Source: https://patents.google.com/patent/JP5074757B2/en
Timestamp: 2020-03-30 23:56:16
Document Index: 20660987

Matched Legal Cases: ['art) 12', 'art 11', 'art 12', 'art 11', 'art 11', 'art 9', 'art 11', 'art 12', 'art)\n12']

JP5074757B2 - Power feeding device and harness wiring structure using the same - Google Patents
Power feeding device and harness wiring structure using the same Download PDF
JP5074757B2
JP5074757B2 JP2006340800A JP2006340800A JP5074757B2 JP 5074757 B2 JP5074757 B2 JP 5074757B2 JP 2006340800 A JP2006340800 A JP 2006340800A JP 2006340800 A JP2006340800 A JP 2006340800A JP 5074757 B2 JP5074757 B2 JP 5074757B2
JP2006340800A
JP2008154384A (en
敦吉 山口
2006-12-19 Application filed by 矢崎総業株式会社 filed Critical 矢崎総業株式会社
2006-12-19 Priority to JP2006340800A priority Critical patent/JP5074757B2/en
2008-07-03 Publication of JP2008154384A publication Critical patent/JP2008154384A/en
2012-11-14 Publication of JP5074757B2 publication Critical patent/JP5074757B2/en
The present invention relates to a power supply apparatus that is adapted to move a slide sheet by bending a wire harness into a substantially U shape, for example, in order to constantly supply power to a slide sheet of an automobile, and a harness wiring structure using the power supply apparatus. .
FIG. 7 shows an embodiment of a conventional power feeding device and a harness wiring structure using the same (see, for example, Patent Document 1).
The power feeding device 51 is applied to a slide sheet 52 of an automobile and is disposed on a floor 53 of a vehicle body. The power feeding device 51 is long on a case 54 made of metal or synthetic resin and a guide rail (not shown) of the case 54. The slider 55 is slidably engaged in the direction (vehicle longitudinal direction), and is arranged in a substantially J-shape or U-shape in the case. One end side is fixed to the slider 55 and connected to the circuit on the seat side by the connector 56. The wire harness 57 is configured such that the other end is led out from the case 54 to the floor side.
The slider 55 includes a vertical portion 55a that protrudes upward from the case 54 and a horizontal portion 55b that engages with a guide rail in the case, and a connector 56 is disposed on the upper end side of the vertical portion 55a. The connector 56 is composed of terminals (not shown) connected to the terminals of a plurality of insulation-coated wires constituting the wire harness 57, and an insulating resin connector housing (represented by reference numeral 56) covering the terminals. Has been. The wire harness 57 is completely covered and protected by the case 54 over almost the entire length. The case 54 is arranged vertically in the recess 58 of the floor 53.
As shown by a solid line in FIG. 7, the slider 55 is positioned at the front end side of the narrow portion 54a in the front half of the case 54 at the slide front end position of the seat 52, and the wire harness 57 is bent in a substantially J shape within the case. Further, as indicated by the chain line, the slider 55 moves to the rear end side of the wide portion 54b in the latter half of the case 54 at the rear end position of the seat 52, and the wire harness 57 is bent in a substantially inverted J shape within the case. .
Japanese Patent Laying-Open No. 2005-59745 (FIG. 7)
However, in the conventional power feeding device and the harness routing structure using the same, the wire harness 57 is completely covered with the large case 54, so that the structure is increased in size, weight, and cost. When the deep recess 58 is required in the floor 53 as shown in FIG. 7 or the depth of the recess 58 cannot be secured, the case 54 must be protruded on the floor 53, and the gap (space) L below the seat 52 is increased. There was a problem that it could not be applied unless it was high. Further, since the position of the slider 55 does not change in the height direction, there is a problem that it cannot be applied to a vehicle in which the height of the seat 22 can be adjusted.
In view of the above-described points, the present invention can solve the above-described problems caused by using a case, and can make the structure compact, lightweight, and cost-effective. Further, the vehicle has a low seat height and a high seat height. An object of the present invention is to provide a power feeding device that can be applied to a vehicle that can be adjusted, and a harness wiring structure using the power feeding device.
In order to achieve the above object, a power feeding device according to claim 1 of the present invention includes a folded wire harness, a fixed protector disposed in one portion of the wire harness, and the wire harness. A cross-section concave character that is disposed in the other part and is configured with a movable-side protector that can be moved back and forth with respect to the fixed-side protector , and the fixed-side protector accommodates one part of the wire harness. The movable-side protector has a harness guide portion having a reverse-recessed cross section that accommodates the other portion of the wire harness, and the harness support portion and the harness guide portion are Each harness has an opening for inserting a long harness, and the harness is fixed at one end of the harness support portion and one end of the harness guide portion. A cover part is provided, one part of the wire harness is fixed to the harness support part by the one cover part, and the other part of the wire harness is fixed to the harness guide part by the other cover part. The wire harness is derived from the other end side of the harness support portion and the harness guide portion with both cover portions serving as fulcrums, and is bent and bent .
With the above configuration, the fixed-side protector is fixed to the fixed structure such as the vehicle body, the movable-side protector is fixed to the movable structure such as the slide seat, and the wire harness is routed from the fixed structure to the movable structure. As the movable structure moves in the forward direction, the other part of the wire harness is accommodated in the harness guide part of the protector on the movable side, and as the movable structure moves in the reverse direction, the other part of the wire harness Is led out while being bent from the harness guide and becomes a part of the other part of the wire harness. The harness guide part accommodates and protects the other part of the wire harness and smoothly leads out of the long opening. Between the two protectors, the wire harness is bendably exposed (may be covered with a bendable protective tube), and can be moved in a three-dimensional direction (front / rear, up / down, left / right). It goes without saying that one and the other part of the wire harness are parts located via a bent part. An assembly of a plurality of electric wires and a protective tube may be referred to as a wire harness.
Moreover , one part of the wire harness is stably supported along the harness support part of the protector on the fixed side, and the lead-out direction of the one part is defined. Harness support portion that have a opening of elongate be derived while bent from a state which accommodates a likewise wire harness and the harness guide portion. For example, the harness support portion may be extended so as to get over the step on the floor of the vehicle body.
The power supply device according to claim 2 is the power supply device according to claim 1 , wherein the wire harness is covered with a protective tube, and the protective tube is fixed to the cover portion of each of the protectors on the fixed side and the movable side. It is characterized by.
With the above configuration, when the protective tube is in contact with each protector, the wire harness (a plurality of electric wires) in the protective tube is safely protected from abrasion due to contact with the protector. Of course, the electric wire is covered with a protective tube and is safely protected from interference with the outside. As the protective tube, a bellows-like corrugated tube is preferable in terms of attachment of each protector, and a flat cross section is preferable in terms of flexibility.
A harness routing structure using the power feeding device according to claim 3 is a harness routing structure using the power feeding device according to claim 1 or 2 , wherein the fixed-side protector is fixed to a fixed structure, The movable-side protector is fixed to the movable structure, and the wire harness is routed from the fixed structure to the movable structure.
With the above configuration, the same effects as those of the first or second aspect of the invention can be achieved, and the constant power supply from the fixed structure to the movable structure is reliably performed in a space.
According to the first aspect of the present invention, since the wire harness is partially covered with the two protectors without using the conventional case, the structure is reduced in size, weight, and cost, and the seat It can be applied to a vehicle with a low height, and the wire harness can be bent and moved in a three-dimensional direction between both protectors, so it can be applied to a vehicle with adjustable seat height. The mounting position of the protector in the width direction can be adjusted, and one part of the wire harness led out from the protector on the fixed side can be freely routed according to the shape of the floor or the like.
In addition, the lead-out direction of one part of the wire harness is defined along the harness support part, and the wire harness is smoothly and reliably introduced into the harness guide part when the protector on the movable side is moved.
According to the second aspect of the present invention, the wire harness (electric wire) in the protective tube is safely protected from interference with each protector, so that the reliability of constant power feeding is improved.
According to the invention described in claim 3, the same effect as that of the invention described in claim 1 or 2 is exhibited. That is, constant power supply from the fixed structure to the movable structure can be reliably performed in a small space with a reduced height, and in addition to the movement of the movable structure in the three-dimensional direction and on the fixed structure side. The wire harness can be smoothly bent according to the shape, so that power can always be supplied reliably.
1 to 3 show an embodiment of a power feeding device according to the present invention and a harness wiring structure using the power feeding device.
The power feeding device 1 is a synthetic resin harness protection tube having a flat cross-section (oval shape) corrugated tube 2 and the corrugated tube 2 bent in a substantially U or J shape in the vertical direction. A synthetic resin fixed side protector 3 fixed to the side corrugated tube portion 2a and a synthetic resin movable side protector 4 fixed to the upper corrugated tube portion 2b are provided.
The corrugated tube 2 is an existing tube in which circumferential concave grooves 5 and ridges 6 are alternately arranged in the longitudinal direction of the tube to impart flexibility, and is formed thin in the bending direction. The length of the corrugated tube 2 is appropriately set as necessary. A plurality of insulated wires 7 are inserted into the corrugated tube. A plurality of electric wires 7 constitute a wire harness 8 (the plurality of electric wires 7 and the corrugated tube 2 may be referred to as a wire harness).
The upper and lower protectors 3 and 4 have tube fixing portions (harness fixing portions) 9 and 10 in a substantially rectangular tube shape on the front side, and the tube fixing portions 9 and 10 engage with the concave grooves 5 of the corrugated tube 2. A rib (projection) (not shown) is provided on the inner peripheral surface. The upper and lower protectors 3 and 4 are positioned in parallel.
The lower protector 3 integrally has a tube support portion (harness support portion) 11 behind the tube fixing portion 9, and the upper protector 4 is a tube guide portion that guides the corrugated tube 2 behind the tube fixing portion 10. (Harness guide part) 12 is integrally provided. The tube support portion 11 and the tube guide portion 12 are extended straight from the tube fixing portions 9 and 10, and in this example, the tube guide portion 12 is formed to be about two to three times as long as the tube support portion 11. .
The cross-sectional shape of the tube support part 11 and the tube guide part 12 is substantially the same. That is, the tube support portion 11 is formed in a concave shape in cross section with the horizontal bottom wall 13 and the vertical side walls 14, and the tube guide portion 12 is formed in a concave shape in cross section with the horizontal top wall 15 and the vertical side walls 16. Is formed.
In this example, the height of each of the side walls 14 and 16 is set to be smaller than the outer diameter (thickness) on the short diameter side of the corrugated tube 2. The lower portion 2a of the corrugated tube 2 enters and engages from the upper opening 17a in a concave portion 17 having a rectangular cross section surrounded by the both side walls 14 and the bottom wall 13 of the tube support portion 11 (left and right and lower sides). Then, the upper portion of the corrugated tube 2 from the lower opening 35a in the concave portion 35 (FIG. 2) having a rectangular cross section surrounded by the both side walls 16 and the top wall 15 of the tube guide portion 12 (left and right and upper sides). 2b is engaged.
The inner width dimension of each of the recesses 17 and 35 is set to be slightly larger than the outer diameter on the long diameter side of the corrugated tube 2. It is preferable to form chamfers (not shown) for allowing the corrugated tube 2 to enter smoothly on the inner ends of the side walls 13 and 16.
As shown in FIG. 2A, when the upper protector 4 moves forward together with the corrugated tube 2 and the protectors 3 and 4 are positioned facing each other vertically, the corrugated tube extends over the entire length of the tube guide portion 12. When the upper protector 4 moves rearward together with the corrugated tube 2 as shown in FIG. 2B, the corrugated tube 2 is detached downward from the tube guide portion 12 and the lower corrugated It becomes a part of the tube portion 2a.
As shown in FIG. 2A, the corrugated tube 2 enters and engages the tube support portion 11 of the lower protector 3 over the entire length. The same applies to the state of FIG. In FIG. 2A, when the upper protector 4 is further advanced, the corrugated tube 2 is detached upward from the tube support portion 11 of the lower protector 3, and the upper corrugated tube portion 2b Become part.
In this example, the lower protector 3 is provided with a pair of left and right brackets 18 (FIG. 1), and the upper protector 4 is provided with two pairs of left and right brackets 19 (FIG. 1). Each bracket 18, 19 has a hole 20 through which a bolt or a locking clip is inserted, and the bracket 18 of the lower protector 3 is fixed to the floor 21 (FIG. 2) side of the vehicle body, for example, and the upper protector 4 The bracket 19 is fixed to the seat 22 side, for example.
The tube fixing portions 9 and 10 of the protectors 3 and 4 are provided so as to be openable and closable via a base portion 23 (FIG. 1) following the tube support portion 11 and the tube guide portion 12 and a hinge (not shown) on the base portion 23. And each cover portion 24 is closed and fixed to the base portion 23 by a locking means such as a locking projection 25 and an engagement frame piece 26. The ribs (not shown) for fixing the tube protrude from both inner peripheral surfaces of the cover 23 and the cover portion 24. The protectors 3 and 4 are fixed to the corrugated tube 2 by the ribs in the tube fixing portions 9 and 10 entering and engaging with the concave grooves 5 of the corrugated tube 2.
As shown in FIG. 3, the upper protector 4 is movable up and down together with the corrugated tube 2 according to the height adjustment of the sheet 22, for example. As the sheet 22 rises, the upper protector 4 rises integrally with the sheet 22 as shown by a chain line, and the corrugated tube 2 is bent into a large-diameter curved shape between the upper protector 4 and the lower protector 3. The corrugated tube 2 is detached downward from the tube guide portion 12 of the upper protector 4 and is bent downward from the rear end side of the tube fixing portion 10.
When the ascending distance of the seat 22 is small, the corrugated tube 2 bends downward from the longitudinal middle portion of the tube guide portion 12. The same applies to the forward movement state of the upper protector 4 in FIG. 2A (FIG. 3 is the backward movement state of the upper protector 4 in FIG. 2B).
FIGS. 4A and 4B show an example in which the power supply device 1 is applied to a sliding seat 22 of an automobile.
The power feeding device 1 is disposed on one side surface of the seat portion 27 of the seat 22, the lower protector 3 is fixed to the floor 21 of the vehicle body, and the upper protector 4 is fixed to the upper wall 28 a of the inner space 28 of the seat 22. Has been. The height H of the seat 22 from the floor 21 is set low. By using this power supply device 1, it is possible to deal with the power seat 22 in a low position.
The electric wire 7 (FIG. 1) led out from the lower corrugated tube portion 2a along the lower protector 3 is connected to a floor-side wire harness (not shown) by a connector, and the upper corrugated tube along the upper protector 4 is connected. The electric wire 7 (FIG. 1) led out from the portion 2b is connected to the wire harness on the seat side by a connector. Each electric wire 7 can be integrated with the floor side wire harness, or directly connected to the seat side auxiliary machine with a connector.
An electric wire (wire harness) 29 shown by a chain line in FIG. 4A is shown as an example of a conventional floor-side wire harness, and is connected to a seat-side wire harness or an auxiliary machine with a connector 30 on the front end side. Is done. The electric wire 29 is routed along the floor 21, and is routed from the floor 21 to the seat portion 27 with an extra length below the seat 22.
In FIG. 4B, the seat 22 is slightly retracted along the floor side guide rail 31 (at an intermediate movement position between FIG. 2A and FIG. 2B). When the seat 22 is advanced along the guide rail 31 from the state of b), the upper corrugated tube portion 2b enters and engages with the tube guide portion 12 of the upper protector 4 as shown in FIG. A part of the corrugated tube portion 2a on the side moves upward and becomes an upper corrugated tube portion 2b through an arcuate (curved) bent portion 2c.
When the seat 22 is retracted, the corrugated tube 2 is bent and moved in the reverse operation. When the height of the seat 22 is adjusted, the upper protector 4 moves up and down together with the corrugated tube 2 as shown in FIG. In any case, the electric wire 7 in the corrugated tube moves integrally with the corrugated tube 2.
FIGS. 5A and 5B show an example of a harness routing structure in which the position of the upper protector 4 is moved in the lateral (left / right) direction.
FIG. 5A shows an example in which the upper and lower protectors 3 and 4 are arranged to face each other in the vertical direction in the same manner as in FIG. 1, but there is an interference 32 on the sheet side on the side (lateral) of the upper protector 4. In some cases, it is possible to fix the upper protector 4 to the sheet 22 in a state where the upper protector 4 is moved in the direction opposite to the interference 32 as shown in FIG.
This means that the entire wire harness (entire wires or the entire corrugated tube) is not covered with the protector, but is covered only with the upper and lower protectors 3 and 4, and the corrugated tube 2 is flexibly exposed between the protectors 3 and 4. Depending on what Since the corrugated tube 2 can be bent not only in the vertical direction but also in the twisting direction (inclination direction), it can be fixed to the seat 22 with the upper protector 4 inclined as shown by the chain line in FIG. It is.
When the interference 32 is on the floor 21 side, it can be dealt with by moving the lower protector 3 in the lateral direction. It is also possible to fix the lower protector 3 to the floor 21 in an inclined state (the upper and lower protectors 3 and 4 can be inclined together).
FIGS. 6A to 6C show examples of harness wiring structures corresponding to the concave shape on the floor 21 side of the vehicle body. In each figure, reference numeral 4 denotes an upper protector, 3 denotes a lower protector, and 2 denotes a corrugated tube.
FIG. 6A is an example in which the lower corrugated tube portion 2a is routed horizontally along the floor 21 as in FIG. 1, but when the floor 21 has a step 33 as shown in FIG. 6B. The lower corrugated tube portion 2 a is dropped into the recess 34 of the step 33, and the wire harness 8 can be routed following the shape of the floor 21.
Further, as shown in FIG. 6C, the tube support portion 11 of the lower protector 3 is horizontally extended on the same surface as the floor 21 above the step 33, and the lower corrugated tube portion 2 a is connected to the wire harness 8. Further, it may be supported horizontally without being bent.
In each of the above embodiments, the example is described in which the present invention is applied to the automobile slide-type seat 22, but instead of the automobile slide-type seat 22, a slide-type seat or sheet in a vehicle or a device other than an automobile is used. It is also possible to apply the power feeding device and a harness wiring structure using the power feeding device to a sliding door or the like.
Moreover, in the said embodiment, the protectors 3 and 4 were arrange | positioned up and down, and the corrugated tube 2 was bent in the up-down direction, but when the space of the vertical direction cannot be taken, for example in the sheet | seat side, the electric power feeder 1 of FIG. Can be reversed 90 ° in the horizontal direction (in this case, FIG. 2 is a plan view), the protectors 3 and 4 are arranged on the left and right sides, and the corrugated tube 2 can be bent in the left and right directions.
Moreover, in the said embodiment, although the flat corrugated tube 2 which covers the several electric wire 7 was used, it replaced with the flat corrugated tube 2, and other protective tubes (such as a corrugated tube with a circular cross section, a flexible mesh tube, etc.) It is also possible to use a plurality of electric wires 7 exposed without using the protective tube 2 and bound with a band or a rough tape (not shown). In this case, for example, the plurality of electric wires 7 are clamped by the covers 24 of the harness fixing portions 9 and 10 of the protectors 3 and 4, fixed to the harness fixing portions 9 and 10 by tape winding, band fastening, etc. The cover 24 of the fixing portions 8 and 10 is removed and fixed to the base portion 23 by tape winding or band fastening.
Moreover, in the said embodiment, although the harness support part 11 was provided in the lower protector 3, it is also possible to abolish the harness support part 11 and to comprise the lower protector 3 only with the harness fixing part 9, for example. It is. In this case, the bracket 18 is provided on the harness fixing portion 9.
Moreover, in the said embodiment, although the height of the tube support part 11 and the tube guide part 12 of each protector 3 and 4 was set shorter than the short diameter of the corrugated tube 2, these heights are short of the corrugated tube 2. It is also possible to improve the accommodation protection by setting it to be equal to or more than the diameter.
1 is a perspective view showing an embodiment of a power feeding device according to the present invention and a harness wiring structure using the power feeding device. (A) (b) is a side view which respectively shows the movement form of the electric power feeder and the harness wiring structure using the same in the front-back direction. It is a side view which shows the movement form of the up-down direction of an electric power feeder and a harness wiring structure using the same. FIG. 2 is a perspective view showing an example in which a power feeding device is applied to a slide-type seat of an automobile, FIG. (A) (b) is a front view which shows the example which moved the protector of the upper side of an electric power feeder to the side according to the interference. (A)-(c) is a side view which shows each example which changed the wiring form of the wire harness according to the shape of a floor side. It is a side view which shows the conventional electric power feeder and one form of a harness wiring structure using the same as a partial cross section.
1 Power supply device 2 Corrugated tube (protective tube)
3 protector on fixed side 4 protector on movable side 8 wire harness 11 tube support part (harness support part)
12 Tube guide (harness guide)
22 sheet (movable structure)
35a opening
A folded bent wire harness and the protector of the one part is arranged a fixed side of the wire harness is disposed in the other portion of the wire harness, retractable and vertically movable relative to the stationary side protector is composed of a such a movable side of the protector,
The fixed-side protector has a harness support portion having a concave section that accommodates one part of the wire harness , and the movable-side protector has a reverse inverted concave section that accommodates the other part of the wire harness. Having a long harness insertion portion, the harness support portion and the harness guide portion facing each other, and having an opening for inserting a long harness, and one end side of the harness support portion and one end side of the harness guide portion And a harness fixing cover for closing one end of each harness insertion opening,
One part of the wire harness is fixed to the harness support part by the one cover part, the other part of the wire harness is fixed to the harness guide part by the other cover part, and the wire harness covers both covers. A power feeding device that is led out from the other end side of the harness support part and the harness guide part and bent back with the part as a fulcrum .
The wire harness is covered with a protective tube, the power supply device according to claim 1, wherein said protective tube is characterized in that it is fixed to the cover portion of the protector of the fixed side and movable side.
It is a harness wiring structure using the electric power feeder of Claim 1 or 2, Comprising: The said protector of the fixed side is fixed to a fixed structure, the said protector of the said movable side is fixed to a movable structure, The said wire harness is A harness routing structure using a power feeding device, wherein the harness is wired from the fixed structure to the movable structure.
JP2006340800A 2006-12-19 2006-12-19 Power feeding device and harness wiring structure using the same Active JP5074757B2 (en)
JP2006340800A JP5074757B2 (en) 2006-12-19 2006-12-19 Power feeding device and harness wiring structure using the same
EP20070024536 EP1935707B1 (en) 2006-12-19 2007-12-18 Power feeding apparatus and harness wiring structure using the same
US11/959,731 US7829789B2 (en) 2006-12-19 2007-12-19 Power feeding apparatus and harness wiring structure using the same
JP2008154384A JP2008154384A (en) 2008-07-03
JP5074757B2 true JP5074757B2 (en) 2012-11-14
ID=39281804
JP2006340800A Active JP5074757B2 (en) 2006-12-19 2006-12-19 Power feeding device and harness wiring structure using the same
US (1) US7829789B2 (en)
EP (1) EP1935707B1 (en)
JP (1) JP5074757B2 (en)
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