Fastening construction for fastening an adjustment instrument for an exterior vision element, such as an exterior mirror, camera and/or display, to a carrying frame of an exterior vision unit of a motor vehicle, and exterior vision unit

Abstract

Fastening construction for fastening an adjustment instrument to a carrying frame of an exterior vision unit of a motor vehicle, comprising first mounting parts on a fixing part of the adjustment instrument and second mounting parts on the carrying frame, wherein the first and second mounting parts comprise blocking parts on the fixing part and the carrying frame respectively, which in a first position can pass each other upon insertion of the parts into each other in an insert direction, and which by movement in a plane transverse to the insert direction are brought to a second position in which the blocking means cooperate and cannot pass each other upon movement opposite to the insert direction, and wherein furthermore there is provided a spring part which in mounted condition biases the first and second mounting parts against each other.

Claims

1. A fastening construction for fastening an adjustment instrument to a carrying frame of an exterior vision unit of a motor vehicle, comprising: first mounting parts on a fixing part of the adjustment instrument; second mounting parts on the carrying frame; and a spring part, wherein the first and second mounting parts comprise blocking parts on the fixing part and the carrying frame respectively, which pass each other upon insertion of the parts into each other in an insert direction to arrive at a first position, and which by movement in a plane transverse to the insert direction are brought to a second position in which the blocking means cooperate and cannot pass each other upon movement opposite to the insert direction, wherein the spring part biases the first and second mounting parts against each other in the second position, and wherein the spring part comprises a wire spring which traverses the fixing part, and with outwardly extending free ends thereof forms at least part of the blocking parts of the fixing part.

2. The fastening construction according to claim 1, wherein the blocking parts in the second position cooperate under spring action.

3. The fastening construction according to claim 1, wherein the first and second mounting parts comprise a first supporting surface on the carrying frame, and a second supporting surface on the fixing part, respectively, and wherein the first and second supporting surfaces in the mounted condition are supported on each other.

4. The fastening construction according to claim 1, wherein the spring part is integrated with a blocking part.

5. The fastening construction according to claim 1, wherein the spring part is implemented in metal.

6. The fastening construction according to claim 5, wherein the spring part is spring steel.

7. The fastening construction according to claim 1, wherein the fixing part is made from plastic material.

8. The fastening construction according to claim 1, wherein a locking is further provided which locks the first and second mounting parts in the second position against movement in the plane transverse to the insert direction.

9. The fastening construction according to claim 1, wherein the first and second mounting parts further comprise cooperating run-on surfaces.

10. An exterior vision unit for a motor vehicle, comprising a base and a carrying frame, wherein the base comprises a foot for mounting on an outer part of the body of the motor vehicle, and a base shaft extending from the base for receiving the carrying frame pivotably around the base shaft, and wherein the carrying frame is pivotable around the base shaft between a park position, in which the carrying frame extends substantially along the vehicle, and a folded-out drive position, in which the carrying frame extends substantially transversely to the vehicle, and wherein the carrying frame carries an adjustment instrument which in turn carries an exterior vision element, further comprising the fastening construction according to claim 1 which fastens the adjustment instrument for the exterior vision element to the carrying frame of the exterior vision unit.

Description

(1) The invention will be further explained on the basis of an exemplary embodiment of a fastening construction, that is shown in drawings. In the drawings:

(2) FIG. 1 shows a schematic cross section of an exterior vision unit for a motor vehicle provided with a fastening construction for fastening an adjustment instrument to a carrying frame of the exterior vision unit;

(3) FIG. 2 shows a schematic longitudinal section of the exterior vision unit of FIG. 1;

(4) FIG. 3A shows a sectional schematic perspective view of a first embodiment of a fastening construction according to the invention;

(5) FIG. 3B shows a schematic perspective view of the fastening construction of FIG. 3A during insertion;

(6) FIG. 3C shows a schematic perspective view of the fastening construction of FIG. 3A in mounted condition, second position;

(7) FIG. 4A and FIG. 4B show sectional schematic perspective views of a second embodiment of a fastening construction according to the invention;

(8) FIG. 5A shows a schematic perspective view of a third embodiment of a fastening construction according to the invention;

(9) FIG. 5B shows a schematic longitudinal section of the fastening construction of FIG. 5A;

(10) FIGS. 5C and D show schematic detailed views of the locking of the fastening construction of FIG. 5A;

(11) FIG. 6A shows a schematic perspective view of a fourth embodiment of a fastening construction according to the invention;

(12) FIG. 6B shows a schematic longitudinal section of the fastening construction of FIG. 6A;

(13) FIG. 7A shows a sectional schematic perspective view of a fifth embodiment of a fastening construction according to the invention during insertion;

(14) FIG. 7B shows a schematic perspective view of the fixing part of the fastening construction of FIG. 7A engaging a wire spring;

(15) FIG. 7C shows a sectional schematic perspective view of the fastening construction of FIG. 7A in mounted condition;

(16) FIG. 7D shows a schematic perspective view of the second mounting parts of the fastening construction of FIG. 7A including the wire spring such as it is deformed in the mounted condition.

(17) In the figures, like or corresponding parts are designated by the same reference numerals. It is noted that the figures are merely shown by way of exemplary embodiment and should not be regarded as limiting in any way.

(18) FIGS. 1 and 2 show schematic sectional views of an exterior vision unit 1 for a motor vehicle. The exterior vision unit 1 comprises a base 2 and a carrying frame 3. The base 2 comprises a foot 4 for mounting on an outer part of the body of the motor vehicle, and a base shaft 5 extending from the base 2 for receiving the carrying frame 3 pivotably around the base shaft 5. The carrying frame 3 is pivotable around the base shaft 5 between a park position, not shown in the figure, in which the carrying frame 3 extends substantially along the vehicle, and a folded-drive position, shown in the figure, in which the carrying frame 3 extends substantially transversely to the vehicle. The carrying frame 3 carries an adjustment instrument. The adjustment instrument in turn carries an exterior vision element, in this example formed by a mirror glass 9 mounted on a mirror carrying plate. The adjustment instrument comprises two plastic housing parts which are pivotably connected with each other, viz., a fixing part 11A, for coupling with the carrying frame 3, and an adjusting part 11B for coupling with the exterior vision element 7.

(19) FIG. 3A shows a first embodiment of the fastening construction for fastening the adjustment instrument to the carrying frame 3 of the exterior vision unit 1 of FIGS. 1 and 2. The adjusting part 11B is not represented, and of the carrying frame 3 only the portion that forms a mounting part is represented. The fastening construction comprises first mounting parts 10 on a fixing part 11A of the adjustment instrument and second mounting parts 12 on the carrying frame 3. The first and second mounting parts 10, 12 comprise blocking parts 13A, 13B on the fixing part 11A and the carrying frame 3, respectively. The blocking parts 13A, 13B, in a first position I shown in FIG. 3B, can pass each other when the parts are being inserted into each other in an insert direction P extending along a main axis H. The blocking parts as shown in FIG. 3B can, by movement in a plane transverse to the insert direction P, be brought to a second position II. In the second position II, the blocking means cooperate and cannot pass each other upon movement opposite to the insert direction P.

(20) In accordance with the invention, furthermore, there is provided a spring part 14 which in mounted condition biases the first and second mounting parts 10, 12 against each other. By use of the spring part 14, the mounting parts 10, 12 can cooperate under a bias, so that development of play as a result of tolerances, creep and relaxation of the plastic material can be counteracted, and in practice development of unwanted vibrations can be avoided.

(21) The movement of the blocking parts 13A in the plane transverse to the insert direction P is effected in this example by rotation of the blocking parts 13A relative to the blocking parts 13B, in particular by rotation of the fixing part 11A around a central axis which coincides with the insert direction P. The mounting parts 10, 12, through their blocking parts 13A, 13B, work together as a bayonet catch. In this exemplary embodiment, the blocking parts 13A, 13B in the second position II cooperate under spring action, and the spring action is opposite to the insert direction P.

(22) The mounting parts 10, 12 comprise a first supporting surface 15 on the carrying frame 3, and a second supporting surface 16 on fixing part 11A, 11B. The supporting surfaces 15, 16 in mounted position may be supported on each other directly or indirectly. The spring part 14 is here implemented as a spring steel helical spring. The mounting parts 12 of the carrying frame 3 comprise in this exemplary embodiment a substantially cylindrical chamber 17 in the carrying frame 3, with a bottom surface 18 which forms the first supporting surface 15, a circumferential wall 19 which forms an auxiliary supporting surface, and bayonet lips 21B, spaced apart along the circumferential wall 19 with mutual interspaces 20 and which at the access opening 22 extend into the chamber 17. The fixing part 11A comprises a substantially cylindrical foot part 24 for reception in the chamber 17 in the carrying frame 3. A bottom surface 23 of the foot part 24 forms a second supporting surface 16, and the cylinder shell 25 of the foot part 24 forms an auxiliary supporting surface. The foot part 24 is complementary to the circumferential wall 19 of the chamber 17 provided with outwardly extending bayonet lips 21A spaced apart along the circumferential wall 19 with mutual interspaces 20. In the first position I the adjustment instrument can be inserted by its foot part 24 into the chamber 17, thereby compressing the helical spring. Then, by rotation of the foot part 24, the bayonet lips 21A, 21B can be aligned so as to block each other. The helical spring 14 is active between the bottom surface 18 of the carrying frame 3 and a bottom surface 23 of the fixing part 11A, against the insert direction P. Upon release after insertion and rotation, the bayonet lips 21A, 21B are thereby supported on each other under spring action, so that the adjustment instrument 6 is received in the carrying frame 3 so as to be axially free from play. The auxiliary supporting surfaces here provide for radial retention.

(23) FIGS. 4A and 4B show a second embodiment, in which the spring part 14 is implemented as a leaf spring 26. The free ends 27 of the leaf spring 26 are here supported on first supporting surfaces 15 which are formed by retaining chambers in the circumferential wall 19 of the chamber 17. It is noted that the spring part 14 can comprise multiple spring elements. Elegantly, for instance, a cross of leaf springs may be provided.

(24) FIGS. 5A-5D show a third embodiment, in which the spring part 14 is integrated with a blocking part 13A. The spring part 14 is implemented as a wire spring 28 which traverses the foot part 24 of the fixing part, and with outwardly extending free edges 29 thereof forming blocking parts. The wire spring 28 is held in the middle of the foot part 24, and the free ends 29 bend in that during assembly they are hooked behind the blocking parts on the circumferential wall 19 of the chamber 17. The blocking parts 13A of the adjustment instrument in this embodiment are formed by the spring part 14. In this embodiment the spring element acts in insert direction P. In FIGS. 5C and 5D it is shown that a rotational locking is provided. The locking is implemented as a one-way locking, which only counteracts a reverse rotation from the second position II to the first position I. The blocking parts on the circumferential wall 19 of the access opening 22 are implemented with oblique run-on sides 30, and locking recesses 31 for the free ends 29 of the wire spring 28, and form a ratchet stop.

(25) FIGS. 6A and 6B show a fourth embodiment, also with a wire spring 28. Here, the locking is implemented as a latch 32 which, in the second position II of the mounting parts, is inserted through the circumferential wall 19 of the chamber 17 and the foot part 24, and thereby counteracts rotation of the mounting parts relative to each other. The wire spring 28 is bent as a result of the insertion of the latch, so that the free ends 29 push off against the bottom surface 18 of the chamber 17, and energize the bayonet lips 21A, 21B—not visible in the cross section of FIG. 6B—against each other in opposite direction to the insert direction P.

(26) FIGS. 7A and 7B show a fifth embodiment, in which is provided a wire spring 28 which traverses the chamber 17, and which by its ends is received in openings 32 in the circumferential wall 19. During assembly, the wire spring 28 upon insertion is pressed downwards by a gripper 33 on the bottom surface 23, and during rotation is twisted into the S shape shown in the figures. During rotation, the blocking parts 13A on the foot part 24 are passed under the blocking parts 13B on the circumference of the chamber 17, and after release come to lie in each other's plane. The blocking parts are provided with cooperating run-on surfaces 34, which under the action of the spring element are biased against each other in circumferential direction. Thus, radial play can be eliminated, and at the same time an axial clamping can be accomplished. The cooperating run-on surfaces 34 are spring-energized in circumferential direction, tangentially, that is, in the plane transverse to the insert direction.

(27) The invention is not limited to the exemplary embodiments represented here. Many variations will be clear to those skilled in the art and are understood to be within the scope of the invention as represented in the following claims.

LIST OF REFERENCE SIGNS

(28) 1. exterior vision unit

(29) 2. base

(30) 3. carrying frame

(31) 4. foot

(32) 5. base shaft

(33) 6. adjustment instrument

(34) 7. exterior vision element

(35) 8. mirror carrying plate

(36) 9. mirror glass

(37) 10. first mounting parts

(38) 11A. fixing part

(39) 11B. adjusting part

(40) 12. second mounting parts

(41) 13A. blocking part

(42) 13B. blocking part

(43) 14. spring part

(44) 15. first supporting surface

(45) 16. second supporting surface

(46) 17. chamber

(47) 18. bottom surface

(48) 19. circumferential wall

(49) 20. interspace

(50) 21A. bayonet lip

(51) 21B. bayonet lip

(52) 22. access opening

(53) 23. bottom surface

(54) 24. foot part

(55) 25. cylinder shell

(56) 26. leaf spring

(57) 27. free end

(58) 28. wire spring

(59) 29. free end

(60) 30. oblique run-on side

(61) 31. locking recess

(62) 32. opening

(63) 33. gripper

(64) 34. run-on surface

(65) P insert direction

(66) H main axis

(67) R direction of rotation

(68) I first position

(69) II second position