional shape of the cable 1 can be made closer to a circular shape and the appearance can be improved.

  Further, in the above embodiment, the case where the cable 1 connects the wheel 102 side of the vehicle 100 and the vehicle body 105 side has been described, but the use of the cable 1 is not limited to this. For example, the cable 1 may be used for connecting a motor and an inverter in a hybrid vehicle or an electric vehicle, or may be used for a purpose other than a vehicle.

  Further, in the above embodiment, the tape member 3 is spirally wound around the twisted electric wire 2, but the electric wire 2 may not be twisted, and the tape member 3 may be wound vertically. You may.

  Further, in the above embodiment, the case where the tape member 3 and the outer cover 4 have the inwardly protruding portions 10 has been described, but the inwardly protruding portions 10 can be omitted. When the inward protruding portion 10 is omitted, the cross-sectional shape is made closer to a circular shape by making the twisting direction of the electric wire 2 and the winding direction of the tape member 3 different from each other, and the outer appearance 4 and the tape member 3 are improved. Can be easily removed by a dedicated stripping device or the like.

  In the above embodiment, the tape member 3 and the outer skin 4 are made of the same material. However, the tape member 3 may be any material that can be welded to the outer skin 4 when the outer skin 4 is extrusion-coated. For example, when a material made of a urethane-based resin is used as the outer cover 4, the tape member 3 may be made of a polyamide-based resin such as nylon (registered trademark) that is welded to the urethane-based resin during extrusion coating. it can.

(Summary of Embodiment)
Next, technical ideas grasped from the embodiments described above will be described with reference to the reference numerals and the like in the embodiments. However, each reference numeral and the like in the following description does not limit constituent elements in the claims to members and the like specifically shown in the embodiments.

[1] A plurality of electric wires (2), a tape member (3) wound around the plurality of electric wires (2), and an outer cover (4) covering the outer periphery of the tape member. The tape member (3) has at least a surface in contact with the outer cover (4) made of the same material as the outer cover (4), and the tape member (3) is welded to the outer cover (4). The cable (1), which is not welded to the plurality of electric wires (2).

[2] The cable (1) according to [1], wherein the tape member (3) is made of a resin tape made of a urethane resin, and the outer cover (4) is made of a urethane resin.

[3] The cable (1) according to [2], wherein the thickness of the tape member (3) is 0.03 mm or more and 0.10 mm or less.

[4] The cable (1) according to [2] or [3], wherein a surface of the tape member (3) on a side in contact with the plurality of electric wires (2) is embossed.

[5] The plurality of electric wires (2) are twisted with each other, and the tape member (3) is spirally wound around the plurality of electric wires (2), [1] to [4]. Cable (1) according to any one of the preceding claims.

[6] The tape member (3) and the outer cover (4) are disposed on the outermost layer and protrude inward from a common tangent passing through the outer peripheries of the two electric wires (2) adjacent to each other in the circumferential direction. The cable according to [5], which is formed so as to enter a valley between adjacent electric wires (2), and has an inward protrusion (10) formed in a spiral shape along the longitudinal direction of the cable. (1).

[7] The cable (1) according to [5] or [6], wherein a twist direction of the plurality of electric wires (2) and a winding direction of the tape member (3) are the same.

[8] The cable (1) according to [7], wherein a twist pitch of the plurality of electric wires (2) is equal to a winding pitch of the tape member (3).

[9] The cable (1) according to [5], wherein a twist direction of the plurality of electric wires (2) and a winding direction of the tape member (3) are different directions.

[10] The plurality of electric wires (2) include a power supply line for supplying a drive current to an electric motor (101a) for an electric parking brake (101) mounted on wheels (102) of a vehicle (100). The cable (1) according to any one of [1] to [9].

[11] Any of [1] to [10], wherein the plurality of electric wires (2) include a multi-core electric wire (8) in which a plurality of insulated electric wires (6) are collectively covered by an inner sheath (7). The cable (1) according to claim 1.

[12] The cable (1) according to [11], wherein the insulated wire (6) includes a signal line for a sensor mounted on a wheel (102) of a vehicle (100).

[13] A plurality of electric wires (2), a tape member (3) wound around the plurality of electric wires (2), and an outer cover (4) covering the outer periphery of the tape member (3). A cable (1), wherein the tape member (3) is welded to the outer cover (4) and not welded to the plurality of electric wires (2).

[14] A harness (20) including the cable (1) according to any one of [1] to [13] and a connector attached to an end of the electric wire (2).

  The embodiments of the present invention have been described above, but the embodiments described above do not limit the invention according to the claims. Also, it should be noted that not all combinations of the features described in the embodiments are necessarily indispensable for means for solving the problems of the invention.

  The present invention can be appropriately modified and implemented without departing from the spirit thereof.

DESCRIPTION OF SYMBOLS 1 ... Cable 2 ... Electric wire 3 ... Tape member 4 ... Outer skin 5 ... First electric wire 6 ... Second electric wire (insulated electric wire)
7 ... inner sheath 8 ... multi-core electric wire 9 ... assembly 10 ... inward protruding part

Claims (11)

A plurality of wires including a conductor and an insulator coated around the conductor ,
A tape member wound around and in contact with the plurality of electric wires,
An outer skin that is coated in contact with the outer periphery of the tape member,
With
Said tape member, only Tona Rutotomoni same material Kigaihi main component is prior to contact, the surface on the side in contact with the insulator of the plurality of electric wires have been subjected to embossing,
The tape member is welded to the outer cover, and is not welded to the plurality of electric wires.
cable. The tape member is made of a resin tape made of a urethane-based resin,
The outer skin is Ri Do a urethane-based resin,
The insulator is made of cross-linked polyethylene,
The cable according to claim 1. The thickness of the tape member is 0.03 mm or more and 0.10 mm or less,
The cable according to claim 2. The plurality of wires are twisted with each other,
The tape member is spirally wound around the plurality of electric wires,
Cable according to any one of claims 1 to 3. The tape member and the outer cover project inward from a common tangent passing through the outer peripheries of the two electric wires which are arranged on the outermost layer and which are adjacent to each other in the circumferential direction, so as to enter a valley portion between the adjacent electric wires. Having an inward projection formed spirally along the cable longitudinal direction,
The cable according to claim 4 . The twist direction of the plurality of electric wires and the winding direction of the tape member are the same direction,
Cable according to claim 4 or 5. The twist pitch of the plurality of electric wires and the winding pitch of the tape member are equal,
The cable according to claim 6 . The direction in which the plurality of electric wires are twisted and the direction in which the tape member is wound are different directions.
The cable according to claim 4 . The plurality of electric wires include a power supply line for supplying a drive current to an electric motor for an electric parking brake mounted on wheels of a vehicle,
The cable according to any one of claims 1 to 8 . The plurality of wires include a multi-core wire in which a plurality of insulated wires are collectively covered by an inner sheath,
Cable according to any one of claims 1 to 9. The insulated wire comprises a signal line for a sensor mounted on a vehicle wheel,
The cable according to claim 10 .

Images