JP2010232054A - Grommet, wire harness to which grommet is attached, and method of forming wire harness - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a grommet appropriate for a wire harness wherein round electric wires and flat cables exist together. <P>SOLUTION: The grommet to be installed in a through-hole of a vehicle body panel by fitting on a wire harness formed of a plurality of round electric wires and a plurality of flat cables arranged in a vehicle includes: a large diameter cylindrical part formed from an elastic material and provided with an annular vehicle lock recess in the periphery thereof; and a small diameter part formed from the elastic material and continued to one end of the large diameter cylindrical part. A hollow part surrounded by a continuous peripheral wall formed of the large-diameter cylindrical part and the small-diameter cylindrical part is formed as a through-hole for the round electric wire, and meanwhile, the peripheral wall of the large-diameter cylindrical part and the small-diameter cylindrical part are provided with a through-hole for the flat cables, continuously extending over the whole length in the longitudinal direction of the grommet and having a rectangular cross section in openings in both ends thereof. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a grommet, a wire harness to which the grommet is attached, and a method for forming the wire harness, and particularly to a wire harness in which round electric wires and flat cables are mixed.

Of the wire harnesses that are routed to the vehicle, the wire harness that is routed in a wet area such as the engine room or under the floor panel is connected to a connector that connects to the terminal of the wire harness through the gap of the wire group of the wire harness. It is necessary to take measures against water to waterproof the water.
Therefore, conventionally, a waterproof grommet is attached to a wire harness routed from the engine compartment to the vehicle compartment through the through hole of the vehicle body panel, and the waterproof grommet is closely attached to the periphery of the through hole and locked. A waterproofing agent is filled between the wires passing through the through-holes for waterproofing.

The wire harness inserted through the grommet is composed of a number of round electric wires, but a flat cable may be inserted through the grommet. A grommet for inserting a flat wire harness described in Japanese Patent Application Laid-Open No. 2005-174858 is configured as shown in FIGS.
That is, a flat wire harness 100 in which a plurality of core wires 101 are connected in parallel by an insulating sheath 102 is provided, and a through hole 103 is provided in a connecting portion 102 a of the insulating sheath 102 of the flat wire harness 100. A portion provided with the through hole 103 of the flat wire harness 100 is placed in a grommet molding die, and the grommet 110 is molded in a state where the flat wire harness 100 is molded. At the time of molding, the grommet 110 is wrapped around the through-hole 103 to form a grommet firmly fixed to the flat wire harness 100.

JP 2005-174858 A

As in Patent Document 1, when a flat wire harness is placed in a grommet molding die, the flat wire harness is molded and the grommet is molded, the inner peripheral surface of the grommet is brought into close contact with the outer peripheral surface of the flat wire harness to be waterproof. The structure can be used, and the through hole 103 of the flat wire harness can be firmly fixed by being filled with a grommet material.
However, since the grommet is formed by molding a flat wire harness, the shape of the flat wire harness is changed, or when there are a plurality of flat wire harnesses, the grommet mold is reconstructed. It is necessary and very expensive. In particular, when a wire harness in which a large number of round electric wires having different outer diameters are mixed with a flat wire harness is passed through the grommet, the shape of the molding die is complicated, and the molding grommet of Patent Document 1 cannot cope with it. .

  The present invention has been made in view of the above problem, and the grommet for inserting the wire harness including the flat cable and the plurality of round electric wires into the wire harness is waterproof without molding the flat cable. The challenge is to do.

In order to solve the above-mentioned problem, as a first invention, a grommet that is externally fitted and attached to a wire harness composed of a plurality of round electric wires and a flat cable arranged in a vehicle, and is attached to a through hole of a vehicle body panel. ,
A large-diameter cylindrical portion that is molded from an elastic material and has an annular outer body locking recess, and a small-diameter cylindrical portion that is continuous with one end of the large-diameter cylindrical portion,
While making the hollow part surrounded by the continuous peripheral wall consisting of the large-diameter cylindrical part and the small-diameter cylindrical part the through hole for the round electric wire,
A wire harness comprising flat cable through holes that are open at both ends and extend to the entire length in the length direction of the grommet continuously from the peripheral walls of the large diameter cylindrical portion and the small diameter cylindrical portion. Grommets are provided.

As described above, the grommet according to the present invention has a through-hole through which only a flat cable is inserted in the peripheral wall portion of the grommet separately from a through-hole through which a core wire is covered with an insulating coating and a circular electric wire having a circular cross-sectional shape is inserted. Through holes are provided to distinguish through holes.
As a result, a plurality of round electric wire group through-holes and flat cable through-holes are provided separately so that the round electric wire group water-stopping means and the flat cable water-stopping means are different from each other. It can be a means.
And when the round wire group is inserted into the round wire through hole in the hollow part of the grommet, the flat cable through hole provided in the peripheral wall part of the grommet can be pressurized from the inner peripheral side and inserted into the flat cable through hole. The inner peripheral surface of the flat cable through hole can be brought into close contact with the flat cable.

  The cross-sectional area of the flat cable through-hole is smaller than the cross-sectional area of the flat cable to be inserted, and seal lips are provided on the inner and outer peripheral walls surrounding the flat cable through-hole to project the flat cable. It is preferable that the pressure is applied.

The flat cable through hole is formed by bulging a part of the peripheral wall outward in the small-diameter cylindrical part, and is formed by bulging a part of the inner peripheral surface of the peripheral wall inward in the large-diameter cylindrical part. And provided in a straight line.
In addition, when the opening is closed by providing a closing wall at the large-diameter side end of the large-diameter cylindrical portion, one side of the half-divided cylindrical portion protruding from the opposing edge of the slit provided in the closing wall A flat cable through hole continuous with the flat cable through hole of the large-diameter cylindrical portion is provided on the outer peripheral surface of the large diameter cylindrical portion. Thus, the flat cable through-hole is continuously provided over the entire length of the grommet.

The number of through holes for flat cable is one or more, and the plurality of through holes for flat cable are provided at intervals in the circumferential direction.
That is, when there are multiple flat cables, one flat cable is inserted through each flat cable through hole provided in the circumferential wall of the grommet with a space in the circumferential direction, and each flat cable is passed through the flat cable. It is made to adhere to the inner peripheral surface of the hole.

The flat cable is formed by concentrating a plurality of strands and covering a core wire having a rectangular cross section with an insulating coating layer, or by arranging the core wires having a rectangular cross section in parallel at an interval. It is what is covered with.
In addition, the round conductors may be arranged in parallel and covered with an insulating coating layer. Furthermore, a covered round electric wire may be arranged in parallel and covered with an insulating coating layer. The flat cable has a width in the alignment direction of the electric wires of about 5 mm to 20 mm.

The wire harness which has attached the grommet of 1st invention as 2nd invention is provided. The wire harness is
The round electric wire through-hole is filled with a water-stopping agent in the gaps between the plurality of round electric wires and surrounded by a foamed resin sheet, and the foamed resin sheet is inserted into the round electric wire through-hole of the small-diameter cylindrical portion. While closely contacting the inner peripheral surface,
The flat cable penetrates the flat cable through-hole without applying a water-stopping agent.

  That is, a large number of round electric wire groups passing through the round electric wire through holes are filled with a water-stopping agent and surrounded by a foamed resin sheet to stop the water. On the other hand, the flat cable does not apply a water-stopping agent, and is kept in contact with the inner peripheral surface of the flat cable through-hole so as to stop water. At that time, since the inner peripheral wall of the flat cable through hole is pressurized outward by the group of round electric wires passing through the round electric wire through hole, the inner peripheral surface of the flat cable through hole is pressed against the flat cable. Can be brought into close contact with each other. And if the seal lip is protruded on each of the inner peripheral wall and the outer peripheral wall surrounding the flat cable through-hole, the seal lip can be pressed against both surfaces of the flat cable to improve the water stop performance. Furthermore, since a water-stopping agent is not applied to the flat cable, the cost and the application process can be reduced.

It is preferable that the round electric wire penetrating the through hole for the round electric wire is arranged with a thick electric wire in the center and a fine electric wire on the outer periphery of the thick electric wire.
The thick electric wire of the round electric wire indicates an electric wire having a core wire cross-sectional area of 3.0 mm ² or more, and the thin electric wire indicates an electric wire having a core wire cross-sectional area of 0.13 mm ² or more and less than 3.0 mm ² .

  As described above, when a large number of round electric wires are converged and filled with a water-stopper, a thick electric wire is wired in the center and a thin electric wire is arranged on the outer periphery. The liquid medicine can be reliably filled. This is because the thick wire is located in contact with the foamed resin sheet surrounding the outer periphery, and when the thin wire is densely packed around it, the water stop agent is dammed to the thin wire and formed between the thick wire and the foamed resin sheet. This is because the gap is not filled with a water-stopping agent.

  As the water-stopping agent, a silicone resin is preferably used because it is easy to adjust the viscosity, but is not limited to the silicone resin. The reason why the foamed resin sheet is used is that it is elastic and flexible, easily follows the round electric wire group, and easily adheres to the inner peripheral surface of the through hole for the round electric wire.

As a third invention, a method for forming a wire harness of the second invention is provided. In the method, a wiring jig on a wire harness assembly work table is wired through a round electric wire and a flat cable constituting the wire harness,
Next, in a state of being held by the wiring jig, a water stop agent is applied to the round electric wire located in the grommet attachment region of the wire harness,
Next, the round electric wire coated with the water blocking agent is taken out from the wiring jig and surrounded by the foamed resin sheet,
Next, the round wire surrounded by the foamed resin sheet is passed through the round wire through hole of the grommet, and the flat cable is passed through the flat cable through hole of the grommet.

As described above, in the method for forming a wire harness according to the present invention, the water stop portion of the round electric wire group that is inserted into the grommet is an inline type water stop that can be continuously performed on the wire harness assembly work table when the wire harness is assembled. The part is formed.
Therefore, after attaching a grommet to a wire harness, formation of a water stop part can be performed more efficiently than an off-line type in which a water stop agent is filled into the grommet from a water stop agent filling machine. And compared with the method of shape | molding a grommet after arrange | positioning the flat wire harness of patent document 1 in the shaping | molding die of a grommet, a grommet which has a water stop performance can be formed very easily, and a wire harness It is possible to cope with changes in the configuration.

  Since the grommet according to the first aspect of the present invention distinguishes and provides a through-hole through which the round electric wire group is inserted and a through-hole through which the flat cable is inserted, different measures for water stoppage are applied to the round electric wire group and the flat cable. Can do.

  In the wire harness of the second invention to which the grommet of the first invention is attached, the in-line formed water stop portion, which is filled with a water stop agent and surrounded by a foamed resin sheet, is inserted into the round electric wire through hole of the grommet. Therefore, the round electric wire group can be easily and reliably stopped at the insertion point of the grommet. On the other hand, the flat cable does not apply a water-stopping agent, but is brought into close contact with the flat cable through-hole of the grommet to ensure water-stopping. Thus, since the water stop means suitable for each wire can be adopted, the forming operation of the water stop portion can be simplified and the cost can be reduced.

  According to a third aspect of the present invention, there is provided a method for forming a wire harness in a state where a wire harness assembly work table provided with a protruding wiring jig is held through a wire harness in which round electric wires and flat cables are mixed. A water stop portion can be formed in the round electric wire group. That is, the water stop portion can be formed in-line at the time of wire harness assembly work, and the productivity of forming the water stop portion can be increased.

The grommet which penetrated the wire harness is shown, (A) is sectional drawing of the length direction of a wire harness, (B) is the BB sectional drawing of (A). The grommet is shown, (A) is a perspective view, (B) is a view taken in the direction of arrow B in (A), (C) is a cross-sectional view of the small diameter cylindrical portion, and (D) is a small diameter cylindrical portion side of the large diameter cylindrical portion. Sectional drawing, (E) is sectional drawing of a length direction, (F) is an expanded sectional view of the through-hole for flat cables. (A) is a perspective view of a round electric wire, (B) (C) is a perspective view of a flat cable. (A)-(D) are drawings which show the formation process of a wire harness. It is sectional drawing which shows a modification. (A) (B) is drawing which shows a prior art example.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
FIG. 1 shows a state in which the grommet 2 is attached to the wire harness 1.
The wire harness 1 is routed from the wet area X such as the engine room of the vehicle to the vehicle compartment Y through the through hole H of the vehicle body panel P. The grommet 2 shown in FIG. The grommet 2 is locked to the through hole H in a sealed state, and the wire harness 1 is passed through the grommet 2 in a sealed state.

The wire harness 1 includes a round electric wire 20 having a circular cross section in which the core wire a shown in FIG. 3A is covered with an insulating coating layer b and a flat cable 23 shown in FIG. It consists of a plurality of thick wires 21 and a large number of thin wires 22 of 50 to 150.
The thick wire 21 has a core wire cross-sectional area of 3.0 mm ² or more, and the wires less than 3.0 mm ² are distinguished as thin wires 22.

In the flat cable 23, a plurality of core wires 25 each having a rectangular shape with a rectangular cross section are wired in parallel with a gap therebetween, and these are integrally connected by an insulating coating 26. The insulation coating 26 includes a covering portion 26a and a connecting portion 26b covering the core wire 25 having a rectangular shape, and the core wire 25 is passed through an extrusion molding machine in a parallel state, and the insulation coating 26 is extruded and covered. .
The dimension in the width direction W1 in which the core wires 25 of the flat cable 23 are arranged in parallel is 5 mm to 20 mm.
As shown in FIG. 3C, the flat cable 23 may be one in which a single core wire 25 obtained by converging a large number of strands into a rectangular shape having a rectangular cross section is covered with an insulating coating 26.

  The grommet 2 is formed from an elastic material made of rubber or elastomer. The grommet 2 has a large-diameter cylindrical portion 6 provided continuously at one end of the small-diameter cylindrical portion 5, and a vehicle body engaging recess 7 is provided annularly on the outer periphery of the large-diameter cylindrical portion 6. As shown in FIG. 2 (B), a closing wall portion 8 for closing the large-diameter side opening is provided at the large-diameter side end of the large-diameter cylindrical portion 6, and the closing wall portion 8 is provided at the center of the closing wall portion 8. A slit 9 to be divided is provided. A circular hole 9 a is provided at the center of the slit 9, and a half-divided cylindrical portion 10 projects from the periphery of the circular hole 9 a.

  The hollow portion surrounded by the peripheral walls 5a and 6a of the small-diameter cylindrical portion 5 and the large-diameter cylindrical portion 6 and the hollow portion surrounded by the half-divided cylindrical portion 10 serve as a round electric wire through hole 12.

As shown in FIG. 2C, a part of the peripheral wall 5a of the small-diameter cylindrical portion 5 is bulged in the axial direction, and a flat cable through hole 13a having a rectangular cross section is formed in the bulged portion 5b in the length direction. It is formed continuously.
As shown in FIG. 2 (D), the inner surface side of the peripheral wall 6a on the continuous side with the small-diameter cylindrical portion 5 of the large-diameter cylindrical portion 6 is bulged continuously with the flat cable through-hole 13a. A flat cable through hole 13b having a quadrangular cross section is provided continuously in the length direction in the portion 6b.
As shown in FIG. 2 (E), the large-diameter cylindrical portion 6 is provided with a through hole 13c for a flat cable separated from the peripheral wall 6a on the enlarged diameter side where the vehicle body locking recess 7 is provided. Opening to the closing wall 8.
The flat cable through-holes 13a, 13b, and 13c are formed as flat cable through-holes 13 extending continuously in a substantially straight line and having both ends opened.

The flat cable through hole 13 has a square cross section corresponding to the outer shape of the flat cable 23 and a cross sectional area slightly smaller than the cross section of the flat cable 23. The hole 13 is set to be expanded and inserted.
Further, as shown in FIG. 2 (F), seal lips 15A and 15B are provided on the flat cable through hole 13 so as to project from the inner and outer surfaces facing each other. The seal lips 15A and 15B are pressed against the wide surfaces 23a and 23b of the flat cable 23 inserted through the flat cable through hole 13 from both sides.

As shown in FIG. 1, the grommet 2 having the above-described shape is filled with a water-stopping agent 30 made of silicone in the gaps between the round electric wires 20 and a foamed resin sheet 31 around the outer periphery thereof. The water stop portion 33 in a state surrounded by a circle is inserted through the round electric wire through hole 12. The water stop 33 pushes the small diameter cylindrical portion 5 of the grommet 2 with a diameter expansion jig (not shown) and inserts it.
The foamed resin sheet 31 of the water stop part 33 is pressed against the inner peripheral surface of the small diameter cylindrical part 5 and can reliably stop water.
And in the water stop part 33, among the round electric wires 20, the thick electric wire 21 is wired in the center part, and the thin electric wire 22 is wired in the outer peripheral part of the thick electric wire 21.

Further, a flat cable 23 without a water-stopping agent is inserted into the flat cable through hole 13 of the grommet 2. At that time, since the cross-sectional area of the flat cable through-hole 13 is smaller than the cross-sectional area of the flat cable 23, the flat cable is inserted through the peripheral wall surrounding the flat cable through-hole 13.
The flat cable through-hole 13 is pressed against the flat cable 23 because the inner wall is pressurized outward by the water stop 33. Further, since the seal lips 15A and 15B project from the inner and outer surfaces surrounding the flat cable through hole 13, the wide seal lips 15A and 15B of the flat cable 23 are pressed.
Thus, the flat cable 23 inserted into the flat cable through-hole 13 is not coated with a water-stopping agent, but water can be reliably stopped at the insertion portion of the flat cable through-hole 13 provided in the grommet 2. .

The wire harness 1 to which the grommet 2 is attached is formed by the method shown in FIG.
As shown in FIG. 4A, first, a wiring jig 41 provided with a U-shaped electric wire holding portion 41a erected at a distance from a wire harness assembly work table (hereinafter abbreviated as work table) 40. The thick electric wire 21 and the thin electric wire 22 are laid out and finally passed through the flat cable 23.
Between the wiring jigs 41 </ b> A and 41 </ b> B is a water stop region S through which the grommet 2 is inserted. As shown in FIG. 4B, the wire receiving and holding portion 41a of the wiring jigs 41A and 41B is provided with holding frames 43a to 43c in parallel to divide the wire receiving portion into two, and the thin wire 22 and the holding frame 43b. The thick wire 21 is passed between the holding frames 43a and 43b. Finally, the flat cable 23 to be inserted is arranged and inserted at the upper end of the insertion portion of the thick wire 21 so as to be easily taken out.

  After the wiring of the round electric wire 20 and the flat cable 23 constituting the wire harness 1 is finished, the flat cable 23 is taken out upward and, as shown in FIG. 4C, between the wiring jigs 41A and 41B. A water stop agent 30 made of silicone is applied to the thick wire 21 and the thin wire 22 that are inserted and held in parallel in the vertical direction using a silicone coating machine. The water-stopping agent 30 is applied by reciprocating the nozzles of the silicone applicator in the vertical direction on both the front and rear surfaces of the paralleled thick wire 21 and thin wire 22 held between the wiring jigs. Apply.

  After applying the water stop agent 30, the thick wire 21 and the thin wire 22 are taken out upward, and as shown in FIG. 4 (D), the thick wire 21 is arranged in the center, and the thin wire is placed on the outer periphery thereof. Is placed and the foamed resin sheet 31 is wound around. Due to the winding of the foamed resin sheet 31, the water stop agent 30 applied to the outer surfaces of the thick wire 21 and the thin wire 22 flows without gaps inside the foamed resin sheet 31. And the thin wire 22 can be filled with the water stop agent 30 without a gap. The foamed resin sheet 31 is preliminarily coated with an adhesive 34 on the inner surface at one end in the length direction, and the adhesive 34 is adhered to the outer surface on the inner peripheral side to keep the wound state.

Thus, the multiple round electric wires 20 of the wire harness 1 are filled with the water-stopping agent 30, and the water-stopping portion 33 is formed in-line at the time of wire harness assembling work while being surrounded by the foamed resin sheet 31.
And in the water stop part 33 of the round electric wire 20, since it is set as the procedure which winds the foamed resin sheet 31 after arrange | positioning the thin electric wire 22 on the outer periphery of the thick electric wire 21, it is a space | gap in the water stop part 33 of the round electric wire 20 It is possible to stabilize the water stop performance without generating water.

  As shown in FIG. 1, the water stop portion 33 of the round electric wire 20 of the wire harness 1 formed as described above passes through the round electric wire through hole 12 of the grommet 2, and the water stop portion without applying the water stop agent 30. The flat cable 23 distinguished from the portion 33 is passed through the flat cable through hole 13 of the grommet 2. After that, the wire harness 1 is wound and fixed with an adhesive tape T around the distal end of the small-diameter cylindrical portion 5 and the distal end of the half-divided cylindrical portion 10. Thereby, the wire harness 1 which passes the grommet 2 is made into the water stop structure.

FIG. 5 shows a modification.
Two flat cables 23 are converged on the wire harness 1, and therefore, two flat cable through-holes 13-1 and 13-2 are provided in the opposing positions in the grommet 2.
Since other configurations and operations are the same as those of the above-described embodiment, description thereof is omitted.

Further, the shape of the grommet 2 is not limited to the above-described shape, and the closed cylinder part and the half-divided cylinder part 10 may not be provided at the tip of the large diameter cylinder part 6. In this case, the flat cable through-hole 13 is opened facing the large-diameter side opening end of the large-diameter cylindrical portion 6.
Moreover, as for the water stop part of the round electric wire group which passes along the through-hole 12 for round electric wires of the grommet 2, it is preferable to wire a thick electric wire in the center and to wire an outer thin wire, Also good.

DESCRIPTION OF SYMBOLS 1 Wire harness 2 Grommet 5 Small diameter cylinder part 6 Large diameter cylinder part 12 Through hole for round electric wires 13 Through hole for flat cables 20 Round electric wire 21 Thick electric wire 22 Thin electric wire 23 Flat cable 30 Water stop agent 31 Foamed resin sheet P Car body Panel H Through hole

Claims (8)

A grommet that is externally fitted and attached to a wire harness composed of a plurality of round electric wires and a flat cable arranged in a vehicle, and is attached to a through hole of a vehicle body panel,
A large-diameter cylindrical portion that is molded from an elastic material and has an annular outer body locking recess, and a small-diameter cylindrical portion that is continuous with one end of the large-diameter cylindrical portion,
While making the hollow part surrounded by the continuous peripheral wall consisting of the large-diameter cylindrical part and the small-diameter cylindrical part the through hole for the round electric wire,
A wire harness comprising flat cable through-holes that are open at both ends and extend in the longitudinal direction of the grommet in a continuous manner to the peripheral walls of the large-diameter cylindrical portion and the small-diameter cylindrical portion. Grommet for use.   The cross-sectional area of the flat cable through-hole is smaller than the cross-sectional area of the flat cable to be inserted, and a seal lip is provided on the inner peripheral surface of the flat cable through-hole to press against the flat cable. The grommet for a wire harness according to claim 1.   The flat cable through hole is formed by bulging a part of the peripheral wall outward in the small-diameter cylindrical part, and is formed by bulging a part of the inner peripheral surface of the peripheral wall inward in the large-diameter cylindrical part. The grommet for a wire harness according to claim 1 or 2, wherein the grommet is provided linearly.   The said flat cable through-hole is one or more, The several flat cable through-hole is provided in the circumferential direction at intervals, The wire harness use of any one of Claim 1 thru | or 3 Grommet.   The flat cable is formed by concentrating a plurality of strands and covering a core wire having a rectangular cross section with an insulating coating layer, or by arranging the core wires having a rectangular cross section in parallel at an interval. The grommet for a wire harness according to any one of claims 1 to 4, wherein the grommet is covered with a wire harness. A wire harness to which the grommet according to any one of claims 1 to 5 is attached,
The round electric wire through-hole is filled with a water-stopping agent in the gaps between the plurality of round electric wires and surrounded by a foamed resin sheet, and the foamed resin sheet is inserted into the round electric wire through-hole of the small-diameter cylindrical portion. While closely contacting the inner peripheral surface,
The flat cable penetrates the flat cable through-hole without applying a water-stopping agent.   The wire harness according to claim 6, wherein the round electric wire penetrating the through hole for the round electric wire has a thick electric wire arranged at a central portion and a thin electric wire arranged on the outer periphery of the thick electric wire. A method of forming a wire harness according to claim 6 or 7,
The wiring harness on the wire harness assembly work table is wired through the round electric wire and flat cable constituting the wire harness,
Next, in a state of being held by the wiring jig, a water stop agent is applied to the round electric wire located in the grommet attachment region of the wire harness,
Next, the round electric wire coated with the water blocking agent is taken out from the wiring jig and surrounded by the foamed resin sheet,
Next, the round wire surrounded by the foamed resin sheet is passed through the round wire through hole of the grommet, and the flat cable is passed through the flat cable through hole of the grommet. .

Images