Positioning devices with tolerance compensation, a set of automotive components comprising such a device and a positioning method with tolerance compensation

Abstract

A positioning device with tolerance compensation including: a screw; a primary tightening member, and a secondary nut. The screw includes a driving portion cooperating with a driving tool to rotatably drive the screw and is located in an axial end portion of the screw; primary and secondary external threads, the primary external thread being further from the driving portion than the secondary external thread, the directions of the secondary external thread and the primary external thread are opposing; and an abutment projecting between the primary and secondary external threads. The primary tightening member includes a primary internal thread adapted to cooperate with the primary external thread, the primary tightening member and the abutment secured to an intermediate component. The secondary nut includes a secondary internal thread cooperating with the secondary external thread and is configured to bear against the intermediate component to fasten a first component on a second component.

Claims

1. A positioning device with tolerance compensation, for positioning a first automotive component with respect to a second automotive component by fastening the first automotive component on an intermediate component, the positioning device with tolerance compensation comprising: a screw having at least: one driving portion configured to cooperate with a driving tool so as to rotatably drive the screw, the driving portion being located in an axial end portion of the screw, one primary external thread and one secondary external thread, the primary external thread being further from the driving portion than the secondary external thread, the direction of the secondary external thread being opposite to the direction of the primary external thread, and one abutment extending in protrusion between the primary external thread and the secondary external thread, a primary tightening member having a primary internal thread configured to cooperate with the primary external thread, the primary tightening member being intended to be secured to the first automotive component; and a secondary nut having a secondary internal thread configured to cooperate with the secondary external thread, the secondary nut and the abutment being configured to bear against the intermediate component so as to fasten the first automotive component on the intermediate component, wherein the primary external thread, the secondary external thread, the primary internal thread and the secondary internal thread are configured so that a secondary torque caused by the frictions between the secondary external thread and the secondary internal thread is higher than a primary torque induced by the frictions between the primary external thread and the primary internal thread.

2. The positioning device with tolerance compensation according to claim 1, further comprising a coating product disposed between the secondary external thread and the internal thread.

3. The positioning device with tolerance compensation according to claim 1, wherein the primary tightening member is formed by an insert configured to be secured to the first automotive component.

4. The positioning device with tolerance compensation according to claim 1, wherein the secondary external thread extends from the driving portion to the abutment, and wherein the primary external thread extends from the abutment to an end portion of the screw opposite to the driving portion.

5. The positioning device with tolerance compensation according to claim 1, wherein the abutment is located substantially at the middle of the screw along an axial direction.

6. The positioning device with tolerance compensation according to claim 1, wherein the secondary external thread is dextral and the primary external thread is sinistral.

7. A set of automotive components, for equipping a motor vehicle, the set of automotive components comprising at least: a first automotive component defining a portion of the outer surface of the motor vehicle, a second automotive component defining a portion of the outer surface of the motor vehicle, and an intermediate component configured to support the first automotive component, wherein the set of automotive components further comprises at least one positioning device with tolerance compensation according to claim 1, the positioning device with tolerance compensation being arranged so as to fasten the first automotive component to the intermediate component.

8. The set of automotive components according to the claim 7, wherein the second automotive component and the intermediate component form a single part.

9. A positioning method with tolerance compensation, for positioning a first automotive component with respect to a second automotive component by fastening the first automotive component on an intermediate component, the positioning method with tolerance compensation comprising the steps of: providing a set of automotive components according to claim 8 in a disassembled state, the or each primary external thread being engaged in a respective primary internal thread, connecting the first automotive component to the intermediate component by means of said at least one positioning device, rotatably driving the screw so that the driving portion is pulled away from the primary tightening member until the abutment cooperates with the abutment portion, rotatably driving the screw so that the screw displaces the first automotive component relative to the second automotive component, and rotatably driving the secondary nut relative to the secondary external thread until the secondary nut presses against the intermediate component so as to fasten the first automotive component to the intermediate component.

10. The positioning method with tolerance compensation according to claim 9, wherein each step of rotatably driving the screw comprises an engagement step for engaging a driving tool on the secondary nut.

11. The positioning method with tolerance compensation according to claim 9, wherein the step of rotatably driving the secondary nut is performed until the abutment exerts on the intermediate component an adhesion torque higher than the secondary torque.

Description

(1) The present invention will be better understood and its advantages will appear in the light of the description that will follow, given only as a non-limiting example and made with reference to the appended schematic figures, in which identical reference numerals correspond to structurally and/or functionally identical or similar elements. In the appended schematic figures:

(2) FIG. 1 is a perspective view of a positioning device with tolerance compensation in accordance with the invention;

(3) FIG. 2 is a schematic sectional view of a portion of a set of automotive components in accordance with the invention and comprising the positioning device with tolerance compensation of FIG. 1, during a step of a positioning method with tolerance compensation in accordance with the invention;

(4) FIG. 3 is a view similar to FIG. 2, during a subsequent step of the positioning method with tolerance compensation;

(5) FIG. 4 is a view similar to FIG. 2, during a subsequent step of the positioning method with tolerance compensation;

(6) FIG. 5 is a view similar to FIG. 2, during a subsequent step of the positioning method with tolerance compensation;

(7) FIG. 6 is an exploded perspective view of a first automotive component and of three positioning devices with tolerance compensation according to FIG. 1;

(8) FIG. 7 is an assembled perspective view of the first automotive component and of the three positioning devices with tolerance compensation of FIG. 6;

(9) FIG. 8 is a perspective view of a portion of the intermediate component;

(10) FIG. 9 is a perspective view of the second automotive component and of the intermediate component illustrated in FIG. 8;

(11) FIG. 10 is a perspective view of the first automotive component and of the intermediate component fastened by the three positioning devices with tolerance compensation of FIG. 6; FIG. 2 corresponds to a section along the line II in FIG. 10;

(12) FIG. 11 is a front view of the first automotive component and of the intermediate component fastened by the three positioning devices with tolerance compensation of FIG. 6;

(13) FIG. 12 is a section along the line XII-XII in FIG. 11;

(14) FIG. 13 is a section along the broken line XIII-XIII in FIG. 11, illustrating the set of automotive components of FIG. 5; and

(15) FIG. 14 is a flow chart illustrating a positioning method with tolerance compensation in accordance with the invention.

(16) FIG. 1 illustrates a positioning device 1 with tolerance compensation. As shown in FIGS. 2 to 5, the positioning device 1 with tolerance compensation is intended to position a first automotive component 101 with respect to a second automotive component 102. In addition, the positioning device 1 with tolerance compensation is intended to fasten the first automotive component 101 to an intermediate component 103.

(17) The positioning device 1 with tolerance compensation comprises a screw 2, a primary tightening member 16, a secondary nut 18.

(18) The screw 2 has a driving portion 4, a primary external thread 11, a secondary external thread 12 and an abutment 14.

(19) The abutment 14 extends in projection between the primary external thread 11 and the secondary external thread 12. The abutment 14 herein is located substantially at the middle of the screw 2 along an axial direction Y. The abutment 14 herein completely surrounds the screw 2. The abutment 14 has generally the shape of a closed ring.

(20) The abutment 14 herein is integral with the rod of the screw 2. A face of the abutment 14 is covered with reliefs 14.1, herein braking teeth, configured to rub against a complementary portion of the intermediate component 103.

(21) The driving portion 4 is configured to cooperate with a driving tool, not represented, so as to rotatably drive the screw 2 about the screw axis Y. The driving portion 4 is located in an axial end portion 2.1 of the screw 2. The driving portion 4 herein has a male shape. The driving portion 4 herein has an external hexalobular shape.

(22) The primary external thread 11 is further from the driving portion 4 than the secondary external thread 12. In the example of the figures, the secondary external thread 12 extends from the driving portion 4 to the abutment 14, and the primary external thread 11 extends from the abutment 14 to an end portion of the screw 2 opposite to the driving portion 4.

(23) The direction of the primary external thread 11 is opposite to the direction of the secondary external thread 12. In this instance, the secondary external thread 12 is dextral and the primary external thread 11 is sinistral.

(24) The secondary nut 18 and the abutment 14 respectively are configured to bear against the intermediate component 103 so as to fasten the first automotive component 101 on the intermediate component 103.

(25) The secondary nut 18 has a secondary internal thread 18.1 which is adapted to cooperate with the secondary external thread 12. The secondary nut 18 is configured to bear against a planar portion 103.18 of the intermediate component 103.

(26) The primary tightening member 16 has a primary internal thread 16.1 which is adapted to cooperate with the primary external thread 11. The primary tightening member 16 is intended to be secured to the first automotive component 101. The primary tightening member 16 herein is formed by an insert secured to the first automotive component 101, as shown in FIGS. 2 to 5.

(27) The primary external thread 11, the secondary external thread 12, the primary internal thread 16.1 and the secondary internal thread 18.1 are configured so that a secondary torque induced by the frictions between the secondary external thread 12 and the secondary internal thread 18.1 is higher than a primary torque induced by the frictions between the primary external thread 11 and the primary internal thread 16.1.

(28) To this end, in the example of the figures, the positioning device 1 with tolerance compensation further comprises a coating product disposed between the secondary external thread 12 and the secondary internal thread 18.1.

(29) FIGS. 2 to 13 illustrate a set of automotive components 100 for equipping a motor vehicle, as well as steps of a positioning method 200 with tolerance compensation, schematized in FIG. 14.

(30) The set of automotive components 100 comprises a first automotive component 101, a second automotive component 102, an intermediate component 103 and the positioning device 1 with tolerance compensation of FIG. 1.

(31) In the example of FIGS. 2 to 13, the first automotive component 101 is a door external opening control unit. The second automotive component is a sheet metal body panel which supports the door external opening control unit. The intermediate component 103 is configured to support the first automotive component 101. The intermediate component 103 herein is formed by a folded sheet metal bracket. The intermediate component 103 is secured to the second automotive component 102, in this instance by bonding or welding.

(32) When the set of automotive components 100 is in an assembled state, the door external opening control unit flushes with a body panel through an opening 102.5. The body panel defines a portion of the outer surface 103 of the motor vehicle, as shown in FIGS. 12 and 13.

(33) The first automotive component 101 comprises a first outer surface 101.1, which is visible in FIGS. 12 and 13 and which defines a portion of the outer surface of the motor vehicle which is not represented. The second automotive component 102 comprises a second outer surface 102.1, which is visible in FIGS. 12 and 13 and which defines a portion of the outer surface of the motor vehicle.

(34) The intermediate component 103 is partially arranged inside the motor vehicle. The intermediate component 103 comprises an abutment portion 103.14 which is configured to cooperate with the abutment 14 when the driving portion 4 is pulled away from the primary tightening member 16. In the position of FIG. 5, the abutment portion 103.14 cooperates with the abutment 14.

(35) When the positioning device 1 with tolerance compensation is in use for fastening a set of automotive components 100, the positioning method 200 is carried out, by performing the following steps:

(36) Step 202: An operator provides the set of automotive components 100. In this set of automotive components 100, each primary external thread 11 is engaged in a respective primary internal thread 16.1. Then, the operator places each positioning device 1 between the first automotive component 101 and the intermediate component 103 via a tilt-up movement by means of notches 103.2 defined on the intermediate component 103, as shown in FIG. 10.

(37) Step 204: The operator connects the first automotive component 101 to the intermediate component 103 by means of the positioning devices 1. The set of automotive components 100 is then in the state illustrated in FIG. 10.

(38) Step 205: In the example of the figures, the operator sets the first automotive component 101 in the reference position against the second automotive component 102. In the example of FIG. 13, the operator presses the first automotive component 101 against an abutment surface 102.3 of the second automotive component 102. The abutment surface 102.3 herein is formed by a flanged edge 102.2 delimiting the opening 102.5 through the sheet metal body panel. Thus, the operator has no position adjustment to perform in order to position the first automotive component 101 with respect to the second automotive component 102.

(39) Step 206: The operator rotatably drives the screw 2 so that the driving portion 4 is pulled away from the primary tightening member 16, as shown by the arrow F2 in FIG. 3, until the abutment 14 cooperates with the abutment portion 103.14. The set of automotive components 100 is then in the state illustrated in FIG. 3.

(40) Step 208: The operator rotatably drives the screw 2 so that the screw 2 displaces the first automotive component 101 relative to the second automotive component 102 along the direction of the arrows F2 in FIG. 4.

(41) Subsequently to step 208, the first automotive component 101 is held pressed between each abutment portion 103.14 and a reference surface of the second automotive component 102. Consequently, the first outer surface 101.1 and the second outer surface 102.1 are almost coincident, which ensures a flushing, that is to say a clearance 101.102 close to 0 mm and an excellent aspect of the set of automotive components 100.

(42) Step 210: The operator rotatably drives the secondary nut 18 relative to the secondary external thread 12, so as to bring the nut close to the intermediate component 103 along the arrow F3, until the secondary nut 18 presses against the planar portion 103.18 of the intermediate component 103, as shown in FIGS. 4 and 5.

(43) In this step 210 of rotatably drive the secondary nut 18, the operator tightens the secondary nut 18 until the abutment 14 exerts on the intermediate component 103 an adhesion torque higher than the secondary torque. Thus, this adhesion torque induces the rotation of the secondary nut 18 relative to the secondary external thread 12. The first automotive component 101 is then fastened to the intermediate component 103, in the state illustrated in FIGS. 5, 10 and 11.

(44) Each of the rotation driving steps 208 and 210 comprises an engagement step for engaging a driving tool on the primary nut 16 in order to rotate the screw 2.

(45) Of course, the present invention is not limited to the particular embodiments described in the present patent application, nor is it limited to embodiments within the reach of those skilled in the art. Other embodiments may be considered without departing from the scope of the invention, from any element equivalent to an element indicated in the present patent application.