The present invention relates to a fuel filler port device that enables fuel feeding, when a fuel filler nozzle is inserted, by opening a fuel filler port and allowing the insertion.
Patent Literature 1 discloses a device enabling fuel feeding, that is attached to an upper end of a filler pipe (also referred to as an inlet pipe), and is opened by insertion of a fuel filler nozzle of a fuel filler gun.
The device of Patent Literature 1 has an upper side closing body and a lower side closing body that are pushed and opened by the fuel filler nozzle, and thereby, the device does not need a screwed-type fuel filler port cap.
Patent Literature 1: JP 4048952 B2
A main problem to be solved by the present invention is, in the fuel filler port device of the type, when a failure such as a damage and wear occurs in a part composing the fuel filler port device, to make detachment and exchange of the part of a filler pipe, easy to be performed without damaging a filler pipe side.
In order to solve the problem described above, in the present invention, a fuel filler port device is configured to be attached to a filler pipe, and opened and closed by a fuel filler nozzle,
the fuel filler port device has a cover member that has an introduction opening of the fuel filler nozzle, and accommodates in a window hole an engagement portion formed in the filler pipe side to be engaged to the filler pipe side,
an insertion portion is formed adjacent to the engagement portion in a circumferential direction of the filler pipe, and
the engagement is releasable by deformation or destruction of the cover member side by insertion of a part of a tool, or the like, to the insertion portion.
When a damage or wear occurs in the cover member due to insertion, detachment, or the like of the fuel filler nozzle, apart of a tool, or the like, such as a tip end of a driver, is inserted to the insertion portion through the window hole of the cover member, and a part of the cover member located in between the window hole and a lower end of the cover member, is deformed or destroyed by the part of the tool, or the like, and thereby, the cover member can be easily detached from the filler pipe.
In an aspect of the present invention, the engagement portion is composed of two engagement projection portions that are adjacent to each other with the insertion portion therebetween in the circumferential direction of the filler pipe. In such configuration, while the engagement strength of the engagement portion with respect to the window hole is secured, the engagement can be easily released.
In an aspect of the present invention, a recess is formed in an outer surface portion of the filler pipe side, in the insertion portion. In such configuration, insertion of a part of a tool, or the like, to the insertion portion can be sufficiently facilitated.
In an aspect of the present invention, a closing member that opens the introduction opening by introducing the fuel filler nozzle, is included in the cover member. In an aspect of the present invention, in this case, a guide member of the fuel filler nozzle is included in a deeper side of the closing member, a seal member including a deeper side closing member that is opened and closed by the fuel filler nozzle is included in a deeper side of the guide member, detachment of the guide member is allowed by releasing the engagement of the cover member and detaching the cover member from the filler pipe side, and detachment of the seal member is allowed by the detachment of the guide member.
According to the present invention, detachment and exchange of a part can be easily performed without damaging a filler pipe side, when a failure such as a damage and wear occurs in the part composing a fuel filler port device.
A typical embodiment of the present invention will be described below with reference to
That is, when the fuel filler nozzle (not illustrated) of a fuel filler gun is inserted to the fuel filler port 5, the fuel filler port device rotates a closing member 11 and a deeper side closing member described layer and allows the insertion of the fuel filler nozzle to an open position, and enables fuel feeding. When the inserted fuel filler nozzle is withdrawn, the fuel filler port device moves back the closing member 11 and the deeper side closing member 31 described later to a closed position, and automatically closes the fuel filler port 5. Thereby, the fuel filler port device does not need a screwed-type cap of the fuel filler port 5.
The fuel filler port device is attached to an upper end portion of a filler pipe (fuel injection pipe).
In the illustrated example, as illustrated in
The holder member 4 is attached to the filler pipe to be integrated with the filler pipe, and serves as a filler pipe side 6 with respect to the cover member 1, the guide member 2, and the seal member 3. The seal member 3 fits in the holder member 4, and the guide member 2 fits in the seal member 3. The cover member 1 is configured to be able to accommodate an upper portion side of the holder member 4 incorporating the seal member 3 and the guide member 2 in the inside, and attached to the holder member 4.
That is, in the embodiment, as illustrated in
Thereby, in the embodiment, when a damage or wear occurs in the cover member 1 due to insertion, detachment, or the like of the fuel filler nozzle, the cover member 1 can be exchanged by being detached from the filler pipe side 6. In the embodiment, as described later, detachment of the cover member 1 from the filler pipe side 6 is facilitated.
When a damage or wear occurs in the guide member 2 due to insertion, detachment, or the like of the fuel filler nozzle, the guide member 2 can be exchanged by being detached from the filler pipe side 6, by detaching the cover member 1.
When a damage or wear occurs in the seal member 3 due to insertion, detachment, or the like of the fuel filler nozzle, the seal member 3 can be exchanged by being detached from the filler pipe side 6, by detaching the cover member 1, and then detaching the guide member 2.
(Holder Member 4)
As illustrated in
As illustrated in
Among the three engagement portions 46 . . . 46, two engagement portions 46, 46 illustrated in
Particularly, in the illustrated example, regarding the two engagement portions 46, 46 illustrated in
In the engagement projection 46b, a lower side from a top portion 46e is an engagement part 46c, and an upper side from the top portion 46e is an inclined portion 46d in which a projection length of the engagement projection portion 46b gradually increases as approaching the top portion 46e.
In the illustrated example, as illustrated in
In the illustrated example, as illustrated in
(Seal Member 3)
As illustrated in
An outer diameter of the cylindrical main body 30 is substantially equal to an inner diameter of the holder member 4.
In the illustrated example, a notch portion 33 extending from the upper end of the cylindrical main body 30 to near the partition wall 32 is formed. A projection portion 34 hemming a lower edge of the notch portion 33 is formed in an outer side of the cylindrical main body 30 (see
As illustrated in
In the illustrated example, as illustrated in
As illustrated in
(Guide Member 2)
As illustrated in
On an outer circumferential portion of the guide member 2, an engaged portion 22 with respect to a second engagement portion 37 of the seal member 3 is formed in each position facing each other with respect to the through hole 20 therebetween. A guide protruding portion 23 accommodated in the notch portion 33 of the seal member 3 is formed (see
As illustrated in
As illustrated in
In the illustrated example, when the guide member 2 is inserted to the seal member 3 from the upper end of the seal member 3 in a direction in which the guide protruding portion 23 of the guide member 2 is accommodated in the notch portion 33 of the seal member 3, the elastic engagement piece 37a that is the second engagement portion 37, abuts against the outer surface below the engagement step 22b of the guide member 2, and bends outward, to allow the insertion. The elastic engagement piece 37a that is the second engagement portion 37 elastically recovers in a position in which the guide protruding portion 23 abuts against the lower end of the notch portion 33, and the free end of the elastic engagement piece 37a is caught by the engagement step 22b, in the upper side of the engagement step 22b. By this catching, the fitting state of the guide member 2 to the seal member 3 is maintained.
(Cover Member 1)
As illustrated in
A notch portion 12 that is opened in a lower end, and extends to a slightly lower position than the middle position in the vertical direction of the cylindrical main body 10, is formed in the cylindrical main body 10 of the cover member 1. Three window holes 13 . . . 13 are formed to be spaced from the adjacent window hole 13 in the circumferential direction R of the filler pipe, in the lower end side of the cylindrical main body 10.
In the illustrated example, as illustrated in
As illustrated in
When a damage or wear occurs in the cover member 1 due to insertion, detachment, or the like of the fuel filler nozzle, apart of a tool, or the like, such as a tip end of a driver, is inserted to the insertion portion 46a through the window hole 13 of the cover member 1, and a part 14 of the cover member 1 located in between the window hole 13 and a lower end of the cover member 1, is deformed or destroyed by the part of the tool, or the like, and thereby, the cover member 1 can be easily detached from the filler pipe. In the illustrated example, a part of a tool, or the like, is inserted from upward to the insertion portion 46a located in between the adjacent engagement projection portions 46b serving as the engagement portion 46 located in one window hole 13, and the part 14 of the cover member 1 is deformed toward the outside, and thereby, the engagement of the cover member 1 with the holder member 4 is released. In the illustrated example, the recess 46f is formed in the outer surface portion of the holder member 4 in the insertion portion 46a to sufficiently facilitate the insertion of a part of a tool, or the like, to the insertion portion 46a. When the insertion portion 46a is provided in the adjacent engagement projection portions 46b, 46b serving as the engagement portion 46 located in one window hole 13, while the engagement strength of the engagement portion 46 to the window hole 13 is secured, the engagement can be easily released.
When a damage or wear occurs in the guide member 2 due to insertion, detachment, or the like of the fuel filler nozzle, after the cover member 1 is detached, a part of a tool, or the like is inserted to the wide groove shaped recess 22a of the guide member 2 from upward, and the elastic engagement piece 37a serving as the second engagement portion 37 is bent to the outside to release the engagement of the elastic engagement piece 37a and the engagement step 22b, and thereby, the guide member 2 can be easily detached from the seal member 3.
In the embodiment, inward bending of the first engagement portion 35 of the seal member 3 is allowed by detaching the guide member 2 as described above. Thus, when a damage or wear occurs in the seal member 3 due to the insertion, detachment, or the like of the fuel filler nozzle, after the guide member 2 is detached, the upper end of the first engagement portion 35 is pressed inward to release the engagement of the first engagement portion 35 and the engagement hole 47 of the holder member 4, and thereby, the seal member 3 can be easily detached from the holder member 4.
Naturally, the present invention is not limited to the embodiment described above, and includes all embodiments with which the object of the present invention can be achieved.
1 Cover member
All contents of the specification, claims, drawings, and abstract of Japanese Patent Application No. 2015-177267 filed on Sep. 9, 2015 are referred herein, and incorporated as a disclosure of the specification of the present invention.
Number | Date | Country | Kind |
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2015-177267 | Sep 2015 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2016/075358 | 8/30/2016 | WO | 00 |