Abstract:
A grommet is provided for linking a wire through a rear door glass from the roof of a vehicle, the rear door glass of the vehicle configured to open and close independently from the opening and closing of the rear door of the vehicle. The grommet has first through third flexible moldings and first and second rigid moldings. The flexible moldings allow the grommet to flex with the opening closing motion of the rear door and rear door glass, while the rigid moldings prevent the wire from deforming the grommet. The grommet is adapted to accept a wire through the third flexible molding and through the second rigid molding, through the second flexible molding, through the first rigid molding and through the first flexible molding. After passing the wire through all moldings, the moldings are adapted to be sequentially connected each other in substantially the same order as the wire passing order. Portions of the moldings have generally circular tubular configurations, while other portions of the moldings have generally flat tubular configurations in order to pass a group of wires through a narrow space. The grommet provides water-resistant protection for the wires contained therein.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The present invention relates to a grommet for fastening to a hatchback-type car body, and more particularly, to a grommet providing for passage of wires therethrough, the grommet configured for installation between an automobile roof and a rear door glass panel of a hatchback-type automobile, in which the glass panel is opened and shut independently of the rear door. 
     2. Description of Background Information Grommets providing for passage of wires are well-known in the related art. FIGS. 9 to  11  refer to such a related art grommet  5 . The grommet  5  allows electric wiring to pass therethrough to a rear door of a hatchback-type automobile. The grommet  5  has cone-type diameter-expanding parts  5   b  and  5   c  on opposed ends of a small diameter tubular part  5   a  through which a group of electric wires is passed. 
     One diameter-expanding part  5   b  of the grommet  5  is affixed to a through-hole  1   a  formed at the edge of a roof panel  1  of a car body. The other diameter-expanding part  5   c  is affixed to a through-hole  3   a  formed by a hole in a rear door frame  3 . A group of electric wires W is wired in a door from the through-hole  3   a  of the rear door frame  3  through the small diameter tubular part  5   a  of the grommet  5  and from the through-hole  1   a  of the roof panel  1 , as shown in FIG.  11 . 
     Hatchback-type automobiles having a glass panel in the rear door, where the glass panel may be opened and closed independently of the opening and closing of the entire rear door, have been recently introduced to the art. As shown in FIGS. 12 and 13, a rear door frame has a double structure in such a hatchback-type automobile, where a group of electric wires W is separately wired from a through-hole  1   a  of the roof panel  1  into both a through-hole  3   a  formed on the rear door frame  3  and a through-hole  40   a  formed on a frame  40  retaining a rear door glass panel  4 . 
     In such a case, respective grommets  6 A,  6 B and  6 C are respectively installed in the through-hole of a roof panel  1 , in the though-hole  3   a  of rear door frame  3 , and in the through-hole  40   a  of the glass retention frame  40 , as shown in FIG.  13 . However, water passing between electric wires of the group of electric wires W may enter into the roof or the inside of the rear door (inside of the frame), because the group of electric wires W is not covered with the grommet in the weather-exposed area between the rear door frame  3  and the glass retention frame  40 . Therefore, a water-resistant agent such as a curing resin or the like is filled between electric wires of the group of electric wires W at the opening parts of the grommets  6 A,  6 B and  6 C. 
     However, one problem with providing a water resistant agent is that construction is troublesome and high in cost. Additionally, the weather-exposed area is visible, and is thus unattractive because the group of electric wires W is in open view. 
     For the problems described above, the present inventor has previously provided the grommets  7  and  8  shown in FIGS.  14 (A) and  14 (B), which are described in Japanese Unexamined Patent Publication No. 9-150759. The grommet  7  shown in FIG.  14 (A) is unitarily molded and has two tubular parts  7   b  and  7   c  that are perpendicular to an edge of tubular part  7   a . For the grommet  8  shown in FIG.  14 (B), tubular parts  8   b  and  8   c  are molded separately from tubular part  8   a , and connected through joint tubes  8   d  and  8   e  to provide freedom of fastening and removal. 
     When the devices shown in FIGS.  14 (A) and  14 (B) are used, a group of electric wires in a water-exposed area may be kept water proof by being passed through the grommets  7  and  8 . However, since both of the grommets  7  and  8  are molded with an flexible member comprising a rubber or an elastomer, the grommets  7  and  8  are deformed by the stiffness of the group of electric wires passed therethrough, at a position shown by dotted lines in FIG.  15 . When such deformation occurs, there is a problem with maintaining water resistance, because the grommets contact other parts of the vehicle, thereby resulting in damages to the grommets. 
     As shown in FIG. 16, the electric wires often do not bend along with the contours of the grommets and the directions of the electric wires are uncontrolled even though electric wires are purportedly guided by bending the shape of the grommets, as the group of electric wires are stiff. Additionally, there is often only a flat space between the roof and rear door, thereby making wiring difficult, as wire groups are often too thick to pass therethrough. 
     Further, as the grommets  7  and  8  of FIGS.  14 (A) and  14 (B) are long in length, they are difficult to mold, and the passage of the group of electric wires is difficult. Particularly, there is a problem that molding is difficult. Also, insertion and passing a group of electric wires through the molded grommet cannot be easily carried out, since the grommet  7  has a plurality of bends. 
     SUMMARY OF THE INVENTION 
     The present invention is directed to solving the above-described problem. The present invention prevents water from penetrating a group of electric wires by dividing the wires into two or more groups, thereby controlling the mounting direction of the wires. Furthermore, the present invention is easily produced and passing wires therethrough is easily carried out. 
     The present invention provides a grommet through which a group of electric wires is passed for attachment to the inside of a car body. The grommet has tubular flexible material moldings composed of a rubber or an elastomer, and also has and tubular rigid resin moldings. These moldings accept a group of electric wires therethrough. The moldings are linked together by freely and removably connecting the end parts of the flexible material moldings with the edge parts of the rigid resin moldings. In alternative embodiments, however the flexible moldings may be made of other flexible materials, and the rigid resin moldings may be made from hard materials besides resin. 
     The grommet of the present invention may be either unitarily molded or separately molded and connected. The grommet has flexible material moldings molded from a rubber or an elastomer, and further has hard resin moldings molded from a relatively rigid synthetic or natural material, such as polypropylene or other synthetic material, alone or in combination. Since the rigid resin molding portions of the grommet control the bending directions of the wires, the bending directions of the wires are sufficiently controlled despite the stiffness of the wires. 
     Each molding of the present invention is short in length, resulting in ease of production. Additionally, the group of electric wires can be easily passed through these respective moldings prior to the connection of the moldings. The moldings may then be connected in sequence. 
     The parts of the flexible material moldings and rigid resin moldings are either flat tubular parts or round tubular parts. The end parts of these moldings are configured so that they may be mutually connected to each other. Hooking parts protrude on the outer peripheral surfaces of the tubular parts of the rigid resin moldings, and hooked parts are provided on the inner peripheral surface of tubular parts of the flexible material moldings. The hooked parts and hooking parts are hooked, connected and assembled together. 
     As discussed above, the wiring space between the roof of a vehicle to a rear door or hatch is a narrow flat area. The tubular shapes of both the flexible material moldings and the rigid resin moldings may be changed in accordance with the dimensions of the wiring space. The shapes may be partially flat or a circular tube, whereby the threading of the group of electric wires therethrough may be easily carried out. 
     Furthermore, since the hooked parts and the hooking parts are respectively provided on the ends of the respective flexible material moldings and rigid resin moldings, and are mutually connected, they are freely fastenable and removable and may be connected without compromising the water resistance of the invention. 
     It is particularly preferable that the hooking parts include a first hooking part obliquely protruding from the end of tubular part, and a second hooking part protruding at a predetermined distance from the first hooking part. Additionally, the hooked parts of the flexible material moldings include first hooked parts which are recessed at a predetermined distance from the end of the tubular parts, and further include second hooked parts which are recessed a predetermined distance from the first hooked parts. Additionally, sealing lips protrude from center intermediate the first hooked parts and second hooked parts. 
     The tubular parts of the rigid resin moldings interfit with the tubular parts of the flexible material moldings, the first hooking parts being pressed into the second hooked parts, the second hooking parts being pressed into the first hooked parts, and the sealing lips are pressed to be in contact with the outer peripheral surfaces of the other tubular parts to be connected. 
     Since the connection of the hooked parts with the hooking parts is redundant and sealing lips are further provided, water penetration through the connecting parts is thereby prevented. Furthermore, as the edges of the first hooked parts of the of the tubular parts interfit therewith are inclined, insertion and connection is facilitated. 
     Further, it is preferable to have marks indicating the insertion direction of electric wires, and to have marks indicating the connecting sequence of the moldings are provided on the outer peripheral surfaces thereof. The group of electric wires is passed through along the marks before the interconnection of the respective moldings, whereby the moldings may be interconnected after insertion and passing of the wires. 
     An arrow pattern of the above-mentioned marks may be molded in relief, and installation sequence indicator codes and the like may be molded in relief. Thus, electric wires can be passed through the separated moldings without error by marking the insertion direction of the electric wires (e.g., marks of connecting order), and these moldings can be accurately connected without mistaking their order of assembly. It is also preferable to pass the group of electric wires through the moldings before connecting the moldings together. However, in alternative embodiments, the moldings may be interconnected in advance and the group of electric wires may be passed thereafter. 
     Further, it is preferable to provide indicators on the outer peripheral surfaces of the connection edge parts of each molding, to aid in circumferential directional alignment. Elliptical section end parts may be interfit in the present invention, therefore assuring accurate circumferential alignment. For example, when installation directions do not coincide and are interfit 90 degrees off axis, water-resistance of the invention may not be maintained. Therefore, in accordance with the present invention, the circumferential alignment may be accurately accomplished. 
     The above-mentioned indicators for interfitting alignment, for example, may be provided in relief in the form of three lines parallel to the direction of insertion and passing of electric wires on both sides of the moldings which are to be interfitted, so that the edge of mark is positioned between both side lines. 
     In the grommet of the present invention, the first flexible material molding has a bellows-type tubular part that provides for continuous bending from a diameter-expanding tubular part. A resin inner is provided on the diameter-expanding tubular part, which is adapted to be intermitted in and connected with an installation location of a vehicle body. Further, the hooked part is provided on the inner peripheral surface of the opposite end of the above-mentioned bellows type tubular part. The second flexible material molding is of a flat tubular configuration and is provided with a hooked part on the inner peripheral surfaces of both ends of the second flexible material molding. 
     The third flexible material molding has a hooked part provided on the inner peripheral surface of one end thereof, the one end being of a flat tubular type. Another end of the third flexible material molding is split into a plurality of hatch hooking parts, each hatch hooking part having a branched tubular part depending therefrom. 
     A flat tubular part is provided on one end of the first rigid resin molding, and an almost circular tubular part is provided on the other end thereof. The hooking part of the one end of the first rigid resin molding is connected with the hooked part of one end of the second flexible material molding. One end of the second rigid resin molding is connected to the hooked part of other end of the second flexible material molding. After the group of electric wires is passed from the third flexible material molding to the second rigid resin molding, the second flexible material molding, the first rigid resin molding and the first flexible material molding, the hooking parts of the respective moldings are connected with the hooked parts. The grommet is adapted to insert and pass a group of electric wires to be wired from a roof to a rear door glass in a hatchback-type automobile car, in which the rear door glass is opened and shut, independently of the opening and shutting of the rear door of an automobile car. 
     A car body hooking part provided on the first flexible material molding is fastened by interfitting to a through-hole provided on a roof panel (the through-hole formed by cutting). Hatch hooking parts are also provided on the respective branched tubular parts of the third flexible material molding, and are respectively fastened by intermitting on the through-holes provided on rear hatch glass (the through-holes formed by cutting). 
     According to the one aspect of the invention, in a hatchback-type automobile in which the rear door glass is opened and shut independently of the opening and shutting motion of the rear door of an automobile, the group of electric wires may be wired from the automobile roof to the rear door glass of a rear door in a weather-exposed area, without getting wet. Further, since the bellows tubular part is provided on the first flexible material molding and the grommet deforms in accordance with the motion of opening and shutting the rear door and the motion of opening and shutting the rear door glass, deviation of the car body hooking part from the door frame of the rear door and the frame of retaining glass is thereby prevented. 
     According to one aspect of the invention, the grommet includes a flexible molding having a tube with an aperture for accepting at least one electric wire, as well as a substantially rigid molding (meaning that the molding can be rigid or almost rigid, hereinafter described as rigid) having a tube having an aperture for accepting the at least one electric wire. The rigid resin molding is movably connected to the flexible molding, and the rigid molding aperture is in communication with the flexible molding aperture. The rigid molding further has a bent portion. 
     According to another aspect of the invention, the grommet may further include at least one hooking part provided on an outer peripheral portion of an end of the tube of the rigid molding, and may also include at least one hooked part provided on an inner peripheral portion of an end the tube of the flexible molding, wherein the at least one hooked part and the at least one hooking part are configured to be sequentially connected to one another. Further, at least a portion of the flexible molding and at least a portion of the rigid resin molding may include a flat tubular portion, and at least a portion of the flexible molding and at least a portion of the rigid resin molding may include a circular tubular portion. 
     Additionally, according to still another aspect of the invention, a first hooking part may protrude at an incline from a tip of the end of the tube of the rigid molding, and a second hooking part is located at a predetermined distance from the first hooking part. The hooked part may include a first hooked part recessed at a predetermined distance from a tip of the end of the tube of the flexible molding, and a second hooked part recessed at a predetermined distance from the first hooked part, and may further include a sealing lip centrally protruding the first hooked part and the second hooked part. The tube of the rigid molding may internally interfit with the tube of the flexible molding, the first hooking part may interfit with the second hooked part, the second hooking part may interfit with the first hooked part, and the sealing lip may interfit intermediate the first and the second hooking parts. 
     According to still another aspect of the invention, the grommet may further include a first mark provided on the outer periphery of each the tube of the flexible molding and the rigid molding. The mark may indicate an insertion direction for inserting the at least one wires in the grommet, and may further indicate an order of assembly, thereby enabling the at least one wires to be inserted in accordance with the mark prior to the connection of the flexible molding and the rigid molding, and further enabling the connection of the at least one wire after insertion thereof. 
     According to yet another aspect of the invention, the grommet may further include a second mark located at an outer peripheral surface proximate the connection intersection of the flexible molding and the rigid molding, the second mark configured to aid in the circumferential directional alignment of the flexible molding with the rigid molding. 
     Furthermore, according to still yet another aspect of the invention, the flexible molding of the grommet may include a first flexible molding having a diameter-expanding tubular part located at the first end thereof with a bellows-type tubular part being continuously bent from the diameter-expanding tubular part to the second end thereof. Additionally, a resin inner member having a car body hooking part on the diameterexpanding tubular part may be provided, wherein a hooked part is provided on an inner peripheral surface of the second end of the first flexible molding. Also included may be a second flexible molding having a flat tubular configuration, wherein hooked parts are provided on the inner peripheral surface of each end thereof. Also provided is a third flexible molding wherein one end has a hooked part provided on the inner peripheral surface thereof and a flat tubular cross-section, and another the end may be split into a plurality of hatch hooking parts. Each hatch hooking part may have a branched tubular part depending therefrom, and each branched tubular part may have a pair of longitudinal slits therein. 
     The rigid molding of the grommet may include a first rigid molding having a hooking part provided on an outer peripheral surface of one end thereof, which may have a circular tubular portion. A first hooking part may be provided on an outer peripheral surface of one end of the first rigid molding, which may be adapted to be connected to the hooked part of the first flexible molding. The ends of the first rigid molding may be at approximately a right angle. Another end of the first rigid molding includes a flat tubular portion depending from the circular tubular portion. A second hooking part may be provided on an outer peripheral surface of the one end of the first rigid molding, the second hooking part adapted to be connected to the second hooked part of the end of the second flexible molding. Also, a second rigid molding may be provided, which has opposed ends and is bent along its width at a midpoint of its longitudinal direction and further has a generally flat tubular cross section, and still further has a third hooking part provided on an outer peripheral surface of one end of the second rigid molding. The third hooking part may be adapted to be connected with the third hooked part on the second flexible molding, and a fourth hooking part may be provided on an outer peripheral surface of another end of the second rigid molding, and adapted to be connected with the fourth hooked part on the third flexible molding. After the insertion of a wire through the respective moldings, the hooking parts are adapted to be sequentially connected with the hooked parts. 
     According to a further aspect of the invention, the grommet may further include a car body hooking part provided on the first flexible molding and adapted to be connected to a through-hole provided on a roof panel of a vehicle, and a hatch hooking part provided a branched tubular part of the third flexible molding and adapted to be connected to a through-hole provided on rear door glass of the vehicle. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     The present invention is further described in the detailed description which follows, in reference to the noted plurality of drawings by way of non-limiting examples of certain embodiments of the present invention, in which like numerals represent like elements throughout the several views of the drawings, and wherein: 
     FIG. 1 is a perspective view showing the grommet of the present invention. 
     FIG.  2 (A) is a rear view of a hatchback-type automobile with a portion broken away to show the grommet of the present invention installed therein. 
     FIG.  2 (B) is a side cross-sectional view of a rear end of a hatchback-type automobile showing the grommet of the present invention installed therein. 
     FIG.  3 (A) is a top plan view of the first flexible material molding of the present invention. 
     FIG.  3 (B) is a left side elevational view of the first flexible material molding of the present invention. 
     FIG.  3 (C) is a cross-sectional view of the first flexible material molding of the present invention. 
     FIG.  3 (D) is a bottom plan view of the first flexible material molding of the present invention. 
     FIG.  4 (A) is a plan view of the first rigid resin molding of the present invention. 
     FIG.  4 (B) is a right side elevational view of the first rigid resin molding of the present invention. 
     FIG.  4 (C) is a front view of the first rigid resin molding of the present invention. 
     FIG.  4 (D) is a plan view of the first rigid resin molding of the present invention, showing a clip attached thereto. 
     FIG.  4 (E) is a right side elevational view of the first rigid resin molding of the present invention showing a clip attached thereto. 
     FIG.  5 (A) is a plan view of the second flexible material molding of the present invention. 
     FIG.  5 (B) is a bottom view of a portion of the second flexible material molding of the present invention. 
     FIG.  5 (C) is a sectional view cut along line A—A of FIG.  5 (A) of the second flexible material molding of the present invention. 
     FIG.  5 (D) is a sectional view cut along line B—B of FIG.  5 (A) of the second flexible material molding of the present invention. 
     FIG.  5 (E) is a sectional view showing a hooked part provided on the end part of the second flexible material molding of the present invention. 
     FIG.  6 (A) is a plan view of the second rigid resin molding of the present invention. 
     FIG.  6 (B) is a front view of the second rigid resin molding of the present invention. 
     FIG.  6 (C) is a sectional view cut along line A-A of FIG.  6 (B) of the second rigid resin molding of the present invention. 
     FIG.  6 (D) is a partial bottom view of the second rigid resin molding of the present invention. 
     FIG.  7 (A) is a plan view of the third flexible material molding of the present invention. 
     FIG.  7 (B) is a front elevational view of the third flexible material molding of the present invention. 
     FIG.  7 (C) is a sectional view cut along line B-B of FIG.  7 (B) of the of the third flexible material molding of the present invention. 
     FIG.  7 (D) is a bottom plan elevational view of the third flexible material molding of the present invention. 
     FIG.  8 (A) is a sectional view of the present invention showing a hooking part connected with a hooked part. 
     FIG.  8 (B) is a plan view of the present invention showing a hooking part connected with a hooked part. 
     FIG. 9 is a perspective view of a related art grommet. 
     FIG. 10 is a perspective view showing the installation location of the related art grommet of FIG.  9 . 
     FIG. 11 is a sectional view of the related art grommet of FIG. 9 installed in the installation location of FIG.  10 . 
     FIG. 12 is a perspective view of an installation location of a second related art grommet. 
     FIG. 13 is a sectional view of the second related art grommet installed in the installation location of FIG.  12 . 
     FIG.  14 (A) is a perspective view showing a third related art grommet. 
     FIG.  14 (B) is a perspective view showing a fourth related art grommet. 
     FIG. 15 is a perspective view showing the problematic bending of the third related art grommet. 
     FIG. 16 is a sectional view showing the problematic bending of the fourth related art grommet. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     The particulars shown herein are by way of example and for purposes of illustrative discussion of the embodiments of the present invention only and are presented in the cause of providing what is believed to be the most useful and readily understood description of the principles and conceptual aspects of the present invention. In this regard, no attempt is made to show structural details of the present invention in more detail than is necessary for the fundamental understanding of the present invention, the description taken with the drawings making apparent to those skilled in the art how the several forms of the present invention may be embodied in practice. 
     Referring to the drawings wherein like numerals represent like elements, FIG. 1 shows a grommet  10  which includes a first flexible material molding  11 , a second flexible material molding  12  and a third flexible material molding  13  which are constructed of any suitable flexible or elastomeric material as a rubber or a synthetic elastomer. Also provided is a first rigid resin molding  14  and a second rigid resin molding  15  which are preferably constructed of any suitable relatively rigid resin material, such as polypropylene. Any of these moldings may have a tubular shape. The grommet  10  is assembled by sequentially connecting the first flexible material molding  11 , the first rigid resin molding  14 , the second flexible material molding  12 , the second rigid resin molding  15  and the third flexible material molding  13 , such that the grommet  10  forms a path for inserting and passing the group of electric wires  30 . 
     The grommet  10  is provided with a group of electric wires wired to a rear door glass which is opened and shut, independently of the opening and shutting of a rear door from a roof panel  1 . As shown in FIGS.  3 (B) through (D), a car body hooking part  16   a  of a resin inner member  16  is interfitted with the first flexible material molding  11  at one end of the grommet  10 . As shown in FIGS.  2 (A) and  2 (B), the resin inner member is then fastened in the through-hole  1   a  which is provided on the roof panel  1 , where the group of electric wires is installed therein, thereby connecting one end of the grommet to the car body. Further, hatch hooking parts  13   a - 1  and  13   b - 1  (note FIGS.  7 (B) and  7 (C)) are respectively provided on respective branched tubular parts  13   a  and  13   b  of the third flexible material molding  13  and are fastened in through-holes  4   a  and  4   b  of a rear door glass  4  to be installed (FIG.  2 (B)), thereby connecting the other end of the grommet to the door glass. 
     FIGS.  3 (A),  3 (B),  3 (C) and  3 (D) show the first flexible material molding  11 . The resin inner  16  interfits with the inside of an elliptically-shaped diameter-expanding tubular part  11   b , and the car body hooking part  16   a  is provided at the resin inner  16 . The generally circular-shaped bellows tubular part  11   c  extends perpendicularly from the opening of the diameter-expanding tubular part  11   b . A first hooked part  11   d  which is positioned a predetermined distance from the edge of the first flexible material molding  11 , is recessed in the inner peripheral surface of a connection side end of the tubular part  11   c . The second hooked part  11   e  is recessed at a predetermined distance from the first hooked part  11   d , and a sealing lip  11   f  protrudes intermediate the first hooked part  11   d  and second hooked part  11   e , as shown in FIG.  3 ( c ). Further, an arrow mark (i.e., first mark)  11   g  in the X direction is molded in relief on the outer peripheral surface of the connection side end of the tubular part  11   c , to indicate the insertion direction of wires. 
     The first rigid resin molding  14  has a generally L-shaped configuration and is bent by 90 degrees at a middle part, as shown in FIGS.  4 (A)- 4 (E). One end has a flat tubular part  14   b , and the other side has a near circular shape tubular part  14   a . The other end of the tubular part  14   a  has an opening, and a first hooking part  14   c  that is configured to be connected with the first flexible material molding  11  obliquely protrudes from the outer peripheral rim of the opening. The other end  14   a  also has a second hooking part  14   d that protrudes a predetermined distance from the first hooking part  14   c . The other end of the tubular part  14   a  has a closed plane, and the flat shaped tubular part  14   b  is linked to a peripheral wall adjacent to the closed plane. A first hooking part  14   e  of the tubular part  14   b  is configured to be connected to the second flexible material molding  12 , and obliquely protrudes at the outer peripheral rim of the opening of the tubular part  14   b . Additionally, the tubular part  14   b  further has a second hooking part  14   g  that protrudes a predetermined distance from the first hooking part  14   e.    
     An arrow  14   f  is located near the second hooking part  14   d  on the outer peripheral surface of the tubular part  14   a , and an arrow mark  14   h  is also located near the second hooking part  14   g  on the outer peripheral surface of the tubular part  14   a . Further, three lines  14   i  (collectively referred to as the second mark) for circumferential directional alignment are provided in parallel near the arrow mark  14   h.    
     Further, a clip installation piece  14   j  protrudes on the inner side of the 90 degree intersection of the tubular part  14   b  and the near circular part  14   b . An installation hole  14   k  for fastening a clip  20  is concavely provided at the center of the clip installation piece  14   j . The clip  20  is for connecting the grommet  10  to a car body and is provided on the clip installation piece  14   j . A fastening part  20   a  is provided on the clip  20  and is inserted into the installation hole  14   k . The clip  20  is designed to allow the grommet  10  to be easily fastened and removed from a car body. 
     The second flexible material molding  12  has a flat tubular shape in the form of a tubular part  12   a , shown in FIGS.  5 (A)-(E). The second flexible material molding  12  has two openings, both of which are elliptical in shape. The second flexible material molding  12  further has a middle part that is generally rectangular in cross section, as shown in FIG.  5 (C). A hooked part is provided on the inner peripheral surface of one end of a tubular part  12   a , and is configured for connection to the first rigid resin molding  14 . A hooked part is also provided on the inner peripheral surface of the other end of the tubular part and is configured for connection to the second rigid resin molding  15 . 
     First hooked parts  12   b  and  12   c  are recessed at a position a predetermined distance from a respective end of the tubular part, similar in arrangement to the hooked part provided on the first flexible material molding  11 . Second hooked parts  12   d  and  12   e  are respectively recessed at a predetermined distance from respective first hooked parts  12   b  and  12   c . A sealing lip  12   f  protrudes from the center between first hooked part  12   b  and second hooked part  12   d , and similarly, a sealing lip  12   g  protrudes from the center between first hooked part  12   c  and second hooked part  12   e.    
     An arrow mark  12   h , shown pointed in the X direction, is provided on the outer peripheral surface of one connection end of the tubular part  12   a , to aid in the connection of the first connection end with the first rigid resin molding  14 . An arrow mark  12   i , also shown pointed in the X direction, is provided on the outer peripheral surface of another connection end of the tubular part  12   a , to aid in the connection of the other connection end with the second rigid resin molding  15 . Three lines  12   j  are also provided near the other end for circumferential directional alignment. 
     The second rigid resin molding  15  is shown in FIGS.  6 (A)- 6 (D) and has a generally flat tubular shape. At a middle part, the second rigid resin molding  15  is longitudinally bent at a moderate angle (about 150 degrees) as shown in FIG.  6 (B). The bend corresponds to the wiring space within the molding  15 . 
     One end opening of the flat tubular part  15   a  is configured to be connected with the other end of the second flexible material molding  12 , and another end opening is configured to be connected with the third flexible material molding  13 . First hooking parts  15   b  and  15   c  are inclined and protrude from the peripheral rims of a respective tubular part opening, and respective second hooking parts  15   d  and  15   e  each protrude at a predetermined distance from respective first hooking parts  15   b  and  15   c . Further, arrow marks  15   f  and  15   g  and three lines  15   h  are provided on the outer peripheral surface of the tubular part  15   a , for circumferential directional alignment of the second rigid resin molding  15 . 
     Further, a frame part  15   k  having a parallelepiped-shape protrudes outwardly from the tubular part  15   a  at a position which is adjacent to the bend region  15   i  of the tubular part  15   a , shown in FIG.  6 (B). Hooking pieces  15   k - 3  and  15   k - 4  are provided on side parts  15   k - 1  and  15   k - 2  thereof. Hooking pieces  15   k - 3  and  15   k - 4  are hooked on a bracket  50 , which is provided on the rear door glass  4  of the vehicle, and is used for fastening the grommet  10  to the rear door glass. The connecting part  15   k - 5  of the frame part  15   k  horizontally maintains the grommet by connecting to the central part of the elliptically-shaped tubular part  15   a . The connecting part  15   k - 5  keeps the grommet  10  stable by contacting the horizontal connecting part  15   k - 5  on the car body surface, and also protects the tubular part  15   a.    
     The third flexible material molding  13  is shown in FIGS.  7 (A)- 7 (D), and has a flat tubular part  13   c  on one end adapted to be connected to the second rigid resin molding  15 . 
     The opposite end is split into two branched tubular parts  13   a  and  13   b , which branch from the tubular part  13   c . Sword-guard parts  13   d  and  13   f  depend from hatch hooking parts  13   a - 1  and  13   b - 1 , which in turn depend from the outer peripheral surface of respective base sides of branched tubular parts  13   a  and  13   b . The hatch hooking parts  13   a - 1  and  13   b - 1  each have a pair of sealing lips  13   a - 2 ,  13   a - 3 ,  13   b - 2  and  13   b - 3 , respectively, as shown in FIG.  7 (C), thereby enhancing the sealing properties of the grommet. Further, slits  13   g  and  13   h  facilitate the insertion of electric wires into the distal portions thereof, the wires being further guided into the branched tubular parts  13   a  and  13   b , which have a diameter smaller at their proximal ends. 
     Further, a first hooked part  13   k  and a second hooked part  13   m  are recessed within tubular part  13   c  for connecting the tubular part  13   c  to the second rigid resin is molding  15 , and a sealing lip  13   n  is provided between the first hooked part  13   k  and the second hooked part  13 m. As seen in FIG.  7 (A), an arrow mark  13   i  that indicates both the insertion direction of electric wires and the assembly direction is provided on the outer peripheral surface of the third flexible material molding  13 . Three lines  13   j  for circumferential directional alignment are also provided. 
     Before the first, second and third flexible material moldings  11 ,  12  and  13 , and the first and second rigid resin moldings  14  and  15  are assembled, as shown in FIG. 1, electric wires are preferably inserted through the moldings  11 - 15  in the following order: through the third flexible material molding  13 , through the second rigid resin molding  15 , through the second flexible material molding  12 , through the first rigid resin molding  14 , and through the first flexible material molding  11 . The marks are provided on the respective moldings in order to ensure the proper insertion direction of the electric wires  30 . Although the branched tubular parts  13   a  and  13   b  of the third flexible material molding  13  at the point of insertion of the electric wires are small in diameter, the electric wires are easily inserted because slits  13   g ,  13   h  are provided. After the insertion, the branched tubular parts  13   a  and  13   b  and the electric wires  30  are preferably wrapped with tape. 
     After the electric wires  30  are passed through the moldings  11 - 15 , they are preferably connected in the following order: the third flexible material molding  13 , the second rigid resin molding  15 , the second flexible material molding  12 , the first rigid resin molding  14 , and the first flexible material molding  11 , which is the same as the insertion order of the electric wires. The ends of the rigid resin moldings  14  and  15  may be pressed into the end openings of the flexible material moldings  11 ,  12  and  13 . When pressing the moldings  11 - 15 , the connecting parts are interfit as shown in FIG.  8 (A) and  8 (B) so that the arrow tip aligns with the center line of the three lines for circumferential directional alignment, which is provided on the respective connecting parts. The circumferential directional alignment is carried out so that the arrow end comes at least between the lines of both sides. The first hooking part is connected with the second hooked part and the second hooking part is connected with the first hooked part respectively while positioning, and the sealing lips that protrude from inner peripheral surfaces of flexible material moldings are pressed in contact with the outer peripheral surfaces of the rigid resin moldings. 
     Thus, after the electric wires are passed through the respective moldings in sequence (which include 5 pieces), the moldings are connected, and therefore the insertion work of the electric wires  30  can be easily performed, and the connection of these moldings can also be easily performed. 
     As shown in FIG. 2, the grommet  10  is installed between the roof panel  1  of automobile and the rear door glass  4  of rear door, whereby the grommet  10  is provided with electric wires  30 , as described above. Moreover, the clip  20  provided on the rigid resin molding  14  is fastened to the frame of the main body of the vehicle. The hooking pieces  15   k - 3  and  15   k - 4  of the frame part  15   k  provided on the second rigid resin molding  15  are hooked on the bracket  40  positioned on the rear door glass  4 . Since the grommet  10  is fastened via the through-holes of the roof panel  1  and the rear door glass  4 , and is further fastened with the clip  20  and the hooking pieces  15   k - 3  and  15   k - 4 , the grommet  10  can be stably retained. 
     The wires pass through the first rigid resin molding  14  and are bent by 90 degrees. These wires are assuredly bent by 90 degrees by the first rigid resin molding  14  against the straight biasing stiffness of the group of electric wires  30 . Therefore the group of electric wires  30  can be controlled without deviating from a fastened wiring diagram. Further, the vehicle area has a narrow space for electric wires. This space is passed by the second rigid resin molding  15  which has a flat elliptic tubular shape. Thus, the group of electric wires  30  can be maintained in a flat position. 
     The present invention is not limited to the above-described mode of operation, and flexible material moldings having a rubber or an elastomer, and rigid resin moldings which are divided in the direction of inserting and passing electric wires, are formed and made as respective flexible material moldings and the rigid resin moldings in accordance with respective positions of the grommet. These moldings are assembled as shown in the above illustrations. The grommet related to the present invention is a construction wherein a grommet has been made of a rubber or an elastomer is divided at requisite positions in the direction of inserting and passing electric wires. The divided parts are formed by flexible material moldings including a rubber or an elastomer, and rigid resin moldings. These moldings are connected in sequence. Accordingly, the requisite positions are formed by the rigid resin moldings, a group of electric wires can be bent by requisite degrees against the stiffness of the group of electric wires, and made flat. 
     As a result, deformation of a grommet by the stiffness of a group of electric wires which often occurs in conventional rubber or elastomer grommets is prevented. Additionally, damage to the grommet and the group of electric wires is prevented. Further, the group of electric wires can be fixedly maintained in position. 
     Further, as the group of electric wires are protected by the grommet in the weather-exposed area of an automobile, the electric wires are thus kept dry. 
     It is noted that the foregoing examples have been provided merely for the purpose of explanation and are in no way to be construed as limiting of the present invention. While the present invention has been described with reference to certain embodiments, it is understood that the words which have been used herein are words of description and illustration, rather than words of limitation. Changes may be made, within the purview of the appended claims, as presently stated and as amended, without departing from the scope and spirit of the present invention in its aspects. Although the present invention has been described herein with reference to particular means, materials and embodiments, the present invention is not intended to be limited to the particulars disclosed herein; rather, the present invention extends to all functionally equivalent structures, methods and uses, such as are within the scope of the appended claims. 
     The present disclosure relates to subject matter contained in Japanese Utility Model Application No. JP 10-137269, filed May 19, 1998, which is expressly incorporated herein by reference in its entirety.