BELT WEBBING FOR SAFETY BELT DEVICE AND SAFETY BELT DEVICE

Abstract

A belt webbing for a safety belt device of a motor vehicle, the belt webbing being wider in a first section than in a second section relative to its longitudinal direction.

Claims

1. A seat belt webbing for a safety belt device of a motor vehicle, comprising: the belt webbing is formed having a first section wider in its lengthwise orientation than in a second section.

2. A seat belt webbing according to claim 1, further comprising in that the first section has a width of 75 to 100 mm.

3. A seat belt webbing according to claim 1, further comprising in that the first section has a length of 350 to 600 mm.

4. A seat belt webbing according to claim 1, further comprising in that the belt webbing in the first section has a 1/1 or 2/2 binding.

5. A seat belt webbing according to claim 1, further comprising in that the belt strap in the first section has 10 to 18 weft threads/cm.

6. A seat belt webbing according to claim 1, further comprising in that the belt webbing has a transitional section between the first section and the second section with 6 to 18 weft threads between the second and the first section with an increasing number of weft threads/cm in the direction of the first section.

7. A seat belt webbing according to claim 1, further comprising in that the belt webbing has a transitional section between the second and the first section with an increasing width in the direction of the first section, which is 100 to 200 cm long.

8. A seat belt webbing according to claim 1, further comprising in that the belt webbing is woven in the first section into two layers arranged above one another, and the two layers are attached to one another by a connecting thread.

9. A seat belt webbing according to claim 1, further comprising the warp threads of the belt webbing are woven in at least three weaving beams including a first beam, a second beam, and a third beam.

10. A seat belt webbing according to claim 9, further comprising in that the belt webbing with the first weaving beam at a longitudinal center area of the webbing with a first number of warp threads, and the belt webbing is woven in the partial sections of the second and the third weaving beams bordering on the central first weaving beam with a second number of warp threads, which is smaller than the first number of warp threads in the first weaving beam.

11. A seat belt webbing according to claim 10, further comprising in that the second and the third weaving beams are formed identically and arranged symmetrically to the central first weaving beam.

12. A seat belt webbing according to claim 10, further comprising in that the belt webbing has 140 to 160 warp threads in the first central weaving beam.

13. A seat belt webbing according to claim 10, further comprising in that the belt webbing has 120 to 150 warp threads in the second and third central weaving beams.

14. A seat belt webbing according to claim 8, further comprising in that the connecting thread is woven in a weaving beam separate from that of the other warp threads.

15. A seat belt webbing according to claim 1, further comprising in that a movable and lockable belt tongue is provided on the belt webbing in a fastenable vehicle belt buckle, which distributes the belt webbing in a locked position to a diagonal shoulder belt webbing section across the chest of an occupant and a lap belt webbing section crossing the hips of the occupant, and the first section is so dimensioned and positioned that it forms the shoulder belt webbing section or a portion of the shoulder belt webbing section.

16. A safety belt device comprising a first webbing retractor, and a windable belt webbing with a first end connected to the first webbing retractor, the belt webbing is formed according to claim 1, and a second webbing retractor is provided onto which the belt webbing is windable at a second end.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] The invention is discussed below based on preferred embodiments with reference to the attached figures. These show:

[0026] FIG. 1: a safety belt device with a belt webbing according to the invention;

[0027] FIG. 2: the belt webbing with a first broadened section in various views; and

[0028] FIG. 3: two different cross-sections parallel to the lengthwise stretch by the weft threads of the first section of the belt webbing.

DETAILED DESCRIPTION

[0029] In FIG. 1, a seat belt device 1 according to the invention may be seen with an occupant sitting on a vehicle seat 3. The seat belt device 1 is comprised of a first belt retractor 4 and a guide loop 11, both of which are fastened to a B-column 2 of a vehicle. In addition, the seat belt device 1 includes a second belt retractor 5 and a belt buckle 10, both of which are fastened to a lower section of the vehicle structure, preferably to the floor structure of the vehicle. In addition, a belt webbing 6 is planned on which a movable belt tongue 9 is provided, which is locked into the belt buckle 10. The belt tongue 9 divides the belt webbing 6 in locked position into a diagonal shoulder belt webbing section 7 crossing the chest of the occupant and a lap belt webbing section 8 crossing the hips of the occupant.

[0030] The belt webbing 6 is windable with a first end on the first belt retractor 4 and runs from there up to the guide loop 11. Starting from the guide loop 11, the belt webbing 6 runs further in the diagonal shoulder belt webbing section 7 up to the belt tongue 9 that is locked into the belt retractor 10 and further from the belt tongue 9 into the lap belt webbing section 8 to the second belt retractor 5, onto which the belt webbing 6 is windable with a second end. To this point the seatbelt belt device 1 corresponds to the geometry of a standard 3-point safety belt device with two belt retractors 4 and 5.

[0031] A section of the belt webbing 6, preferentially a section of the diagonal shoulder belt webbing section 7, can be seen enlarged in FIG. 2. The belt webbing 6 has at least a first section 13, a second section 12, and in each case a transitional section 14 arranged between the two sections 12 and 13. The second section 12 has a width for example of about 46 mm to 48 mm, which corresponds to the width of standard belt webbing. Since the belt webbing 6 is in each case windable with the first end and the second end onto the two belt retractors 4 and 5, which correspond to the second sections 12 of the belt webbing 6, standard belt retractors 4 and 5 with standard dimensions and construction measures can also be used. On the other hand, the first section 13 of the belt webbing has a width of for example about 75 mm to 100 mm and is about 350 mm to 600 mm long. Furthermore, a transitional section 14 is planned in each case between the first section 13 and the second section 12, in which the width of the belt webbing 6 increases in the direction of the first section 13. The transitional section 14 in each case has for example a preferred length of 100 mm to 200 mm. The first section 13 is so positioned in the belt webbing 6 that when the belt webbing 6 is attached, it lies on the chest of the occupant. In addition, the first section 13 is so positioned and the second section 12 is so dimensioned lengthwise that the belt webbing 6, when unfastened, is rolled up into a complete rollup exclusively with the second section 12 with the smaller width onto both the belt retractors 4 and 5. Thereby the length of the second section 12 is so dimensioned that the belt webbing 6 is rolled to its maximum position over the first belt retractor 4 until it lies on the guide loop 11 with a transitional section 14 or the first section 13. The remaining webbing section is thereby rolled up in that the second end of the belt webbing 6 is rolled up onto the second belt roller 5. Thereby the belt webbing 6 in practice is rolled up over the two free ends of the diagonal shoulder belt webbing section 7 and the lap belt webbing section 8.

[0032] The advantage of the proposed solution may be seen in the fact that the surface area of this belt webbing 6 gets larger in the area of the first section 13, and the load over unit area (pressure) is thereby reduced on the occupant. Thereby it is especially advantageous that the belt webbing 6 is set in both the windup second sections 12 or the two ends with standard sizes, so that standard belt retractors 4 and 5 can be used, and that the belt webbing 6 must not be rolled up to a complete rollup with the first sections 13. The position of the first section 13 must thereby be so set that it always lies both in the parked position of an unfastened seat belt webbing 6 and in the fastened belt webbing 6 position between the guide loop 11 and the belt tongue 9 without the belt webbing unbuckling movement and belt webbing buckling movement being disturbed, something made possible by the use of two belt retractors 4 and 5.

[0033] The belt webbing 6 in the first webbing section 13 has a weft thread thickness preferably of 10 to 18 weft thread/cm, in the second section 12, a weft thread thickness preferably of about 6 to 12 weft threads/cm, and in the transitional sections 14 an increasing weft thread thickness of 6 to 18 weft thread/cm in the direction of the first section 13. The thickness of the weft threads in each case is given in the direction of the longitudinal extension of the belt webbing 6.

[0034] Furthermore, the belt webbing 6 in the area of the second section 12 and in the area of the transitional section 14 in each case is woven with a 2/2 binding in the area of the first section 13 with a 1/1 and/or a 2/2 binding. As is recognizable in the presentation of FIG. 2 and FIG. 3, the belt webbing 6 in the area of the first section 13 is double layered woven with two layers on warp threads 19, 20 and weft threads 18, whereby both layers and in particular the weft threads 18 in the edge areas in each case are bound by two binding threads 17 in a 1/1 binding, while the standard warp threads 19, 20 may also be woven in a 2/2 binding as well as in a 1/1 binding. Thereby it is shown to be advantageous if only the binding threads 17 are woven in a 1/1 binding and the warp threads in a 2/2 binding. The first section 13 is thereby formed as a hollow fabric.

[0035] The advantage of the proposed formation of the first section 13 in the transitional section 14 may be seen in the fact that the belt webbing 6 during normal use and when under impact lies against the occupant without folds and without arching in the edge areas. Thereby the length of the transitional sections 14 and the increasing thickness of the weft threads in the transitional sections 14 are of special importance for a distribution of impact forces as uniform as possible. In addition, the type of weave of the 1/1 and/or 2/2 binding in the area of the first section 13 is of special importance, because hereby a very thick and high number of binding points of the weft threads 18, warp threads 19, 20 and binding threads 17 can be achieved.

[0036] The warp threads 19/20 have a thread strength of 830 to 1670 dtex, while the weft threads 18 have a preferred thread strength of 400 to 1100 dtex and the binding threads 17, a preferred thread strength of 280 to 550 dtex. Thereby the thread strengths of the binding threads 17 can be chosen depending on the thread strength of the weft threads 18.

[0037] In addition, the belt webbing 6 with warp threads 19, 20 May be woven with an individually changeable or variable tension for the various sections 12, 13, and 14.

[0038] As recognizable in the central illustration of FIG. 2, the warp threads 19, 20 of the belt webbing 6 are woven in three weaving beams I, II, and III. Thereby the first weaving beam III in the central section has 150 warp threads, while on the first weaving beam III two symmetrically arranged and identically formed partial bundles or partial sections of a second weaving beam II are on the edge, which in comparison to the first weaving beam III have a smaller number of in each case 75 warp threads each, so that the second weaving beam II also has altogether the sum of the two partial bundles or partial sections 150 warp threads 19 and 20. Two additional partial sections or partial bundles of a third weaving beam I border on the outside, which in each case have 60 warp threads, so that the third weaving beam I has a total of 120 warp threads 19, 20. The warp threads 19, 20 of the various weaving beams I, II, and III can preferentially be woven in various bindings and/or in various orientations with the weft threads 18, so that the belt webbing 6 has various bindings of the weft threads 18 along its length.

[0039] Due to the interweaving of the warp threads 19, 20 in various weaving beams I, II, and III, the belt webbing 6 can intentionally be provided in the first section 13 with such stiffness in the cross direction that the belt webbing 6 is not arched to the side even with increased length forces in the side edge sections. Thereby the weaving in the various weaving beams I, II, and III is further preferred because of the advantage that the higher tensile strength in the narrower second section 12 is thereby transferred more evenly to the first section 13 and vice versa. The individual groups of warp threads 19, 20 are understood under the concept of weaving beams I, II, and III 19, 20, which together change their side orientation to the weft threads 18 and thereby are interwoven into a uniform binding with the weft threads 18.

[0040] Because of the interweaving of the warp threads 19 and 20 in various weaving beams I, II, and III, the bindings of the warp threads 19 and 20 can be selected individually in various groups across the lengthwise extension of the belt webbing 6, whereby again various stiffness of the belt webbing 6 can be achieved or prevented and whereby intentionally a specific deformation behavior of the belt traps 6 can be achieved or prevented.

[0041] The binding thread 17 is preferentially in a separate fourth weaving beam, not illustrated, woven over the entire horizontal stretch of the belt webbing 6 and a 1/1 binding with the weft threads 18, so that the binding thread 17 is woven in a different binding than the warp threads 19, 20 of the other weaving beams I, II, and III, and thereby both layers of the warp threads 19 and 20 are bound to each other. The fourth weaving beam of the binding thread 18 in practice overlays the other weaving beams I, II, III over the horizontal stretch of the belt webbing 6 and preferentially comprises 70 to 120 threads and especially preferentially 100 threads.

[0042] Groups of warp threads 19, 20 or of the binding thread 17 are understood as weaving beams I, II, III, which are woven together as groups in a binding with the weft threads 18. Thereby the binding can be formed in the rhythm differently or identically in the rhythm, but formed in an offset fashion. The partial section or partial bundle of the second and third weaving beams II and I are set and distributed preferentially symmetrically to the first weaving beam III and interwoven in a uniform 2/2 or 1/1 binding with the weft threads 18, preferentially with a 2/2 binding.