DE102004048117A1 - Self-closing container closure - Google Patents

Abstract

The present invention relates to a self-closing container closure, in particular for a filler neck of a fuel tank, with a towards the inside of the filler neck against a spring force about a rotation pivotable flap (11), wherein on the inside of the flap an arm (13) at this articulated is attached, which is designed to be resilient against a restoring force.

Description

The The present invention relates to a self-closing container closure, especially for a filler neck a fuel tank with one towards the interior of the filler neck against a spring force flap which can be pivoted about an axis of rotation.

So-called "capless" tank lid closures for fuel tanks have become known from the prior art, which automatically open or close upon insertion or withdrawal of a fuel nozzle, these "capless" tank closures usually having a self-closing sealing flap acted upon by a spring force. The EP 0 597 314 A1 describes, for example, a self-closing fuel tank closure, in which the necessary spring force is generated by means of an inside torsion spring. In the hinge area is a pin which represents an axis of rotation and to which a support arm is connected, which is radially aligned and carries a flap. To the pin a torsion spring is wound, which is supported on the one hand on the support arm and on the other hand on the inner wall of an inner tube of the filler neck. When inserting a fuel nozzle, the torsion spring is tensioned and when retracting the fuel nozzle this then moves the support arm and the flap back to the closed position.

The DE 102 10 513 A1 describes a closure for fuel tanks, in which also a passage opening closing the sealing flap is pivotally mounted in a closure housing and closes the passage opening liquid-tight under the action of force of a spring. Again, a fixedly connected with a Abdichtklappe carrier is used, one end of which is mounted on a pivot axis. As a spring mounted in the region of the pivot axis torsion spring is used.

The DE 101 30 674 A1 describes a similar solution, here on a fuel tank releasably attachable gas cap is provided with a pivotable in the tank lid against spring force inwardly mounted shutter and the shutter is biased in the closed position by a closing spring, which is not described in detail, but also in Area of the pivot bearing acts, similar to the previously described from the prior art solutions.

The The object of the present invention is to provide a self-closing container closure, especially for a filler neck a fuel tank to provide the genus mentioned above, according to a alternative constructive solution principle works, providing a structurally simple and cost-effective solution, with the locking mechanism when open Shutter requires little space.

The solution This object is achieved by a self-closing container closure of the beginning said genus with the characterizing features of the main claim. According to the invention, it is provided that on the inside of the flap an arm at this hinged is attached, the against a restoring force is inherently flexible. Preferably, this arm telescopically formed in itself. This arm can for example have at least two telescopically guided against each other sections. In its one end, this telescoping arm can be about be hinged centrally on the flap. In his other end area supports the telescoping arm preferably at a wall portion of the container closure from and is in particular pivotally mounted there.

The necessary spring force for the return movement the shutter in the closed position is preferably via a Compression spring achieved, for example, a compression spring, the shaft of the telescoping arm, in particular a compression spring, the shaft of at least two telescoping sections of the Arms at least over one Partial length, preferably concentrically surrounds. By the arrangement of the telescoping Arms can be achieved, that this with open container closure little space in the area below the filling opening of the filler neck needed. If If you want to reduce the space further, this can preferably by solved be that instead of a continuous transverse axis only each in the outer area the interior of the filler neck arranged bearing bolts or the like, which provides the pivot axis for the Form the flap. Using a compression spring, the telescoping arm at least partially surrounds, then is preferably provided that this compression spring on the closure flap facing end of a portion of the arm, for example, on a plate-shaped or disc-shaped Abutment supports.

The fact that the arm is pivotally mounted on the housing of the container closure, there are different angular positions of arm and housing, which in turn have an influence on the size of the closing force. Thus, the closing force is not linear or is the same size as in the embodiments with a torsion spring or leg of the. Instead, in the compression spring surrounding the telescoping arm an effect similar to a toggle lever, that is, the force is initially greater when opening with a small opening angle of the flap than at large opening angles. When closing, this effect is observed in reverse order.

The in the subclaims mentioned features relate to preferred developments of the task solution according to the invention. Further Advantages of the invention will become apparent from the following detailed description.

following The present invention will be described with reference to an embodiment with reference to the accompanying drawings. Show

1 a schematically simplified longitudinal section through a self-closing container closure according to the invention according to a variant of the invention;

2 a schematically simplified cross section along the line II-II through the container closure of 1 ,

First, it will open 1 Referenced. The illustration shows a longitudinal section through a self-closing container closure according to the invention for a filler neck of a fuel tank for example for a motor vehicle. It is shown the upper portion of the filler neck, with the flap 11 is in the closed position. The filler neck of the fuel tank comprises an outer housing 14 inside which the flap 11 in particular in 2 recognizable pivot axis 15a is pivotally mounted. In the in 1 shown closed position is the flap 11 on an abutment 18 the filler neck sealing.

How to continue dating 1 recognizes is a telescoping arm 13 provided, one of the flap 11 facing section 13c which has a joint 19 with the bottom of the flap 11 articulated is connected. The telescoping arm 13 consists of a total of three telescopically interconnected and guided against each other sections, namely an uppermost innermost shaft-like section 13d which is of a tubular second section 13b is included concentrically and within this section 13b during the closing movement of the closing flap 11 , which squeezes the telescoping arm, is guided. It's a third cross-section-wide bottom section 13a of the telescoping arm, which in turn provides the aforementioned middle section 13b concentrically absorbs, so that when telescoping the arm 13 the section 13b in the section 13a is guided. At its end facing the housing and the flap facing away from the end of the telescoping arm via a hinge connection 24 in a wall area 17 the container closure of the housing pivotally mounted. This connection can be, for example, a self-locking latching connection. The arm 13 is therefore telescopically and pivotally mounted at the same time, so that when the inward movement of the flap 11 the arm 13 also a pivoting movement about the axis of the joint 24 takes place, at which the lowest part of the arm 13 in the wall area 17 is stored. At his the flap 11 facing and on the flap 11 articulated section 13c the telescopic arm has a plate-shaped or plate-shaped abutment 13e for a compression spring 12 on which the three telescoping sections 13a . 13b and 13d concentrically surrounds outside and at its one end to the abutment 13e supported. At the other end, the compression spring is supported 12 on a collar 20 or the like of the telescoping arm.

If now when filling fuel into the container, the shutter 11 around its axis 15a pivots inward, then the telescopic pivoting arm 13 compressed and taken along at the same time and also performs a pivoting movement about the axis of the joint 24 and moves in the direction of arrow according to 1 away from the central axis of the filler neck outward into the existing free housing space 21 such that the space required for insertion of the dispensing device 22 the filler neck area remains free.

2 shows that another advantage results from the fact that instead of a continuous transverse axis as a pivot axis 15a for the flap 11 two bearing bolts 15 serve, each located in the outer region of the interior of the filler neck, so that between these two bearing pin 15 a free space 23 remains that is not affected by a disturbing transverse axis. In 2 you can also see the attachment device for the pivoting telescoping arm 13 at the bottom of the flap 11 , which, for example, joint flaps 16 or the like, where then the section 13c of the arm 13 is hinged fastened.

11

flap

12

compression spring

13

poor

13a, b

against each other guided sections

13c

supple connected sections

13d

shaft-like section

13e

abutment

14

casing

15

bearing bolt

15a

swivel axis

16

joint plates

17

wall area

18

abutment

19

joint

20

collar

21

housing space

22

room

Claims (12)

Self-closing container closure, in particular for a filler neck of a fuel tank with a towards the interior of the filler neck against a spring force about a pivot axis pivoting flap, characterized in that on the inside of the flap an arm is hinged thereto, which against a restoring force in itself is designed compliant. Self-closing container closure according to claim 1, characterized in that the arm ( 13 ) is telescopically formed in itself. Self-closing container closure according to claim 1 or 2, characterized in that the arm ( 13 ) at least two telescopically guided sections ( 13a . 13b ) having. Self-closing container closure according to one of claims 1 to 3, characterized in that an end region of the arm ( 13 ) approximately in the central region of the closure flap ( 11 ) is hinged. Self-closing container closure according to one of claims 1 to 4, characterized in that one on the closure flap ( 11 ) hinged section ( 13c ) of the arm of a compression spring ( 12 ) is applied. Self-closing container closure according to one of claims 1 to 5, characterized in that one with the closure flap ( 11 ) articulated section ( 13c ) of the arm is telescopically guided with its shaft during inward pivoting of the closure flap in the axial direction in a cylindrical cavity of another portion of the arm. Self-closing container closure according to one of claims 1 to 6, characterized in that the arm ( 13 ) has at least three telescopically guided sections. Self-closing container closure according to one of claims 1 to 7, characterized in that one of the closure flap ( 11 ) facing away from the arm on a wall area ( 17 ) of the container closure is pivotally mounted. Self-closing container closure according to one of claims 1 to 3, characterized in that the pivot axis ( 15a ) of the closure flap ( 11 ) extends in the transverse direction only over a preferably outer part of the width of a filler neck for the container. Self-closing container closure according to claim 9, characterized in that the pivot axis for the closure flap ( 11 ) two respectively arranged in the outer region of the interior of the filler neck bearing pin ( 15 ) or the like. Self-closing container closure according to one of claims 1 to 10, characterized in that a compression spring ( 12 ) the shaft of at least two telescoping sections of the arm ( 13 ) preferably at least over a partial length concentrically surrounds. Self-closing container closure according to claim 11, characterized in that on the closure flap ( 11 ) facing end of a portion of the arm ( 13 ) a preferably plate-shaped or plate-shaped abutment ( 13e ) for the compression spring ( 12 ) is provided.