VEHICULAR HINGE ASSEMBLY

Abstract

The invention relates to a hinge comprising a first part (11) that can be pivoted relative to a second part (12) about a pivot axis (a), wherein the first part (11) comprises at least one bore (13) and the second part (12) at least one recess (15a, 15b), wherein, in a final assembly position, at least pin one (17a, 17b) that is coaxial to the pivot axis (a), has a first longitudinal portion in the bore (13) and with a second longitudinal portion in the recess (15a, 15b), and the pin (17a, 17b) can be moved between a pre-assembly position, in which the pin (17a, 17b) is in the bore (13) or in the recess (15a, 15b) with a larger overlap with respect to the final assembly position, and the final assembly position.

The special feature is that at least one holding element (18) can extend through a passage (31) in a seat (28) in such a way that the pin (17a, 17b) can be moved by the holding element (18) from the pre-assembly position into the final assembly position and that, in the final assembly position, the holding element (18) is positioned in such a way that it prevents a return movement of the pin (17a, 17b) from the final assembly position into the pre-assembly position.

Claims

1. A hinge comprising: a first part formed with a bore; that can be pivoted relative to the first part about a pivot axis and that is formed with a recess a pin that, in a final assembly position, is coaxial to the pivot axis and has a first longitudinal portion in the bore and a second longitudinal portion in the recess, the pin being movable between a pre-assembly position in which the pin is in the bore or in the recess with a larger overlap with respect to the final assembly position, and at least one holding element extending through a passage in a seat in such a way that the pin can be moved by the holding element from the pre-assembly position into the final assembly position and that, in the final assembly position, the holding element is positioned in such a way that it prevents a return movement of the pin from the final assembly position into the pre-assembly position.

2. The hinge according to claim 1, wherein the hinge comprises two of the pins, wherein, in the final assembly position, each pin is with a longitudinal portion in the bore and with another longitudinal portion in the recess.

3. The hinge according to claim 1, wherein there are first and second such passages, first and second such seats, and respective first and second holding elements, the first holding element extending through the first passage in the first seat and the second holding element through the second passage in the second seat.

4. The hinge according to claim 1, wherein at least one contact surface that cooperates with the pin 17b), is formed on the holding element, the contact surface extends diagonally to an insertion direction of the holding element in such a way that a part of the insertion force is diverted into a direction parallel to the pivot axis, so as to move the pin from the pre-assembly position into the final assembly position.

5. The hinge according to claim 4, wherein the contact surface and the further surface of the holding element are positioned relative to one another in an arrow-shaped manner and form a tip.

6. The hinge according to claim 4 wherein at least one contact surface that cooperates with the pin, is formed on the holding element, and the contact surface is elastic.

7. The hinge according to claim 1, wherein the passage is positioned in such a way that the insertion direction is directed approximately at right angles to the pivot axis.

8. The hinge according to claim 1, further comprising: a locking device for locking the holding element to the first part, the holding element being provided with first positive-locking means that engages with second positive-locking means of the first part or of the second part, when the holding element is in its seat.

9. The hinge according to claim 1, wherein the pin is cylindrical.

10. The hinge according to claim 1, wherein the recess and/or the bore has a stop for the pin.

11. A hinge according to claim 1, wherein the hinge is part of a headrest, an armrest or a storage compartment of a vehicle comprising hinged cover.

12. A method of assembling of a hinge, the method comprising the steps of: introducing at least one pin into at least one bore of a first part and/or into at least one recess of a second part, positioning the first part relative to a second part in such a way that the longitudinal axis of the bore is coaxial to the recess and is aligned therewith, introducing at least one holding element through at least one passage of the first part into a seat such that the holding element moves pin from a pre-assembly position into a final assembly position, and in the pre-assembly position, the pin is in the bore or in the recess with a larger overlap than in the final assembly position and in the final assembly position, the pin has a first longitudinal portion at an end of the bore and a second longitudinal portion in the recesses.

Description

[0039] Further advantages follow from an exemplary embodiment that is illustrated schematically in the FIGS.

[0040] FIG. 1 shows a perspective view of the hinge,

[0041] FIG. 2 shows a front view of the hinge,

[0042] FIG. 3 shows a side view of the device according to the elevation arrows III in FIG. 1 and FIG. 2,

[0043] FIG. 4 shows a sectional view of the device in the pre-assembly position according to sectional line IV-IV in FIG. 2,

[0044] FIG. 5 shows the device in line with FIG. 2, wherein a holding element is moved into a seat of the first part to establish the joint connection,

[0045] FIG. 6 shows the device in line with FIG. 5 in a final assembly position, wherein the holding element is in the seat of the first part.

[0046] The device as a whole is identified with reference numeral 10 in the FIGS. Identical reference numerals in the different FIGS. Identify corresponding parts, even if followed by lowercase letters or if lowercase letters are omitted.

According to FIGS. 1 to 3 and 6, the device 10 comprises a first part 11 that can be pivoted relative to a second part 12 about a pivot axis between a first position and a second position. The first part 11 and the second part 12 form a joint G.

[0047] The first part 11 is provided with a continuous bore 13. The bore is formed on an end area 14 of the first part 11.

[0048] The second part 12 is provided with two recesses 15a and 15b that are spaced apart from one another and which are coaxial to the pivot axis a. The recesses 15a and 15b have a distance 1 from one another. Each bore 15a and 15b is provided with an axial stop 16. The end area 14 of the first part 11 is between the recesses 15a and 15b. The bore 13 is aligned with the recesses 15a and 15b and is thus also coaxial to the pivot axis a.

[0049] A first pin 17a is in the bore 13 with a first longitudinal portion and in the recess 15a with a second longitudinal portion. In addition, a second pin 17b is in the bore 13 with a first area and in the recess 15b with a second area. The stop 16a prevents a further movement of the pin 17a in the direction y2 and the stop 16b prevents a further movement of the pin 17b in the direction y1. A front face 34 of the pin 17a cooperates with the stop 16a, and a front face 34 of the pin 17b cooperates with the stop 16b.

[0050] In the present exemplary embodiment, the pins 17a and 17b are embodied circular cylindrically. The recesses are also embodied circular cylindrically. A pivotable connection between the first part 11 and the second part 12 is created by means of the pins 17a and 17b.

[0051] A holding element 18 is in a seat 28 between the pins 17a and 17b. A passage 31 comprising an opening 30, through which the holding element 18 can be moved into the seat 28 from the outside in the direction x1, is further embodied in the first part 11. The passage 31 crosses the bore 13. The passage 31 is embodied in such a way that the insertion direction x1 of the holding element 18 is positioned approximately perpendicular to the pivot axis a.

[0052] The holding element 18 has contact surfaces 19a and 19b that, starting from a tip 20, are embodied in an arrow-shaped manner. The contact surface 19a forms an angle with an insertion direction x1, and the contact surface 19b also forms an angle with the insertion direction x1. The contact surfaces 19a and 19b are embodied on flexible arms 21a and 21b of the holding element 18. The holding element 18 is made of a resilient material, in the present exemplary embodiment of plastic.

[0053] Recesses 23a and 23b are embodied between the arms 19a and 19b and a base 22 of the holding element 18. The arm 21a can thus deform elastically from the illustrated position in the direction y1, and the arm 21b can deform in the direction y2. Each arm 21a and 21b is provided with first positive-locking means 24 that cooperate with second positive-locking means 25 of the first part 11 in a latching manner. In the present exemplary embodiment, the first positive-locking means 24 are formed by a bolt surface 26, and the second positive-locking means 25 are formed by a wall surface 27 of the bore 13.

[0054] When the holding element 18 is located in the seat 28, the arms 21a and 21b move in engagement with the wall surface 27, so that a movement in the direction x2 is prevented. The contact surfaces 19a and 19b further bear against a reveal 29 of an opening 30 of the first part 11 in such a way that a movement in the direction x1 is prevented. The contact surface 19a also extends at right angles to the bore 13 in such a way that a movement of the pin 17a in the direction y1 is prevented. The contact surface 19b furthermore extends at right angles to the bore 13 in such a way that a movement of the pin 17b in the direction y2 is prevented.

[0055] A joint G that securely prevents a release of the first part 11 from the second part 12, is formed in this way. The first part 11 can be positioned in different pivot positions relative to the second part 12. In FIG. 3, the first part is shown with solid lines in a first pivot position and is identified with 11 and is shown with dashed lines in a second pivot position and is identified with 11.

[0056] When the holding element 18 is located in the seat 28, it is ensured that the pins 17a and 17b have sufficient overlap with the first part 11 and with the second part 12. An elastic deformation of the arm 21a in the direction y1 (see FIG. 6) also does not allow the pin 17a to move in the direction y1 to the extent that a sufficient connection between the first part 11 and the second part 12 would not be ensured. In the case of an elastic deformation of the arm 21b in the direction y2, it would be ensured analogously that the pin 17b is in the recess 15b with sufficient length to maintain a secure connection between the first part 11 and the second part 12.

[0057] The assembly of the device will be described below. The pins 17a and 17b are in the bore 13 in a pre-assembly position (see FIG. 4). In the pre-assembly position, the pins 17a and 17b are, e.g., completely in the bore 13. The bore 13 is brought between the recesses 15a and 15b in such a way that it is aligned with the recesses. Provision is made on the second part 12, e.g., for at least one auxiliary stop, wherein the first part 11 is automatically in the correct position, when the first part bears against the stop.

[0058] The holding element 18 is then inserted into the passage 31 through the opening 30 in the direction x1, so that the tip 20 engages between the pins 17a and 17b (see FIG. 4). In response to onward movement of the holding element 18 in the direction x1, the pin 17a is moved from the contact surface 19a in the direction y2, and the pin 17b is moved from the contact surface 19b in the direction y1 (see FIG. 5). Free end areas of the arms 21a and 21b are thereby deformed from an inner surface 32 of the passage 31 to the base 22.

[0059] When the holding element 18 is located in the seat 28 (see FIG. 6), the arms 21a and 21b can move back into their original shape again, prompted by the restoring force, and then engage behind the wall surface 27 in such a way that the holding element 18 can no longer move in the direction x2. The bolt surface 26 of each arm 21a and 21b then bears against the wall surface 27. A secure articulated connection is then present between the first part 11 and the second part 12.

[0060] To release the holding element 18, protrusions of a non-illustrated tool engage with recesses 33 of the holding element 18. The recesses are formed e.g., by bores, with which the protrusions of the tool engage. A non-illustrated thread, to which the tool is screwed to move the holding element 18 out of the seat 28 in the direction x2, can be embodied in the base 22. The arms 21a and 21b are then moved in the direction of the base 22 and the holding element 18 is moved out of the passage 31 in the direction x2.

[0061] The pins 17a and 17b are subsequently moved into the bore 13 in such a way that they lose their overlap with the recesses 15a and 15b. For this purpose, recesses 35, which make it possible to move the pin 17a in the direction y1 and to move the pin 17b in the direction y2, are embodied in the first part 11. The first part 11 and the second part 12 can then be disassembled from one another.