COMPOUND SPRING FOR CAPLESS FUEL DOOR

Abstract

A capless fuel door assembly including a body pivotally supported within a housing of the vehicle between closed and opened positions. The body includes an exterior projection exhibiting an angled slide. A spring is secured to the housing and includes an extended portion supported against an end stop location of the projection defining a first end of said angled slide in order to exert the body in the closed position, with opening of the body about the pivot causing a decrease in the closing force as the spring portion displaces along said angled slide to a second end to achieve the opened position.

Claims

1. A capless fuel door assembly, comprising: a body pivotally supported within a housing of the vehicle between closed and opened positions; said body including an exterior projection exhibiting an angled slide; and a spring secured to said housing and including an extended portion supported against an end stop location of said projection defining a first end of said angled slide and in order to exert said body in the closed position, opening said body about said pivot causing a decrease in the closing force as said spring portion displaces along said angled slide to a second end to achieve the opened position.

2. The invention as described in claim 1, further comprising the spring having a pair of torsional end windings with linear end projections received within said housing.

3. The invention as described in claim 2, further comprising an interior window configured within said housing for receiving the torsional windings.

4. The invention as described in claim 1, said housing further comprising an annular end stop surface for biasing said body in the closed position.

5. The invention as described in claim 4, said body further comprising a further support projection which is adapted to being grasped by a user during opening and closing of said body.

6. The invention as described in claim 4, further comprising a sealing gasket configured about a perimeter of the body for sealing about the annular end stop surface of said housing in the closed position.

7. The invention as described in claim 1, said spring further comprising any of a plurality of torsional spring profiles and spring coils for achieving the desired closing force.

8. A capless fuel door assembly, comprising: a body pivotally supported within a housing of the vehicle between closed and opened positions; said body including an exterior projection exhibiting an angled slide; and a spring secured to said housing and including an extended portion supported against an end stop location of said projection defining a first end of said angled slide and in order to exert said body in the closed position, the spring having a pair of torsional end windings with linear end projections received within the housing, an interior window configured within said housing for receiving the torsional windings, opening said body about said pivot causing a decrease in the closing force as said spring portion displaces along said angled slide to a second end to achieve the opened position.

9. The invention as described in claim 8, the housing further comprising an annular end stop surface for biasing said body in the closed position.

10. The invention as described in claim 9, said body further comprising a further support projection which is adapted to being grasped by a user during opening and closing of said body.

11. The invention as described in claim 9, further comprising a sealing gasket configured about a perimeter of said body for sealing about the annular end stop surface of said housing in the closed position.

12. A capless fuel door assembly, comprising: a body pivotally supported within a housing of the vehicle between closed and opened positions; said housing further including an annular end stop surface for biasing said body in the closed position; said body including an exterior projection exhibiting an angled slide; said body including a further support projection which is adapted to being grasped by a user during opening and closing of said body; and a spring secured to said housing and including an extended portion supported against an end stop location of said projection defining a first end of said angled slide and in order to exert said body in the closed position, opening said body about said pivot causing a decrease in the closing force as said spring portion displaces along said angled slide to a second end to achieve the opened position.

13. The invention as described in claim 12, further comprising the spring having a pair of torsional end windings with linear end projections received within said housing.

14. The invention as described in claim 13, further comprising an interior window configured within said housing for receiving the torsional windings.

15. The invention as described in claim 12, further comprising a sealing gasket configured about a perimeter of said body for sealing about the annular end stop surface of said housing in the closed position.

16. The invention as described in claim 12, said spring further comprising any of a plurality of torsional spring profiles and spring coils for achieving the desired closing force.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] Reference will now be made to the attached drawings, when read in combination with the following detailed description, wherein like reference numerals refer to like parts throughout the several views, and in which:

[0012] FIG. 1 is a partial cutaway illustration of the capless door assembly in a closed position in which the dual torsional spring biases the door via its supported slide;

[0013] FIG. 2 is a succeeding view to FIG. 1 in which the door is rotated to the open position resulting from the central extending portion of the torsional spring displacing along the capless door supported slide;

[0014] FIG. 3 is a similar illustration to FIG. 2 and again illustrating the capless door in the open position;

[0015] FIG. 4 is a rotated side plan view of the door assembly in the closed position of FIG. 1 and better showing the closure interface with the circular cross sectional housing tunnel within which the door is mounted;

[0016] FIG. 5 is a slightly rotated perspective of the door assembly in the closed position and better showing the feature of the spring sliding limiter/stopper;

[0017] FIG. 6 is a sectional view of the capless door and compound torsional spring in the closed position without the housing tunnel;

[0018] FIG. 7 is a rotated perspective illustration of the capless door and spring in the open position also shown in FIGS. 2-3; and

[0019] FIG. 8 is a further rotated perspective of the capless door in the open position of FIG. 7 and better showing displaced relationship of the cross-extending central portion of the compound torsional spring in relation to an upper seating location of the slide and the pivot pin for supporting the rotatable capless door.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0020] With reference to the attached illustrations, the present invention discloses a compound spring for a capless door and which includes the provision of a compound torsional spring (in the preferred embodiment being depicted as a substantially U shaped component) which is mounted to a proximate location of the housing well and which includes a central extending portion arranged in displacing contact with an inclined projecting plane of the capless door.

[0021] As will be further described, the spring/slide interface further includes a limiter/stopper location corresponding with the closed position and, upon being pivoted open, the central extending spring location is repositioned parallel and adjacent the pivotal support for the capless door. The spring to slide configuration provides for a high degree of initial closing bias (such as to counter car wash and/or vacuum induced resistance), with the holding force dropping as the door is opened.

[0022] As will be further explained, the present configuration provides clearance around the door hinge to accommodate for tight spaces/packaging and to provide for a high degree of initial closing bias (such as to counter car wash and/or vacuum induced resistance), with the holding force dropping as the door is opened. As further explained, the present configuration provides clearance around the door hinge to accommodate for tight spaces/packaging.

[0023] FIGS. 6-8 depict a series of sectional perspective views of the combination capless door and compound torsional spring, generally at 10, presented in each of closed (FIG. 6) as well as rotated perspective open (FIGS. 7-8) positions. The illustrations of FIGS. 1-5 further depict the capless door in the closed and open positions mounted within an access tunnel housing, such having a circular cross sectional configuration depicted at 12 and which is configured within an external accessible location of the vehicle (not shown) for receiving a fuel nozzle (also not shown).

[0024] The capless door includes a body 14 such as depicting a circular disk shape configuration as shown. It is further understood that the capless door can exhibit any desired overall shape not limited to that shown however will in most instances include a sealing gasket or other suitable perimeter extending and biasing surface which is shown at 16 and which, in the fuel door closed position, biases against an interior end wall profile 18 of the housing 12.

[0025] The capless door body 14, such as which can be constructed of a rigid polymer or other suitable material, may also include an exposed superstructure including an arcuate projecting portion 20, such being depicted in an outer circumferential surface range of the body 14. A second projecting portion is depicted at 22 which can interconnect with the outer arcuate portion 20 and which further includes a sloping or angled slide profile 24 (also termed an incline plane) extending between an intermediate stopper location 26 configured upon the projecting portion 22 (as further described denoting a spring biasing and door closed position) and a merging end location 28 at which it joins the surface of the door body 14.

[0026] As further shown, the body 14 includes a pair of integrated and end projecting supports 30 and 32, these further including aligning rim defined apertures 34 and 36 which receive a crosswise extending pivot pin 38. The pin 38 is in turn mounted to an interior location of the tunnel housing 12 best depicted by the structure 40 shown in FIG. 5 which is integrated into the tunnel housing and which represents an interior projection of the housing which aligns between the pin supports 30/32 of the body 14 in order to provide for unimpeded rotation of the capless door body 14 between the closed and open positions.

[0027] The torsional spring is depicted by an elongated and multi-bended element exhibiting a generally U shaped middle portion 42 with angled side legs 44 and 46 respectively terminating in torsional end windings 48 and 50. The end windings respectively terminate in opposing linear portion 52 and 54. As best shown in FIG. 1, the tunnel housing 12 includes a windowed location (see inner rim 56) which seats the torsional end windings 48/50 concurrent with a pair of circumferential offset inner notches (one of which is shown at 58) for receiving the opposing linear portions 52/54 of the torsional spring ends. The torsional spring profile can have a plurality of sizes and shapes to maintain a desired force on the fuel door to achieve a higher vacuum open point.

[0028] Viewing FIGS. 1 and 4-6 collectively, the cross directional extending end portion 42 of the dual torsional spring biases against an elevated end of the angled slide 24 such that it abuts the stopper location 26, with the fuel door 14 configured in the closed position so that its inner perimeter seal 16 abuts the circumferential interior location 18 of receiving housing. In this position, a sufficient closed holding force is exerted against the door so that inadvertent opening the capless fuel door is avoided (such as in the instance of an unintended vacuum force being exerted upon the door exterior by such as a car wash or other activity to which the vehicle is subjected).

[0029] Once it is desired to open the capless door 14, the user can grasp an exterior location of the door 14, such as including the circumferential disposed exterior projection 20. Initial pulling on the projection 20 is resisted to a degree by the holding force exerted by the spring location 42 against the stopper end location 26 of the angled slide 24. Continued exerted force will then cause the central spring location 42 to unseat from the end stop location 26 and to begin to travel along the descending angled or inclined slide 24 in a direction towards its downwardly angled upper surface (main surface merged end) which is located proximate to the crosswise directed pivotal support pin 38.

[0030] FIGS. 7 and 8 again best show the relationship of the capless fuel door 14 in the upwardly pivoted open position and by which the sliding motion of the central spring location 42 along the descending slide 24 (see directional arrow 60) results in a drop-off of holding force exerted against the door. Upon the door 14 reaching the fully open rotated position, the crosswise extending spring portion 42 seats against an upper perimeter edge of the door 14 in a proximate and parallel disposed relationship relative to the crosswise directed pivoting support pin 38, the torsional loading spring in this position providing a modest open-holding force to the door until the process is reversed and door reverse-rotated to the closed position at which point the biasing force depicted in FIGS. 1 and 6 is reasserted.

[0031] Beyond that disclosed, it is understood that the torsional compound spring shown can be alternately constructed in accordance with other shapes and profiles, and not limited to the use of other spring or biasing constructions. In each instance, a crosswise extending middle portion of some design is configured so that it is displaceable along an inclined slider plane between a closed position/end stop location and a further open position location, such as in which an adequate and reverse direction holding force exerted by the spring maintains the capless door in the open position until it is desired to be reclosed by the user.

[0032] Having described my invention, other and additional preferred embodiments will become apparent to those skilled in the art to which it pertains, and without deviating from the scope of the appended claims. The detailed description and drawings are further understood to be supportive of the disclosure, the scope of which being defined by the claims. While some of the best modes and other embodiments for carrying out the claimed teachings have been described in detail, various alternative designs and embodiments exist for practicing the disclosure defined in the appended claims.