JP4057821B2 - Power supply device for sliding door - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a wire surplus length absorption device that wires a wire in a bent state along a sliding guide member and absorbs the slack of the wire due to the pulling or swinging of the wire.AsThe present invention relates to a power supply device for a sliding door of an automobile.
[0002]
[Prior art]
Conventionally, for example, a wire surplus length absorbing device shown in FIG. 10 has been proposed as an example of a wire surplus length absorbing device having a structure in which the wire is extended with movement on the connecting portion side and contracted with return on the connecting portion side. (See JP 63-176272 A).
[0003]
The extra wire length absorber 61 is provided inside the case 62 with a reel 63 pivotally supported, and a winding spring (not shown) that biases the reel 63 in the winding direction. The one end side of the electric wire 64 is led out to the outside of the case 62 and connected to the connector 65 while winding the electric wire 64 spirally along one side surface (the back side surface in FIG. 10). The reel 63 is fixedly penetrated and wound loosely along the other side surface 63a of the reel 63 (64a), and the other end of the electric wire 64 is connected to a case-side fixed connector 66.
[0004]
Each connector 65, 66 has a terminal in the housing, and each end of the electric wire 64 is connected to the terminal. One connector 65 is connected to a moving side connection (not shown), and the other connector 66 is connected to a fixed side connection. The case 62 is fixed to the mounting side through a bolt through the hole 67.
[0005]
As the connecting portion moves, the reel 63 rotates and the electric wire 64 on one side of the reel 63 is pulled out. At the same time, the electric wire 64a on the other side of the reel 63 is contracted (reduced in diameter). With the return of the connecting portion, the reel 63 is rotated in the return direction by the force of a winding spring (not shown), the electric wire 64 on one side of the reel 63 is taken up, and the electric wire 64a on the other side is taken up. The diameter is loosened. Thereby, the extra length (slack) of the electric wire 64 is absorbed.
[0006]
FIG. 11 shows an embodiment of the wire surplus length absorbing device previously proposed by the present applicant and a sliding door power feeding device using the same (see Japanese Patent Application Laid-Open No. 12-264136).
This wire surplus length absorber 71 has a pair of link arms 72, a slider 73 connected to one end of the link arm 72, and the other end of the link arm 72, and the slider 73 is slidably engaged. The guide rail 74 is comprised.
[0007]
The wire surplus length absorbing device 71 is disposed on the slide door 75, the guide rail 74 is horizontally fixed to the metal door panel 76, and the pair of link arms 72 includes a door panel 76 and a synthetic resin door trim (not shown). It can be opened and closed between.
[0008]
The electric wire is fixed to the slider 73 while being routed along the pair of link arms 72 as a wire harness (a bundle of electric wires bundled with a plurality of electric wires) 77, and one of the wire harnesses 77 is greatly curved from the slider 73 and is The other end of the link arm 72 extends from the end of the link arm 72 along the slide door 75 while being fixed in the vicinity of the step portion 79 of 78, and is connected to the vehicle body side wire harness 80. A connector is connected to the auxiliary machine.
[0009]
By this power supply device for the sliding door, power is always supplied from the vehicle body side (battery side) to the auxiliary equipment on the sliding door side, and signal current and power supply current are supplied to the auxiliary equipment regardless of whether the sliding door 75 is opened or closed. . Examples of the auxiliary machine include a power window motor, a door lock unit, a switch unit, and an automatic door opening / closing unit.
[0010]
As the slide door 75 is slid forward as indicated by the arrow A and closed, the pair of link arms 72 opens in a “h” shape, and the slider 73 is positioned on the rear side of the guide rail 74. Further, as the slide door 75 is slid rearward and opened, the pair of link arms 72 are closed, and the slider 73 is positioned on the front side of the guide rail 74. In this way, the extra length (slackness) of the wire harness 77 when the slide door 75 is opened and closed is absorbed.
[0011]
[Problems to be solved by the invention]
However, in the former wire surplus length absorbing device 61 (FIG. 10), other than the reel 63, the wire 64 is not locked (not stretched) with the fixed connector 66 as the reel 63 rotates. There is a problem that the side wires 64a have to be loosely wound, the wires 64 are required for a long time, extra labor is required for assembly, and the structure is enlarged. In order to eliminate the waste of the electric wire, an annular circuit on the other side of the reel 63 and a terminal slidably contacting the circuit are required, resulting in a problem that the structure becomes complicated and expensive. End up.
[0012]
Further, in the latter wire surplus length absorbing device 71 (FIG. 11), the structure is increased in size and weight due to the long guide rail 74 and the pair of link arms 72, and other components or the like do not interfere with the link arm 72. As described above, there are restrictions on the arrangement of components in the sliding door, and the length of the guide rail 74 and the link arm 72 must be changed according to the vehicle type, which increases the number of man-hours for design and manufacturing and increases costs. There was concern.
[0013]
  In view of the above points, the present invention has a simple structure, is compact, and is versatile.Power supply device for sliding doorThe purpose is to provide.
[0014]
[Means for Solving the Problems]
  In order to achieve the above object, a power supply device for a sliding door according to claim 1 of the present invention has a slit-like opening for leading out an electric wire, and is disposed on either the sliding door or the vehicle body. And a pair of slidably arranged facing and separating directions in the caseSemicircularA guide member, an elastic member that is elastically provided between the pair of guide members and biases the pair of guide members in a direction away from the pair of guide members, and a cover that is attached to the case.A guide groove is provided in the longitudinal direction in the center of the base wall of the case and / or the cover, and the pair of guide members have protrusions slidably engaged with the guide grooves, or the pair of guides A guide groove is provided on the surface of the member, and the base wall of the case and / or the cover has a protrusion that slidably engages with the guide groove,One of the electric wires is swingably led out to the other of the sliding door and the vehicle body from the opening while being wired in a state where the electric wires are wound along the pair of guide members. And
  With the above configuration, the wire winding diameter is reduced by pulling or bending the wire against the urging of the elastic member, and the pair of guide members are close to each other against the urging of the elastic member. The wire is pulled out of the case at the same time. When the tensile force of the electric wire is released, the pair of guide members slides in the direction away from each other by the urging force of the elastic member in the case, the winding diameter of the electric wire is expanded in the urging direction, and the electric wire has a long dimension. Housed in a case. Thereby, the extra length of an electric wire is absorbed. Since the pair of guide members move in the opposite directions at the same time, the stroke of the guide members can be performed in a short time, and it is possible to quickly draw out the wire and absorb the excess length.
  In addition, when the sliding door is opened and closed, the electric wire is pulled out from the opening, and the electric wire tends to loosen greatly between the sliding door and the vehicle body in the middle of opening and closing. Absorbs excess length and prevents slack. Thereby, pinching of the electric wire between a slide door and a vehicle body is prevented. When the case is arranged on the sliding door, the drawn-out electric wire is connected to the circuit on the vehicle body side, and when the case is arranged on the vehicle body, the drawn-out electric wire is connected to the circuit on the sliding door side.
  Further, the protrusion of the guide member slides along the case and the cover or the guide groove of the case or the cover, whereby the moving direction of the guide member is stably defined, and smooth sliding movement is possible. Further, when assembling the guide member in the case, a simple operation is enough to engage the protrusion with the guide groove, so that the assembly is facilitated.
[0016]
  Claim2Pertaining toPower supply device for sliding doorClaims1DescribedPower supply device for sliding doorThe guide member has an arcuate guide surface for wire sliding contact.
  With the above configuration, the electric wire smoothly curves and slides smoothly along the arcuate guide surface. Thereby, the drawing of the electric wire is smoothly performed with a small force, and the extra length absorption of the electric wire is smoothly performed with a small elastic force.
[0017]
  Claim3Pertaining toPower supply device for sliding doorClaims1 or 2DescribedPower supply device for sliding doorThe guide member is provided with a hook portion for holding an electric wire.
  With the above configuration, the electric wire bent along the guide member is stably supported by the flange portion without being detached from the guide member. Thereby, the wiring workability | operativity of the electric wire to a guide member improves.
[0018]
  Claim4Pertaining toPower supply device for sliding doorAre claims 1 to3Any one ofPower supply device for sliding doorIn the above, a rib for sliding contact is projected from the guide member or the case and the cover.
  With the above configuration, the sliding friction of the guide member with respect to the case and the cover is reduced, and the sliding movement of the guide member is smoothly and reliably performed with a small force.
[0019]
  Claim5Pertaining toPower supply device for sliding doorAre claims 1 to4Any one ofPower supply device for sliding doorA guide bar is provided through the guide member, and an end portion of the guide bar is supported by the case.
  With the above configuration, the guide member slides along the guide bar while being accurately guided. As a result, the sliding movement of the guide member is smoothly and accurately performed in a specified direction. Further, since the guide bar is inserted through the center of the elastic member, the elastic member can be stably expanded and contracted. Accordingly, the guide member is smoothly moved in the compression direction and the biasing direction of the elastic member.
[0021]
  Claim6The sliding door power supply apparatus according to claim 1 is the first aspect.5The power supply device for a sliding door according to any one of the above, wherein a portion for leading the other of the electric wires to the cover or the case and a portion for fixing the other of the electric wires are provided.
  With the above configuration, the other end of the electric wire is fixed to the cover or the case, and the electric wire is pulled, swinged, and absorbed by the length of the electric wire in the case.
[0023]
  Claim7The sliding door power supply apparatus according to claim 1 is the first aspect.6The power supply device for a sliding door according to any one of the above, wherein the wire surplus length absorbing device is disposed horizontally and one of the wires is led out substantially horizontally from the opening.
  With the above configuration, the electric wire is loosely bent without being bent to a small diameter and is arranged almost horizontally between the sliding door and the vehicle body, so that the torsional force does not act on the electric wire when the sliding door is opened and closed, thus preventing torsion. An electric wire holder or the like is not required.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 shows an embodiment of a wire surplus length absorber according to the present invention.
This wire surplus length absorption device 1 includes a rectangular case 2 made of synthetic resin, a pair of front and rear semi-circular guide members 3 and 4 slidably disposed in the case 2, and a pair of A metal compression coil spring (elastic member) 5 that urges the guide members 3 and 4 in the separating direction and a synthetic resin cover 6 attached to the case 2 are schematically configured.
[0025]
The case 2 is formed in a rectangular box shape, and includes wall portions 7 to 10 which are continuous in the form of a rectangular frame on the front, rear, left and right sides, a base wall 11 on the bottom side orthogonal to the wall portions 7 to 10, and a frame-like wall portion 7. 10 and a wide opening 28 of the housing space 12 is sealed with a cover 6, and two orthogonally adjacent walls 7 and 9 are slit-shaped for harness lead-out. The opening 13 is provided continuously in a substantially L shape.
[0026]
A guide groove (guide portion) 14 is provided in the center of the base wall 11 in the longitudinal direction, and a pair of guide members 3 and 4 has a protrusion (engagement portion) 15 slidably engaged with the guide groove 14. ing. The guide groove 14 may have any length as long as the guide members 3 and 4 can slide along the guide groove 14 with a sufficient stroke. Both ends of the guide groove 14 act as stop portions 14a for the guide members 3 and 4, and define the movement stroke of the guide members 3 and 4.
[0027]
Each guide member 3, 4 has a shape obtained by cutting, for example, a perfect circular short columnar material at the center, and has a smooth arcuate guide surface 16 and a rectangular base end surface following the base end side of the guide surface 16. 17 and a semicircular sliding surface 18 slidably contacting the base wall 11 and the cover 6. The pair of guide members 3 and 4 are arranged side by side in the longitudinal direction of the case 2 with the rectangular base end face 17 facing each other.
[0028]
A countersink hole 19 for stably supporting the coil spring 5 is provided in the center of the base end face 17 of each guide member 3, 4, and a small-diameter hole 20 is provided through the countersink hole 19. The metal guide bar 21 is provided through the hole 20 and the radial center of the coil spring 5. The inner diameter of the hole 20 is slightly larger than the outer diameter of the guide bar 21, and the guide members 3 and 4 are slidable along the guide bar 21. The guide bar 21 is engaged with the hole 22 in the wall 7, 8 on the short side of the case 2.
[0029]
Note that one end of the guide bar 21 may be fixed to one guide member 4 and the guide bar 21 may be slidably engaged with the hole of the one wall portion 7 on the short side. Curved wall portions 23 are integrally formed in at least two corners excluding the corner portion on the slit-like opening 13 side of the case 2. The case 2 is not limited to a rectangle, but may be an oval shape such as a curved wall portion 23. The slit-shaped opening 13 continues in a “<” shape, and includes a slit 13 a on the short-side wall 7 and a slit 13 b on the long-side wall 9. The notch length of the opening 13 can be appropriately set according to the swing range of the wire harness (electric wire) 24.
[0030]
The wire harness 24 is introduced into the case 2 from the slit-shaped opening 13 and is routed so as to wind approximately one and a half turns along the guide surface 16 on the arc-shaped outer periphery of the pair of guide members 3 and 4. It is led out to the outside through a small hole portion (leading portion or opening portion) 25 at a corner portion of the cover 6 from a large opening portion 28 at a diagonal position with respect to the slit-like opening portion 13. A harness fixing wall portion (fixing portion) 26 is erected on the opening edge of the hole portion 25 of the cover 6, and the harness 24 is fixed to the wall portion 26 by means such as tape winding or a band. The cover 6 is made of a flat rectangular plate and is fixed to the case 2 by a locking means such as a small screw or a flexible locking claw.
[0031]
The wire harness 24 is configured by covering a relatively small number of wires with a small-diameter corrugated tube 27 in this embodiment. The corrugated tube 27 is formed by alternately arranging the concave grooves 27a and the ridges 27b in the longitudinal direction of the harness using synthetic resin as a material. Slidably contact each other with a small sliding resistance, and smoothly contact with the arcuate guide surfaces 16 of the guide members 3 and 4 with a small sliding resistance.
[0032]
Although it is preferable to use the corrugated tube 27 in the wire harness 24 in order to enhance the flexibility of each internal electric wire, it is also possible to use a plurality of electric wires in a state of being bundled by tape winding. Further, as the harness protection tube, a synthetic resin net-like tube may be used instead of the corrugated tube 27, or a relatively hard tube having good slippage may be used. It is also possible to use a single wire instead of the wire harness (a bundle of a plurality of wires) 24.
[0033]
The assembly of the wire surplus length absorbing device 1 is performed by, for example, setting a pair of guide members 3 and 4 in the case 2 and inserting the guide bar 21 from the outside of the case 2 while the coil spring 5 is inserted into the pair of guide members 3 and 3. It can be easily performed by elastically mounting between 4. In this state, the wire harness 24 is wound and accommodated in the case 2, covered with the cover 6, and the wire harness 24 is led out from both openings 13 and 28. It is preferable to arrange the wire harnesses 24 one by one above and below the guide bar 21 at a portion where the wire harnesses 24 are overlapped vertically. The wire harness 24 is wound in an oval shape along the pair of guide members 3 and 4. The pair of guide members 3 and 4 are urged by the coil spring 5 in the separating direction.
[0034]
Even if the guide bar 21 is not used, there is no problem in practical use as long as the coil spring 5 can be stably expanded and contracted and the guide members 3 and 4 can be advanced and retracted along the guide groove 14. It is also possible to provide the guide groove 14 in the cover 6 instead of the case 2, or to provide the guide groove 14 in both the case 2 and the cover 6. Alternatively, the guide groove 14 may be provided on the semicircular surface 18 of the guide members 3 and 4, and the protrusion 15 slidably engaged with the guide groove 14 may be provided on the base wall 11 of the case 2 or the inner surface of the cover 6. Is possible. Further, it is possible to provide a harness lead-out hole 25 and a fixing part such as the harness fixing wall 26 in the case 2 instead of the cover 6.
[0035]
Also, as shown in FIG. 2, ribs 29 for sliding contact with the inner surface of the cover 6 and the bottom surface 11 of the case 2 are provided on the upper and lower semicircular surfaces 18 of each guide member 3 ′ (only one is shown). Thus, the guide member 3 ′ can be smoothly slid with low force. It is also possible to provide sliding contact ribs 29 on the inner surfaces of the cover 6 and the case 2 instead of the guide members 3 and 4.
[0036]
Further, the flange portions 30 are provided in a semicircular shape on both the upper and lower sides of the arcuate guide surface 16 of each guide member 3 ′ so that the wire harness 24 is stably supported between the flange portions 30, and the guide member 3. The wire harness 24 may be prevented from being detached from the '. The collar 30 facilitates and ensures the work of winding the wire harness 24 around the outer periphery of the guide member 3 ′. The outer surface of the collar portion 30 is located on the same plane as the upper and lower surfaces 18 of the guide member 3 ′.
[0037]
In FIG. 1, when the wire harness 24 led out from the slit-like opening 13 of the case 2 is pulled with the cover 6 closed, the guide member 4 on the side far from the opening 13 faces inward (the guide members 3 and 4 are mutually connected). The wire harness 24 in the case 2 is contracted (reduced in diameter) while being slid in the direction of approaching the guide member 3, and at the same time, the guide member 3 on the side close to the opening 13 is slid inward. FIG. 3 shows the movement state.
[0038]
The pulling direction of the wire harness 24 may be any direction within the range of the length of the slit-shaped opening 13. The case may be the longitudinal direction of the case, may be the case width direction (longitudinal orthogonal direction), or may be pulled further inward than the case width direction (toward the terminal end 13c of the opening 13) so as to swing the wire harness 24. Good.
[0039]
As the guide members 3 and 4 approach as shown in FIG. 3, the wire harness 24 is contracted in the case 2. If the tension of the wire harness 24 outside the case is released from the state of FIG. 3, the pair of guide members 3 and 4 are urged in the direction away from each other by the force of the coil spring 5 as shown in FIG. While the members 3 and 4 move away from each other, the wire harness 24 is expanded along the pair of guide members 3 and 4 and accommodated in a state wound in a long dimension in the case. Thereby, the extra length (slackness) of the wire harness 24 is absorbed.
[0040]
In the embodiment of FIG. 1, it is possible to fix any one of the guide members 4 to the case 2 and make only one of the other guide members 3 movable. However, in this case, depending on the pulling direction of the wire harness 24, the slip of the wire harness 24 may be slightly deteriorated, and it may be difficult to absorb the surplus length smoothly. Moreover, it is also possible to use a leaf spring or the like (not shown) bent into a corrugated shape instead of the coil spring 5 as the elastic member. It is also possible to arrange a tension coil spring (not shown) between the guide members 3 and 4 and the case 2 so as not to interfere with the wire harness 24.
[0041]
According to the wire surplus length absorbing device 1 of this embodiment, there is no need to wind the wire harness around the other side of the reel, unlike the conventional reel-type wire surplus length absorbing device, and the sliding terminal In addition, since no ring circuit is required, the structure is simplified and the cost is reduced. In addition, since there is no swinging portion unlike the conventional link arm type wire surplus length absorption device, there is no concern about interference with the outside, and the structure is made compact. Moreover, if the moving distance of the pair of guide members 3 and 4 is set to be relatively large and the coil spring 5 is set to be long, it can cope with a large stroke and can be commonly used for various sizes of sliding doors such as automobiles. Is economical. In this case, the compact difference in the width direction does not change at all. Further, since the pair of guide members 3 and 4 are simultaneously moved in the opposite directions, it is possible to cope with the quick pulling of the wire harness 24 and to quickly absorb the extra length.
[0042]
Further, by setting the opening 13 to be long, it is possible to cope with the swing of the wire harness 24, which is suitable for a sliding door of an automobile. This will be described later with reference to FIGS. The opening 13 can be narrowed and applied to a sedan type rotary door or the like.
[0043]
4-5 shows other embodiment of the wire surplus length absorber which concerns on this invention.
The wire surplus length absorbing device 31 has a further simplified structure as compared with the embodiment of FIG. 1, and a synthetic resin guide member 33 is slidably provided in a synthetic resin case 32. A compression coil spring 34 is elastically provided between the guide member 33 and the case 32.
[0044]
The case 32 includes wall portions 35 to 37 that form peripheral walls that are continuous in three directions, and a base wall 38 that is orthogonal to each of the wall portions 35 to 37, and one long side is notched so that the harness leads are long. An opening 39 is formed. The openings 40 formed by the peripheral walls 35 to 37 are sealed with a synthetic resin cover (not shown). A narrow hole 41 for leading out the harness is provided in the short side wall 37 to which the base end of the coil spring 34 is fixed. In the vicinity of the hole 41, the wire harness 42 is fixed to the case 32 or the outside in the vicinity of the case.
[0045]
The base end of the coil spring 34 is stably supported by, for example, forming an annular holding portion (not shown) integrally with the wall portion 37 of the case 32. The tip of the coil spring 34 enters and engages in the counterbore hole of the guide member 33 as in the previous example. The guide member 33 has a shape in which the semicircular portion 43 and the rectangular portion 44 are integrated, and the guide surface 45 for the wire harness 42 is formed longer than the previous example. The guide surface 45 includes an arcuate guide surface 45 and a straight guide surface 45b. A gap 46 for inserting a wire harness is formed between the arcuate guide surface 45a of the guide member 33 and the wall portion 35 of the case 32 when the coil spring 34 is extended.
[0046]
For example, the case 32 and / or the cover are provided with a guide groove (14) in the longitudinal direction similar to that in FIG. 1, and the protrusion (15) that engages with the guide groove is provided on the sliding contact surface of the guide member 33. The guide member 33 is slidable straight in the longitudinal direction of the case. As shown in FIG. 2, the guide member 33 can be formed with a rib (29) for sliding contact with the case 32 and the cover and a flange (30) for holding the wire harness 42. Further, a guide bar (21) as shown in FIG. 1 may be provided so as to penetrate through the guide member 33 so that both ends of the guide bar are supported by the case 32.
[0047]
In the wire surplus length absorbing device of this embodiment, the wire harness 42 is pulled so as to swing along the slit-like long opening 39 as shown in FIG. When the wire harness 42 is bent and pulled like a chain line toward the wall 37 having the narrow hole 41, the guide member 33 moves backward while compressing the coil spring 34. When the tensile force of the wire harness 42 is released, the guide member 33 is pushed forward by the urging force of the coil spring 34, and the wire harness 42 is restored together with the guide member 33 and is elongated in the case 32. Contained in state. In this way, the harness extra length is absorbed.
[0048]
The wire harness 42 of this embodiment may be covered with a corrugated tube, a mesh tube, or the like as in the previous example, or may be bound with a vinyl tape or the like. A single electric wire may be used. Further, instead of the coil spring 34, a bent plate spring, a tension spring, or the like can be used.
[0049]
According to the wire surplus length absorbing device 31 of this embodiment, there is no need to wind the wire harness around the other side of the reel, unlike the conventional reel-type wire surplus length absorbing device, and the sliding type terminal In addition, since no ring circuit is required, the structure is simplified and the cost is reduced. In addition, since there is no swinging portion unlike the conventional link arm type wire surplus length absorption device, there is no concern about interference with the outside, and the structure is made compact. Moreover, if the length of the coil spring 34 and the moving distance of the guide member 33 are set to be relatively large, a large stroke can be accommodated, and it can be used in common for various sizes of sliding doors such as automobiles, which is economical.
[0050]
Note that the slit-like opening 39 is narrowed and the other opening (hole) 41 is arranged in parallel, and the wire harness 42 is bent along the guide member 33 in a substantially U shape so that the surplus length is obtained. If it is made to absorb, it is effective in the wiring form which leads out a wire harness to a substantially U shape in the same direction other than a slide door.
[0051]
FIGS. 6-7 shows one Embodiment of the electric power feeder for sliding doors using the wire surplus length absorption apparatus of FIG.
The power supply device for a sliding door (power supply structure) 48 is a step 50 of the vehicle body 49 of the one-box car with the wire harness 24 wound and accommodated in the wire excess length absorber 1. The wire harness 24 is horizontally placed horizontally below the rear part, and the wire harness 24 is routed from the wire surplus length absorber 1 to the slide door 51 side.
[0052]
The electric wire surplus length absorbing device 1 and the wire harness 24 constitute a sliding door power supply device 48. The position of the wire surplus length absorbing device 1 may be close to the slide door 51 on the vehicle body 49 side, and is disposed at an intermediate position where the pull-out amount of the wire harness 24 is almost equal when the slide door 51 is fully opened and when it is fully closed. It is best to reduce the housing length of the wire harness 24 and further reduce the structure.
[0053]
In FIG. 6, reference numeral 2 denotes a case, 6 denotes a cover, and 13 denotes a substantially L-shaped opening. The slit-shaped opening 13 is located toward the slide door 51 below the entrance of the vehicle body 49. One of the wire harnesses 24 is led out from the slit-shaped opening 13 and extends toward the slide door 51, and is connected to the wire harness 52 on the slide door side via the connector 53 in the slide door. The wire harness 52 on the slide door side is connected to each auxiliary machine (not shown) in the slide door. The other of the wire harness 24 is led out from the other opening (not shown) of the electric wire surplus length absorber 1 and routed toward a battery, an auxiliary machine, or the like in the vehicle body.
[0054]
Unlike the embodiment shown in FIG. 1, the other opening (hole) is provided in the longitudinal direction of the case 2. The other opening is abolished, a connector (not shown) is provided in the case 2, the other end of the wire harness 24 is connected to the connector, and the wire surplus length absorbing device 1 is assembled to the vehicle body 49 at the same time. It is also possible to connect the body side wire harness 54 with a connector.
[0055]
6 shows a closed state of the slide door 51, and FIG. 7 shows an open state of the slide door 51. In the closed state of the slide door 51 in FIG. 6, the wire harness 24 is pulled forward (door closing direction) and protrudes long from the slit-shaped opening 13. Accordingly, the pair of guide members 3, 4 in the case 2 of FIG. 1 slides in the proximity direction against the bias of the coil spring 5, and the wire harness 24 approaches the circular shape from the oval shape in the case 2. The diameter is reduced.
[0056]
7, the wire harness 24 is pulled while swinging rearward together with the slide door 51, and is positioned on the terminal end 13c side of the slit-like opening 13 in FIG. In the case 2 of FIG. 1, the pair of guide members 3 and 4 slide in the proximity direction against the bias of the coil spring 5, and the wire harness 24 is reduced in diameter so as to approach an oval to a circle in the case. . In particular, when the wire harness 24 is pulled toward the terminal end side of the opening portion 13, one guide member 3 is pushed directly inward by the wire harness 24 to move, so that the guide member 3 is reliably moved, The pulling operation of the wire harness 24 is performed smoothly.
[0057]
While the sliding door 51 is being opened and closed, the wire harness 24 tends to loosen greatly when the fixing portion of the wire harness 52 on the slide door side (near the connector 53 in this embodiment) is closest to the wire surplus length absorber 1 ( 1), the pair of guide members 3 and 4 return to the separating direction by the urging force of the coil spring 5 in FIG. 1, whereby the wire harness 24 is expanded in diameter and accommodated in a long dimension in the case. Therefore, slack is reliably absorbed. This prevents the wire harness 24 from being sandwiched between the slide door 51 and the vehicle body 49, prevents the wire harness 24 from being damaged or deformed, and improves the reliability of power feeding.
[0058]
Further, by arranging the wire surplus length absorber 1 horizontally (horizontal), when the wire harness 24 swings and bends when the slide door 51 is opened and closed, a force in the twisting direction acts on the wire harness 24. Therefore, there is no need to provide a harness holder for twist absorption (not shown), and the structure is simplified and the cost is reduced. The harness holder has, for example, an annular rib that rotatably supports the concave groove 27a of the corrugated tube 27 (FIG. 1). It is preferable that the fixing portion of the wire harness 52 on the slide door side is disposed at substantially the same height as the wire surplus length absorber 1 on the lower side of the slide door 51.
[0059]
8 to 9 show a sliding door power supply device 55 in which the wire surplus length absorbing device 1 is arranged in the sliding door 51 instead of the vehicle body 49. The electric wire surplus length absorbing device 1 is disposed horizontally (horizontal) within the thickness range of the slide door 51. This is a technique that is possible because the wire surplus length absorber 1 is compact. The wire surplus length absorbing device 1 is disposed at substantially the same height as the fixing portion (in the vicinity indicated by reference numeral 56) of the wire harness 24 to the vehicle body side on the lower side of the slide door 51. Twist is reliably prevented.
[0060]
It is best that the wire surplus length absorbing device 1 be disposed at an intermediate position where the pull-out amount of the wire harness 24 is almost equal when the slide door 51 is fully opened and when the slide door 51 is fully closed. Is shortened and the structure is made more compact.
[0061]
As shown in FIG. 8, one of the wire harnesses 24 is led out from the L-shaped slit-shaped opening 13 of the case 2 on the sliding door side, and is routed to the rear side of the step 50 of the vehicle body 49. The other of the wire harness 24 is led out upward and routed to the slide door 51 side. In this embodiment, the other end of the wire harness 24 is connected to a wire harness 52 on the slide door side via a connector 53. It is also possible to connect the wire harness 52 on the slide door side to the vehicle body side wire harness and the connector on the step side of the vehicle body 49 through the inside of the wire surplus length absorbing device 1.
[0062]
When the slide door 51 of FIG. 8 is closed, the wire harness 24 is pulled forward together with the slide door 51, and the pair of guide members 3, 4 resists the bias of the coil spring 5 in the case 2 of FIG. 1. The wire harness 24 slides in the proximity direction, and the diameter of the wire harness 24 is reduced in the case 2 so as to approach a circle.
[0063]
In the open state of the slide door 51 in FIG. 9, the wire harness 24 is pulled while swinging backward together with the slide door 51, and is positioned on the terminal side of the slit-shaped opening 13 in FIG. The pair of guide members 3 and 4 slides in the proximity direction against the bias of the coil spring 5 in the case 2 of FIG. 1, and the wire harness 24 is reduced in diameter so as to approach an oval shape to a circular shape in the case 2. The Particularly, when the wire harness 24 is pulled toward the terminal end 13c of the opening 13, the one guide member 3 is directly pushed inward by the wire harness 24 to move, so that the movement of the guide members 3 and 4 is ensured. The pulling operation of the wire harness 24 is performed smoothly.
[0064]
When the wire surplus length absorbing device 1 approaches the vehicle body side wire harness fixing portion 56 (near the rear end portion of the step 50 in this embodiment) while the slide door 51 is being opened and closed, the wire harness 24 will be greatly loosened. However, the pair of guide members 3 and 4 are returned to the separating direction by the force of the coil spring 5 in FIG. 1, whereby the wire harness 24 is expanded in diameter and is long in the case 2. Since it is housed in, slack is reliably absorbed. This prevents the wire harness 24 from being sandwiched between the slide door 51 and the vehicle body 49, prevents the wire harness 24 from being damaged or deformed, and improves the reliability of power feeding.
[0065]
When the wire surplus length absorbing device 31 of FIG. 4 is applied to the sliding door power feeding device instead of the wire surplus length absorbing device 1 of FIG. 1 and arranged on the vehicle body side, the slide door of FIG. 4, the wire harness 42 is pulled out from the case 32 and led out, the coil spring 34 is extended, and the guide member 33 is moved forward by the urging force of the coil spring 34 in the extending direction. Further, when the slide door 51 of FIG. 7 is opened, the wire harness 42 is bent in a substantially U shape and pulled rearward as shown by a chain line in FIG. 5, and the guide member 33 is retracted by compressing the coil spring 34.
[0066]
While the sliding door 51 is being opened and closed, when the fixing portion of the wire harness 52 on the sliding door side (near the connector 53 in this embodiment) is closest to the wire surplus length absorbing device 31, the wire harness 42 tends to loosen greatly ( 4), the guide member 33 is moved forward by the force of the coil spring 34 in FIG. 4, whereby the wire harness 42 is stretched and accommodated in the case 32 in a long dimension, so that the slack is surely absorbed. Is done. This prevents the wire harness 42 from being caught between the slide door 51 and the vehicle body 49, prevents the wire harness 42 from being damaged or deformed, and improves the reliability of power feeding.
[0067]
4 is arranged on the slide door 51 side, when the slide door 51 of FIG. 8 is closed, the wire harness 42 is pulled out rearward from the case 32 as shown by the solid line in FIG. Thus, the coil spring 34 is extended, and the guide member 33 is moved backward by the urging force of the coil spring 34 in the extending direction. Further, when the sliding door 51 of FIG. 9 is opened, the wire harness 42 is bent in a substantially U shape and pulled forward as shown by a chain line in FIG. 5, and the guide member 33 advances by compressing the coil spring 34. Note that “front and rear” corresponds to the front and rear of the vehicle.
[0068]
While the sliding door 51 is being opened and closed, when the wire surplus length absorbing device 31 comes closest to the vehicle body side wire harness fixing portion 56 (near the rear end portion of the step 50 in this embodiment), the wire harness 42 will loosen greatly. However, the guide member 33 is advanced by the force of the coil spring 34 in FIG. 4, whereby the wire harness 42 is stretched and accommodated in the case 32 in a long dimension. Surely absorbed. This prevents the wire harness 42 from being caught between the slide door 51 and the vehicle body 49, prevents the wire harness 42 from being damaged or deformed, and improves the reliability of power feeding.
[0069]
In addition, it is also possible to arrange | position the electric wire surplus length absorbers 1 and 31 in the slide door 51 vertically (vertical). In this case, since the wire harnesses 24 and 42 are bent from the slit-shaped openings 13 and 39 and are routed to the vehicle body 49 side, it is preferable to use a harness holder with a twist preventing mechanism together.
[0070]
【The invention's effect】
  As described above, according to the first aspect of the present invention, when the guide member slides in the direction opposite to the biasing of the elastic member, the electric wire is pulled out from the case, and then the tensile force of the electric wire is released, Since the guide member supports the electric wire in a state of extending in the urging direction by the urging force of the elastic member, the extra length of the electric wire is reliably absorbed. In addition, since the power supply device for a sliding door is composed of at least a case, a guide member, an elastic member, and a cover, the structure is simple, compact, lightweight, and low in cost. It can be easily assembled without damaging the degree of freedom of the layout of other structures and without causing interference or the like in a small portion where other structures are arranged. This improves the assembly and quality of the sliding door. In addition, since the structure is simple and compact, it can be handled by one type of sliding door power supply device regardless of the type of the sliding door of an automobile, and is excellent in versatility and economical.
  Moreover, since a pair of guide member moves to an opposite direction simultaneously, an electric wire is expanded quickly and the surplus length of an electric wire is absorbed rapidly and reliably. As a result, it is possible to reliably cope with the fast opening / closing speed with the strong force of the sliding door, and the commercial value is increased.
  In addition, since the guide member absorbs the excess length of the electric wire by the biasing force of the elastic member and prevents slack, the electric wire is prevented from being caught between the sliding door and the vehicle body, and reliable power supply to the sliding door is always possible. Improves.
  Further, the sliding engagement between the guide groove and the protrusion defines the moving direction of the guide member stably, and smooth sliding movement is performed, so that the extra length of the electric wire is more reliably absorbed. Further, the assembly of the guide member to the case is facilitated, and the cost is reduced.
[0072]
  Claim2According to the described invention, since the electric wire is smoothly curved and smoothly slides along the arcuate guide surface, the electric wire is smoothly drawn out with a small force, and the extra length absorption of the electric wire is small. Performed smoothly with force. This will slideDoorOpening / closing operability is enhanced, and the elastic member can be downsized to further reduce the structure and cost.
[0073]
  Claim3According to the described invention, since the electric wire is stably supported by the collar portion without being detached from the guide member, the extra length of the electric wire is more reliably absorbed and the workability of arranging the electric wire to the guide member is improved. To do.
  Claim4According to the described invention, the sliding movement of the guide member is smoothly and reliably performed with a small force, so that the extra length of the electric wire is more reliably absorbed.
[0074]
  According to the fifth aspect of the present invention, since the guide member slides smoothly and accurately in the specified direction along the guide bar, the extra length of the electric wire is more reliably absorbed.
  Claim6According to the described invention, the accommodation length of the electric wire in the case is accurately defined, and the extra length is accurately absorbed without being loosened or pulled.
[0075]
  Claim7According to the described invention, since the electric wire is routed between the sliding door and the vehicle body substantially horizontally without being bent, the twisting force does not act on the electric wire when the sliding door is opened and closed to prevent torsion. This eliminates the need for an electric wire holder, simplifies the overall structure, and reduces costs.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing a first embodiment of a wire surplus length absorber according to the present invention.
FIG. 2 is a perspective view showing an embodiment of a movable guide member.
FIG. 3 is a perspective view illustrating an operation of the wire surplus length absorbing device.
FIG. 4 is a perspective view showing a second embodiment of the wire surplus length absorbing device according to the present invention.
FIG. 5 is a perspective view showing the operation of the wire surplus length absorber.
FIG. 6 is a perspective view of the first embodiment in which the wire surplus length absorbing device is applied to a sliding door power supply device when the door is closed.
FIG. 7 is a perspective view when the door is opened.
FIG. 8 is a perspective view when the door is closed, showing a second embodiment in which the wire surplus length absorbing device is applied to a sliding door power supply device.
FIG. 9 is a perspective view when the door is opened.
FIG. 10 is a front view showing an internal structure of one embodiment of a conventional wire surplus length absorber.
FIG. 11 is a perspective view showing a sliding door power supply device to which another embodiment of a conventional wire surplus length absorbing device is applied.
[Explanation of symbols]
1,31 Wire surplus length absorber
2,32 cases
3, 4, 33 Guide member
5,34 Coil spring (elastic member)
6 Cover
13,39 opening
14 Guide groove (guide part)
15 Projection (engagement part)
16, 45a Circular guide surface
21 Guide bar
24, 42 Wire harness (electric wire)
25 Hole (outgoing part)
26 Wall (fixed part)
29 Ribs
30 buttock
48,55 Power supply device for sliding door
49 Vehicle body
51 Sliding door

Claims (7)

A case having a slit-like opening for leading out an electric wire and disposed in one of the sliding door and the vehicle body, and a pair of halves disposed in the case so as to be slidable in the contact / separation direction A circular guide member, an elastic member that is elastically provided between the pair of guide members and biases the pair of guide members in a direction separating the pair of guide members, and a cover that is attached to the case A guide groove is provided in the longitudinal direction in the center of the base wall of the case and / or the cover, and the pair of guide members have protrusions that slidably engage with the guide grooves, or the pair A guide groove is provided on the surface of the guide member, the base wall of the case and / or the cover has a protrusion that slidably engages with the guide groove, and the electric wire extends along the pair of guide members. One of the wires is opened while being wound. Parts feed device for a sliding door, characterized in that pivotably derived to the other of the said sliding door and the vehicle body from.   The power supply device for a sliding door according to claim 1, wherein the guide member has an arcuate guide surface for wire sliding contact.   The sliding door power feeding device according to claim 1, wherein a hook portion for holding an electric wire is provided on the guide member.   The sliding door power feeding device according to any one of claims 1 to 3, wherein a rib for sliding contact protrudes from the guide member or the case and the cover.   The power supply apparatus for a sliding door according to any one of claims 1 to 4, wherein a guide bar that penetrates the guide member is provided, and an end portion of the guide bar is supported by the case. The power supply for a sliding door according to any one of claims 1 to 5 , wherein a portion for leading the other of the electric wire to the cover or the case and a portion for fixing the other of the electric wire are provided. apparatus. The power supply for a sliding door according to any one of claims 1 to 6 , wherein the wire surplus length absorbing device is disposed horizontally and one of the wires is led out substantially horizontally from the opening. apparatus.

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