A fastening clip for attaching a component to a stud of a support part has a base part with an opening for accepting the stud. The opening has an axis and has a fastening region and an unlocking region located next to one another perpendicular to the axis. Resilient retaining means for holding the s
A fastening clip for attaching a component to a stud of a support part has a base part with an opening for accepting the stud. The opening has an axis and has a fastening region and an unlocking region located next to one another perpendicular to the axis. Resilient retaining means for holding the stud in place are arranged in the fastening region, which means are designed such that the stud can be introduced into the fastening region in the direction of the axis and the stud located in the fastening region can be displaced into the unlocking region by a relative movement of the stud and fastening clip perpendicular to the axis of the opening, wherein in the unlocking region the stud can be removed from the opening.
대표청구항▼
1. A fastening clip for attaching a component to a stud associated with a supporting part comprising: a base coupled to the component and defining an opening for accepting the stud, wherein the opening has an axis and has a fastening region and an unlocking region located next to one another in a di
1. A fastening clip for attaching a component to a stud associated with a supporting part comprising: a base coupled to the component and defining an opening for accepting the stud, wherein the opening has an axis and has a fastening region and an unlocking region located next to one another in a direction perpendicular to the axis, said fastening region having a resilient retaining flange configured to hold the stud in place when the stud is disposed in the fastening region to thereby attach the component to the supporting part, wherein the stud can be introduced into the fastening region in a direction generally parallel to the axis of the opening, wherein the stud located in the fastening region can be displaced along a displacement path into the unlocking region by a relative movement of the stud perpendicular to the axis of the opening, and wherein in the unlocking region the stud can be removed from the opening; andfurther comprising a return lock arranged in the opening, said return lock opposes movement of the stud along said displacement path from the unlocking region to the fastening region after the stud has been moved into the unlocking region. 2. The fastening clip according to claim 1, wherein the return lock has a resilient finger which extends generally perpendicular to the axis of the opening, said return lock being located at a distance from the resilient retaining flange and having a locking projection that projects into the displacement path of the stud, said return lock having a ramp surface facing the fastening region and a locking surface facing the unlocking region. 3. The fastening clip according to claim 2, wherein the finger of the return lock is configured to limit the penetration depth of the stud into the opening by contact with the end of the stud. 4. A fastening clip for attaching a component to a stud associated with a supporting part comprising: a base coupled to the component and defining an opening for accepting the stud, wherein the opening has an axis and has a fastening region and an unlocking region located next to one another in a direction perpendicular to the axis, said fastening region having a resilient retaining flange configured to hold the stud in place when the stud is disposed in the fastening region to thereby attach the component to the supporting part, wherein the stud can be introduced into the fastening region in a direction generally parallel to the axis of the opening, wherein the stud located in the fastening region can be displaced along a displacement path into the unlocking region by a relative movement of the stud perpendicular to the axis of the opening, wherein in the unlocking region the stud can be removed from the opening, and further, wherein the resilient retaining member of the fastening region has at least one resilient locking finger, which extends inward from the edge of the opening in a locking position and whose free end forms a locking tooth. 5. The fastening clip according to claim 2, wherein the resilient retaining flange comprises two opposed, symmetrically arranged, locking fingers. 6. The fastening clip according to claim 2, wherein a locking tooth of the resilient finger is straight and extends parallel to a common center plane dividing the fastening region and unlocking region. 7. A fastening clip for attaching a component to a stud associated with a supporting part comprising: a base coupled to the component and defining an opening for accepting the stud, wherein the opening has an axis and has a fastening region and an unlocking region located next to one another in a direction perpendicular to the axis, said fastening region having a resilient retaining flange configured to hold the stud in place when the stud is disposed in the fastening region to thereby attach the component to the supporting part, wherein the stud can be introduced into the fastening region in a direction generally parallel to the axis of the opening, wherein the stud located in the fastening region can be displaced along a displacement path into the unlocking region by a relative movement of the stud perpendicular to the axis of the opening, wherein in the unlocking region the stud can be removed from the opening, and further wherein the base has an outwardly projecting flange configured for attaching the base to a receptacle part of the component. 8. A fastening clip for attaching a component to a stud associated with a supporting part comprising: a base coupled to the component and defining an opening for accepting the stud, wherein the opening has an axis and has a fastening region and an unlocking region located next to one another in a direction perpendicular to the axis, said fastening region having a resilient retaining flange configured to hold the stud in place when the stud is disposed in the fastening region to thereby attach the component to the supporting part, wherein the stud can be introduced into the fastening region in a direction generally parallel to the axis of the opening, wherein the stud located in the fastening region can be displaced along a displacement path into the unlocking region by a relative movement of the stud perpendicular to the axis of the opening, wherein in the unlocking region the stud can be removed from the opening, and further wherein the base has a lateral surface with a circumferential groove arranged approximately in the center thereof. 9. A fastening clip for attaching a component to a stud associated with a supporting part comprising: a base coupled to the component and defining an opening for accepting the stud, wherein the opening has an axis and has a fastening region and an unlocking region located next to one another in a direction perpendicular to the axis, said fastening region having a resilient retaining flange configured to hold the stud in place when the stud is disposed in the fastening region to thereby attach the component to the supporting part, wherein the stud can be introduced into the fastening region in a direction generally parallel to the axis of the opening, wherein the stud located in the fastening region can be displaced along a displacement path into the unlocking region by a relative movement of the stud perpendicular to the axis of the opening, and wherein in the unlocking region the stud can be removed from the opening, and further wherein the component defines a receptacle part having a pocket defining a lateral opening and a pilot slot, which is configured to accept the fastening clip when inserted through the lateral opening. 10. The fastener clip according to claim 9, wherein the base is configured to engage with a projecting flange in the pocket of the receptacle part. 11. The fastener according to claim 10, wherein the receptacle part has a plate defining an open pilot slot on one side of the plate, and has a U-shaped wall arranged on one side of the plate to project therefrom and that surrounds the pilot slot at a distance. 12. The fastener according to claim 11, wherein the U-shaped wall is attached to a platelike portion of the component at a distance from the plate. 13. The fastener according to claim 9, wherein the pilot slot has a tapered pilot section, and a narrow spot formed by a pair of retaining projections, which can be expanded by the fastening clip during installation of the same. 14. The fastener according to claim 11, wherein the base defines an external groove and wherein an edge region of the plate adjoining the pilot slot engages in the groove of the base. 15. A fastening clip for attaching a first component having a receptacle portion to a flanged component having a fastener portion, the fastening clip comprising: a base defining a coupling groove engaged with the receptacle portion to couple the fastening clip to the first component, and further having an opening defining an axis for accepting the fastener portion of the flanged component, wherein the opening further has a fastening region and an unlocking region, said fastening region having a pair of resilient opposed retaining flanges configured to hold the fastener portion of the flanged component in place when the fastener portion is disposed in the fastening region to thereby attach the first component to the flanged component, wherein the fastener portion of the flanged component is configured to be introduced into the fastening region in a direction generally parallel to the opening axis, and wherein the fastener portion is selectively displaceable along a displacement path from the fastening region to the unlocking region by a relative movement of the flanged component in a direction perpendicular to the axis of the opening, and wherein in the unlocking region the fastener portion of the flanged component can be removed from the opening. 16. The fastening clip according to claim 15, further comprising a return locking flange configured to resist the movement of the fastener portion of the flanged component from the fastening region to the unlocking region. 17. The fastening clip according to claim 16, wherein the locking flange has a resilient finger which extends generally perpendicular to the axis of the opening at a distance from the pair of resilient opposed retaining flanges and comprises a locking projection that projects into the displacement path of the fastener portion and has a ramp surface facing the fastening region and a locking surface facing the unlocking region. 18. The fastening clip according to claim 17, wherein the resilient finger is configured to limit the penetration depth of the fastener portion into the opening by contact with an end of the fastener portion. 19. The fastening clip according to claim 18, wherein the pair of resilient retaining flanges in the fastening region have at least one resilient locking finger, which extends inward from an edge of the opening in a locking position and whose free end forms a locking tooth. 20. The fastening clip according to claim 19, wherein the fastener portion of the flanged component has an enlarged head portion, and further wherein said resilient locking finger is configured to deflect outward from said locking position toward the edge of the opening when engaged by the head of the fastener portion when the fastener portion is inserted into the fastening region generally parallel to said axis, and to return to said locking position when the head of the fastener portion passes the locking tooth at the free end of said resilient locking finger, to thereby secure the fastener portion from withdrawal from said fastening region in a direction generally parallel to said axis. 21. The fastening clip according to claim 4, wherein the stud has an enlarged head portion, and further wherein said resilient locking finger is configured to deflect outward from said locking position toward the edge of the opening when engaged by the head of the stud when the stud is inserted into the fastening region generally parallel to said axis, and to return to said locking position when the head of the stud passes the locking tooth at the free end of said resilient locking finger, to thereby secure the stud from withdrawal from said fastening region in a direction generally parallel to said axis.
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이 특허에 인용된 특허 (11)
Yoyasu,Masae, Automobile molding and fastener therefor.
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