JP2017050193A - Connector holding jig and connector bar - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technique capable of sharing a member for holding a connector among a plurality of kinds of connectors.SOLUTION: A connector holding jig 40 includes two holding parts 42 and a fixing part 44. The two holding parts are formed to be capable of holding a connector 14 between opposing main surfaces thereof. The fixing part 44 is formed to support the two holding parts 42 to be relatively movable in a direction orthogonal to the main surfaces and to be able to fix the two holding parts 42 while the two holding parts 42 are holding the connector 14.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a technology for holding a connector.

  In the connector inspection apparatus described in Patent Document 1, a holder for holding a connector is disclosed for conducting a continuity test of the connector.

  As described above, a member for holding the connector such as the holder may be required for the continuity test or the insertion of the terminal into the connector. A member for holding the connector is conventionally designed for each connector in accordance with the shape of the connector.

JP 2014-175200 A

  However, if the member for holding the connector is designed exclusively for each connector, the number of types of parts increases and the cost may increase accordingly.

  Then, an object of this invention is to provide the technique which can make the member holding a connector common among multiple types of connectors.

  In order to solve the above-described problem, the connector holding jig according to the first aspect includes two holding portions capable of holding a connector between opposing main surfaces, and the two holding portions in a direction perpendicular to the main surface. And a fixing portion that supports the two holding portions and can fix the two holding portions in a state where the two holding portions hold the connector.

  The connector holding jig according to the second aspect is the connector holding jig according to the first aspect, and is provided on the main surface of the clamping part so as to be interposed between the clamping part and the connector. The apparatus further includes a buffer portion that can buffer pressure applied to the connector when the two sandwiching portions sandwich the connector.

  The connector bar according to the third aspect includes a bar main body formed in a bar shape and a connector holding jig according to the first or second aspect attached so as to be arranged in a plurality along the extending direction of the bar main body. And a tool.

  The connector bar which concerns on a 4th aspect is a connector bar which concerns on a 3rd aspect, Comprising: The said connector holding jig is attached to the said bar main-body part by the said fixing | fixed part.

  The connector bar which concerns on a 5th aspect is a connector bar which concerns on a 4th aspect, Comprising: The bolt insertion hole which can insert a bolt is formed in the said clamping part, The said fixing | fixed part is the said bolt insertion hole. A bolt to be inserted; and a nut capable of fixing the bolt inserted into the bolt insertion hole.

  The connector bar which concerns on a 6th aspect is a connector bar which concerns on a 5th aspect, Comprising: The said connector holding jig follows the extension direction of the said bar main-body part in the said bar main-body part in the state which loosened the said volt | bolt. It is attached to be slidable, and it is attached to be able to change between a slidable state and a non-slidable state by changing the state between the loosened state and the tightened state. It has been.

  According to the first to sixth aspects, the two holding portions that can hold the connector between the opposing main surfaces, the two holding portions are supported so as to be relatively movable in a direction orthogonal to the main surface, and the two holding portions Since the portion includes a fixing portion that can fix the two clamping portions in a state where the connector is clamped, a member that holds the connector is shared between a plurality of types of connectors having different sizes by changing the interval between the two clamping portions. Can be

  In particular, according to the second aspect, the connector holding jig is provided on the main surface of the clamping part so as to be interposed between the clamping part and the connector, and the pressure applied to the connector when the two clamping parts clamp the connector Since a buffer portion capable of buffering is further provided, a plurality of types of connectors having different surface shapes can be stably clamped with a single type of connector holding jig.

  According to the third to sixth aspects, the bar main body formed in a bar shape, and the connector holding jig according to the first or first aspect attached so as to be arranged in a plurality along the extending direction of the bar main body Therefore, using the connector bar, it is possible to perform terminal insertion or the like according to the manufacture of a wire harness including a plurality of types of connectors.

  In particular, according to the fourth aspect, since the connector holding jig is attached to the bar main body portion by the fixing portion, it is not necessary to separately provide a member for attachment, thereby simplifying the configuration.

  In particular, according to the fifth aspect, the clamping portion is formed with a bolt insertion hole through which the bolt can be inserted, and the fixing portion fixes the bolt inserted into the bolt insertion hole and the bolt inserted into the bolt insertion hole. Since a possible nut is included, a member for holding the connector can be made common with a simple configuration.

  In particular, according to the sixth aspect, the connector holding jig is attached to the bar main body so as to be slidable along the extending direction of the bar main body with the bolt loosened, and the bolt is loosened. When it is preferable that it cannot be moved, such as when a terminal is inserted, because it is attached so that the state can be changed between a state in which sliding movement is possible and a state in which sliding movement is impossible by changing the state between the tightened state In addition to being set in a non-movable state, it can be set in a movable state when it is preferable to be movable, such as when a branch is formed.

It is a flow work figure of the manufacturing method of the wire harness concerning an embodiment. It is the figure which expanded one example of the wire harness manufactured by the manufacturing method of the wire harness which concerns on embodiment. It is a perspective view which shows the connector bar which concerns on embodiment, and a wire harness assembly apparatus provided with the same. It is the elements on larger scale of the connector bar which concerns on embodiment, and a wire harness assembly apparatus provided with the same. It is a side view which shows the connector holder which concerns on embodiment. It is a side view which shows the connector holder which concerns on embodiment. It is the elements on larger scale which show the set bar which concerns on embodiment. It is explanatory drawing which shows a mode that the electric wire with a terminal was set to the set bar. It is explanatory drawing which shows a mode that the electric wire with a terminal set to the set bar is inserted in the connector set to the connector bar. It is explanatory drawing which shows a mode that the electric wire with a terminal was inserted in the connector set to the connector bar. It is explanatory drawing which shows a mode that a connector bar is rotated. It is explanatory drawing which shows the electric wire group processing apparatus which concerns on embodiment. It is explanatory drawing which shows a mode that the primary branch was formed in the electric wire. It is explanatory drawing which shows a mode that the secondary branch was formed in the electric wire.

{Embodiment}
Hereinafter, the connector holding jig and the connector bar including the same according to the embodiment will be described. Here, it demonstrates along with the manufacturing method of the wire harness using a connector bar. Here, first, the overall flow of the method of manufacturing the wire harness according to the embodiment will be described with reference to FIG. Drawing 1 is a flow work figure of the manufacturing method of the wire harness concerning an embodiment.

  In the wire harness manufacturing method according to the embodiment, first, a plurality of connectors 14, a plurality of connector holding jigs 40, and a connector bar 30 are prepared. The connector holding jig 40 is formed so as to hold the connector 14. The connector bar 30 is formed to be able to support a plurality of connector holding jigs 40. Then, the connector holding jig 40 is set on the connector bar 30 and the connector 14 is set on the connector holding jig 40.

  Next, it moves to an electric wire insertion process. In the wire insertion step, the terminal-attached wire 12 is inserted into the connector 14 set on the connector bar 30. Here, the connector bar 30 on which the connector 14 is set is attached to the wire harness assembling apparatus 20 together with the set bar 50 (see FIG. 3). The set bar 50 holds the terminal-attached electric wire 12 connected to the connector 14. Then, the terminal-attached electric wire 12 set on the set bar 50 is inserted into the connector 14.

  Next, it moves to a wire group processing step. In the wire group processing step, a branch is formed on the terminal-attached electric wire 12 extending from the connector 14 while the connector 14 is set on the connector bar 30 to form the wire harness 10. Specifically, at the time when the terminal-attached electric wire 12 is inserted into the connector 14, each terminal-attached electric wire 12 extends apart. The operation | work which maintains the state which branched the several electric wire 12 with a terminal extended in this way in the form along the installation path | route in a vehicle is performed. In addition, in FIG. 1, the electric wire 12 with a terminal which passes along the same path | route is drawn with one line. For this reason, the electric wire 12 with a terminal drawn by one line in FIG. 1 may actually be a bundle of a plurality of electric wires 12 with a terminal. The same applies to each of FIGS. 2 and 10 to 14.

  Here, the wire harness 10 manufactured by the manufacturing method of the wire harness which concerns on embodiment is demonstrated using FIG. FIG. 2 is a diagram in which an example of the wire harness 10 manufactured by the method of manufacturing a wire harness according to the embodiment is developed on a plane.

  The wire harness 10 to be processed is configured such that a plurality of terminal-attached electric wires 12 are bundled while being branched. At each branch destination of the wire harness 10, the terminal-attached electric wire 12 is inserted and connected to the connector 14. In a state where the wire harness 10 is incorporated in the vehicle, each connector 14 is connected to various electrical components mounted on the vehicle. Thereby, the wire harness 10 plays the role which electrically connects the various electrical components mounted in the vehicle. The terminal-attached electric wires 12 included in the wire harness 10 are bundled while being branched in a form corresponding to a laying route in the vehicle.

  The electric wire 121 includes a core wire that is a wire material mainly composed of a metal such as copper or aluminum, and an insulating coating that covers the periphery of the core wire. The insulating coating is, for example, a synthetic resin member mainly composed of polyethylene, vinyl chloride, polyamide-based nylon, or the like.

  As described above, the connector 14 is connected to the end of the electric wire 121. For example, the electric wire 121 is connected to the connector 14 via a terminal 122 connected to an end portion thereof by crimping or welding. The terminal 122 is a metal member whose main component is a metal such as copper or tin.

  The housing 141 of the connector 14 is integrally formed of an insulating resin material such as polybutylene terephthalate (PBT) or ABS resin. In the housing 141 of the connector 14, a plurality of cavities 142 are formed on the main surface to which the electric wires 121 are connected (see FIG. 4).

  The cavity 142 has an opening structure that accommodates an end portion (for example, the terminal 122) of the electric wire 121. The cavity 142 has a certain depth, for example, in a direction substantially perpendicular to the main surface of the main body of the connector 14, and the electric wire 121 accommodated in the cavity 142 is positioned at a predetermined depth in the cavity 142. Are held in a state where they are positioned. The number of the cavities 142 is preferably provided in correspondence with the number of the electric wires 121, but is not particularly limited to such a number. In the present embodiment, 14 cavities 142 are provided vertically and horizontally, but a plurality of cavities 142 may be provided. Further, the depth and width of each cavity 142 need not be the same, and cavities 142 having different depths and widths may be included.

  The connector 14 in a state where the electric wire 121 is held in the cavity 142 is connected to the mating connector from, for example, a surface opposite to the main surface.

  Here, it demonstrates as what manufactures the wire harness 10 branched as shown in FIG. 2 as an example. Of course, you may manufacture the wire harness which has a branch form other than this. In the wire harness 10, two branch line portions 132 extend from one end portion of the main line portion 131 and three branch line portions 132 extend from the other end portion of the main line portion 131. The branch line portion 132 extends. At this time, the connector 14 is connected to the end of each branch line portion 132. Hereinafter, the connectors 14 will be referred to as connectors 14a to 14f, respectively, when distinction is necessary.

  Here, the branch portion may be called a primary branch and a secondary branch in order from the side closer to the connector 14. That is, the primary branch is a branch formed by gathering portions of the electric wire 121 extending from the connector 14 where no branch is formed on the connector 14 side. The secondary branch is a branch formed between portions where the primary branch is formed and a portion where the branch is not formed on the primary branch side.

  Specifically, in the wire harness 10 shown in FIG. 2, a portion (branch position P <b> 1) where the branch line portion 132 that continues from the trunk portion 131 to the connectors 14 a and 14 b branches and the trunk portion 131 to the connectors 14 d, 14 e, and 14 f The portion where the continuous branch line portion 132 branches (branch position P2) is the primary branch portion. Further, in the wire harness 10 shown in FIG. 2, a portion where the branch portion 132 connected from the trunk portion 131 to the connector 14c branches (a branch position P3) is a secondary branch portion.

  Depending on the wire harness, only the primary branch may be provided. In addition, a branch after the tertiary may be provided.

<Wire harness assembly device>
Next, the connector holding jig 40, the connector bar 30 holding the connector holding jig 40, and the wire harness assembling apparatus 20 to which the connector bar 30 is attached will be described with reference to FIGS. FIG. 3 is a schematic perspective view showing the connector bar 30 and the wire harness assembling apparatus 20 including the connector bar 30 according to the embodiment. FIG. 4 is a partially enlarged perspective view of the connector bar 30 according to the embodiment and the wire harness assembling apparatus 20 including the same. 5 and 6 are side views showing the connector holding jig 40 according to the embodiment. In FIG. 3, the connector holding jig 40 is illustrated in a simplified manner. 4 to 6, the connector 14 is set on the connector holding jig 40.

  Here, the wire harness assembling apparatus 20 includes a frame 21, a connector bar 30, and a set bar 50. Furthermore, here, the wire harness assembling apparatus 20 includes an electric wire check unit 26.

  The frame 21 includes a frame main body portion 22 and a bar attachment portion 23. The frame 21 is provided so as to support the connector bar 30.

  The frame main body 22 is formed so as to be able to support the bar mounting portion 23. More specifically, the frame main body 22 includes a pair of first rod-shaped portions 221, a second rod-shaped portion 222 that couples the pair of first rod-shaped portions 221, and one end portion in the longitudinal direction of the pair of first rod-shaped portions 221. And a third rod-like portion 223 provided respectively. The 1st rod-shaped part 221 is provided so that it may extend along a perpendicular direction. The 2nd rod-shaped part 222 has connected the part near one edge part side among the longitudinal direction intermediate parts of a pair of 1st rod-shaped part 221. As shown in FIG. Further, the second rod-shaped portion 222 extends in a direction orthogonal to the longitudinal direction of the first rod-shaped portion 221. The third rod-shaped portion 223 extends on both sides from the front end of one end portion in the longitudinal direction of the first rod-shaped portion 221, and extends in a direction orthogonal to the longitudinal direction of the first rod-shaped portion 221 and the longitudinal direction of the second rod-shaped portion 222. It is provided as follows. A pair of casters 224 is provided on the lower surface of the third rod-like portion 223. Thereby, the wire harness assembly apparatus 20 is movable.

  In the following, for the sake of convenience, the direction in which the second rod-shaped portion 222 extends in FIG. 3 is referred to as the x-axis direction, the direction in which the third rod-shaped portion 223 extends is referred to as the y-axis direction, and the direction in which the first rod-shaped portion 221 extends is referred to as the z-axis direction. There is. In this case, here, the z-axis direction is a direction along the vertical direction, and the x-axis direction and the y-axis direction are directions along the horizontal direction.

  The bar attachment portion 23 is attached to the frame main body portion 22 and is formed to be able to support the connector bar 30. More specifically, the bar attachment portion 23 includes a connecting portion 231 and a first rail portion 232.

  The connecting portion 231 is formed in a short rod shape, and is connected to the other end portion side in the longitudinal direction of the pair of first rod-like portions 221. At this time, the connecting portion 231 is connected so as to protrude from the first rod-shaped portion 221 in a direction intersecting the longitudinal direction of the first rod-shaped portion 221 (here, the y-axis direction).

  The first rail portion 232 is connected to the distal ends of the pair of connecting portions 231. Here, an intermediate portion of the first rail is attached to the connecting portion 231.

  Here, the bar attaching portion 23 is rotatable with respect to the frame main body portion 22. More specifically, here, as shown in FIG. 11, the connecting portion 231 and the first rail portion 232 are rotatably connected. The rotation range of the bar attachment portion 23 relative to the frame main body portion 22 may be determined as appropriate. Preferably, the first rail portion 232 may be deformable in a range from a state in which the longitudinal direction of the first rail portion 232 is along the vertical direction to a state along the horizontal direction.

<Connector bar>
The connector bar 30 is attached to the bar attachment portion 23. Here, the connector bar 30 includes a bar main body portion and a connector holding jig 40. A plurality of connector holding jigs 40 are attached along the extending direction of the bar main body. More specifically, the connector bar 30 includes a second rail portion 32 and a third rail portion 34. Here, the 3rd rail part 34 demonstrates as what is an example of a bar main-body part.

  The second rail portion 32 is formed in a rod shape and is attached to each of the pair of first rail portions 232. Here, the second rail portion 32 extends in the direction perpendicular to the longitudinal direction of the first rail portion 232 and the direction connecting the pair of first rail portions 232 (the y-axis direction in FIG. 3). A side surface on one end side in the longitudinal direction of the portion 32 is attached to the first rail portion 232. The second rail portion 32 is provided such that the position of the second rail portion 32 can be changed along the longitudinal direction of the first rail portion 232 with respect to the first rail portion 232. Here, the second rail portion 32 is provided to be slidable along the longitudinal direction of the first rail portion 232 with respect to the first rail portion 232. The configuration in which the second rail portion 32 is slidable with respect to the first rail portion 232 will be described in detail later together with the configuration in which each other sliding member is slidable.

  The third rail portion 34 is formed in a rod shape, and both ends thereof are attached to the pair of second rail portions 32 so as to be interposed between the pair of second rail portions 32. The third rail portion 34 extends along the x-axis direction. The third rail portion 34 is provided so that its position can be changed along the longitudinal direction of the second rail portion 32 with respect to the second rail portion 32. Here, the third rail portion 34 is provided to be slidable along the longitudinal direction of the second rail portion 32 with respect to the second rail portion 32.

  The bar main body is provided so as to support a plurality of connector holding jigs 40. In the example shown in FIG. 3, three connector holding jigs 40 are provided for one bar main body. Here, the bar main body portion is provided so as to be able to directly support the connector holding jig 40 in such a manner that the electric wire 121 extending from the connector 14 held by the connector holding jig 40 hangs down. The bar main body can support a plurality of connector holding jigs 40 in a first direction (here, the x-axis direction) orthogonal to the vertical direction. Further, the plurality of bar main body portions are provided so as to be arranged along a second direction (z-axis direction in the example shown in FIG. 3) orthogonal to the first direction. Further, the bar body portion supports the plurality of connector holding jigs 40 so as to be slidable along the extending direction of the bar body portion.

  Here, a configuration for enabling sliding between the members will be described. As a configuration for enabling sliding between the members, for example, a groove is formed in one member of a pair of relatively sliding members, and the other member fits into the groove and the groove. It is possible to slide along. At this time, the other member may be directly attached and slid with respect to the one member, or may be attached and slid through another member. As another member, a slider member which can be attached to the other member and can be fitted in the groove and slide along the groove is conceivable. Here, description will be made assuming that each member is slidable by forming the groove.

  That is, as a configuration for enabling the second rail portion 32 to slide with respect to the first rail portion 232, the first rail portion 232 is formed in a rod shape having a rectangular cross section and has a longitudinal direction on one side surface ( In the example shown in FIG. 3, a groove 232a is formed along the z-axis direction). Here, a groove 232a is formed on the side surface (side surface facing the x-axis direction) of the first rail portion 232 where the pair of first rail portions 232 face each other. And a part of 2nd rail part 32 fits into the said groove | channel 232a, and slides along the said groove | channel 232a.

  Similarly, as a configuration for enabling the third rail portion 34 to slide with respect to the second rail portion 32, the second rail portion 32 is formed in a bar shape having a rectangular cross section and is formed longitudinally on one side surface. A groove 32a is formed along the y-axis direction in the example shown in FIG. Here, the groove | channel 32a is formed in the side surface (side surface which faces an x-axis direction) where a pair of 2nd rail part 32 mutually opposes among the side surfaces of the 2nd rail part 32. As shown in FIG. And a part of 3rd rail part 34 fits into the said groove | channel 32a, and slides along the said groove | channel 32a.

  In addition, as a configuration for allowing the connector holding jig 40 to slide relative to the third rail portion 34, the third rail portion 34 is formed in a bar shape having a rectangular cross section and has a longitudinal direction ( A groove 34a is formed along the x-axis direction in the example shown in FIG. Here, of the side surfaces of the third rail portion 34, when the first rail portion 232 takes a posture along the vertical direction, a groove 34a is formed on the side surface facing upward in the vertical direction. A part of the connector holding jig 40 is fitted into the groove 34a and slides along the groove 34a.

  Each member that slides on each other is preferably fixable at an arbitrary position or a predetermined position along the sliding track. For example, a bolt and a nut can be adopted as the configuration for allowing the members sliding relative to each other to be fixed at an arbitrary position or a predetermined position along the sliding track. That is, when a pair of relatively sliding members reach a position where they want to be fixed, the bolts and nuts are tightened and fixed. In addition, when it is desired to relatively slide the pair of members, the bolts and the nuts can be loosened to be slid. In this case, for example, if the width of the bolt hole is provided in a long shape along the groove in the same manner as the groove, the members sliding with each other can be fixed at an arbitrary position. Further, for example, if the bolt holes are provided so as to be scattered along the grooves, the members sliding with each other can be fixed at a predetermined position.

  However, the configuration for allowing the members sliding relative to each other to be fixed at an arbitrary position or a predetermined position along the sliding track is not limited to the bolt and the nut. For example, a configuration in which one of a pair of relatively sliding members is provided with an operating portion and a protrusion that retracts in conjunction with the operating portion is conceivable. That is, when it is desired to slide the pair of members relative to each other, it is possible to slide by operating the operation portion and retracting the protrusion. When the pair of relatively sliding members reaches a position to be fixed, the operation portion is released and the protrusion is protruded to be fixed.

  A plurality of connector bars 30 are provided along a direction orthogonal to the longitudinal direction (in the example shown in FIG. 3, the z-axis direction). Here, two connector bars 30 are attached to the bar attaching portion 23. Here, the two connector bars 30 protrude on the same side with respect to the bar mounting portion 23, that is, the second rail portion 32 is on the same side with respect to the first rail portion 232 (in the example shown in FIG. It is attached so as to protrude to the negative side in the y-axis direction), but this is not essential. The two connector bars 30 may be attached to the bar attaching portion 23 so as to protrude on the opposite sides (in FIG. 3, the positive side and the negative side in the y-axis direction).

  The number of connector bars 30 is preferably changeable. Here, the connector bar 30 is detachably attached to the bar attaching portion 23. More specifically, the second rail portion 32 is detachably provided to the first rail portion 232. Thereby, the number of the connector bars 30 can be appropriately set according to the shape of the wire harness 10 to be manufactured.

  A connector holding jig 40 is attached to the bar body. Here, the connector holding jig 40 will be described as being directly attached to the bar main body. However, the connector holding jig 40 may be indirectly attached to the bar main body via another member.

<Connector holding jig>
Here, the connector holding jig 40 that holds the connector 14 will be described. The connector holding jig 40 is formed so as to hold the connector 14. More specifically, the connector holding jig 40 includes two clamping portions 42 and a fixing portion 44 here. Further, here, the connector holding jig 40 includes a buffer portion 46.

  The two clamping parts 42 are provided so that the connector 14 can be clamped between the opposing main surfaces. Here, the two clamping parts 42 are each formed in a flat plate shape. However, it is also conceivable that the third rail portion 34 also serves as one of the two sandwiching portions 42.

  The fixing portion 44 supports the two sandwiching portions 42 so as to be relatively movable in a direction orthogonal to the main surface of the sandwiching portion 42 (the surface on the side sandwiching the connector 14). The fixing portion 44 is provided so that the two holding portions 42 can be fixed in a state where the two holding portions 42 hold the connector 14. Here, the connector holding jig 40 is attached to the third rail portion 34 by the fixing portion 44.

  Specifically, a bolt insertion hole 421 into which the bolt 441 can be inserted is formed in the clamping portion 42. Here, two bolt insertion holes 421 are formed in the clamping portion 42 formed in a flat plate shape. The connector 14 is held by the connector holding jig 40 so as to fit between the two bolt insertion holes 421. For this reason, the interval between the two bolt insertion holes 421 is preferably set to be equal to or greater than the width of the maximum-sized connector 14 among the connectors 14 that the connector holding jig 40 wants to hold.

  The fixing portion 44 includes a bolt 441 inserted through the bolt insertion hole 421 and a nut 442 capable of fixing the bolt 441 inserted through the bolt insertion hole 421. Then, in the state where the bolts 441 are respectively inserted into the bolt insertion holes 421 of the two sandwiching portions 42, the interval between the two sandwiching portions 42 can be changed along the extending direction of the bolts 441. Then, the two clamping portions 42 are set at an interval corresponding to the connector 14, and the bolt 441 is tightened with the connector 14 being clamped. Thereby, the movement of the two clamping portions 42 is restricted by the connector 14 in the direction in which the interval between the two clamping portions 42 is narrowed. Further, the movement of the two clamping portions 42 is restricted by bolts 441 and nuts 442 in the direction in which the interval between the two clamping portions 42 increases. From these, the clamping part 42 is fixed in the state which maintained the space | interval. Here, a washer 443 is appropriately bitten between the head of the bolt 441 and the sandwiching portion 42 or between the nut 442 and the sandwiching portion 42.

  The connector 14 is slidable (slidable) along the extending direction of the connector bar 30 with respect to the connector bar 30 and can be changed between a slidable state and a non-slidable state. Is provided. Here, the connector holding jig 40 is slidable along the extending direction of the connector bar 30 with respect to the connector bar 30, and the state is changed between a slidable state and a non-slidable state. It is provided as possible. Specifically, the connector holding jig 40 is attached to the third rail portion 34 so as to be slidable along the extending direction of the third rail portion 34 with the bolt 441 loosened.

  Here, the bolt 441 is inserted into the groove 34a of the third rail portion 34, and the bolt 441 is provided so as to be movable along the groove 34a in a state where the bolt 441 is loosened. The connector holding jig 40 is slidably movable and unslidable by changing the state between the loosened bolt 441 (see FIG. 6) and the tightened state (see FIG. 5). The state can be changed between Specifically, the nut 442 is attached to the tip that has passed through the groove 34a in a state where a portion of the bolt 441 that extends outward from the bolt insertion hole 421 from the clamping portion 42 is inserted into the groove 34a. By tightening the nut 442, the connector 14, the sandwiching portion 42, and the third rail portion 34 are sandwiched between the bolt 441 and the nut 442. Thereby, the connector holding jig is brought into a state in which it cannot slide with respect to the connector bar 30. Further, by loosening the nut 442, the clamping of the connector 14, the clamping portion 42, and the third rail portion 34 by the bolt 441 and the nut 442 is eliminated. With this, the diameter of the nut 442 is set smaller than the width dimension of the groove 34a (dimension along the y-axis direction in FIG. 5), so that the connector 14 and the connector holding jig 40 are attached to the third rail portion 34. On the other hand, the slide movement is possible.

  Here, in the groove 34a, the width dimension of the intermediate portion along the bolt insertion direction (dimension along the y-axis direction in FIG. 5) is set larger than the width dimension of the end portion. Thereby, the nut 442 is suppressed from dropping from the groove 34a.

  In addition, here, the nut 442 is accommodated in the groove 34a, but the head of the bolt 441 may be accommodated in the groove 34a.

  The connector holding jig 40 is slidable along the extending direction of the third rail portion 34 (in the example shown in FIG. 3, the x-axis direction), thereby adjusting the relative positional relationship between the connectors 14. It becomes easy. The connector holding jig 40 is detachably attached to the connector bar 30. Thereby, the number of the connector holding jigs 40 can be appropriately set according to the wire harness 10 to be manufactured. Moreover, it becomes possible to attach the connector holding jig 40 suitable for the shape of the connector 14 according to the wire harness 10 to be manufactured.

  The buffer portion 46 is provided on the main surface of the clamping portion 42 so as to be interposed between the clamping portion 42 and the connector 14. The buffer portion 46 is provided so as to buffer the pressure applied to the connector 14 when the two clamping portions 42 clamp the connector 14. It is conceivable that the buffer portion 46 is formed in a flat plate shape smaller than the sandwiching portion 42 by an elastic material such as butyl tape or foam material. In addition, the buffer part 46 may be fixed to the clamping part 42, and does not need to be fixed. When the buffer part 46 is being fixed to the clamping part 42, it is possible that it is affixed with the adhesive agent or the tape. Since the buffer portion 46 is interposed between the sandwiching portion 42 and the connector 14, when the connector 14 is sandwiched between the two sandwiching portions 42, the connector 14 is hardly damaged and the connector 14 is not easily displaced. Further, by providing the buffer portion 46, when the bolt 441 is loosened to loosen the connector holding jig 40 relative to the connector bar 30, the pinching of the connector 14 is eliminated as long as the bolt 441 is loosened slightly. It becomes difficult.

  Note that it is conceivable that a plurality of types of connector holding jigs 40 are prepared in which the size of the clamping portion 42 or the length of the bolts 441 differs depending on the size of the connector 14 or the like. For example, two types of connector holding jigs are prepared, a connector having a predetermined size or smaller is held by one connector holding jig, and a connector having a predetermined size or larger is held by the other connector holding jig. .

<Set bar>
The set bar 50 is formed to be able to hold a plurality of terminal-attached electric wires 12. The set bar 50 is attached to the frame 21. Here, the set bar 50 is attached to the frame 21 via the connector bar 30.

  More specifically, the set bar 50 is configured such that a plurality of wire holding portions 52 that can hold the wire ends of the terminal-attached wires 12 are provided in a straight line, and the wire ends can be held in parallel. . Here, the wire end portion of the terminal-attached electric wire 12 refers to an end portion of a portion of the electric wire 121 in which the core wire portion is covered with the covering portion, and is a portion on the proximal end side of the terminal 122 that is crimped to the core wire exposed portion. is there. More specifically, the set bar 50 is formed in a long shape as a whole, and includes a plurality of electric wire holding portions 52 and a set bar main body portion 55.

  The electric wire holding part 52 is a part that holds the electric wire end of the terminal-attached electric wire 12, and has a pair of elastic holding pieces 53 and a holding piece fixing part 54.

  The elastic clamping piece 53 is a member formed by punching and bending a plate-like metal material, and has a flat portion on the proximal end side and a curved portion on the distal end side. More specifically, the flat portion is formed in a flat plate shape, and the curved portion is formed in a shape that curves in a gentle S shape continuously from the flat portion.

  The sandwiching piece fixing portion 54 is a portion that supports the pair of elastic sandwiching pieces 53 and is formed of a synthetic resin or the like in a substantially rectangular parallelepiped shape as a whole. The sandwiching piece fixing portion 54 is configured to be able to be supported in a state where the flat portions are overlapped (back to back) in a posture in which the tip portions of the pair of elastic sandwiching pieces 53 are separated from each other. More specifically, the sandwiching piece fixing portion 54 has an opening at one end surface, and has a recess into which the pair of elastic sandwiching pieces 53 can be fitted through the opening. Inside the sandwiching piece fixing portion 54, a wall portion is formed which is supported in a sandwiching manner in a state where the flat portions of the pair of elastic sandwiching pieces 53 are overlapped on the back side. And the clamping piece fixing | fixed part 54 is a space | interval (contact | contact smaller than the diameter of the electric wire 121 in the electric wire 121 with a terminal in which the part near the front-end | tip part in a curved part adjoins a pair of inserted elastic clamping piece 53 mutually. Support in a state where it is placed in a

  Then, by pushing the wire end portion of the terminal-attached electric wire 12 between the pair of elastic sandwiching pieces 53, the wire end portion is adjacent to the curved portion of the pair of elastic sandwiching pieces 53 and the opening side of the sandwiching piece fixing portion 54. It is held between the end faces.

  In addition, the said electric wire holding | maintenance part 52 is an example and may employ | adopt another structure. For example, the electric wire holding portion may have a comb-like member, and a configuration in which the electric wire end portion of the terminal-attached electric wire 12 is pushed and hooked between the comb teeth can be adopted.

  The set bar main body portion 55 is formed in a rod shape (here, a prismatic rod shape), and the plurality of electric wire holding portions 52 are supported in parallel on one side surface along the longitudinal direction thereof. More specifically, the set bar main body portion 55 supports the plurality of wire holding portions 52 in a form in which the plurality of wire holding portions 52 are arranged in a direction in which the pair of elastic clamping pieces 53 face each other. For example, the plurality of electric wire holding portions 52 may be supported by being unevenly fitted to the set bar main body portion 55. In addition, a configuration in which the wire holding part 52 is individually fixed to the set bar main body part 55 by screwing or the like may be employed.

  The set bar 50 is detachably attached to the frame 21 by an attachment portion. Here, the set bar main body portion 55 is detachably attached to the second rail portion 32. For example, the set bar main body portion 55 is attached so that a part of the set bar main body portion 55 fits into the groove 232 a of the second rail portion 32 in a mode in which the set bar main body portion 55 is interposed between the pair of second rail portions 32. As a result, the connector bar 30 and the set bar 50 are attached to the frame 21 in such a manner that the set bar 50 is positioned in front of the connector bar 30. Thereby, the terminal-attached electric wire 12 can be positioned in front of the cavity 142 of the connector 14.

  When a plurality of connector bars 30 are provided on the frame 21, the set bars 50 may be provided in front of all the connector bars 30 or only in front of some of the connector bars 30. It may be done. Particularly in the latter case, it is conceivable that one set bar 50 is sequentially positioned forward with respect to the plurality of connector bars 30 when the terminal-attached electric wire 12 is inserted into the connector 14.

<Wire check section>
The electric wire check part 26 is provided so that it can be checked that the terminal-attached electric wire 12 is held by the set bar 50 in a state where the set bar 50 is attached to the frame 21. The electric wire check part 26 can check that the electric wire 12 with a terminal 12 is hold | maintained at the set bar 50 by checking the state of a pair of elastic clamping piece 53 of the set bar 50, for example. Specifically, the electric wire check unit 26 includes a strain gauge 28 and a control unit 29 provided on the pair of elastic clamping pieces 53.

  When the end portion of the electric wire is held between the pair of elastic clamping pieces 53, the pair of elastic clamping pieces 53 are elastically deformed in a direction away from each other, and distortion occurs. The strain gauge 28 checks, for example, that the pair of elastic clamping pieces 53 are elastically deformed by detecting a change in electrical resistance value due to the strain, that is, the terminal-attached electric wire 12 is held by the set bar 50. Is possible.

  More specifically, the strain gauge 28 includes a metal body that is attached to the elastic clamping piece so as to be strained as the elastic clamping piece 53 is deformed. And the electrical resistance value etc. of the metal body which changes according to distortion are output to the control part 29 as output data. The control unit 29 is configured by a general computer including a CPU, a RAM, a ROM, an input circuit unit, and the like. The ROM is configured by a rewritable nonvolatile semiconductor memory or the like such as a flash memory. The ROM generates the deformation degree of the elastic holding piece 53 as a deformation amount data based on the output data, and the deformation amount data Based on this, a program or the like describing a procedure for generating the holding data as the holding data is stored. As processing for creating deformation amount data based on the electrical resistance value of the strain gauge 28, various known processing can be employed.

  In addition, the structure of the electric wire check part 26 is not restricted to what was mentioned above. For example, when the pair of elastic clamping pieces 53 are in contact with each other in a state where the electric wire end portion is not held and are separated from each other by holding the electric wire end portion, the electric wire check portion is a pair of elastic members. It is possible to check that the terminal-attached electric wire 12 is held by the set bar 50 by detecting the electrical continuity of the holding piece 53. Further, for example, the electric wire check unit can check that the terminal-attached electric wire 12 is held on the set bar 50 by a pressure sensor that detects pressure by the pair of elastic clamping pieces 53. Further, for example, the electric wire check unit can check that the terminal-attached electric wire 12 is held on the set bar 50 by a laser displacement meter that measures a displacement caused by elastic deformation of the pair of elastic clamping pieces 53. For example, the electric wire check unit may be configured by a camera that captures an image around the pair of elastic clamping pieces 53.

<Manufacturing method>
Next, a method for manufacturing the wire harness 10 using the wire harness assembling apparatus 20 will be described.

<Mounting operation>
First, the frame 21 to which the connector bar 30 and the set bar 50 are attached is prepared in such a manner that the set bar 50 is positioned in front of the connector bar 30 (step (a)). Moreover, while setting the several connector 14 to the connector bar 30 according to the shape of the wire harness 10 which wants to manufacture, the several electric wire 12 with a terminal inserted in the connector 14 is hold | maintained to the set bar 50 (process (b)). When step (a) and step (b) are completed, the result is as shown in FIG. FIG. 8 is an explanatory diagram showing a state in which the terminal-attached electric wire 12 is set on the set bar 50. In addition, a process (a), a process (b), and each operation | work in them should just be performed in random order. Further, after the step (b), it is checked that the terminal-attached electric wire 12 is held on the set bar 50 (step (f)).

  In attaching the connector bar 30 to the frame 21 and holding the connector 14 in the connector bar 30, the connector bar 30 in which the connector 14 is set in advance may be set in the frame 21, or the connector bar 30 set in the frame 21. The connector 14 may be set in At this time, either the operation of supporting the connector holding jig 40 on the connector bar 30 or the operation of holding the connector 14 on the connector holding jig 40 may be performed first or simultaneously. Good.

  In order to support the connector holding jig 40 on the connector bar 30 and hold the connector 14 on the connector holding jig 40, specifically, with the two holding portions 42 holding the connector 14, The clamping portion 42 is attached to the connector bar 30 with the nut 442. As a result, the connector holding jig 40 and the connector 14 are held on the connector bar 30. Then, the connector bar 30 is attached to the frame 21. The work may be performed by a specific jig or the like, or may be performed by an operator's hand.

  In addition, what is necessary is just to set the arrangement | sequence of the connector 14 in the wire harness assembly apparatus 20 suitably. Here, the arrangement of the connectors 14 is set as follows, for example. That is, three or more connectors 14 connected to one primary branch are two-dimensionally arranged when viewed from the insertion direction of the terminal-attached electric wire 12. At this time, the three or more connectors 14 may be set in an arrangement close to the relative positional relationship when the vehicle is mounted. This eliminates the need to correct the relative positional relationship between the three or more connectors 14 connected to the one primary branch after the branch is formed. For this reason, generation | occurrence | production of the twist etc. of the electric wire 121 which arises when correcting the relative positional relationship of the three or more connectors 14 connected to one primary branch can be suppressed.

  Specifically, as shown in FIG. 2, here, the connectors 14d, 14e, and 14f are connected to one primary branch. Of these three connectors 14d, 14e, 14f, two connectors 14 (here, connectors 14e, 14f) are supported by one connector bar 30, and the remaining one connector 14 (here, connector 14d) is supported by the other connector bar 30. The connector bar 30 is supported (see FIG. 12). That is, in the wire harness assembling apparatus 20, the connector holding jig 40 that holds the connectors 14a, 14b, and 14d is supported by one connector bar 30, and the connector holding jig 40 that holds the connectors 14c, 14e, and 14f, respectively. It is supported by the other connector bar 30.

  However, the arrangement of the connectors 14 is not limited to the above. For example, three or more connectors 14 connected to one primary branch may be arranged one-dimensionally when viewed from the insertion direction of the terminal-attached electric wire 12. Further, even when the connector 14 is arranged as described above, the above-described arrangement of the connector 14 may be the arrangement when the branch is formed. It doesn't matter. That is, when the terminal-attached electric wire 12 is inserted, for example, the arrangement of the connectors 14 is set to an arrangement in which the electric wires 121 are not easily entangled. Good.

  The set bar 50 is located on the front side of the connector bar 30, more specifically, on the side where the opening of the cavity 142 of the connector 14 set in the connector bar 30 faces the connector bar 30 (in the example shown in FIG. To the negative side in the y-axis direction). In attaching the set bar 50 to the wire harness assembling apparatus 20 and holding the terminal-attached electric wire 12 in the set bar 50, the set bar 50 in which the terminal-attached electric wire 12 is set in advance may be set in the wire harness assembling apparatus 20. The terminal-attached electric wire 12 may be set on the set bar 50 set in the wire harness assembling apparatus 20. As for the setting operation of the terminal-attached electric wire 12 to the set bar 50, for example, it is conceivable to directly set one manufactured by a cutting pressure device for manufacturing the terminal-attached electric wire 12. In this case, it is conceivable that the terminal-attached electric wires 12 manufactured by the cutting device are sequentially held by the electric wire holding unit 52 by the electric wire transfer mechanism 60 as shown in FIG. 7 on the downstream side of the cutting device. It is conceivable that the wire transfer mechanism unit 60 includes, for example, a gripping portion 62 that grips the terminal-attached electric wire 12 and a moving mechanism portion that moves the gripping portion 62. But the electric wire 12 with a terminal may be set to the set bar 50 by an operator's manual work. Moreover, the electric wire 12 with a terminal manufactured with the cutting device may be once hold | maintained at another member, and may be transferred to the set bar 50 from the said another member.

  When setting the terminal-attached electric wire 12 to the set bar 50, it is preferable that the end of the electric wire inserted into the predetermined connector 14 among the ends of the electric wire is positioned in front of the predetermined connector 14. Thereby, the movement distance of the electric wire with a terminal which concerns on inserting an electric wire with a terminal may be short.

  Moreover, when setting the electric wire 12 with a terminal to the set bar 50, both ends of one electric wire 12 with a terminal may be set to the same set bar 50, and may be set to different set bars 50, respectively. More specifically, for example, when one electric wire 12 with a terminal is passed between two connectors 14 set on the same connector bar 30, or one set bar 50 corresponds to a plurality of connector bars 30. In some cases, it is conceivable that both ends of one terminal-attached electric wire 12 are set on the same set bar 50. Further, for example, when one set bar 50 is used exclusively for one connector bar 30, and one terminal-attached electric wire 12 is passed between two connectors 14 set on different connector bars 30. For example, it is conceivable that both ends of one terminal-attached electric wire 12 are set on different set bars 50.

  After the terminal-attached electric wire 12 is held on the set bar 50, here, the electric wire check unit 26 checks it. As described above, here, the electric wire with terminal 12 is held on the set bar 50 by outputting the change in the electric resistance of the metal body accompanying the deformation of the pair of elastic clamping pieces 53 using the strain gauge 28. Check that. At this time, the electric wire check unit 26 may display only the check result of whether or not the electric wire holding unit 52 holds the electric wire end, or the check result is checked against a manufacturing plan table or the like. When there is an abnormality, the operator may be made aware of the abnormality by means of appealing to the sensory organ of the worker.

<Wire insertion operation>
Next, the electric wire 121 insertion operation according to the present embodiment will be described with reference to FIGS. 9 and 10 in addition to FIGS. 7 and 8. FIG. 9 is an explanatory view showing a state in which the terminal-attached electric wire 12 set on the set bar 50 is inserted into the connector 14 set on the connector bar 30. FIG. 10 is an explanatory diagram showing a state in which the terminal-attached electric wire 12 is inserted into the connector 14 set on the connector bar 30. Here, after the step (a) and the step (b) and after the step (f), the terminal-attached electric wire 12 held by the set bar 50 is inserted into the connector 14 (step (c)).

  Specifically, in the state where the set bar 50 in which the terminal-attached electric wire 12 is set and the connector bar 30 in which the connector 14 is set are set in the wire harness assembling apparatus 20, the terminal-attached electric wire 12 set in the set bar 50. Are sequentially inserted into the connector 14 set on the connector bar 30. The insertion of the terminal-attached electric wire 12 into the connector 14 is performed, for example, by the electric wire insertion device 70 as follows.

  That is, the grip portion 72 in the wire insertion device 70 grips the end portion of the terminal-attached electric wire 12 fixed on the set bar 50. Then, by driving a moving mechanism that moves the gripping part 72, the end of the terminal-attached electric wire 12 gripped by the gripping part 72 is positioned in front of the opening of the cavity 142 provided in the connector 14, and then the cavity 142 Insert inside. With this operation, the terminal-attached electric wire 12 set on the set bar 50 is inserted into the cavity 142.

  By repeating the above operation, the terminal-attached electric wires 12 can be sequentially inserted into the plurality of cavities 142. And if the predetermined electric wire 12 with a terminal is inserted in the connector 14 attached to the wire harness assembly apparatus 20, it will move to an electric wire group processing process.

  At this time, it is preferable that the plurality of connectors 14 set on one connector bar 30 are assembled by sliding the connector 14 along the extending direction of the connector bar 30 with respect to the connector bar 30. Thereby, the moving distance of the holding | gripping part 72 in the electric wire insertion apparatus 70 becomes short, and shortening of the working time concerning electric wire insertion can be aimed at. At this time, when the buffer portion 46 is provided, when the bolt 441 is loosened in order to slide the connector holding jig 40 with respect to the connector bar 30, the pinching of the connector 14 is eliminated if the bolt 441 is loosened slightly. It becomes difficult to be done. Further, during the electric wire insertion operation, the state of the connector 14 may be changed from a state in which the connector 14 is slidable relative to the connector bar 30 to a state in which the slidable movement is not possible. Thereby, the connector 14 becomes unable to move during the electric wire insertion work, and insertion errors and the like can be suppressed.

  However, it is not essential to insert the terminal-attached electric wire 12 into the connector 14 by the electric wire insertion device 70. The terminal-attached electric wire 12 may be inserted into the connector 14 attached to the wire harness assembly device 20 by an operator's manual work.

  In addition, as shown in FIG. 10, the set bar 50 that has stopped holding the terminal-attached electric wires 12 by inserting all the electric wires 12 with the terminals inserted into the connectors 14 is removed from the wire harness assembling apparatus 20. Is preferred. In this case, during the operation of inserting the terminal-attached electric wire 12 into the connector 14, the set bar 50 may be sequentially removed from the one that does not hold the terminal-attached electric wire 12. It may be removed after all the inserting operations are completed. The set bar 50 may be removed before moving to the wire group processing step.

<Wire group processing process>
In the following, as an example of the wire group processing step, an operation of forming a branch of the wire group by the wire group processing apparatus 80 will be described. Here, the wire harness assembling apparatus 20 in which terminal insertion is completed is sent to the wire group processing apparatus 80. Then, the electric wire group processing device 80 forms a branch in the electric wire 121 that hangs down from the connector 14. That is, after the step (c), a branch is formed in the terminal-attached electric wire 12 extending from the connector 14 (step (d)).

  Here, the wire group processing apparatus 80 will be described with reference to FIG. FIG. 12 is an explanatory diagram showing an electric wire group processing apparatus 80 according to the embodiment. 12 to 14, the frame 21 and the connector holding jig 40 are omitted from the wire harness assembling apparatus 20.

  The wire group processing device 80 includes a processing robot 84, a processing control unit 82, and an image acquisition system 90.

  The processing robot 84 is a general industrial robot. In FIG. 12, a general vertical articulated robot is illustrated. The machining robot 84 includes a robot arm 86 and a machining operation unit 88 provided at the tip of the robot arm 86. The robot arm 86 has a structure in which a plurality of arm portions are connected to be rotatable around an axis via a joint mechanism, and a processing work portion 88 is provided at a tip portion thereof. The processing robot 84 moves the processing work unit 88 to an arbitrary position of the wire harness assembly apparatus 20 installed with respect to the wire group processing apparatus 80 by operating the robot arm 86 in an arbitrary posture. it can.

  The processing work part 88 is a part that performs processing including branch formation on the electric wire 121. Here, as a branch formation, a predetermined position in the extending direction of the electric wires 121 is aggregated at a certain position (bundling intermediate positions in the extending direction of the plurality of electric wires 121), and a state where the electric wires 121 are aggregated is maintained. Processing is performed. Here, as a process for maintaining the state in which the electric wires 121 are gathered, a description will be given assuming that a process of binding a plurality of electric wires 121 (for example, winding an adhesive tape) is performed.

  In order to perform the former processing, a known robot hand that can grasp and move the electric wire 121 to a certain position or grasp the plural electric wires 121 to be gathered together is used as the processing operation unit 88. Can do. In order to perform the latter processing, a well-known automatic tape winding machine can be used as the processing working unit 88.

  In order to perform a plurality of types of processing operations, a plurality of processing robots 84 may be provided, or a plurality of processing operation units 88 may be attached to the distal end portion of the robot arm 86 so as to be relatively movable. .

  The processing robot 84 may be a rectangular coordinate robot or the like in addition to the vertical articulated robot. Moreover, a process operation part is suitably changed according to the operation | work performed with respect to an electric wire group.

  The processing control unit 82 is configured by a general computer including a CPU, a RAM, a ROM, an input circuit unit, and the like. The ROM is configured by a rewritable nonvolatile semiconductor memory or the like such as a flash memory. Based on the image data acquired by the image acquisition system 90, the ROM indicates the processing target area, the position and orientation of the processing target (wire group), and the like. The program for describing the procedure for determining, the processing procedure for the electric wire group and the processing content is stored. Then, by executing a program stored in the ROM by the CPU, a process of giving various instructions to the processing robot 84 to perform various processing on the electric wire group based on the image data acquired by the image acquisition system 90. Run.

  The image acquisition system 90 is a system for acquiring image data for recognizing a group of wires constituting the wire harness 10, and includes, for example, a two-dimensional vision system 92 as a first vision system, and a second vision system. As a three-dimensional vision system 96.

  The two-dimensional vision system 92 is configured to be able to acquire first image data for recognizing the electric wire group constituting the wire harness 10 in the first imaging range.

  That is, the two-dimensional vision system 92 includes a two-dimensional camera 94. The two-dimensional camera 94 is supported by a camera support member or the like at a position away from the connector holding jig 40, such as the frame 21 of the wire harness assembling apparatus 20, and an electric wire group is disposed in the wire harness assembling apparatus 20. All regions that are expected to be captured are arranged to be imaged as the first imaging range. The first image data obtained by the two-dimensional vision system 92 is given to the processing control unit 82.

  The three-dimensional vision system 96 is configured to be able to acquire the second image data of the electric wire group constituting the wire harness 10 in a second imaging range which is an area overlapping the first imaging range and smaller than the first imaging range. Yes.

  Here, the three-dimensional vision system 96 includes a stereo camera 98 including a plurality of cameras and a three-dimensional image processing unit 99. The imaging range by the stereo camera 98 is smaller than the first imaging range. In addition, the stereo camera 98 is attached to the tip of the robot arm 86 of the processing robot 84 so as not to interfere with the processing work unit 88. For this reason, the stereo camera 98 can image the electric wire group in the second imaging range that is an area overlapping the first imaging range and smaller than the first imaging range.

  The stereo camera 98 images the second imaging range from different directions, and outputs image data obtained thereby to the three-dimensional image processing unit 99. The three-dimensional image processing unit 99 is configured by a general computer including a CPU, a RAM, a ROM, an input circuit unit, and the like. The ROM is configured by a rewritable nonvolatile semiconductor memory or the like such as a flash memory, and based on a plurality of image data obtained by imaging the second imaging range from different directions (three-dimensional data of the electric wire group to be processed ( A program describing a procedure for generating point cloud data) as second image data is stored. Then, the second image data obtained by the three-dimensional image processing unit 99 is output to the processing control unit 82. As processing for generating three-dimensional data based on the image of the stereo camera 98, various known processing for generating three-dimensional point cloud data based on the principle of triangulation based on a plurality of image data from different positions is adopted. be able to.

  Below, the branch formation example of the electric wire group by the electric wire group processing apparatus 80 is demonstrated more concretely, referring FIG.13 and FIG.14 in addition to FIG.12. FIG. 13 is an explanatory diagram showing a state where the primary branch is formed in the electric wire 121. FIG. 14 is an explanatory diagram showing a state in which a secondary branch is formed in the electric wire 121.

  First, in the initial state, as shown in FIG. 12, the connector 14 connected to the end of the wire group is supported by a connector holding jig 40 attached to the wire harness assembling apparatus 20. The electric wires 121 between the connectors 14 are in a state of hanging in a U shape. At this time, the posture of the connector bar 30 is set so that the opening of the cavity 142 of the connector 14 faces downward in the vertical direction. In addition, after the electric wire is inserted, the connector 14 is changed from a state in which it is not slidable with respect to the connector bar 30 to a state in which the connector 14 is slidable, so that the connector 14 extends along the direction in which the connector bar 30 extends. The connector 14 is appropriately positioned on the connector bar 30 according to the shape of the wire harness 10 to be manufactured. Thereby, the electric wire 12 with a terminal will be in the state wired according to the shape of the wire harness 10 which it wants to manufacture.

  In this state, the two-dimensional vision system 92 obtains the first image data of the first imaging range including the electric wire group. Here, it demonstrates as what image | photographs 1st image data from the perpendicular direction downward. The obtained first image data includes a group of electric wires extending from the connector 14 to the horizontal plane as a starting position.

  Here, as the first processing for the wire group, a branch is formed at a position (a position corresponding to the branch position P1) away from the connector 14a, 14b by a certain dimension with respect to the wire extending from the connector 14a, 14b. Suppose that the work to be done is prescribed. At this time, since each connector 14 is supported by the wire harness assembling apparatus 20, it can be handled as a known position.

  In this case, the first image data is subjected to image processing such as edge extraction processing to recognize the electric wire 121, and the portion of the electric wire 121 extending from the connector 14a and the connector 14b that is within the predetermined dimension is included. What is necessary is just to determine a 2nd imaging range. Thereby, the processing target area (second imaging range) can be determined within the first imaging range.

  Thereafter, the stereo camera 98 is moved by the robot arm 86 of the processing robot 84, and the stereo camera 98 is disposed at a position where the second imaging range can be imaged. Then, the second image data in the second imaging range is acquired by the three-dimensional vision system 96 including the stereo camera 98.

  Based on the second image data, the path of each electric wire 121 is traced with reference to the position of the connector 14a (14b), which is a known position, and the position away from the connector 14a (14b) by the predetermined dimension (FIG. 13). In circle). Each position is a place to be bundled as a branch point. Since the second image data is three-dimensional data, the position of the electric wire 121 can be specified including the position of the electric wire 121 in the y-axis direction. Then, an instruction is given to the processing robot 84 so that the positions of the electric wires 121 are gathered in one place. In this case, you may make it gather the said each position of each electric wire 121 in one place with a separate robot hand. Or you may make it gather the several electric wire 121 in one place with a single robot hand. Even in the latter case, the support position of the connector 14a (14b) is adjusted so that the positions of the electric wires 121 are located in one place, and the electric wires 121 are pulled and gathered from the connector 14a (14b). By doing in this way, each said position of each electric wire 121 can be gathered in one place.

  Thereafter, the assembled state of the electric wires 121 extending from the position where the electric wires 121 are assembled is maintained. Here, as described above, the electric wires 121 are bound to maintain the assembled state. That is, since the position where the electric wires 121 are gathered at one place is a known position moved by the robot hand, the portion extending from the position to the connectors 14a and 14b and the lower portion thereof are extended. Tie the parts together. As described above, the bundling operation can be performed by an automatic tape winding machine attached to the robot arm 86.

  When performing this bundling operation, the position of the electric wire 121 and the like are different from those obtained when the entire image is captured. Therefore, the second image data is acquired again through the three-dimensional vision system 96, and the processing position is determined by the second image data. Etc. are preferably specified again.

  Subsequently, in the same manner as described above, branching is also performed on the plurality of electric wires 121 extending from the remaining connectors 14. Here, branch formation at a predetermined position (position corresponding to the branch position P2) is performed on the plurality of electric wires 121 extending from the connector 14d, the connector 14e, and the connector 14f.

  The state after processing is as shown in FIG. In FIG. 13, a branch point is indicated by a square drawn by a two-dot chain line, and a binding portion is indicated by a circle drawn by a two-dot chain line. As shown in FIG. 13, the plurality of electric wires 121 extending from the connectors 14a, 14b, 14d, 14e, and 14f are branched at the branch positions P1 and P2 close to the connectors 14a, 14b, 14d, 14e, and 14f. It will be in the state.

  Subsequently, a branch is formed in the plurality of electric wires 121 between the branch positions P1 and P2 so far. Here, the operation | work which forms a branch in the some electric wire 121 is performed so that the electric wire 121 connected to the connector 14c may branch from the trunk line part 131 in which many electric wires 121 are bundled.

  Also in this case, first, the first image data is acquired through the two-dimensional vision system 92, the image processing such as edge extraction processing is performed on the first image data to recognize the electric wire 121, and the next processing content (branch position) Depending on which part of the electric wire 121 between P1 and P2 is bound, etc., the electric wire 121 extending from the connector 14c and the portion within a certain dimension among the electric wires 121 extending from one of the branch positions P1 and P2 The second imaging range is determined so that a portion within 121 within a certain dimension is included.

  Thereafter, the stereo camera 98 is moved by the robot arm 86 of the processing robot 84, and the stereo camera 98 is disposed at a position where the second imaging range can be imaged. Then, the second image data in the second imaging range is acquired by the three-dimensional vision system 96 including the stereo camera 98.

  Based on the second image data, the connector 14c and the already formed branch positions P1 and P2 (the branch positions P1 and P2 themselves are known positions, or the electric wires 121 are gathered from a plurality of directions in the second image data. The path of each electric wire 121 is traced with reference to the position of the connector 14c, and a certain dimension away from the already formed branch positions P1 and P2 in either direction. Identify the location. Each position is a place to be bundled in the trunk part 131. Then, an instruction is given to cause the processing robot 84 to gather the portion of the electric wire 121 at that position in one place. Thereafter, the electric wires 121 are bound at the peripheral portion of the above position where the electric wires 121 are bundled.

  When the plurality of electric wires 121 are bundled between the branch positions P1 and P2, as shown in FIG. 14, the plurality of electric wires 121 are bundled while being branched at the plurality of branch positions P1, P2, and P3. 10 can be manufactured.

  In addition, as needed, exterior parts such as a clamp part for fixing the wire harness 10 to the vehicle, a protector for protecting the wire harness 10, and a corrugated tube with respect to the wire harness 10 by the processing robot 84 or manual work. Parts may be attached.

  According to the connector holding jig 40 and the connector bar 30 including the same according to the present embodiment, the two holding portions 42 that can hold the connector 14 between the opposing main surfaces, and the two holding portions 42 are orthogonal to the main surfaces. And a fixing portion 44 capable of fixing the two holding portions 42 in a state where the two holding portions 42 hold the connector 14, and the interval between the two holding portions 42 is changed. Thus, a member for holding the connector 14 can be made common among a plurality of types of connectors 14 having different sizes.

  Further, the connector holding jig 40 is provided on the main surface of the sandwiching portion 42 so as to be interposed between the sandwiching portion 42 and the connector 14, and the pressure applied to the connector 14 when the two sandwiching portions 42 sandwich the connector 14. Since the buffer portion 46 is further provided, it is possible to stably hold a plurality of types of connectors 14 having different surface shapes with one type of connector holding jig 40. Further, by providing the buffer portion 46, when the bolt 441 is loosened to loosen the connector holding jig 40 relative to the connector bar 30, the pinching of the connector 14 is eliminated as long as the bolt 441 is loosened slightly. It becomes difficult.

  Further, the connector main body includes a bar main body formed in a bar shape, and the connector holding jig 40 according to the first or first embodiment attached in a plurality along the extending direction of the bar main body. Using the bar 30, it is possible to insert a terminal 122 related to the manufacture of the wire harness 10 including a plurality of types of connectors 14.

  Further, since the connector holding jig 40 is attached to the bar main body portion by the fixing portion 44, it is not necessary to provide a separate member for attachment, thereby simplifying the configuration.

  Further, the clamping portion 42 is formed with a bolt insertion hole 421 into which the bolt 441 can be inserted. The fixing portion 44 includes a bolt 441 inserted into the bolt insertion hole 421 and a bolt 441 inserted into the bolt insertion hole 421. Since the nut 442 that can be fixed is included, a member that holds the connector 14 can be made common with a simple configuration.

  The connector holding jig 40 is attached to the bar main body portion so as to be slidable along the extending direction of the bar main body portion by loosening the bolts 441, and the bolt 441 is loosened and tightened. Since it is attached so that the state can be changed between a state in which sliding movement is possible and a state in which sliding movement is impossible by changing the state between the two, it is impossible to move when it is preferable that movement is not possible, such as when the terminal 122 is inserted. In addition, it can be set to a movable state when it is preferable to be movable, such as when a branch is formed.

{Modification}
In the embodiment, the wire harness assembling apparatus 20 is provided with the set bar 50, and the electric wire with terminal 12 held by the set bar 50 is described as being inserted into the connector 14 set on the connector bar 30. That is not essential. The electric wire with terminal 12 held by the set bar 50 provided separately from the wire harness assembling apparatus 20 may be inserted into the connector 14 set on the connector bar 30.

  As described above, the present invention has been described in detail. However, the above description is illustrative in all aspects, and the present invention is not limited thereto. It is understood that countless variations that are not illustrated can be envisaged without departing from the scope of the present invention.

DESCRIPTION OF SYMBOLS 10 Wire harness 12 Electric wire with a terminal 14 Connector 20 Wire harness assembly apparatus 21 Frame 26 Electric wire check part 30 Connector bar 40 Connector holding jig 42 Clamping part 421 Bolt insertion hole 44 Fixing part 441 Bolt 442 Nut 46 Buffer part 50 Set bar 52 Electric wire Holding unit 55 Set bar main body 70 Wire insertion device 80 Wire group processing device 84 Processing robot 90 Image acquisition system

Claims (6)

Two clamping parts capable of clamping a connector between opposing main surfaces;
A fixed portion that supports the two sandwiched portions so as to be relatively movable in a direction orthogonal to the main surface, and can fix the two sandwiched portions in a state where the two sandwiched portions sandwich the connector;
A connector holding jig. The connector holding jig according to claim 1,
A buffer portion provided on the main surface of the clamping portion so as to be interposed between the clamping portion and the connector, and capable of buffering pressure applied to the connector when the two clamping portions clamp the connector; A connector holding jig provided. A bar body formed in a rod shape;
The connector holding jig according to claim 1 or 2, wherein the connector holding jig is attached so as to be arranged in a plurality along the extending direction of the bar main body part,
Comprising a connector bar. The connector bar according to claim 3,
The connector bar, wherein the connector holding jig is attached to the bar body by the fixing portion. The connector bar according to claim 4,
A bolt insertion hole through which a bolt can be inserted is formed in the clamping portion,
The said fixing | fixed part is a connector bar containing the volt | bolt penetrated by the said bolt penetration hole, and the nut which can fix the volt | bolt penetrated by the said bolt penetration hole. The connector bar according to claim 5,
The connector holding jig is attached to the bar main body part so as to be slidable along the extending direction of the bar main body part with the bolts loosened, and the bolts are loosened and tightened. The connector bar is attached so that the state can be changed between a state in which sliding movement is possible and a state in which sliding movement is impossible by changing the state between the two.

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