GB2089419A

GB2089419A - Molding fastening structure

Info

Publication number: GB2089419A
Application number: GB8130085A
Authority: GB
Original assignee: Nissan Motor Co Ltd
Current assignee: Nissan Motor Co Ltd
Priority date: 1980-10-13
Filing date: 1981-10-06
Publication date: 1982-06-23
Also published as: JPS5766941U; JPS5919640Y2; DE3139911A1; FR2492018A1

Abstract

A molding fastening structure for fastening a molding (1) to a body panel (2) through a plurality of openings (4) formed in the body panel (2), comprises a plurality of projections (16) longitudinally extending rearwardly of the molding (1) to pass through the openings (4), respectively, of the body panel (2), a plurality of fastener members (19) each of which is fastenable to each of the projections (16), and a plurality of fastening means (26) each of which provides fastening engagement between each of the projections (16) of the molding (1) and each of the fastener members (19). Each of the fastener members (19) has a head portion (20) and at least one pair of pliable arm portions (22) integral with and opening away from the head portion (20). Each of the arm portions (22) is formed at its free end with an abutment surface (23) to be in abutting engagement with the peripheral edge (24) of the opening (4). <IMAGE>

Description

SPECIFICATION Molding fastening structure The present invention relates to a molding fastening structure especially for use in a vehicle body of an automotive vehicle and, more particularly, to a molding fastening structure for fastening a molding to a body panel through a plurality of openings formed in the body panel.

In accordance with the present invention, there is provided a molding fastening structure for fastening a molding to a body panel through a plurality of openings formed in the body panel. The molding fastening structure comprises a plurality of projections extending longitudinally rearwardly of the molding to pass through the openings, respectively, of the body panel, a plurality of fastener members each of which is fastenable to each of the projections, and a plurality of fastening means each of which provides fastening engagement between each of the projections of the molding and each of the fastener members, wherein each of the fastener members has a head portion and at least one pair of pliable arm portions integral with and opening away from the head portion, each of the arm portions being formed at its free end with an abutment surface to be in abutting engagement with the peripheral edge of the opening. The abutment surface of each of the arm portions may be inclined with respect to the inner surface of the body panel.

Further, the abutment surface of each of said arm portions may be formed with at least one stepped portion to be in abutting engagement with the peripheral edge of the opening.

Drawbacks of a prior-art molding fastening structure and detailed features and advantages of a molding fastening structure according to the present invention will be understood from the following description taken in conjunction with the accompanying drawings in which like reference numerals designate similar or corresponding members, elements and portions and in which: Fig.T is an exploded side view, party in cross section, of a prior-art molding fastening structure, Fig. 2 is a cross sectional side view of another prior-art molding fastening structure and showing a molding fastened to a body panel, Fig. 3 is a side view, partly in cross section, of a first embodiment of a molding fastening structure according to the present invention and showing one modification of a fastener member and one modification of fastening means both of which form part of the molding fastening structure, Fig. 4 is a side view, partly in cross section, of a second embodiment of the molding fastening structure according to the present invention and showing another modification of the fastener member of the molding fastening structure, and Fig. 5 is an exploded side view, partly in cross section, of a third embodiment of the molding fastening structure according to the present invention and showing another modification of the fastening means of the molding structure.

In general, an existing vehicle body of an automotive vehicle is provided with various moldings including a body sill molding, a front pillar molding, a drip center molding, a drip rear molding and the like for concealing gaps formed between adjacent body panels for the purpose of providing an excellent internal and external appearances of the vehicle body. Such moldings are usually fastened to the vehicle body by suitable molding fastening structures.

Description will be first made with reference to Figs. 1 and 2 which show representative prior-art molding fastening structures for use in a vehicle body. In Fig. 1 of the drawings, the prior-art molding fastening structure is shown for fastening a molding 1 to a body panel 2 through a plurality of clip members 3. The body panel 2 is formed with a plurality of openings 4 arranged at a predetermined interval in the longitudinal direction of the molding 1 to be in engagement with the clip members 3, respectively. The molding 1 has a plurality of projections 5 each of which is formed in a generally nipple configuration and which are arranged at a predetermined interval in the longitudinal direction of the molding 1 and extend longitudinally rearwardly of the molding 1.Each of the clip members 3 has a generally cylindrical configuration and is thus formed therein with an axial hole 6 tapered toward the axially inner end thereof and a pair of slots 7 extending axially from the axially inner end thereof and terminating at the longitudinally intermediate portion thereof. The clip member 3 further includes a flange portion 8 formed at the axially outer end thereof, a tapered portion 9 having an outer circumferential surface tapered toward the axially inner end thereof, and a wedge-shaped circumferential groove 10 formed between the flange portion 8 and the tapered portion 9 so as to form a circumferential edge 11 having a diameter largest in the tapered portion 9 and slightly larger than the diameter of the opening 4 formed in the body panel 2.

In the molding fastening structure thus constructed above, the tapered portions 9 of the clip members 3 are forced into the openings 4, respectively, in a direction indicated by an arrow A in Fig. 1 while being facilitated in resilient deformation through the slots 7 until the circumferential grooves 10 are tightly engaged with the openings 4, respectively, of the body panel 2. The projections 5 of the molding 1 are then forced into the axial holes 6, respectively, of the clip members 3 in a direction indicated by an arrow B in Fig. 1 to cause the molding 1 to be fastened to the body panel 2 at its predetermined position.In the foregoing prior-art molding fastening structure, the distance between the center axes of adjacent openings 4 of the body panel 2 is required to be substantially equal to the distance between the center axes of the adjacent two clip members 3 and accordingly the distance between the axes of the adjacent two projections 5 so as to enable the projections 5 to be readily forced into the axial holes 6 of the clip members 3, respectively. The reason is that the clip members 3 cannot be moved in the openings 4 in the longitudinal direction of the molding 1.Difficulties is therefore encountered in that the openings 4 are required to be accurately formed in the body panel 2 so as to have respective center axes in coincidence with the center axes of the projections 5 of the molding 1 for the reason that the projections 5 cannot be forced into the respective axial holes 6 of the clip members 3 if the distance between the center axes of the adjacent two openings 4 is not equal to the distance between the center axes of the adjacent two axial holes 6 and accordingly the distance between the center axes of the adjacent two projections 5.

In order to overcome such difficulties encountered in the foregoing prior-art molding fastening structure, there is proposed another prior-art molding fastening structure which is shown in Fig. 2 of the drawings. The molding 1 herein shown has a plurality of anchor projections 12 which are arranged at a predetermined interval in the longitudinal direction of the molding 1. Each of the anchor projections 12 has a generally arrowhead-shaped configuration and thus includes a shank portion 13 extending longitudinally rearwardly from the molding 1 and having a cross-sectional diameter smaller than the diameter of the opening 4, and a pair of pliable arm portions 14 and 14' turned back toward the molding 1 in a generally V-shaped configuration from the leading end of the shank portion 13.The pliable arm portions 14 and 14' have respective free ends which are sufficiently wide to be in abutting engagement with the inner surface of the body panel 2 around the opening 4. For fastening the molding 1 to the body panel 2 by the molding fastening structure just mentioned above, the arrowhead-shaped anchor projections 12 are forced into the respective openings 4 of the body panel 2 while the pliable arm portions 14 and 14' are deformed toward each other by the openings 4. Immediately after the pliable arm portions 14 and 14' have passed through the openings 4, respectively, the free ends of the pliable arm portions 14 and 14' are brought into abutting engagement with the inner surface of the panel body 2 around the openings 4.In this instance, an annular gap 1 5 is formed between the shank portion 13 of the anchor projection 12 and the peripheral wall of the opening 4 when the molding 1 is fastened to the body panel 2 at its predetermined position so that the molding 1 is readily moved and dislocated from its predetermined position.

The present invention contemplates provision of an improved molding fastening structure which eliminates such drawbacks inherent in the priorart molding fastening structures.

Fig. 3 of the drawings shows a first embodiment of the molding fastening structure according to the present invention. The molding fastening structure is shown comprising a plurality of projections 1 6 arranged at a predetermined interval in the longitudinal direction of the molding 1 and extending longitudinally rearwardly of the molding 1. Each of the projections 1 6 has formed therein an internally threaded bore 1 7 extending from the free end thereof and terminating at the intermediate portion thereof. The projection 1 6 has a cross-section smaller in diameter than that of the opening 4 so that an annular gap 18 is formed therebetween when the projection 16 is positioned in the opening 4.The molding structure further comprises a plurality of fastener members 19 each of which has a generally U-shaped configuration and one of which is shown in Fig. 3 as comprising a head portion 20 having an axially extending hole 21 and a pair of pliable arm portions 22 integral with the head portion 20 and opening away from the head portion 20. Each of the arm portions 22 is formed at its free end with an abutment surface 23 to be in abutting engagement with the peripheral edge 24 of the opening 4. The abutment surface 23 of the arm portion 22 is assumed by way of example to be inclined with respect to the inner surface of the body panel 2 so as to ensure abutting engagement between the abutment surface 23 of the arm portion 22 and the peripheral edge 24 of the opening 4.The opening 4 has a cross-sectional area sufficiently large to allow the head portion 20 of the fastener member 1 9 to pass therethrough but slightly smaller than the maximal width of the arm portions 22 of the fastener member 19 so that the fastener member 1 9 can be passed through the opening 4 in the direction indicated by an arrow C in Fig. 3 as long as the arm portions 22 are shrinkingly deformed toward each other by the opening 4. A plurality of slotted-head cap screws 25 have respective stem portions each of which passes through the hole 21 of the head portion 20 of the fastener member 19 and is held in threaded engagement with the internally threaded bore 1 7 of the projection 1 6.The slotted-head cap screws 25 and the internally threaded bores 17 constitute as a whole a plurality of fastening means, generally indicated at 26, each of which provides fastening engagement between each of the projections 1 6 and each of the fastener members 19.

Before fastening the molding 1 to the body panel 2, the fastener members 1 9 are respectively fastened to the projections 1 6 in such a manner that the stem portions of the slotted-head cap screws 25 are respectively caused to pass through the holes 21 of the head portions 20 of the fastener members 19 and then to screw to the internally threaded bores 1 7. The fastener members 1 9 are then respectively disposed in axial alignment with the openings 4 and moved toward the openings 4 until the head portions 20 are respectively passed through the openings 4 but the arm portions 22 are in part received in the openings 4, respectively. When the molding 1 is then struck on the outer surface thereof by a hammer under these circumstances, the arm portions 22 are forcibly deformed toward each other and passed through the openings 4 until the arm portions 22 recover from their resilient deformations and assume respective original configurations where the abutment surfaces 23 of the arm portions 22 are respectively held in abutting engagement with the peripheral edges 24 of the openings 4. As a consequence, the molding 1 is firmly fastened to the body panel 2 without being moved in any direction even if each of the annular gaps 1 8 is formed between each of the projections 1 6 and each of the openings 4.As will be seen from Fig. 3, the abutment surfaces 23 of each of the arm portions 22 of the fastener members 19 has an adequate area and each of the fastener members 1 9 has a generally Ushaped configuration as described above, with the result that the molding 1 is reliably attached to the body panel 2 even if there are some production deviations in the projections 1 6 and the fastener members 1 9. Where some projections 1 6 are slightly long in comparison with the axial lengths of the openings 4 caused by the thickness of the body panel 2, suitable washers may be respectively intervened between the projections 1 6 and the head portions 20 of the fastener members 1 9 if desired.

While it has been described in the above that a pair of pliable arm portions 22 are integrally formed with the head portion 20, the number of arm portions 22 may be increased if desired.

According to the present invention, however, at least one pair of arm portions 22 are required for one head portion 20.

The molding fastening structure thus constructed and arranged causes the molding 1 to be reliably fastened to the body panel 2 without movement and dislocation of the molding 1 from its predetermined position even if there are some production deviations in the projections 1 6 and the fastener members 1 9.

Fig. 4 of the drawings shows a second embodiment of the molding fastening structure according to the present invention. The embodiment herein shown is largely similar to the first embodiment just mentioned except for the configuration of each of the arm portions 22 of the fastener member 1 9. As will be seen from Fig. 4, each of the arm portions 22 has an abutting surface formed with a plurality of stepped portions 23' one of which is to be in abutting engagement with the peripheral edge 24 of the opening 4.In this instance, any one of the stepped portions 23' can be brought into engagement with the peripheral edge 24 of the opening 4 even if there is employed a molding 1 with slightly long or short projections 1 6. According to the present invention, at least one stepped portion may be formed on the abutting surface of each of the arm portions 22. The remaining elements and portions are substantially identical to those of the first embodiment and thus simply numbered by the same reference numerals as those of the first embodiment without tedious repetition of these particular description hereinafter.

Fig. 5 of the drawings shows a third embodiment of the molding fastening structure according to the present invention. The embodiment herein shown is also largely similar to the first and second embodiments except for the fastening means 26'. The fastening means 26' is shown comprising a stem portion integral with the head portion 20 and threaded to be in threaded engagement with the internally threaded bore 1 7 of the projection 1 6. Similarly, the remaining elements and portions are substantially identical to those of the first and second embodiments and thus simply numbered by the same reference numerals as those of the first and second embodiments without tedious repetition of these particular description hereinafter.

Claims

1. A molding fastening structure for fastening a molding to a body panel through a plurality of openings formed in the body panel, comprising: a plurality of projections extending longitudinally rearwardly of said molding to pass through the openings, respectively, of said body panel, a plurality of fastener members each of which is fastenable to each of said projections, and a plurality of fastening means each of which provides fastening engagement between each of said projections of said molding and each of said fastener members, wherein each of said fastener members has a head portion and at least one pair of pliable arm portions integral with and opening away from the head portion, each of said arm portions being formed at its free end with an abutment surface to be in abutting engagement with the peripheral edge of said opening.

2. A molding fastening structure as set forth in claim 1, in which said abutment surface of each of said arm portions is inclined with respect to the inner surface of said body panel.

3. A molding fastening structure as set forth in claim 1, in which said abutment surface of each of said arm portions is formed with at least one stepped portion to be in abutting engagement with the peripheral edge of said opening.

4. A molding fastening structure substantially as described with reference to, and as illustrated in Fig. 3, or Fig. 4, or Fig. 5 of the accompanying drawings.