WO2012008365A1 - ワイヤハーネス、ワイヤハーネスと機器との搬送方法、及びワイヤハーネスによる機器間の接続方法 - Google Patents
ワイヤハーネス、ワイヤハーネスと機器との搬送方法、及びワイヤハーネスによる機器間の接続方法 Download PDFInfo
- Publication number
- WO2012008365A1 WO2012008365A1 PCT/JP2011/065620 JP2011065620W WO2012008365A1 WO 2012008365 A1 WO2012008365 A1 WO 2012008365A1 JP 2011065620 W JP2011065620 W JP 2011065620W WO 2012008365 A1 WO2012008365 A1 WO 2012008365A1
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- WO
- WIPO (PCT)
- Prior art keywords
- wire harness
- shape
- holding portion
- shape holding
- motor
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R16/00—Electric or fluid circuits specially adapted for vehicles and not otherwise provided for; Arrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for
- B60R16/02—Electric or fluid circuits specially adapted for vehicles and not otherwise provided for; Arrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric constitutive elements
- B60R16/0207—Wire harnesses
- B60R16/0215—Protecting, fastening and routing means therefor
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01B—CABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
- H01B7/00—Insulated conductors or cables characterised by their form
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G3/00—Installations of electric cables or lines or protective tubing therefor in or on buildings, equivalent structures or vehicles
- H02G3/02—Details
- H02G3/04—Protective tubing or conduits, e.g. cable ladders or cable troughs
- H02G3/0437—Channels
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/49002—Electrical device making
- Y10T29/49117—Conductor or circuit manufacturing
Definitions
- the present invention relates to a wire harness using a bus bar as a conductor. Moreover, it is related with the method of conveying this wire harness and apparatus. Furthermore, it is related with the connection method between apparatuses by a wire harness.
- An electric vehicle or a hybrid vehicle includes a motor as a power source, an inverter that generates a three-phase alternating current necessary for driving the motor, and a wire harness that connects the motor and the inverter.
- the wire harness disclosed in the following Patent Document 1 includes a harness body including a plurality of high-voltage electric wires, a motor-side connection portion that is provided at one end of the harness body and serves as a motor connection portion, and the other end of the harness body.
- the inverter side connection part which is provided and becomes a connection part of an inverter is provided and comprised.
- the wire main body disclosed by the following patent document 1 has the harness main body formed comparatively long.
- the wire harness is first transported to the motor manufacturing process.
- the conveyed wire harness is then connected to the motor in the motor manufacturing process.
- the wire harness connected to the motor is then transported to the vehicle assembly process together with the motor.
- the transported motor and wire harness are first fixed at a predetermined position in the vehicle assembly process, and then the inverter is fixed at a predetermined position corresponding to the motor.
- the motor and the inverter are connected by the wire harness.
- the wire harness connected to the motor should not be obstructed during transportation, so as not to affect the securing of space during transportation.
- the other end of the harness (the inverter side connection part that will be connected to the inverter later) from being hit by anything and being damaged, it may be fixed to the motor and transported without moving easily. is there.
- the work man-hour relating to the fixing of the wire harness is required.
- the work man-hour relating to the unlocking of the wire harness is required before the wire harness is connected to the inverter.
- the present invention has been made in view of the above-described circumstances, and a wire harness capable of reducing work man-hours during transport and connection, a transport method between the wire harness and the device, and connection between the devices by the wire harness. It is an object to provide a method.
- a wire harness having a bendable flexibility and a shape holding portion capable of holding a shape in an arbitrary bent state.
- the said subject of this invention is solved by the structure of following (4).
- (4) In carrying a wire harness having a bendable flexibility and having a shape holding portion capable of holding a shape in an arbitrary bent state, and a device to which one end of the wire harness is connected, the shape A method of transporting the wire harness and the device, including a step of bending the wire harness at the position of the holding portion and causing the wire harness to be bent along the device.
- the wire harness is bent at the position of the shape holding portion to move the other end of the wire harness toward the second device and to connect the other end to the second device.
- a method of connecting between devices using a wire harness is
- the wire harness since the shape holding portion is provided, the wire harness can be bent at the position of the shape holding portion. Since the shape holding part can hold the shape when the bending is stopped, a wire harness having a desired bent shape can be formed. Moreover, it can be set as a wire harness with a waist by setting it as the wire harness which has a shape holding
- the shape holding portion is formed on the conductor of the conductive path constituting the wire harness, the conductive path itself can be bent at the position of the shape holding portion. Therefore, there is an effect that a good wire harness can be provided. Moreover, since the shape holding part is disposed so as to follow the conductive path constituting the wire harness, bending can be performed at the position of the shape holding part. Therefore, there is an effect that a good wire harness can be provided.
- aluminum or an aluminum alloy can be cited as an example of a suitable material for the shape holding portion. Since aluminum or an aluminum alloy is softer than a general conductive material such as copper, it can be easily bent and can be reduced in weight.
- the wire harness used for connection between the first device and the second device has the shape holding portion. Since the shape holding part holds the shape when the bending is stopped, the wire harness can be formed in a desired bent shape. Further, for example, after the connection to the first device, the wire harness can be bent to a position that does not hinder the installation of the second device. Since the wire harness has a waist, it is not necessary to fix it for temporary holding, or to keep the operator holding it by hand, and to use a dedicated holding jig. There is no need. Therefore, it is possible to reduce the work man-hour at the time of connection.
- connection method between devices using the wire harness having the configuration of (6) above after connecting one end of the wire harness to the first device in the first step, the wire harness can be transported together with the first device. In the past, there is an effect that the second and subsequent steps can be performed.
- FIG. 1 is a schematic view showing an example of wiring harnesses according to an embodiment of the present invention.
- FIG. 2 is a perspective view (a perspective view from the wire harness side) showing a state where the wire harness according to the embodiment of the present invention is covered with a shield cover.
- FIG. 3 is a perspective view (a perspective view from the shield cover side) showing a state in which the wire harness according to the embodiment of the present invention is covered with a shield cover.
- FIG. 4 is a cross-sectional view illustrating a state where the wire harness according to the embodiment of the present invention is covered with a shield cover.
- FIG. 5 is an enlarged cross-sectional view of the motor side connector portion of FIG. 6 is an enlarged cross-sectional view of the inverter-side connector portion of FIG.
- FIG. 5 is an enlarged cross-
- FIG. 7 is a perspective view of a bus bar as a conductor.
- FIG. 8 is a perspective view of a wire harness according to an embodiment of the present invention.
- FIG. 9 is a process explanatory diagram relating to a method of transporting a wire harness and a device according to an embodiment of the present invention, and a method of connecting between devices using a wire harness (first step).
- FIG. 10 is a process explanatory diagram according to a connection method (second process) between devices using a wire harness according to an embodiment of the present invention.
- FIG. 11 is a process explanatory diagram according to a connection method (third process) between devices using a wire harness according to an embodiment of the present invention.
- FIG. 12 is a process explanatory diagram according to a connection method (third process) between devices using a wire harness according to an embodiment of the present invention.
- FIG. 13 is a perspective view immediately before covering the wire harness with the shield cover after the third step of FIG.
- FIG. 14 is a perspective view immediately after the wire harness of FIG. 13 is completely covered with a shield cover.
- the conductor constituting the conductive path of the wire harness according to the embodiment of the present invention is formed by a bus bar.
- the bus bar is formed with a shape holding portion that has a bendable flexibility and can hold the shape in an arbitrary bent state.
- the wire harness according to the present embodiment is intended for wiring in a hybrid vehicle or an electric vehicle.
- the following description will be made with reference to an example of a hybrid vehicle (even in the case of an electric vehicle, the configuration, structure, and effect of the wire harness of the present invention are basically the same.
- the present invention can be applied not only to electric vehicles but also to ordinary vehicles.
- reference numeral 1 indicates a hybrid vehicle.
- the hybrid vehicle 1 is a vehicle that mixes and drives two powers of an engine 2 and a motor unit 3, and the motor unit 3 is supplied with electric power from a battery (battery pack) (not shown) via an inverter unit 4. It has become so.
- the engine 2, the motor unit 3, and the inverter unit 4 are mounted in the engine room 5 where the front wheels and the like are located in this embodiment.
- a battery (not shown) is mounted in the interior of an automobile existing behind the engine room 5 or in the rear of the automobile where there are rear wheels and the like.
- the motor unit 3 and the inverter unit 4 are connected by the wire harness 21 of this embodiment for high pressure.
- the battery (not shown) and the inverter unit 4 are connected by a high-voltage wire harness 6.
- the wire harness 6 is routed from the engine room 5 to under the floor on the ground side of the floor panel, for example.
- the motor unit 3 includes a motor and a generator.
- the inverter unit 4 includes an inverter and a converter in its configuration.
- the motor unit 3 is formed as a motor assembly including a shield case 7.
- the inverter unit 4 is also formed as an inverter assembly including the shield case 8.
- the battery (not shown) is of Ni-MH type or Li-ion type and is modularized. It is assumed that a power storage device such as a capacitor can be used.
- the battery (not shown) is not particularly limited as long as it can be used for the hybrid vehicle 1 and the electric vehicle.
- the motor unit 3 corresponds to the device according to the present invention and the first device.
- the inverter unit 4 corresponds to the second device according to the present invention.
- the inverter unit 4 is arranged and fixed immediately above the motor unit 3 in this embodiment.
- Reference numeral 9 indicates a fixed leg for fixing the arrangement immediately above.
- the wire harness 21 of this embodiment is almost entirely covered with a conductive shield cover 101 in a state where the motor unit 3 and the inverter unit 4 are electrically connected (see FIGS. 1 to 4).
- the shield cover 101 is fixed so as to straddle the shield case 7 of the motor unit 3 and the shield case 8 of the inverter unit 4, and is formed so as to exhibit an electromagnetic shield function with respect to the wire harness 21.
- the use of the shield cover 101 is an example. That is, as long as the electromagnetic shielding function can be exhibited, a shield member constituted by a braid or a shield member constituted by a metal foil (or a shield member including a metal foil) may be used.
- the wire harness 21 includes a motor-side connector 22, an inverter-side connector 23, and three high-voltage conductive paths 24 (conductive paths) that connect them.
- the wire harness 21 can be formed in a desired bent shape by the later-described configuration and structure of the high-voltage conductive path 24. Hereafter, each said structure is demonstrated.
- the motor-side connector 22 is provided integrally with the end positions of the three high-voltage conductive paths 24 such that the respective ends are arranged in a horizontal row.
- the motor-side connector 22 penetrates through the shield case 7 (see FIG. 1) of the motor unit 3 and is formed so as to function as a connection portion for electrical connection inside the shield case 7.
- the motor-side connector 22 includes three terminal portions 25 having conductivity, a housing portion 26 having insulation properties, and a packing member 27 having elasticity.
- the terminal portion 25 has a bus bar shape formed by pressing a metal plate made of copper or a copper alloy, and includes a terminal main body 28, a bent portion 29, and a conductor connecting portion 30 continuous to the bent portion 29. And have.
- the terminal portion 25 is formed in a substantially L shape in which the terminal main body 28 and the conductor connecting portion 30 are arranged substantially orthogonal to each other.
- the terminal body 28 is formed so as to match the electrical connection form with the motor unit 3 (see FIG. 1).
- the material of the terminal part 25 shall not be limited to copper etc., if the function as a terminal can be exhibited.
- the terminal portion 25 may be formed integrally with a bus bar 41 described later. In other words, the terminal portion 25 may be continuous with the end portion (one end) of the bus bar 41.
- the housing part 26 is molded using an insulating synthetic resin material.
- a part of the terminal portion 25 is molded, and one end of each of the three high-voltage conductive paths 24 is molded so as to have the shape shown in the figure (mold Molding is an example).
- the housing portion 26 includes a housing main body 31 that can be assembled to the shield case 7 (see FIG. 1) of the motor unit 3, and a main body continuous portion 32 that continuously covers the conductor connecting portion 30 continuously to the housing main body 31. ing.
- a packing member 27 is assembled at a predetermined position of the housing body 31.
- the inverter-side connector 23 is formed in such a manner that the other ends of the three high-voltage conductive paths 24 are gathered, and is provided integrally at the end position.
- the inverter-side connector 23 is formed so as to pass through the shield case 8 (see FIG. 1) of the inverter unit 4 and to function as a connection portion for electrical connection inside the shield case 8.
- the inverter-side connector 23 includes three terminal portions 33 having conductivity, a housing portion 34 having insulation properties, and a packing member 35 having elasticity.
- the terminal portion 33 has a bus bar shape formed by pressing a metal plate made of copper or a copper alloy in the same manner as the terminal portion 25, and includes a terminal body 36, a bent portion 37, and the bent portion 37. And a conductor connecting portion 38 that is continuous with the conductor.
- the terminal portion 33 is formed in a substantially L shape in which the terminal main body 36 and the conductor connecting portion 38 are disposed substantially orthogonal to each other.
- the terminal body 36 is formed so as to match the electrical connection form with the inverter unit 4 (see FIG. 1).
- the material of the terminal part 33 shall not be limited to copper etc., if the function as a terminal can be exhibited.
- the terminal portion 33 may be formed integrally with a bus bar 41 described later. In other words, the terminal portion 33 may be continuous with the end portion (the other end) of the bus bar 41.
- the housing part 34 is molded using a synthetic resin material having insulating properties in the same manner as the housing part 26.
- a part of the terminal portion 33 is molded, and the other ends of the three high-voltage conductive paths 24 are molded to have the shape shown in the figure ( Molding is an example).
- the housing part 34 has a housing main body 39 that can be assembled to the shield case 8 (see FIG. 1) of the inverter unit 4, and a main body continuous part 40 that continuously covers the conductor connecting parts 38. is doing.
- a packing member 35 is assembled at a predetermined position of the housing main body 39.
- the high-voltage conductive path 24 includes a bus bar 41 as a conductor and a covering portion 42 (cover) that covers the bus bar 41.
- the high-voltage conductive path 24 is characterized in that the bus bar 41 is formed with a shape holding portion 43 that has a bendable flexibility and can hold the shape in an arbitrary bent state.
- the high-voltage conductive path 24 is not limited to the bus bar 41 as long as it can have the shape holding portion 43.
- the conductor may be made of copper, copper alloy, or aluminum, and has a conductor structure in which strands are twisted together, or a rod-shaped conductor structure having a rectangular or round cross section (for example, a flat single core or a round conductor). Any of a single-conductor structure).
- a curved portion 44 that is curved in a semicircular arc shape is formed.
- the curved portion 44 is disposed and formed in the middle in the longitudinal direction of the high-voltage conductive path 24.
- the bending portion 44 serves as a part that absorbs a longitudinal dimensional error and positional deviation related to the electrical connection between the motor unit 3 and the inverter unit 4 (see FIG. 1), and also comes into contact with the shield cover 101 to dissipate heat. It is formed as a part which raises.
- the bus bar 41 is formed so that the whole is a shape holding portion 43.
- the bus bar 41 is formed to be flexible so that it can be bent as a whole and to retain the shape (plastically deform) in an arbitrary bent state.
- the bus bar 41 may have a form in which a part thereof is formed as the shape holding part 43 and the remaining part is formed as a rigid part.
- the bus bar 41 of the present embodiment is formed by pressing a metal plate made of aluminum or an aluminum alloy into a bus bar shape (the material is an example.
- the material is not particularly limited as long as the shape can be maintained in an arbitrary bending state and is suitable as a high-voltage conductor).
- connection fixing is welding (not limited to this. It is assumed that an electrical connection is made and does not have to be separated in normal use).
- Reference numeral 45 in FIG. 7 indicates a welded portion.
- the terminal portion 25 is provided at one end of the bus bar 41 and the terminal portion 33 is provided at the other end of the bus bar 41 as shown in FIG. Then, after arranging three such conductors 46 so as to be arranged on substantially the same plane, they are covered with a covering portion 42 as shown in FIG. 8, thereby forming the high-voltage conductive path 24. Furthermore, when the motor-side connector 22 and the inverter-side connector 23 are provided at each end of the high-voltage conductive path 24, the formation of the wire harness 21 is completed.
- the bus bar 41 is covered with the covering portion 42 and subjected to a predetermined bending process, and then the molding is performed at both ends to provide the motor-side connector 22 and the inverter-side connector 23, the formation of the wire harness 21 is completed. To do.
- the wire harness 21 Since the wire harness 21 has the shape holding portion 43, the entire bus bar 41 as a conductor is not a rigid body.
- the wire harness 21 has a waist. Since the shape holding part 43 holds the shape when the bending is stopped, the wire harness 21 can be formed in a desired bent shape.
- the shield cover 101 is a conductive member capable of exhibiting an electromagnetic shielding function with respect to the wire harness 21, and in this embodiment, the ceiling wall 102 and the side wall coupled to the periphery of the ceiling wall 102. 103 and a plurality of fixing portions 104 coupled to predetermined positions of the side wall 103, and is formed in a box shape as shown.
- a convex portion 105 is formed on the ceiling wall 102.
- the convex portion 105 is formed so that a part of the ceiling wall 102 protrudes when viewed from the outside (formed so as to be a concave portion when viewed from the inside).
- the inner surface of the convex portion 105 is formed as a contact portion with respect to the curved portion 44 of the wire harness 21.
- the convex part 105 can absorb the heat which arises in the wire harness 21, if the curved part 44 contacts this inner surface.
- the heat absorbed through the convex portion 105 is radiated by substantially the entire shield cover 101.
- the fixing portion 104 is a portion that is screwed and fixed to the shield case 7 of the motor unit 3 and the shield case 8 of the inverter unit 4 (see FIG. 1), and has a tongue-like shape having a screw hole 106.
- the shield cover 101 is formed by drawing a conductive metal plate or punching and bending the metal plate.
- the shield cover 101 according to the present embodiment has a one-part structure, but is not limited to this, and may have a two-part divided structure.
- the shield cover 101 of the present embodiment is formed so as to be able to cover a part formed separately from the wire harness 21 and the wire harness 21 after being routed at a predetermined position. Although it is a part, as mentioned above, when changing to the shield member comprised by braiding, or the shield member comprised by metal foil (or shield member containing metal foil), a shield member becomes a component of the wire harness 21. Shall be included.
- the wire harness 21 is transported to the motor manufacturing process.
- the wire harness 21 is prepared on the assembly line, and the motor side connector 22 of the wire harness 21 is connected to the motor unit 3. At this time, the motor-side connector 22 penetrates the shield case 7 and is electrically connected inside the shield case 7.
- the wire harness 21 When the wire harness 21 is connected to the motor unit 3 and then transported together to the vehicle assembly process, the wire harness 21 is bent as shown by the phantom line so as to follow the motor unit 3. Specifically, the wire harness 21 is bent at the desired position of the shape holding portion 43 so as to follow the motor unit 3.
- the wire harness 21 Since the wire harness 21 has a waist, there is no need for the operator to continue holding the wire harness 21 by hand and continue the subsequent work, and the wire harness 21 is held using a dedicated holding jig. There is no need to do. In addition, when the wire harness 21 is placed along the motor unit 3, if the terminal portion 33 of the inverter-side connector 23 is directed to the motor unit 3, the terminal portion 33 can be simply protected. Therefore, it is not necessary to provide a dedicated terminal protection member.
- the work of installing and fixing the motor unit 3 to the vehicle is performed, and the wire harness 21 is changed from a state shown by a virtual line to a solid line. Work to get to the state. Then, simultaneously with the work relating to the wire harness 21 or after the work, an operation of moving the inverter-side connector 23 of the wire harness 21 to a desired retracted position as shown in FIG. 10 is performed. The reason for moving to the desired retracted position is to install and fix the inverter unit 4 at a position corresponding to the motor unit 3 (so as not to get in the way).
- the wire harness 21 is bent, and the inverter-side connector 23 of the wire harness 21 is moved toward the inverter unit 4 as shown in FIGS. 11 and 12. Then, as shown in FIGS. 12 and 13, when the inverter side connector 23 is assembled so as to penetrate the shield case 8 and the electrical connection is performed inside the shield case 8, the wire harness 21 is connected, transported, And a series of work related to routing is completed.
- the shield cover 101 is put on the wire harness 21, and the work of fixing this with screws is performed.
- the wire harness 21 is electromagnetically shielded and is not affected by noise.
- the conductor of the wire harness 21 is configured by the bus bar 41. Since the shape holding portion 43 is formed on the bus bar 41, the bus bar 41 itself can be bent at the position of the shape holding portion 43. Since the shape holding part 43 holds the shape at the time when the bending is stopped by plastic deformation, the wire harness 21 can be formed in a desired bent shape. Further, by forming the shape holding portion 43 on the bus bar 41, the waisted wire harness 21 can be obtained. Therefore, such a wire harness 21 has an effect of reducing the work man-hours at the time of conveyance and connection.
- the conductor of the wire harness 21 that is connected to the motor unit 3 and transported together with the motor unit 3 is configured by the bus bar 41. Since the shape holding portion 43 is formed on the bus bar 41, the waisted wire harness 21 can be obtained. Therefore, it is only necessary to bend at the position of the shape holding portion 43 during conveyance so as to follow the motor unit 3, and the arrangement of the wire harness 21 can be stabilized without providing a special fixing member. There is an effect. Therefore, there is an effect that it is possible to reduce the work man-hour at the time of conveyance.
- the conductor of the wire harness 21 used for connecting the motor unit 3 and the inverter unit 4 is configured by the bus bar 41. Since the shape holding portion 43 is formed on the bus bar 41, the bus bar 41 itself can be bent at the position of the shape holding portion 43. Since the shape holding part 43 holds the shape when the bending is stopped, the wire harness 21 can be formed in a desired bent shape. Therefore, the wire harness 21 can be bent to a position that does not hinder the installation of the inverter unit 4 after connection to the motor unit 3.
- the wire harness 21 Since the wire harness 21 has a waist, there is no need to fix it for temporary holding or to keep the operator holding it by hand, and to use a dedicated holding jig. There is no need to do. Therefore, it is possible to reduce the work man-hour at the time of connection.
- the motor unit 3 and the inverter unit 4 are connected by the wire harness 21.
- the present invention is not limited to this, and the electric connection box such as the inverter unit 4 and the battery, the inverter unit 4 and the junction block, The electrical junction boxes may be connected to each other.
- the bus bar 41 is provided as a conductor of the high-voltage conductive path 24, and the entire (or part of the bus bar) 41 is configured and structured as the shape holding portion 43.
- the present invention is not limited thereto. Make it not exist. That is, a shape holding portion having a shape different from the above is provided as, for example, a separate part, and the shape holding portion is disposed along the conductive path, and the bent shape holding portion is arranged in an arbitrary bending state. The shape of the wire harness may be maintained.
- Specific examples of use include, for example, one or a plurality of high-voltage electric wires whose conductor structure is a stranded wire, and a shape holding portion that becomes a linear part made of aluminum, for example, along this high-voltage electric wire, and this shape
- the shape may be held in an arbitrary bent state by the holding portion (a high-voltage electric wire whose conductor structure is, for example, a stranded wire is used as a supplementary wire shape holding portion. ).
- shape holding portion for example, it is fixed to a high-voltage electric wire by tape winding, or appropriately disposed so as to become a mandrel, for example (both ends are molded into a motor side connector and an inverter side connector) It is assumed that there is a method of doing.
- the wire harness the method of transporting the wire harness and the device, and the method of connecting the devices using the wire harness according to the present invention, the wire harness, the wire harness, and the device capable of reducing the work man-hour at the time of transport and connection And a connection method between devices using a wire harness.
- Covering part (covering) 43 Shape holding part 44 ... Curved part 45 ... Welded part 46 ... Conductor 101 ... Shield cover 102 ... Ceiling wall 103 ... Side wall 104 ... Fixed part 105 ... Convex part 106 ... Screw hole
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Abstract
Description
(1) 曲げ可能な柔軟性を有し且つ任意の曲げ状態での形状保持が可能な形状保持部を有するワイヤハーネス。
(4) 曲げ可能な柔軟性を有し且つ任意の曲げ状態での形状保持が可能な形状保持部を有するワイヤハーネスと、該ワイヤハーネスの一端が接続された機器とを搬送するにあたり、前記形状保持部の位置で前記ワイヤハーネスに曲げを施して前記機器に沿わせる工程を含むワイヤハーネスと機器との搬送方法。
(5) 曲げ可能な柔軟性を有し且つ任意の曲げ状態での形状保持が可能な形状保持部を有するワイヤハーネスを準備し、該ワイヤハーネスの一端を第一機器に接続する第一工程と、前記形状保持部の位置で前記ワイヤハーネスに曲げを施し、該ワイヤハーネスの他端を所望の退避位置に移動させる第二工程と、前記第一機器に対応する位置に第二機器を設置した後、前記形状保持部の位置で前記ワイヤハーネスに曲げを施して該ワイヤハーネスの前記他端を前記第二機器に向けて移動させるとともに、該第二機器に前記他端を接続する第三工程と、を含むワイヤハーネスによる機器間の接続方法。
本実施例のワイヤハーネスは、ハイブリッド自動車又は電気自動車に配索されるものを対象にしている。以下では、ハイブリッド自動車での例を挙げて説明するものとする(電気自動車の場合でも本発明のワイヤハーネスの構成、構造、及び効果は基本的に同じであるものとする。尚、ハイブリッド自動車又は電気自動車に限らず、通常の自動車等でも本発明を適用することができるものとする)。
2…エンジン
3…モータユニット(機器、第一機器)
4…インバータユニット(第二機器)
5…エンジンルーム
6…ワイヤハーネス
7、8…シールドケース
9…固定脚部
21…ワイヤハーネス
22…モータ側コネクタ(接続部)
23…インバータ側コネクタ(接続部)
24…高圧導電路(導電路)
25、33…端子部
26、34…ハウジング部
27、35…パッキン部材
28、36…端子本体
29、37…折曲部
30、38…導体連結部
31、39…ハウジング本体
32、40…本体連続部
41…バスバー(導体)
42…被覆部(被覆)
43…形状保持部
44…湾曲部
45…溶接部分
46…導体
101…シールドカバー
102…天井壁
103…側壁
104…固定部
105…凸部
106…ネジ穴
Claims (6)
- 曲げ可能な柔軟性を有し且つ任意の曲げ状態での形状保持が可能な形状保持部を有するワイヤハーネス。
- 請求項1に記載のワイヤハーネスにおいて、
前記形状保持部が導電路における導体に一体形成される、又は、前記形状保持部が導電路に沿わせるように配設されるワイヤハーネス。 - 請求項1又は請求項2に記載のワイヤハーネスにおいて、
前記形状保持部の材質がアルミニウム又はアルミニウム合金とされるワイヤハーネス。 - 曲げ可能な柔軟性を有し且つ任意の曲げ状態での形状保持が可能な形状保持部を有するワイヤハーネスと、該ワイヤハーネスの一端が接続された機器とを搬送するにあたり、前記形状保持部の位置で前記ワイヤハーネスに曲げを施して前記機器に沿わせる工程を含むワイヤハーネスと機器との搬送方法。
- 曲げ可能な柔軟性を有し且つ任意の曲げ状態での形状保持が可能な形状保持部を有するワイヤハーネスを準備し、該ワイヤハーネスの一端を第一機器に接続する第一工程と、
前記形状保持部の位置で前記ワイヤハーネスに曲げを施し、該ワイヤハーネスの他端を所望の退避位置に移動させる第二工程と、
前記第一機器に対応する位置に第二機器を設置した後、前記形状保持部の位置で前記ワイヤハーネスに曲げを施して該ワイヤハーネスの前記他端を前記第二機器に向けて移動させるとともに、該第二機器に前記他端を接続する第三工程と、
を含むワイヤハーネスによる機器間の接続方法。 - 請求項5に記載のワイヤハーネスによる機器間の接続方法において、
前記第一工程と前記第二工程との間に請求項4に記載のワイヤハーネスと機器との搬送方法を採用するワイヤハーネスによる機器間の接続方法。
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CN201180034663.XA CN103026424B (zh) | 2010-07-12 | 2011-07-07 | 线束、用设备运输线束的方法,以及用线束连接设备的方法 |
EP11806695.0A EP2595158B1 (en) | 2010-07-12 | 2011-07-07 | Wire harness, method for transporting wire harness with devices, and method for connecting devices using wire harness |
US13/809,662 US10522266B2 (en) | 2010-07-12 | 2011-07-07 | Wire harness, method for transporting wire harness with device, and method for connecting devices with wire harness |
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JP2012022777A (ja) | 2012-02-02 |
US20130105218A1 (en) | 2013-05-02 |
CN103026424B (zh) | 2019-05-31 |
EP2595158B1 (en) | 2017-09-06 |
CN103026424A (zh) | 2013-04-03 |
EP2595158A4 (en) | 2016-11-16 |
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