Reservoirs for fuel tanks, which can be filled via an opening that can be closed by a closing element, are already known. Such a closing element interacts with a sealing seat and is arranged on a bearing that is located in the region of the opening and is fixed to an edge area of the opening by at l
Reservoirs for fuel tanks, which can be filled via an opening that can be closed by a closing element, are already known. Such a closing element interacts with a sealing seat and is arranged on a bearing that is located in the region of the opening and is fixed to an edge area of the opening by at least two struts. In prior art, the opening, with the bearing and the struts, is often produced as a single-piece together with the reservoir and the base by injection molding. A disadvantage thereof is that the struts can undergo material shrinkage during production, which leads to a tension of the struts between the edge area of the opening and the bearing. This can lead to an irregular deformation and hence to an uneven sealing seat, so that the closing element does not seal in a tight manner and that the valve has a leak. in the reservoir according to the invention, the sealing of the opening is improved by at least one strut not having a rectilinear form, thus obtaining elastic expansion compensation.
대표청구항▼
1. A fuel tank reservoir, comprising: an opening via which the reservoir is fillable, the opening being closable by a closing element,wherein the closing element cooperates with a sealing seat in a closed position and moves from an open position to the closed position axially within a support that i
1. A fuel tank reservoir, comprising: an opening via which the reservoir is fillable, the opening being closable by a closing element,wherein the closing element cooperates with a sealing seat in a closed position and moves from an open position to the closed position axially within a support that is fastened by a plurality of radially spaced bridge pieces to an edge region of the opening,wherein at least one of the bridge pieces deviates from a straight-line form so that an elastic expansion compensation is achieved,wherein at least one of the bridge pieces has a first leg that extends to the edge region of the opening and has a second leg that extends to the support,wherein the first leg and the second leg form a U-shaped or V-shaped indentation having an acute angle, andwherein the U-shaped or V-shaped indentation projects out of the plane of the opening towards an outside of the reservoir. 2. The reservoir as recited in claim 1, wherein at least one of the bridge pieces has a compensation region that has the at least one U-shaped or V-shaped convexity or curvature. 3. The reservoir as recited in claim 1, wherein the opening is provided in a bottom of the reservoir and at least one of the bridge pieces protrudes out from a plane of the bottom of the reservoir. 4. The reservoir as recited in claim 1, wherein at least one of the bridge pieces is arc-shaped, S-shaped, U-shaped, V-shaped, curved, or jagged. 5. The reservoir as recited in claim 1, wherein the opening is provided in a bottom of the reservoir. 6. The reservoir as recited in claim 1, wherein the sealing seat is an annular shoulder. 7. The reservoir as recited in claim 1, wherein the support is coaxial to the opening. 8. The reservoir as recited in claim 1, wherein the support is annular, with a hole in the middle of the support. 9. The reservoir as recited in claim 1, wherein the closing element is umbrella-shaped, with a pin-shaped central section and a disk-shaped closing section. 10. The reservoir as recited in claim 1, wherein the bridge pieces are spaced around a circumference of the support. 11. A fuel tank reservoir Tillable via an opening that is closable by a closing element, wherein the closing element cooperates with a sealing seat and moves axially onto a support that is fastened by a plurality of radially spaced bridge pieces to an edge region of the opening,wherein at least one of the bridge pieces deviates from a straight-line form so that an elastic expansion compensation is achieved, andwherein the bridge pieces are spaced around a circumference of the support. 12. The reservoir as recited in claim 11, wherein at least one of the bridge pieces has a first leg that extends to the edge region of the opening and has a second leg that extends to the support, wherein the first leg and the second leg form a U-shaped or V-shaped indentation having an acute angle, andwherein the U-shaped or V-shaped indentation projects out of the plane of the opening towards an outside of the reservoir. 13. The reservoir as recited in claim 1, wherein the bridge pieces are formed in one piece. 14. The reservoir as recited in claim 1, wherein the bridge pieces and the support are formed in one piece. 15. The reservoir as recited in claim 3, wherein the bridge pieces, the support, and the bottom of the reservoir are formed in one piece. 16. A fuel tank reservoir, comprising: an opening via which the reservoir is Tillable when a closing element is in an open position;the closing element that closes the opening in a closed position;a valve seat that cooperates with the closing element to close the opening, the opening being surrounded by the valve seat;a support being surrounded by the opening and supporting the closing element, the opening being disposed radially around the support, the closing element moving axially within the support between the open and closed positions; anda plurality of bridge pieces that fasten the support to an edge of the opening, the bridge pieces being radially spaced around the support, whereinat least one of the bridge pieces of the support deviates from a straight-line form wherebythe at least one of the bridge pieces has a first leg that extends to the edge of the opening and has a second leg that extends to the support, and the first leg and the second leg form a U-shaped or V-shaped indentation having an acute angle, andthe U-shaped or V-shaped indentation projects out of the plane of the opening towards an outside of the reservoir. 17. The reservoir as recited in claim 16, wherein the bridge pieces are equally spaced around the support. 18. The reservoir as recited in claim 1, wherein the pin-shaped central section fits within the support to close the opening.
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