SEAT BELT PRESENTER AND VEHICLE SEAT WITH A SEAT BELT PRESENTER

Abstract

The present invention relates to a seat belt presenter for a seat belt system in a motor vehicle having a presenter arm with a guide component for a seat belt of the seat belt system arranged on said arm, a drive system driving the presenter arm in an extension movement from a parked position into a presenting position, and a housing on which the presenter arm is guided. The housing is formed from a hollow section with an elongate first chamber, in which the presenter arm is arranged, and the first chamber has a shape determining the course of the extension movement in the direction of the extension movement of the presenter arm.

Claims

1-11. (canceled)

12. A seat belt presenter for a seat belt system of a motor vehicle with a presenter arm with a guide component provided thereon for a seat belt of the seat belt system, a drive system driving the presenter arm in an extension movement from a parked position into a presenting position, and a housing, on which the presenter arm is guided, wherein the housing is formed by a hollow section with an elongate first chamber, in which the presenter arm is arranged, and the first chamber has a shape defining the course of the extension movement in the direction of the extension movement of the presenter arm.

13. The seat belt presenter according to claim 12, wherein the housing is formed by at least two shell-shaped housing components, which complement one another in the assembled form to form the hollow section.

14. The seat belt presenter according to claim 12, wherein the presenter arm is curved, and the first chamber has a curvature identical to the curvature of the presenter arm.

15. The seat belt presenter according to claim 12, wherein a sliding surface or contact surface, on which the presenter arm is guided and mounted, is provided in the housing.

16. The seat belt presenter according to claim 12, wherein the drive system is arranged at least in portions in the first chamber.

17. The seat belt presenter according to claim 12, wherein the presenter arm has a toothing, and the drive system has a fixed first worm which is driven in a rotational movement, engages in the toothing of the presenter arm and during a rotational movement drives the presenter arm in the extension movement as a result of the engagement in the toothing.

18. The seat belt presenter according to claim 17, wherein the drive system has a flexible shaft, which can be driven in a rotational movement and with which the first worm is connected in a rotationally fixed manner.

19. The seat belt presenter according to claim 17, wherein the presenter arm has a second chamber, in which the drive system engages with a dimensionally stable guide bar.

20. The seat belt presenter according to claim 19, wherein the guide component is fixed with a fastening attachment in the second chamber of the presenter arm.

21. The seat belt presenter according to claim 19, wherein the cross-section of the first and/or the second chamber has a polygonal shape, on which the presenter arm is supported in a rotationally fixed manner in relation to its longitudinal axis.

22. The vehicle seat with a seat belt presenter according to claim 12, wherein the seat belt presenter is fastened to the backrest and projects with the housing into a free space formed by a seat structure.

Description

[0020] The invention is explained below using preferred embodiments with reference to the accompanying figures. They show:

[0021] FIG. 1 a seat belt presenter according to the invention with a belt retractor and a seat belt extended into a presenting position, and

[0022] FIG. 2 the seat belt presenter according to the invention in an exploded view, and

[0023] FIG. 3 a sectional view through the seat belt presenter according to the invention in the cutting direction perpendicular to the extension movement of the presenter arm,

[0024] FIG. 4 an enlarged detail of the seat belt presenter with the guide component, and

[0025] FIG. 5 a sectional view of the seat belt presenter in the cutting direction parallel to the extension movement through the longitudinal axis with the presenter arm in the parked position, and

[0026] FIG. 6 a sectional view of the seat belt presenter in the cutting direction parallel to the extension movement through the longitudinal axis with the presenter arm in the presenting position.

[0027] FIG. 1 shows a seat belt presenter 1 according to the invention, which is fastened to a belt retractor 2 via two fastening points 18 and 19. The belt retractor 2 is in particular a seat-integrated belt retractor 2, which is integrated into the upper edge of a backrest of a vehicle seat. The seat belt presenter 1 is arranged on the vehicle seat (not shown) such that it projects into a free space of the backrest or flatly adjoins it laterally, wherein the cushioning of the vehicle seat can cover the seat belt presenter 1 toward the outside of the vehicle seat.

[0028] The seat belt presenter 1 shown in FIG. 1 is in the presenting position and comprises a guide component 5 with a slot 6 through which a seat belt 3 of the belt retractor 2 is guided toward an occupant sitting on the vehicle seat. The seat belt presenter 1 furthermore comprises a drive system with an electric motor 4 as a drive unit, among other things.

[0029] FIG. 2 shows the seat belt presenter 1 in an exploded view with its individual components. The seat belt presenter 1 comprises a housing, which is formed by the composite of a first housing component 11 with a second housing component 12. The second housing component 12 is formed by a curved housing shell having a U-shaped cross-section and a first chamber 23 and serves to receive the individual components explained in more detail below. The first housing component 11 is designed in the form of a cover plate with an identical curvature as the second housing component 12 and complements the second housing component 12 in the mounted position to form the housing with a circumferentially closed first chamber 23. The first and second housing components 11 and 12 are connected to one another by one or more positive latching connections.

[0030] Furthermore, the seat belt presenter 1 has a presenter arm, which is likewise formed by a first curved shell-shaped component 14 having a U-shaped cross-section and a second chamber 24 and by a second component 13 in the form of a cover plate having an identical curvature. In the mounted position, the second component 13 is likewise connected to the first component 14 by a plurality of positive latching connections and thus completes the presenter arm to form a closed hollow section having a rectangular cross-section, by covering the second chamber 24. On its radially inner side, the first component 14 has a toothing 16 directed radially outward and into the second chamber 24. Furthermore, a guide component 5 with a slot 6 is provided on the upper free end of the presenter arm and is fixed in the second chamber 24 by the insertion of a fastening attachment 17 that can be seen in FIGS. 5 and 6. The cross-section of the fastening attachment 17 is designed to correspond in shape to the cross-section of the second chamber 24, i.e., in this case to be rectangular. As a result, the fastening attachment 17 is fixed to the presenter arm in a rotationally fixed manner relative to its longitudinal axis and can additionally be secured against being pulled from the presenter arm by a press fit, an adhesive connection, a locking or the like. The guide component 5 is fastened to the presenter arm such that the slot 6 is freely accessible, so that the seat belt 3 can be supplied from the rear in relation to the occupant and can be guided further through the slot 6 in the direction of the occupant.

[0031] A guide bar 15 fixed in relation to the extension movement of the presenter arm is arranged in the second chamber 24 of the presenter arm. The U-shaped cross-section of the guide bar 15 is dimensioned with outer dimensions corresponding to the cross-section of the second chamber 24 in the presenter arm, taking into account a clearance, so that the presenter arm is supported and guided on the guide bar 15 and thus can carry out movements with respect thereto at the same time. The housing, the presenter arm and the guide bar 15 form a compact structure that can be seen in FIG. 3, wherein the housing forms the outer component and the guide bar 15 forms the core component. The presenter arm is arranged between the housing and the guide bar 15 and is on a contact surface or sliding surface of the housing and/or a contact surface or sliding surface of the guide bar 15 during the movement. All three components are approximately rectangular in cross-section and are combined via the chambers 23 and 24, which are likewise rectangular in cross-section, to form a rotationally fixed composite.

[0032] A flexible shaft 7 is furthermore provided, which is radially fixed in two spaced-apart latching connections 25 in the guide bar 15 and is guided with its upper end through an opening in a holding component 20, which in turn is connected in a rotationally fixed manner to the end of the guide bar 15. The flexible shaft 7 passes through the opening in the holding component 20 and is connected in a rotationally fixed manner via the end protruding therefrom, to a worm 8, which in turn engages in the toothing 16 of the presenter arm. At its lower end, the flexible shaft 7 is connected in a rotationally fixed manner to a connecting piece 9 of a transmission shaft 22, which in turn engages via a worm 10 in a toothing of the drive shaft of the electric motor 4 and, as a result, is driven by the electric motor 4 in a rotational movement during activation. The electric motor 4, the transmission shaft 22, the flexible shaft 7 and the worm 8 together form a drive system, which is arranged with the transmission shaft 22, the flexible shaft 7 and the worm 8 in the second chamber 24 of the presenter arm, and via the latter also in the first chamber 23 of the housing to form a compact construction with protection against external effects. The seat belt presenter 1 can thus be fastened at any point on or within the vehicle seat, without the need to take account of possible external effects on the components drive system arranged within the housing. In particular, the flexible shaft 7 itself and the drive connections of the flexible shaft to the worm 8 and to the connecting piece 9 are protected against external mechanical effects.

[0033] FIG. 4 shows an enlarged detail of the seat belt presenter 1 with the fastening on the belt retractor 2, wherein the first housing component 11 of the housing and the first component 13 of the presenter arm have been omitted for the purpose of better visibility of the components arranged in the housing or in the presenter arm. The worm 8 connected to the flexible shaft 7 in a rotationally fixed manner engages in the radially outward directed toothing 16 of the second component 14 of the presenter rail. The guide component 5 is fixed with the fastening attachment 17 in a rotationally fixed manner in the second chamber 24 of the presenter rail and thereby forms a structural unit with the latter.

[0034] FIGS. 5 and 6 show the seat belt presenter 1 with retracted and extended presenter arm. The guide bar 15 with the drive system, which is held therein or mounted thereon and comprises the flexible shaft 7, the worm 8, the transmission shaft 22 and the electric motor 4, is connected in a stationary manner to the likewise stationary housing of the seat belt presenter 1, while the presenter rail is extended telescopically when the drive system is activated and thus forms the extendable unit of the seat belt presenter 1. When the drive system is activated, the seat belt 3 is moved via the guide component 5 and the guidance in the slot 6 and the presenter arm from the parked position shown in FIG. 5 into the presenting position shown in FIG. 6, wherein the guide component 5 with the slot 6 through which the seat belt 3 is guided forms the guide for the seat belt 3 during the movement and thereby takes along the seat belt 3.

[0035] The presenter arm and the two chambers 23 and 24 are each formed in an arc shape with an identical curvature and thereby define the travel path of the guide component 5 and thus the travel path of the seat belt guided therein into the presenting position.

[0036] The housing, the presenter arm and the guide bar 15 are each dimensionally stable per se and complement one another in the overlapping portion further to form a stiffened composite. In the parked position, the housing, the presenter arm and the guide bar 15 overlap over their almost complete length, so that the seat belt presenter 1 with the presenter arm has a maximum stiffness in the parked position. During the extension movement of the presenter arm, the length of the overlapping portion decreases continuously, so that the stiffness likewise decreases. Nevertheless, the overlapping portion that decreases in length also leads to the stiffness of the seat belt presenter arm being increased, so that it can absorb torsional and transverse forces in an improved manner. Furthermore, the torsional stiffness of the seat belt presenter arm is also increased by the rectangular shape of the housing, of the presenter arm and of the guide bar 15 and by the curvature of the seat belt presenter arm.