JP2008011594A - Fixing structure of harness case - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide the fixing structure of a harness case applicable to a harness case where the wire harness is led out along the outer circumference of the case while saving the space. <P>SOLUTION: In harness cases 1, 1' consisting of synthetic resin base portions 6, 6' and cover portions 7, 7' with guide portions 15, 15' for inserting harness being formed on the outer circumferential side of the cover portion, flexible bends 3, 3' are formed on the outer circumferential side of the base portion, portions 8, 8' abutting against the outer sidewalls 5, 5' at the bends are formed on the guide portion side of the cover portion, and securing brackets 12, 12' are formed continuously to at least the bends. The bend 3 is formed continuously to the circumferential direction of the base portion 6, and the abutting portion 8 is formed continuously to the circumferential direction of the cover portion 7. Alternatively, the bracket 13' at the cover portion 7' is parted from the guide portion 15'; the abutting portion 8' is formed only on the bracket 13' and the bend 3' is formed only in the bracket 12' at the base portion. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a harness housing case mounting structure that absorbs thermal expansion and contraction of a synthetic resin harness housing case mounted on a sliding door of an automobile, for example, and reduces stress on the mounting portion.

  12 to 15 show one form of a conventional harness housing case mounting structure (see, for example, Patent Document 1).

  As shown in FIG. 12, this harness housing case mounting structure has a stepped bolt 54 (FIG. 14) in which a long hole 53 of each bracket 52 of a harness housing case 51 made of synthetic resin is formed on a metal door inner panel of a sliding door of an automobile. ). A weld nut 56 (FIG. 14) into which the stepped bolt 54 is screwed is provided on the door inner panel 55 (attachment side in FIG. 14).

  The harness housing case 51 includes a base portion 57 and a cover portion 58, and each bracket 52 is provided integrally with the base portion 57. A concave opening 59 is provided in the central portion of the cover portion 58, and a circular reference fixing hole 60 of the base portion 57 is provided in the opening 59. The long holes 53 of the brackets 52 are arranged radially around the reference fixing hole 60. In addition to the bracket 52, a long hole 61 is provided at the front lower portion of the harness housing case 51.

  In a state where a wire harness (not shown) is housed in the harness housing case 51 in a curved shape, the reference fixing hole 60 is fixed to the door inner panel 55 with a stepless bolt, and the length of each bracket 52 and the like is long. The holes 53 and 61 are fixed with a stepped bolt 54.

  The screw-free large-diameter shaft portion 54a of the stepped bolt 54 is located at the center of the long hole 53 as shown in FIGS. When the harness housing case 51 is thermally expanded after the attachment, the long hole 53 slides outward (in the expansion direction of the arrow) with respect to the large-diameter shaft portion 54a of the stepped bolt 54 as shown in FIG. 13B. .

  When the harness housing case 51 is thermally contracted after attachment, the long hole 53 slides inward (in the contraction direction of the arrow) with respect to the shaft portion 54a of the stepped bolt 54 as shown in FIG. These prevent damage to the bracket 52 and the like due to stress concentration.

  FIGS. 15-16 shows the other form of the attachment structure of the conventional harness storage case (refer patent document 2).

  The harness housing case mounting structure is made of a synthetic resin harness housing case (only the base portion is shown) 71 and a bracket 72 of a rubber plate via an elastic member 73 made of a rubber plate. It fixes to a volt | bolt (not shown) to a not shown.

  A circular reference fixing hole 75 is provided in the rear bracket 74 of the harness housing case 71, and a long hole 76 is provided in the lower front side of the harness housing case 71. As shown in FIG. 16, the elastic member 73 made of rubber plate is fixed between the peripheral wall 77 of the base portion made of synthetic resin and the bracket 72 at the same time as molding the case resin.

  As shown in FIG. 15, the wire harness 78 is led out from the harness lead-out port 79 at the front end side of the harness housing case 71 to the slide door side, and from the long harness lead-out port 80 at the lower end to the vehicle body side ( The power supply side) is arranged so as to be swingable in the horizontal direction (swings when the door is opened and closed), and power is always supplied from the vehicle body to each auxiliary device of the slide door.

  In the harness housing case 71, the wire harness 78 is urged upward by a metal leaf spring 81 to prevent the wire harness 78 from drooping when the sliding door is half-opened (slack absorption is performed). The loop-shaped wall portion 82 located below the leaf spring 81 acts as a bending restriction wall for the wire harness 78. In the example of FIG. 12, an annular bending regulating wall is provided outside the recessed opening 59.

In the example of FIG. 15, the electric wire portion (not including the protective tube) of the wire harness 78 is led out from the opening 79 on the front side of the harness housing case 71. When leading out from the upper part or the rear side of 71, a rectangular cylindrical harness insertion guide wall (not shown) is formed along the outer peripheral wall 77 of the harness housing case 71 following the front opening 79. (See, for example, Patent Document 3).
JP 2001-354085 A (FIG. 4) JP 2003-230222 A (FIGS. 1-2) Japanese Patent Laying-Open No. 2003-48495 (FIG. 1)

  However, in the attachment structure of the harness housing case 51 shown in FIGS. 12 to 14, the stepped bolts 54 that are slidably engaged with the long holes 53 and 61 are used, and the stepped bolts 54 are securely fixed. Therefore, there is a problem that the weld nut 56 is required and the cost is increased, and the weld nut 56 cannot be applied to a portion where the weld nut 56 is not used (not used).

  In addition, in the mounting structure of the harness housing case 71 shown in FIGS. 15 to 16, work for fixing the elastic member 73 made of a rubber plate to the harness housing case 71 and the bracket 72 takes time and cost, and the rubber plate There was a concern that the made elastic member 73 is likely to become brittle with time.

  Further, when the wire harness 78 is led out along the outer peripheral wall 77 of the harness housing case 71, the elastic member 73 and the bracket 72 are added to the rectangular cylindrical harness insertion guide wall (not shown). In order to make it protrude outward, there existed concern that the external appearance shape of the harness accommodating case 71 enlarged. In order to solve this problem, there is a concern that when the harness housing case 71 is made smaller, the harness housing space in the harness housing case is reduced, and the extra length (slack) absorption length of the wire harness 78 is reduced. It was.

  In view of the above points, the present invention can be applied to a part that does not use a stepped bolt or a weld nut, and can reliably exhibit an absorbing function of expansion and contraction over a long period of time. An object of the present invention is to provide a harness housing case mounting structure that can be applied in a space-saving manner to a harness housing case that is led out along the outer periphery.

  In order to achieve the above object, a harness housing case mounting structure according to claim 1 of the present invention includes a synthetic resin base portion and a cover portion, and a harness insertion guide on the outer peripheral side of the cover portion. In the harness housing case in which the portion is formed, a flexible bent portion is formed on the outer peripheral side of the base portion, and an abutting portion in contact with the outer wall of the bent portion is formed on the guide portion side of the cover portion. In addition, a fixing bracket is formed at least following the bent portion.

  With the above configuration, the bent portion expands and contracts with the expansion and contraction of the base portion to absorb the expansion and contraction. Thereby, the stress (tensile compression force) to the bracket is reduced. When the abutting portion is rigid, the abutting portion abuts on the outer wall of the bent portion so that only the inner side wall can be bent inward and outward. When the cover part contracts, the contact part deflects the bent part inward, so that the contraction of the cover part is absorbed. When the contact portion is flexible, the contact portion absorbs expansion and contraction of the cover portion. Since the wire harness is supported by the base portion, the harness housing case can be fixed if the base portion has a bracket. It is preferable that the contact portion forms a part of the harness guide portion. The bent portion is disposed inside the harness guide portion. The bent portion preferably divides the harness housing space inside the case from the outer harness guide portion and acts as a case inner wall. Brackets are usually placed at multiple locations.

  The harness housing case mounting structure according to claim 2 is the harness housing case mounting structure according to claim 1, wherein a fixing bracket is formed following the guide portion of the cover portion, and the bracket is on the base side. It superposes | polymerizes to the said bracket.

  With the above configuration, the harness housing case is firmly fixed to the mounting side by the bracket on the base portion side and the bracket on the cover portion side. The expansion and contraction of the cover part is absorbed by the action of the rigid contact wall and the bent part and the action of the flexible contact wall, and the stress on the bracket on the cover part side is reduced.

  The harness housing case mounting structure according to claim 3 is the harness housing case mounting structure according to claim 1 or 2, wherein the bent portion is formed continuously in a circumferential direction of the base portion, and the contact portion is It is characterized by being formed continuously in the circumferential direction of the cover part.

  With the above configuration, the expansion / contraction of the base portion is uniformly and reliably absorbed by the long bent portion in the circumferential direction, and the expansion / contraction of the cover portion is uniformly absorbed by the above action of the circumferential contact portion and the bent portion. . It becomes possible to cope with a large expansion / contraction force by the circumferential bent portion and the contact portion. The bracket is continuously provided at the circumferentially bent portion, and the bracket is continuously provided at the guide portion following the circumferential contact portion, thereby increasing the strength of each bracket.

  The harness housing case mounting structure according to claim 4 is the harness housing case mounting structure according to claim 2, wherein the bracket of the cover portion is separated from the guide portion, and the contact portion is formed only in the bracket. The bent portion is formed only in the bracket of the base portion.

  With the above configuration, expansion and contraction of the base portion and the cover portion are collectively absorbed by the bracket. Even if uneven expansion / contraction occurs depending on the location of the base or cover, the bent part integrated with the bracket reliably absorbs expansion / contraction at each location (multiple brackets are arranged at each location). Make sure to reduce stress.

  The harness housing case mounting structure according to claim 5 is the harness housing case mounting structure according to any one of claims 1 to 4, wherein the bent portion is formed in a substantially mountain shape, and the inner wall of the bent portion Is tilted to the inside of the case at the normal time, and stands up when the case is contracted.

  With the above configuration, since the bent portion does not enter the harness housing space inside the case when the case is contracted, a wide harness housing space is secured. The inner wall of the bent portion acts as an inner peripheral wall or wall portion that abuts the wire harness in the harness housing space so as not to jump out. The height of the substantially mountain-shaped bent portion is preferably large enough to be approximately equal to the inner width of the harness housing space in order to increase the amount of strain absorption and to act on the inner peripheral wall or wall portion.

  The harness housing case mounting structure according to claim 6 is the harness housing case mounting structure according to any one of claims 1 to 5, wherein, in the guide portion, a wall portion projects from the base portion side, A wall portion having a concave cross section that engages with the wall portion is formed on the cover portion side.

  With the above configuration, the wall portion having a concave cross section on the cover portion side is engaged with the wall portion on the base portion side, and the expansion and contraction of the cover portion is received by the wall portion on the base portion side, to the bracket on the cover portion side. Propagation of the expansion and contraction force is suppressed. Both wall portions also act as positioning portions between the base portion and the cover portion. The stress on the bracket on the cover side is further reduced by the synergistic action of the bent portion and the contact portion and both wall portions.

  The harness housing case mounting structure according to claim 7 is the harness housing case mounting structure according to any one of claims 1 to 6, wherein a flexible harness stopper piece is arranged in the guide portion. And

  With the above configuration, the harness stopper piece is bent inward, and the electric wire portion of the wire harness is inserted into the guide portion, and the harness stopper piece is elastically restored to prevent the electric wire portion from popping out. The harness stoppers are preferably arranged in a staggered manner. The electric wire portion is connected to an auxiliary machine on the mounting side.

  As described above, according to the first aspect of the present invention, the expansion and contraction of the harness housing case is absorbed by the bent portion and the contact portion of the harness housing case, so that the conventional expensive bolts and weld nuts are not used. In both cases, the harness housing case can be easily attached to the attachment side at a low cost. It goes without saying that stress on the bracket can be reduced and damage to the bracket can be reliably prevented. In addition, since the bent portion and the contact portion can be formed integrally with the harness housing case made of synthetic resin, the absorption function of expansion and contraction is surely exhibited over a long period of time compared to the conventional rubber absorption portion. be able to. In addition, by providing a bent part inside rather than the outside of the harness guide part on the outer periphery of the case, only the bracket following the bent part protrudes to the outside, and the protruding length is reduced compared to a bracket having a conventional rubber absorbing part. In addition, it is possible to make the outer shape of the harness housing case compact and to secure the inner harness housing space.

  According to the second aspect of the present invention, the harness housing case can be firmly fixed to the mounting side with the brackets of the case portion and the cover portion, and the earthquake resistance and impact resistance of the harness housing case are improved.

  According to the third aspect of the present invention, the large expansion / contraction force of the harness housing case is reliably absorbed by the action of the long circumferential bent portion and the contact portion, and the stress on the bracket is greatly reduced. In addition, the harness housing case can be firmly fixed by the bracket integrally extending to the circumferential bent portion and the guide portion, and the earthquake resistance and the shock resistance are enhanced.

  According to the fourth aspect of the present invention, the case structure can be reduced in size, weight, and cost, because only a bent portion and a contact portion for each bracket are required as compared with the case where a circumferential bent portion and a contact portion are provided. It becomes.

  According to the invention described in claim 5, since the harness housing space is secured widely without the inner wall of the bent portion entering further inward when the harness housing case is contracted, the wire harness is slackened in the harness housing space. Absorption is reliably performed with a large stroke, and the harness housing case can be downsized. This action is also promoted by forming the bent portion into a substantially mountain shape instead of a wave shape.

  According to the sixth aspect of the invention, the engagement of the wall portion on the base portion side and the wall portion having a concave cross section on the cover portion side prevents propagation of expansion / contraction force on the cover portion side, and The stress on the bracket is more reliably reduced.

  According to invention of Claim 7, the electric wire part of a wire harness can be penetrated with sufficient workability | operativity in a harness guide part.

  1 to 3 show a first embodiment of a harness housing case mounting structure according to the present invention.

  This harness housing case mounting structure is a flexible bending in the vicinity of the harness lead-out path 2 in the harness housing case 1 (FIG. 1) having the harness lead-out path 2 for leading out the electric wire portion of the wire harness on the outer peripheral side. A wall (bent portion) 3 is formed, and the thermal expansion and contraction of the harness housing case 1 is absorbed by the bent wall 3.

  The harness housing case 1 includes a substantially semicircular base portion 6 (FIG. 2) and a cover portion 7 (FIG. 2) made of synthetic resin. A flexible (elastic) bent wall (bent portion) 3 having a mountain-shaped cross section is continuously provided in the circumferential direction on the outer peripheral side of the base portion 6, and the cross-sectional curve of the bent wall 3 is provided on the outer peripheral side of the cover portion 7. An abutting wall (abutting portion) 8 having a curved or inclined cross section that abuts on the outer wall 5 having a shape or a slope is provided continuously in the circumferential direction.

  As shown in FIG. 3, the bent wall 3 is composed of an inner wall 4 that extends integrally perpendicularly to the base plate portion 9 of the base portion 6, and an outer wall 5 that is curved or inclined from the top 10 of the inner wall 4. Has been. The outer side wall 5 continues integrally with a long plate-like bracket 12 having a circular hole 11 for fixing (longer than the bracket 13 on the cover side). Both the inner wall 4 and the outer wall 8 have flexibility (elasticity) in the plate thickness direction (inner and outer directions). The outer side wall 5 is inclined more gently than the inner side wall 4.

  The contact wall 8 of the cover portion 7 is curved or inclined at the same angle as the outer wall 5 of the bent wall 3. One end of the abutment wall 8 intersects the substrate portion 14 of the cover portion 7 and continues integrally, and the other end of the abutment wall 8 is the substrate portion of the guide wall (guide portion) 15 for harness insertion forming the harness lead-out path. 16, an outer peripheral wall 17 of the harness guide wall 15 is formed so as to protrude perpendicularly to the substrate portion 16, and the substrate portion 16 continues on the same plane with the plate-like bracket 13 having the circular hole portion 11 for fixing. . In this example, three brackets 12 and 13 are arranged at required locations.

  The bracket 12 with the long base portion 6 and the bracket 13 with the short cover portion overlap in the thickness direction, and the hole portions 11 of the brackets 12 and 13 are aligned. The base half portion 12a (FIG. 2) on the base side of the bracket 12 of the base portion 6 is positioned so as to overlap the substrate portion 16 (FIG. 3) of the harness guide wall 15 of the cover portion 7.

  The base portion 6 (exactly the base portion main body excluding the bracket 12) is formed smaller than the cover portion 7 because the harness guide wall 15 is not provided. When a portion excluding the harness guide wall 15 and the bracket 13 of the cover portion 7 is referred to as a cover portion main body, the base case main body and the cover portion main body constitute a housing case main body.

  Each bracket 12 and 13 is radially arranged centering on a reference fixing hole 18 (FIG. 2) of the base portion 6. The reference fixing hole 18 is provided inside the annular harness bending regulating wall 19. A fixing hole 20 is also provided in the lower part of the front end of the harness housing case 1. The number and position of the brackets 12 and 13 are set as appropriate (the brackets 12 and 13 are arranged to overlap each other).

  The top portion 10 (FIG. 3) of the bent wall 3 of the base portion 6 is in contact with the inner surface of the substrate portion 14 of the cover portion 7, and the inner wall 4 of the bent wall 3 is connected to the harness housing space 21 inside the harness housing case 1. The inner harness housing space 21 and the outer harness lead-out path 2 are divided by the bent wall 3 and the contact wall 8.

  A narrow flexible harness stopper piece 22 is formed to project on the same plane as the substrate section 14 of the cover section 7, and a similar harness stopper piece 23 is formed to project perpendicularly to the inner surface of the outer peripheral wall 17. The stop pieces 22 and 23 are alternately arranged in a staggered manner. The wire portion 24 (FIG. 3) of the wire harness is inserted (inserted) into the harness lead-out path 2 in the harness guide wall while bending the harness stop pieces 22 and 23 inward, and the wire stops at the harness stop pieces 22 and 23. Jumping out of the portion 24 is prevented.

  FIGS. 4 to 5 show the action of the strain absorbing portion formed by the bent wall 3 of the base portion 6 and the contact wall 8 of the cover portion 7.

  4 (a) and 5 (a) show the state when the harness housing case 1 is inflated, FIGS. 4 (b) and 5 (b) show the state when the harness housing case 1 is normal (neutral), and FIG. c) and FIG.5 (c) have each shown the state at the time of the shrinkage | contraction of the harness accommodating case 1. FIG.

  In the normal state of FIG. 4B, the inner wall 4 of the bent wall 3 is inclined inward slightly from the right angle with respect to the substrate portion 9 and intersects at an acute angle. The outer wall 5 is inclined at a gentler angle than the inner wall 4. An intersection point 25 between the inner wall 4 and the substrate portion 9 is movable (movable point), and an intersection point 26 between the outer wall 5 and the base portion of the bracket 12 is immovable (fixed point). The distance between the movable point 25 and the fixed point 26 is indicated by L. A clearance between the outer peripheral wall 17 of the cover portion 7 and the tip of the harness stopper piece 22 is indicated by S. FIG. 5 shows the positions of the fixed point 26, the movable point 25, and the vertex 10 of the bending wall 3.

When the harness housing case 1 in FIG. 4A is expanded, the movable point 25 moves outward toward the bracket 12 with the fixed point 26 as it is, the distance L ₁ becomes shorter than L, and the cover portion 7 is It expands integrally with the base 6 and the gap S ₁ becomes smaller than S. At the same time, as shown in FIG. 5A, the apex 10 of the bent wall 3 moves slightly outward toward the bracket 12 than in the normal state of FIG. 5B.

When the harness housing case 1 shown in FIG. 4C is contracted, the movable point 25 moves inward with the fixed point 26 as it is, the inner wall 4 of the bent wall 3 is substantially orthogonal to the substrate portion 9, and the distance L ₂ is It becomes longer than L, and the cover part 7 expands integrally with the base part 6 so that the gap S ₂ becomes larger than S. At the same time, as shown in FIG. 5C, the apex 10 of the bent wall 3 moves slightly toward the bracket than in the normal state of FIG. 5B.

  Since the inner wall 4 of the bent portion 3 does not enter the harness housing space 21 inside the case, the harness housing space 21 is secured widely, and the extra length absorption amount of the wire harness (not shown) in the housing space 21 is increased. Largely secured.

  The height of the bent wall 3 (the position of the vertex 10) protrudes to a level substantially equal to the width of the harness housing space 21, and thereby the amount of bending of the bent wall 3 increases, and the amount of expansion and contraction of the harness housing case 1 increases. Even if it is large (corresponding to the large harness housing case 1), it can be handled.

  In the bending wall 3, the inner wall 4 moves largely with the vertex 10 as a fulcrum, and the outer wall 5 moves little or moves little. The abutting wall 8 of the cover part 7 is preferably flexible, and the bent wall 3 and the abutting wall 8 move integrally outward (toward the bracket 12) as the cover part 7 expands. To do. Further, as the cover portion 7 contracts, the contact wall 8 moves inwardly (towards the case center) integrally with the outer wall 5 of the bent portion 3. When the contact wall 8 is inflexible, the expansion and contraction of the cover portion 7 is difficult to be absorbed.

Figure 6 shows an embodiment in which to receive the expansion and contraction of the cover part 7 outer peripheral wall (wall portion) of the harness guide wall 15 ₂ Any 17 _2. Constituent parts similar to those in FIGS.

  That is, a plate-like wall portion 27 is provided at a right angle on the bracket 12 of the base portion 6, and a wall portion (peripheral wall) 28 having a concave cross section of the cover portion 7 is engaged with the wall portion 27. 7 is in contact with the wall portion 27 of the bracket 12 during the expansion and contraction of the bracket 7 to prevent the expansion and contraction force from being transmitted to the bracket 13 of the cover portion 7. The concave wall portion 28 includes an inner wall portion 28a, an outer wall portion 28b, and a connecting wall at the tip, and has a groove portion 28c on the inner side.

  The contact wall 8 of the cover part 7 may be inflexible. When the contact wall 8 is made flexible, it is possible to more reliably prevent the expansion and contraction force from being transmitted to the bracket 13 by a synergistic effect with the concave wall portion 28. The concave wall portion 28 and the wall portion 27 also function as positioning portions for the base portion 6 and the cover portion 7.

  When a gap is provided between the outer concave wall portion 28 and the inner plate-like wall portion 27, the expansion and contraction of the cover portion 7 can be absorbed within the gap. It is also possible to eliminate the inner wall portion 27 and absorb the expansion and contraction of the cover portion 7 by the outer concave flexible wall portion 28.

  7A and 7B show other forms of the harness guide wall 15 that forms the harness lead-out path 2 on the outer peripheral side of the harness housing case 1.

In the example of FIG. 7A, a plurality of flexible harness stoppers 29 are provided on the outer periphery of the cover portion 7 in place of the peripheral wall 17 (FIG. 3) (only one is shown in the figure). The wire portion (not shown) of the wire harness is accommodated in the harness lead-out path 2 of the harness guide wall 15 ₃ as indicated by an arrow while bending inward. It is also possible to arrange a harness stopper piece on the bracket 13 of the cover portion 7 so that the harness stopper pieces 29 are arranged in a staggered manner.

Example of FIG. 7 (b), constitute a harness guide wall 15 ₄ is provided a hook-shaped wall portion to the peripheral wall 17 of the cover part 7, arrows harness stopping piece 30 of the flexible hook-shaped wall portion In this way, the wire portion (not shown) of the wire harness is accommodated in the harness lead-out path 2 while being bent inward. It is also possible to arrange the harness stopper pieces 30 in a staggered manner.

  FIG. 8 shows an example of a structure in which the bracket 12 of the base portion 6 and the bracket 13 of the cover portion 7 are engaged without being displaced.

  That is, a tapered boss portion 31 is provided on the periphery of the hole portion 11 of the bracket 13 of the cover portion 7, and the tapered groove 32 is engaged with the periphery of the hole portion 11 of the bracket 12 of the base portion 6. Is provided. It is also possible to provide the base portion 6 with the boss portion 31 and the cover portion 7 with the groove 32.

  In FIG. 2, the wire harness is mounted in a curved shape in the base portion 6 with the electric wire portion preferably covered with a protective tube such as a corrugated tube, and a metal leaf spring (not shown) in the base portion 6 The elastic member is biased in the slack absorbing direction, the cover portion 7 is attached to the base portion 6 and fixed by a locking means (not shown), and the wire harness is placed between the base portion 6 and the cover portion 7 (harness It is accommodated in the accommodating space 21).

  In this state, the harness housing case 1 is vertically mounted on the door inner panel of the sliding door (not shown) of the automobile, and an ordinary bolt (not shown) without a step in the hole 11 of each bracket 12, 13. Is inserted and screwed and fixed to the female thread portion of the door inner panel. The female screw portion may be a tapped screw hole, a separate nut, or a weld nut.

  The wire portion of the wire harness led out from the front end portion of the harness housing case 1 is inserted and housed in the harness guide wall 15 on the outer peripheral side before being mounted on the vehicle. The electric wire portion can be inserted easily by pushing the flexible harness stopper pieces 22 and 23 inwardly at the electric wire portion. After the electric wire is inserted, the harness stopper pieces 22 and 23 are elastically restored to prevent the electric wire portion from coming off.

  The wire harness portion led out from the elongated lower opening 33 (FIG. 1) of the harness housing case 1 is routed to the vehicle body side through the transition space. It is also possible to draw the wire harness into the harness housing case 1 using the rigidity (spring property) of the wire harness without using a leaf spring or the like. These basic configurations are the same as in the prior art.

  The harness housing case 1 can be mounted horizontally on the vehicle body instead of the sliding door (see FIG. 16 of JP-A-2001-354085). In this case, the harness housing case 1 is formed small. Moreover, it is also possible to mount the harness housing case 1 on a slide structure other than the slide door or a fixed structure other than the vehicle body.

  FIGS. 9-11 shows 2nd embodiment of the attachment structure of the harness accommodating case which concerns on this invention.

  The harness housing case 1 of the first embodiment is provided with the bent wall 3 on almost the entire circumference of the base portion 6 and the abutting wall 8 on the almost entire circumference of the cover portion 7, whereas the second The harness housing case 1 ′ (FIG. 9) of the embodiment is provided with a flexible bent wall (bent portion) 3 ′ only on the bracket 12 ′ of the base portion 6 ′ (FIG. 10), and the cover portion 7 ′ (FIG. 10). ) Is provided with a contact wall (contact wall) 8 ′ only.

  Other configurations and operations are the same as those of the first embodiment, and therefore will be described with reference to the drawings of the first embodiment. Components similar to those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIGS. 9 to 11, the plate-like bracket 12 ′ of the base portion 6 ′ and the plate-like bracket 13 ′ of the cover portion 7 ′ are arranged so as to overlap each other in the plate thickness direction, and each bracket 12 ′, 13 ′ is The harness guide wall (guide portion) 15 ′ on the outer periphery side of the case is divided by a slit 37. The bracket 12 'of the base portion 6' and the bracket 13 'of the cover portion 7' are formed with substantially the same length. The brackets 12 ′ and 13 ′ are arranged radially around the reference fixing hole 18 of the base portion 6 ′. The number and arrangement of the brackets 12 'and 13' are set as appropriate.

  As shown in FIG. 10, a harness stopper piece 22 is provided facing the half portion 13 a ′ on the base side of the bracket 13 ′ of the cover portion 7 ′, and slightly toward the base side from the circular hole 11 on the tip side of the bracket 13 ′. A wall portion 34 protrudes at a right angle at a spaced position, and is surrounded by a portion on the base side of the bracket 13 ′, the wall portion 34, and the harness stopper piece 22. The part is composed. A curved or inclined abutting wall (abutting part) 8 'is formed on the base half 13a' of the bracket 13 ', and the abutting wall 8' is integrated with the substrate part 14 of the cover part 7 '. in the process of.

  As shown in FIGS. 9 and 11, the bent wall 3 ′ on the base side of the bracket 12 ′ of the base portion 6 ′ is positioned in contact with the inside of the abutting wall 8 ′. The bent wall 3 ′ is formed in a substantially V shape (mountain shape) by the outer wall 5 ′ and the inner wall 4 ′, the outer wall 5 ′ is formed longer than the inner wall 4 ′, and is formed on the outer surface of the outer wall 5 ′. The abutting wall 8 'is located in contact. As shown in FIG. 10, the inner side wall 4 ′ continues integrally and substantially orthogonal to the base plate portion 9 of the base portion 6 ′. The inner side wall 4 ′ protrudes at substantially the same height as the outer peripheral wall 35 of the base portion 6 ′ and constitutes a part of the outer peripheral wall 35.

  An inner peripheral wall 36 (FIGS. 10 and 11) is orthogonally and integrally provided on the back surface side of the substrate portion 14 on the outer peripheral portion excluding the bracket 13 ′ of the cover portion 7 ′, and the harness guide wall 15 ′ is provided on the inner peripheral wall 36. The substrate portion 16 ′ is orthogonally and integrally provided in parallel with the substrate portion 14 of the cover portion 7 ′, and the outer peripheral wall 17 ′ is integrally provided orthogonally to the substrate portion 16 ′ and the outer surface and the outer periphery of the inner peripheral wall 36. Flexible harness stoppers 22 and 23 are alternately arranged in a staggered manner on the inner surface of the wall 17 '.

  The harness stopper piece 23 may be formed on the bracket 13 ′ from the middle orthogonal wall portion 34 instead of from the base side. It is also possible to eliminate the inner peripheral wall 36 and share it with the outer peripheral wall 35 of the base portion 6 ′. In this case, the harness stopper piece 22 is formed to extend from the board portion 14.

  When the harness housing case 1 ′ of the second embodiment undergoes thermal expansion and contraction, the bent wall 3 ′ of each bracket 12 ′ of the base portion 6 ′ expands and contracts to absorb the expansion and contraction of the case 1 ′. The action of the bent wall 3 'and the contact wall 8' is the same as in FIGS.

  Similar to FIG. 4B, the bent wall 3 ′ tilts slightly inward toward the harness housing space 21 in a normal state, and the inner wall of the bent wall 3 ′ when the case contracts as in FIG. 4C. 4 ′ moves until it is substantially perpendicular to the substrate portion 9. The abutting wall 8 'follows the outer wall 5' of the bent wall 3 '.

  Similarly to FIG. 6, a wall portion (reference numeral 26 in FIG. 6) is provided orthogonal to the bracket 12 ′ of the base portion 6 ′, and a concave wall portion (see FIG. 6) is provided on the bracket 13 ′ of the cover portion 7 ′. 6), the wall portion 26 can be engaged with the groove portion 28c of the concave wall portion 28, and the expansion and contraction force of the cover portion 7 'can be received and absorbed together with positioning. It is.

  Similarly to FIG. 7A, the harness stopper piece 22 (FIG. 10) on the bracket 13 ′ side of the cover portion 7 ′ is formed in an L shape (reference numeral 29 in FIG. 7), and the bracket 13 ′ It is also possible to eliminate the orthogonal wall portion 34 or to provide a hook-shaped harness stopper piece (reference numeral 30 in FIG. 7) integrally with the wall portion 34 of the bracket 13 ′, as in FIG. 7B. is there.

  Further, as in FIG. 8, the peripheral edge of each hole portion 11 of the bracket 12 ′ of the base portion 6 ′ and the bracket 13 ′ of the cover portion 7 ′ is engaged with the tapered boss 31 and the concave groove 32. Is also possible.

  Compared to the bent wall 3 of the first embodiment, the bent wall 3 ′ of the second embodiment is provided only on the bracket 12 ′, so the absorption capacity of expansion and contraction is slightly inferior, but the bent wall 3 and Since there is no abutting wall 8, the structure is simplified, the cost is reduced, and the weight is reduced.

  The form of the harness guide wall 15 ′ (harness lead-out path 2 ′) other than the bracket 13 ′ of the second embodiment can be set as appropriate. The bent walls 3 ′ and the abutting walls 8 ′ of the brackets 12 ′ and 13 ′ can also be applied to a harness housing case (not shown) having no harness guide wall 15 ′ on the outer peripheral side.

  The harness housing case 1 ′ is mounted on a slide door or the like as in the first embodiment. The harness housing case 1 of the first embodiment is firmly fixed by the bracket 13 integrated with the harness guide wall 15 of the cover portion 7 and is suitable for a portion where strong vibration or impact is applied, whereas the second embodiment Since the harness housing case 1 ′ uses a bracket 13 ′ that is separated from the harness guide wall 15 ′, it is preferably used in a portion that is not subject to strong vibration or impact.

  In each of the above embodiments, the brackets 12, 12 ', 13, 13' are provided on both the base portions 6, 6 'and the cover portions 7, 7'. However, the base portions 6, 6 that support the wire harness are provided. It is also possible to provide the brackets 12 and 12 'only at 6'. In this case, the shape of the outer peripheral part of the cover parts 7 and 7 'is only the harness guide walls 15 and 15' as shown in FIG.

  Further, in the above embodiment, the bent walls 3 and 3 ′ are formed in a mountain shape, but instead of the mountain shape, they are formed in a wave shape (for example, two mountain-shaped bent walls 3 and 3 ′ are continuously formed. It is also possible to form it). However, in this case, the bent wall becomes long, which is contrary to the compactness of the harness housing cases 1 and 1 ′ and the securing of the harness housing space 21.

It is a perspective view which shows 1st embodiment of the attachment structure of the harness accommodating case which concerns on this invention. It is a disassembled perspective view which similarly shows the base part and cover part which comprise a harness accommodating case. (A) is a top view which shows the outer peripheral part of a harness accommodating case, (b) is AA sectional drawing of (a), (c) is BB sectional drawing of (a). (A) is a state at the time of case expansion, (b) is a state at the normal time, (c) is a sectional view showing a state at the time of case contraction. (A) is an explanatory view showing the position of the bent portion when the case is inflated, (b) is the position of the normal bent portion, and (c) is an explanatory view showing the position of the bent portion when the case is contracted. It is principal part sectional drawing which shows the modification of the harness guide wall of a harness accommodating case. (A) (b) is principal part sectional drawing which shows the other modification of a harness guide wall, respectively. It is principal part sectional drawing which shows positioning of each bracket with a base part and a cover part. It is a perspective view which shows 2nd embodiment of the attachment structure of the harness accommodating case which concerns on this invention. It is an exploded perspective view (the inside of a circle is a principal part enlarged view) which similarly shows the base part and cover part which constitute a harness storage case. (A) is a top view which shows the outer peripheral part of a harness accommodating case, (b) is CC sectional drawing of (a). It is a top view which shows one form of the attachment structure of the conventional harness storage case. (A) is a principal part top view which shows the state of a bracket at the time of normal time, (b) at the time of case expansion, (c) at the time of case shrinkage | contraction. It is sectional drawing which similarly shows the state which fixed the bracket with the stepped volt | bolt. It is a top view which shows the other form of the attachment structure of the conventional harness storage case. It is principal part sectional drawing which similarly shows a bracket part.

Explanation of symbols

1,1 'harness housing case 3,3' bent wall (bent part)
4, 4 'inner side wall 5, 5' outer side wall 6, 6 'base part 7, 7' cover part 8, 8 'contact wall (contact part)
12, 12 'Bracket 13, 13' Bracket 15, 15 'Harness guide wall (guide part)
22, 23, 29, 30 Harness stop piece 27 Wall portion 28 Wall portion having a concave section

Claims (7)

  In a harness housing case that is composed of a base portion and a cover portion made of synthetic resin, and a guide portion for harness insertion is formed on the outer peripheral side of the cover portion, a flexible bent portion is provided on the outer peripheral side of the base portion. A harness housing case formed, wherein a contact portion that contacts the outer wall of the bent portion is formed on the guide portion side of the cover portion, and a fixing bracket is formed at least following the bent portion. Mounting structure.   The mounting structure for a harness housing case according to claim 1, wherein a fixing bracket is formed following the guide portion of the cover portion, and the bracket overlaps with the bracket on the base portion side.   The harness housing case according to claim 1 or 2, wherein the bent portion is formed continuously in the circumferential direction of the base portion, and the contact portion is formed continuously in the circumferential direction of the cover portion. Mounting structure.   3. The bracket of the cover part is separated from the guide part, the contact part is formed only in the bracket, and the bent part is formed only in the bracket of the base part. Mounting structure for harness housing case.   The harness housing according to any one of claims 1 to 4, wherein the bent portion is formed in a substantially mountain shape, and an inner wall of the bent portion is inclined to the inside of the case at a normal time and stands when the case is contracted. Case mounting structure.   2. The guide part, wherein a wall part protrudes from the base part side, and a wall part having a concave cross section that engages with the wall part is formed on the cover part side. The attachment structure of the harness storage case according to any one of claims 5 to 6.   The attachment structure of the harness housing case according to any one of claims 1 to 6, wherein a flexible harness stopper piece is arranged in the guide portion.

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