A bearing arrangement includes a carrier device and a bearing socket for rotatably supporting a component. The bearing socket includes a sleeve fixed in a recess of the carrier device. A peripheral wall of the sleeve delimits an inner space for receiving a bearing journal of a component. The sleeve
A bearing arrangement includes a carrier device and a bearing socket for rotatably supporting a component. The bearing socket includes a sleeve fixed in a recess of the carrier device. A peripheral wall of the sleeve delimits an inner space for receiving a bearing journal of a component. The sleeve includes at least a first, inner catch element securing the bearing journal in the sleeve and a second, outer catch element securing the sleeve in the recess of the carrier device. The second catch element is formed from a catch tongue which is a portion of the peripheral wall of the sleeve and which has a hooked portion for engagement in a catch receiving member of the recess of the carrier device.
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1. A bearing arrangement, comprising a carrier device; anda bearing socket rotatably supporting a component on the carrier device, wherein the bearing socket includes a sleeve fixed in a corresponding recess of the carrier device and which delimits with a cylindrical peripheral wall an inner space f
1. A bearing arrangement, comprising a carrier device; anda bearing socket rotatably supporting a component on the carrier device, wherein the bearing socket includes a sleeve fixed in a corresponding recess of the carrier device and which delimits with a cylindrical peripheral wall an inner space for receiving a bearing journal of the component, wherein the sleeve includes at least a first, inner catch element securing the bearing journal in an axial direction in the sleeve and a second, outer catch element securing the sleeve in an axial direction in the recess of the carrier device, wherein the first catch element is formed from a catch flap forming a portion of the cylindrical peripheral wall of the sleeve and which has at an end-face end thereof a catch projection engaging an annular groove of the bearing journal, wherein the second catch element is formed from a catch tongue forming a portion of the cylindrical peripheral wall of the sleeve, said catch tongue having a hooked portion engaging the carrier device, a slot separating the catch elements such that the catch elements define free ends of the sleeve that can be independently flexed, wherein the bearing journal has at a periphery thereof at least one assembly and disassembly recess extending axially from the groove having a width in a peripheral direction at least substantially corresponding to a width of the catch tongue in a peripheral direction such that the catch tongue may be flexed inwardly into the at least one assembly and disassembly recess when the socket and bearing are inserted in the recess of the carrier device. 2. The bearing arrangement as claimed in claim 1, wherein the catch projection has an inclined starting ramp at a flank of the catch projection and facing away from an end-face end of the catch flap. 3. The bearing arrangement as claimed in claim 1, wherein the second catch element secures the sleeve in the recess of the carrier device in a rotationally secure manner. 4. The bearing arrangement as claimed in claim 1, wherein the hooked portion of the catch tongue engages the carrier device in a receiving member of the recess of the carrier device, wherein the receiving member is an aperture cut-out of the recess of the carrier device. 5. The bearing arrangement as claimed in claim 1, wherein the hooked portion has a ramp flank and a flank which is radial with respect to the axis of the sleeve. 6. The bearing arrangement as claimed in claim 1, having a torsion prevention system of the sleeve preventing rotation of said sleeve with respect to the carrier device. 7. The bearing arrangement as claimed in claim 6, wherein the torsion prevention system is an axial rib formed from a periphery of the sleeve and engages a corresponding axial groove of the recess of the carrier device. 8. The bearing arrangement as claimed in claim 1, wherein the sleeve has a stop for abutment against the carrier device on a sleeve periphery. 9. The bearing arrangement as claimed in claim 8, wherein the stop is formed by an annular collar. 10. The bearing arrangement as claimed in claim 1, wherein the carrier device is a carrier portion of a frame of a rear window of a cabriolet roof and the component is a rear window connection rod of a roof rod assembly of the cabriolet roof. 11. The bearing arrangement as claimed in claim 1, in which said peripheral wall of said sleeve includes a cylindrical base portion, and said first catch element and said second catch element extend axially away from said cylindrical base portion. 12. The bearing arrangement as claimed in claim 11, in which said first catch element is peripherally adjacent to said second catch element. 13. The bearing arrangement as claimed in claim 1, including at least two first catch elements, wherein each of said at least two first catch elements flexes independently of said second catch element. 14. The bearing arrangement as claimed in claim 1, including at least two first catch elements and at least two second catch elements, said first and second catch elements being alternately spaced peripherally about said sleeve. 15. The bearing arrangement as claimed in claim 1, in which each first catch element flexes independently of each second catch element. 16. The bearing arrangement as claimed in claim 1, in which said recess is defined by a recess wall extending from an aperture formed in a surface of said carrier device, wherein said recess wall extends away from said surface, and said hooked portion of said catch tongue engages a catch receiving member formed in said recess wall of the carrier device. 17. A bearing arrangement, comprising a carrier device having a recess defined by a recess wall extending from an aperture formed in a surface of said carrier device, said recess wall extending away from said surface; anda bearing socket rotatably supporting a component on the carrier device, wherein the bearing socket includes a sleeve having a peripheral wall received through said aperture and into said recess of the carrier device;a bearing journal of the component received in a space defined by said peripheral wall, wherein the sleeve includes at least a first, inner catch element securing the bearing journal in an axial direction in the sleeve and a second, outer catch element securing the sleeve in an axial direction in the recess of the carrier device, wherein the first catch element is formed from a catch flap forming a portion of the peripheral wall of the sleeve and which has at an end-face end thereof a catch projection engaging an annular groove of the bearing journal, wherein the second catch element is formed from a catch tongue forming a portion of the peripheral wall of the sleeve, said catch tongue having a hooked portion engaging a catch receiving member formed in said recess wall of the carrier device, a slot separating the catch elements such that the catch elements define free ends of the sleeve that can be independently flexed, wherein the bearing journal has at a periphery thereof at least one assembly and disassembly recess extending axially from the groove having a width in a peripheral direction at least substantially corresponding to a width of the catch tongue in a peripheral direction such that the catch tongue may be flexed inwardly into the at least one assembly and disassembly recess when the socket and bearing are inserted in the recess of the carrier device. 18. The bearing arrangement as claimed in claim 17, in which said peripheral wall is cylindrical. 19. A bearing arrangement, comprising a carrier device having a recess;a component having a bearing journal having an annular groove and at least one assembly and disassembly recess extending axially from the groove; anda bearing socket rotatably supporting the component on the carrier device, wherein the bearing socket includes a sleeve having a peripheral wall defining an inner space for receiving the bearing journal, wherein the sleeve includes at least a first, inner catch element securing the bearing journal in an axial direction in the sleeve and being formed from a catch flap, forming a portion of the peripheral wall of the sleeve which has, at an end-face end thereof, a catch projection engaging the annular groove of the bearing journal;a second, outer catch element securing the sleeve in an axial direction in the recess of the carrier device and being formed from a catch tongue, forming a portion of the cylindrical peripheral wall of the sleeve, said catch tongue having a hooked portion engaging the carrier device; anda slot separating the catch elements such that the catch elements define free ends of the sleeve that can be independently flexedthe at least one assembly and disassembly recess having a width in a peripheral direction at least substantially corresponding to a width of the catch tongue in a peripheral direction such that the catch tongue may be flexed inwardly into the at least one assembly and disassembly recess when the socket and bearing are inserted in the recess of the carrier device.
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