The present invention relates to a fuel filler tube opening structure.
Patent Literature 1, for example, discloses a fuel filler tube opening structure that does not use a screw cap for the fuel filler tube opening. In the fuel filler tube opening structure disclosed in Patent Literature 1, a plate-shaped opening/closing valve provided within the fuel filler tube opening is normally pressed toward an edge of the fuel filler tube opening, and after a fuel lid is opened, the opening/closing valve can be opened by being pushed by a fuel filling gun from outside the fuel filler tube opening. Thus, fuel-filling operation to insert a fuel filling gun into the fuel filler tube opening can be facilitated.
With the fuel filler tube opening structure disclosed in Patent Literature 1, however, the upper surface of the plate-shaped opening/closing valve and the edge of the fuel filler tube opening tend to collect dust, water, etc. and, even if the dust, water, etc. is wiped, the dust, water, etc. still remaining on the opening/closing valve and the fuel filler tube opening edge would drop into the fuel filler tube opening as the opening/closing valve is pushed open by the fuel filling gun.
If a lid for the fuel filler tube opening is provided integrally with a fuel lid, dust can be prevented from being collected on the opening/closing valve. But, as the time passes after the fuel lid is closed, there would occur a possibility of the lid (protective cover) undesirably sticking to the fuel filler tube opening edge.
Patent Literature 1: Japanese Patent Application Laid-Open Publication No. 2009-83703
It is therefore an object to provide a fuel filler tube opening structure which can not only prevent dust, water, etc. entering the fuel filler tube opening but also prevent the protective cover from sticking to the fuel filler tube opening.
According to claim 1 of the instant application, there is provided a fuel filler tube opening structure, which comprises: a fuel adaptor supported on a vehicle body of a vehicle and disposed inside the vehicle body; a fuel lid for openably closing an opening section formed in the vehicle body having the fuel adaptor supported thereon; and a protective cover provided on the inner surface of the fuel lid, the protective cover surrounding an insertion opening portion of a mouthpiece, constituting a fuel filler tube opening, in spaced relation to the insertion opening portion.
Preferably, in the invention recited in claim 2, the protective cover is formed of resin, as a separate component from the fuel lid.
Preferably, in the invention recited in claim 3, the fuel filler tube opening is oriented obliquely upward with respect to the vehicle, the protective cover has an eave section extending to a region above the fuel filler tube opening, and the eave section has a flange portion formed on an edge portion thereof and bent from the edge portion radially outward of the protective cover.
Preferably, in the invention recited in claim 4, the flange portion is formed along the entire periphery of the protective cover.
Preferably, in the invention recited in claim 5, the protective cover is mounted to a cover fixation section that is fixed to the fuel lid, and a cut-and-bent or lanced tab for engaging with the cover fixation section is formed on the protective cover below the fuel filler tube opening.
Preferably, in the invention recited in claim 6, the fuel adaptor has a drain hole formed therein below the fuel filler tube opening, and the protective cover is disposed above the drain hole.
Preferably, in the invention recited in claim 7, the fuel filler tube opening includes a lid ring section extending radially inward of the fuel filler tube opening, and a stepped section formed integrally with the lid ring section and projecting close to the protective cover. Also, the stepped section has the insertion opening portion for fuel filling therethrough.
In the fuel filler tube opening structure of the invention recited in claim 1, the protective cover provided on the inner surface of the fuel lid surrounds the insertion opening portion of the fuel filler tube opening in spaced relation to the insertion opening portion. Thus, the fuel filler tube opening structure of the invention can not only prevent minute foreign substances, such as dust, from entering the fuel filler tube opening but also prevent the protective cover from sticking to the insertion opening portion of the fuel filler tube opening.
Further, in the fuel filler tube opening structure of the invention recited in claim 2, the protective cover is formed of resin, as a separate component from the fuel lid. Thus, manufacturing of the protective cover can be facilitated, and besides, the protective cover can be easily formed in a desired shape corresponding to a layout of components around the protective cover and a shape of the fuel filler tube opening.
Further, in the fuel filler tube opening structure of the invention recited in claim 3, the fuel filler tube opening is oriented obliquely upward with respect to the vehicle, the protective cover has an eave section extending to a region above the fuel filler tube opening, and the eave section has a flange portion formed on an edge portion thereof and bent from the edge portion radially outward of the protective cover. Thus, even when water, such as rain or vehicle washing water, has traveled from above onto an upper portion of the protective cover, such water is stopped by the flange portion. Namely, even when water has traveled to the protective cover, the present invention can reliably prevent the water from reaching the fuel filler tube of the fuel filler tube opening and the insertion opening portion of the fuel filler tube opening.
Further, in the invention recited in claim 4, the flange portion is formed along the entire periphery of the protective cover. Thus, the present invention allows the flange portion to guide and discharge water downwardly of the fuel filler tube opening.
Further, in the invention recited in claim 5, the protective cover is mounted to a cover fixation section that is fixed to the fuel lid, and the lanced tab for engaging with the cover fixation section is formed on the protective cover below the fuel filler tube opening. Thus, even if water has traveled via the lanced tab of the cover fixation section, the water would never reach the fuel filler tube of the fuel filler tube opening and the insertion opening portion of the fuel filler tube opening.
Furthermore, in the invention recited in claim 6, the fuel adaptor has a drain hole formed therein below the fuel filler tube opening, and the protective cover is disposed above the drain hole. Thus, the present invention can prevent minute foreign substances, such as dust having entered through the drain hole, from reaching the fuel filler tube through the insertion opening portion of the fuel filler tube opening. Particularly, in a case where a drain tube is not connected to the drain hole, the present invention can prevent minute foreign substances, such as dust, from reaching the interior of the fuel filler tube opening.
Furthermore, in the invention recited in claim 7, the fuel filler tube opening includes the lid ring section formed on an edge portion of the fuel filler tube opening and the stepped section formed integrally with the lid ring section, and the stepped section has the insertion opening portion for fuel filling therethrough. Thus, in case water drops from the protective cover to near the insertion opening portion, the dropped water is directed downward along the stepped section, and thus, the dropped water does not reach the insertion opening portion. Namely, even when water has flown beyond the protective cover to reach the fuel filler tube opening, the water can be reliably prevented, by the stepped section, from reaching the insertion opening portion of the fuel filler tube opening.
A description will be given about embodiments of the present invention with reference to the accompanying drawings.
As shown in
As shown in
A tubular fuel adaptor 17 projecting toward the interior of the vehicle body is mounted at its one end edge portion to the opening section 13. The mouthpiece 20 is disposed in an opening portion of the fuel adaptor 17 at and near the other end of the fuel adaptor 17.
The mouthpiece 20 comprises a first mouthpiece 23 and a second mouthpiece 22. The second mouthpiece 22 is fitted over one end portion of the feeder tube 51, and the first mouthpiece 23 is mounted on a distal end portion of the second mouthpiece 22.
When the fuel lid 16 is opened, fuel can be fed to the fuel introduction tube 18. When the fuel lid 16 is closed, the fuel lid 16 is located close to the first mouth piece 23 mounted on the second mouth piece 22 and functions as a lid for the fuel filler tube opening 15. Within the feeder tube 51 is provided an opening/closing valve of a known type that opens only as a not-shown fuel filling gun is inserted into the fuel filler tube opening 15.
The embodiment of the fuel filler tube opening structure of the present invention comprises the fuel adaptor 17 disposed inside the vehicle body 27 and supported on the vehicle body 27, and the fuel lid 16 for freely openably closing the opening section 13 formed in the vehicle body 27 having the fuel adaptor 17 supported thereon.
The fuel lid 16 includes a tubular protective cover 32 provided on the inner surface 31 of the fuel lid 16. The inner end of the protective cover 32 is spaced, in an axial direction of the fuel introduction tube 18, from the distal end of the first mouthpiece 23 by a distance δ. The inner diameter at the inner end of the protective cover 32 is greater than the outer diameter of the first and second mouthpieces 23 and 22. Namely, the inner end of the protective cover 32 extends short of the outer periphery of the second mouthpiece 22.
As another embodiment of the present invention, the inner end of the protective cover 32 may extend to the outer periphery of the second mouthpiece 22 so as to surround the outer periphery of the second mouthpiece 22.
The protective cover 32 is formed of resin, as a separate component from the fuel lid 16, by means of a mold attached to an injection molding machine.
The fuel introduction tube 18 has a longitudinal axis 33 extending obliquely upward with an inclination angle a relative to the horizontal line. A depth of the fuel filler tube opening 15 corresponds to a distance through which a fuel filling gun of a gas station has to be inserted to reach the fuel introduction tube 18.
The protective cover 32 has an eave section 35 extending to a region immediately above the first mouthpiece 23 (i.e., a region spaced from the first mouthpiece 23 in a direction of arrow al). The eave section 35 has a flange portion 37 formed on its edge portion 36 and bent from the edge portion 36 to extend radially outward of the eave section 35. The flange portion 37 is formed along the entire periphery of the eave section 35.
The protective cover 32 is mounted to the fuel lid 16 via a cover fixation section 38 that is fixed to the fuel lid 16. The fuel lid 16 has cut-and-bent or lanced tabs 41 (
As shown in
The elastic member 40 has a drain hole 42 formed therein, and the protective cover 32 is located higher than the drain hole 42.
The first mouthpiece 23 has a lid ring section 44 as a base section mounted to the distal end portion of the second mouthpiece 22, and a stepped section 45 projecting from the inner end of the lid ring section 44 toward the protective cover 32 and then extending toward the center of the lid ring section 44. The stepped section 45 has a fuel-filling-gun insertion opening portion 24 for fuel filling through the fuel filler tube opening 15.
As shown in
As shown in
The first mouthpiece 23 further has a flat section 55 formed continuously or integrally with the stepped section 45 in opposed relation to the fuel adaptor 17. The insertion opening portion 24 for permitting insertion of the fuel filling gun is formed in the flat section 55.
The cover fixation section 38 provided on the inner surface 31 of the fuel lid 16 has a cover support portion 58. The eave section 35 of the protective cover 32 mounted to the cover fixation section 38 has a radius greater than a radius of the insertion opening portion 24 of the first mouthpiece 23 and an inner radius of the second mouthpiece 22. The radius of the insertion opening portion 24 is smaller than the inner radius of the second mouthpiece 22.
The eave section 35 has a cover distal end portion 61 formed parallel to the flat section 55 of the first mouthpiece 23 and the distal end portion of the second mouthpiece 22. As shown in
The flange portion 37 formed integrally with the cover distal end portion 61 lies parallel to the flat section 55 of the first mouthpiece 23 and the distal end portion of the second mouthpiece 22. Differences between the cover distal end portion 61 and the edge portion 36 of the eave section 35 are that the edge portion 36 has a length parallel to the axis line 63 from the cover distal end portion 61 and that the cover distal end portion 61 is a distal end surface spaced from the flat section 55 of the first mouthpiece 23 by the distance δ.
As shown in
Further, as shown in
Because dust is collected on the protective cover 32 during the time when dust settles down from a floating state in a space 66 defined between the fuel lid 16 and the fuel adaptor 17, it would be difficult for the dust to enter the insertion opening portion 24 through the gap 6 between the protective cover 32 and the insertion opening portion 24 of the first mouthpiece 23.
If water, such as rain or vehicle washing water, enters through a gap between the fuel lid 16 and the opening section 13 of the side body 12, it is directed through the drain hole 42 to be discharged via a drain tube 67.
Further, as shown in Figs, 2 and 3, if water flows from an upper portion 68 of the fuel lid 16 to the protective cover 32 as indicated by arrow a3, the water would be stopped by the flange portion 37 without flowing as indicated by arrow a4. As a consequence, the flange portion 37 directs the water downward, and thus, the water can be prevented from flowing to the insertion opening portion 24 of the first mouth piece 23 and to the opening of the second mouthpiece 22 and from dropping down.
In case water having traveled to the protective cover 32 drops from the protective cover 32 to near the second mouthpiece 22 and the insertion opening portion 24, the dropped water is directed downward along the stepped section 45 as indicated by arrow a7; thus, the dropped water does not reach the stepped section 45. Namely, even when water has flown beyond the protective cover 32 to reach the mouthpiece 20 as indicated by arrow a6, the water is directed along the stepped section 45 as indicated by arrow a7, and thus, the water can be reliably prevented from reaching the opening of the second mouthpiece 22 and the insertion opening portion 24 of the first mouthpiece 23.
INDUSTRIAL APPLICABILITY
The fuel filler tube opening structure of the present invention is well suited for application to motor vehicles.
11 . . . vehicle, 13 . . . opening section, 15 . . . fuel filler tube opening, 16 . . . fuel lid, 17 . . . fuel adaptor, 18 . . . fuel introduction tube, 20 . . . mouthpiece, 22 . . . second mouthpiece, 23 . . . first mouthpiece, 24 . . . insertion opening portion, 27 . . . vehicle body, 31 . . . inner surface of the fuel lid, 32 . . . protective cover, 35 . . . eave section, 36 . . . edge portion of the eave section, 37 . . . flange portion, 38 . . . cover fixation section, 41 . . . lanced tab, 42 . . . drain hole, 44 . . . lid ring section, 45 . . . stepped section, 6 . . . spaced apart distance
Number | Date | Country | Kind |
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2010-231614 | Oct 2010 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2011/071615 | 9/22/2011 | WO | 00 | 4/23/2013 |