Safety belt attachment arrangement

Information

  • Patent Grant
  • 6059223
  • Patent Number
    6,059,223
  • Date Filed
    Thursday, July 30, 1998
    26 years ago
  • Date Issued
    Tuesday, May 9, 2000
    24 years ago
Abstract
An arrangement for the attachment of a belt to a reel of a safety belt reeling mechanism has a shaft (10') and a reel (12') arranged coaxial to the shaft with a belt (14') attached to the reel (12') forming a closed loop (16') at its end. A securing pin (18') extending transverse to the direction of the belt is provided in the loop and is not formed by the shaft (10').
Description

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an arrangement for attaching a belt to a reel of a safety belt reeling mechanism, including a shaft, a reel arranged coaxially to the shaft and a belt attached to the reel and forming a closed loop at its end.
2. Description of Related Art
One such belt attachment is disclosed in U.S. Pat. No. 4,385,736. In this arrangement, the loop of the belt is pushed over the shaft and a clamping member is mounted on this arrangement which presses the loop against the shaft. The belt passes to the outside through a slot in the clamping member and through a slot in the reel and is wound onto the reel.
A further belt attachment is disclosed in U.S. Pat. No. 4,119,281. In this belt attachment no separate shaft is provided. Clamping elements which firmly clamp the belt relative to the reel again serve for the attachment of the belt to the reel.
Finally, a belt attachment is known from the European patent 0 620 141 B1 in which the belt is held against the reel by surface pressure.
SUMMARY OF THE INVENTION
It is an object of the invention to provide a belt attachment of the initially named kind which reliably holds the belt, which can be manufactured at favorable cost and which enables simple installation.
This object is satisfied by the features of claim 1, and in particular by the fact that a securing pin standing transverse to the direction of the belt is provided in the loop but is not, however, formed by the shaft. When compared with the designs known from the prior art, an additional securing pin is provided in accordance with the invention which alone, or together with the shaft, prevents an undesired pulling off of the belt, and also an undesired empty rotation of the belt relative to the reel. The arrangement of the invention can be manufactured at favorable cost because the securing pin can be manufactured as a geometrically simple component. At the same time, a cost favorable installation is possible because no pressing procedures or the like have to be effected for the attachment of the belt.
Advantageous embodiments of the invention are described in the description, in the subordinate claims and in the drawings.
In accordance with a first advantageous embodiment, the belt can be wound around the shaft outside of the loop and partly almost fully surrounding the latter. In this way, the shaft is also used as a securing element, but with the securing pin located in the loop being provided as an additional securing element. In this embodiment a high degree of security is thus achieved in a simple manner.
In accordance with a further embodiment of the invention an axial cut-out in which the securing pin is received can be formed in the reel. This cut-out is preferably open in the radial direction and tapers towards the outer periphery of the reel, whereby emergence of the securing pin located in the loop is prevented. In this embodiment the securing pin, around which the loop is wound, is reliably and non-losably received in the cut-out, so that the belt can be wound onto the reel without interference.
In accordance with one embodiment of the invention the securing pin can be formed as a separate component which enables the pin to be pushed into the loop from the outside during installation. In accordance with an alternative embodiment, the securing pin is connected to the reel in one piece, whereby a further installation step can be omitted. In this case it is advantageous when the securing pin is formed by two spaced apart slots in the reel because the loop can then be pushed from the side onto the securing pin, so that the belt runs through the two slots in the region of the reel.
In accordance with a further preferred embodiment the securing pin provided in accordance with the invention and the shaft are located within the loop. Here, two securing elements are provided for double security in order to attach the belt to the reel.
The belt and/or the loop of the belt is/are preferably arranged with clearance between the shaft and the reel. An embodiment of this kind enables easy installation because the belt or the loop can be introduced between the shaft and the reel without canting arising and without pressing procedures or the like being necessary.





BRIEF DESCRIPTION OF THE DRAWINGS
In the following, the present invention is described purely by way of example with reference to advantageous embodiments and to the accompanying drawings in which are shown:
FIG. 1 a section through an embodiment of a belt attachment; and
FIG. 2 a section through a second embodiment of the belt attachment.





DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
The arrangement shown in FIG. 1 for the attachment of the belt 14 to a reel 12 of the safety belt reeling mechanism has a shaft 10 which is coaxially received in the reel 12. The belt 14 is secured to the reel 12 and its end forms a closed loop 16. For this purpose the belt end is turned back onto itself and sewn with a seam 20.
In the embodiment shown in FIG. 1 an axially extending cut-out 22 is provided in the reel 12 and has a concave section 24 in which the securing pin 18 is received. The belt 14 is introduced into the interior of the reel 12 through the cut-out 22 which is open towards the outer periphery and surrounds the shaft 10 almost completely. After passing around the shaft 10, the loop 16 of the belt 14 enters into the cut-out 22 and thus enables the securing pin 18 to be pushed into the interior of the loop there.
The belt 14, i.e. the loop 16, is received in the ring-like intermediate space between the shaft 10 and the inner periphery of the reel 12 with some clearance which facilitates the installation. As the edge sections 28, 30 of the reel, which face in the direction of the cut-out 22, are rounded off, a gentle guidance of the belt is ensured. For the assembly of the arrangement shown in FIG. 1, the belt provided with the loop 16 is turned over on itself once and the (temporary) loop which thereby arises is pushed onto the shaft 10. After the securing pin 18 has been inserted into the loop 16 the belt 14 can be tightened, whereby the securing pin 18, which is surrounded by the loop 16, is drawn into the cut-out 20 and contacts the concave section 24. The width of the cut-out 22 is dimensioned as that the securing pin 18 can be drawn into the cut-out 22 during this procedure as a result of the elasticity of the belt in the direction of its thickness but no longer leaves the latter without the action of an external force.
FIG. 2 shows a second embodiment of the invention in which a shaft 10' is received coaxially within a reel 12'. A belt 14' is also provided here which forms a loop 16' via a seam 20'.
In this embodiment a securing pin 18' is formed in one piece with the reel such that the outer periphery of the reel 12' is provided with two parallel slots 32', 34'. A cut-out 22' is provided in the outer periphery of the reel 10' displaced through substantially 180.degree. relative to the securing pin 18' and the belt 14' is introduced through the cut-out 22' into the interior of the reel.
In the embodiment shown in FIG. 2, the volume of the loop is made larger than in the embodiment of FIG. 1, so that it is possible to push the loop 16' of the belt 14' both onto the shaft 10' and also onto the securing pin 18' connected in one piece to the reel 12'. Thus, in this embodiment, the seam 20' of the belt is no longer located in an intermediate space between the reel and the shaft, but rather in the region of the cut-out 22'. The belt thereby extends from the cut-out 22' through an intermediate space formed between the shaft 10' and the interior of the reel 12', passes out through the slot 32', surrounds the securing pin 18' over a region of approximately 180.degree. and is subsequently guided through the slot 34' back into the interior of the reel 12' entering via a further intermediate space between the shaft 10' and the reel 12' into the cut-out 22' again. At this point the end of the belt is provided with the seam 20'.
In this embodiment the belt is also always located with some clearance between the shaft 10' and the interior of the reel 12'.
As can be seen from FIGS. 1 and 2, the securing pin 18 of the first embodiment has a cross-sectional area which amounts to approximately 25% of the cross-sectional area of the shaft 10. In contrast the cross-sectional area of the securing pin 18' in the embodiment shown in FIG. 2 has substantially the same order of magnitude as the cross-sectional area of the shaft 10'. In both embodiments the shaft turns together with the reel. In just the same way the loop is formed as a closed loop in both embodiments, i.e. the end of the belt is turned over and sewn or secured in another manner.
Reference Numeral List
10, 10' shaft
12, 12' reel
14, 14' belt
16, 16' loop
18, 18' securing pin
20, 20' seam
22, 22' cut-out
24 concave section
26 ring space
28, 30 edge section
32',34' slot
Claims
  • 1. An arrangement for attaching a belt to a reel of a safety belt reeling mechanism, comprising:
  • a shaft;
  • a reel arranged coaxially to the shaft;
  • a belt attached to the reel and forming a closed loop at its end, and
  • a securing pin extending transverse to the direction of the belt,
  • wherein the securing pin is located in the loop and is not formed by the shaft, and
  • wherein the shaft is located within the loop.
  • 2. An arrangement in accordance with claim 1, wherein the securing pin is unitarily connected to the reel.
  • 3. An arrangement in accordance with claim 1, wherein the securing pin is formed by two spaced apart slots in the reel.
  • 4. An arrangement in accordance with claim 1, wherein an outlet slot for the belt is provided in the reel and is arranged displaced through about 180.degree. relative to the securing pin.
  • 5. An arrangement in accordance with claim 1, wherein the securing pin is arranged in a region of an outlet slot for the belt.
  • 6. An arrangement in accordance with claim 1, wherein the belt and the loop of the belt are arranged at least partly with a clearance between the shaft and the reel.
  • 7. An arrangement in accordance with claim 1, wherein the belt is arranged at least partly with a clearance between the shaft and the reel.
  • 8. An arrangement in accordance with claim 1, wherein the belt loop is arranged at least partly with a clearance between the shaft and the reel.
Priority Claims (1)
Number Date Country Kind
197 33 343 Aug 1997 DEX
US Referenced Citations (20)
Number Name Date Kind
3291416 Gionta Dec 1966
3304021 Quenot Feb 1967
3325212 Dillender Jun 1967
3802638 Dragan Apr 1974
3802641 Saito Apr 1974
3857528 Fiala Dec 1974
3942740 Torphammar et al. Mar 1976
3955774 Weman May 1976
4008863 Fohl Feb 1977
4061291 Cunningham Dec 1977
4079964 Yamada et al. Mar 1978
4119281 Paitula et al. Oct 1978
4256273 Burleigh Mar 1981
4385736 Yamamoto et al. May 1983
4562977 Hollowell Jan 1986
5176335 Honl et al. Jan 1993
5312066 Haston et al. May 1994
5340046 Schroth et al. Aug 1994
5344095 Frei Sep 1994
5358275 Fohl Oct 1994
Foreign Referenced Citations (29)
Number Date Country
0 093 043 Nov 1983 EPX
0 297 537 Jan 1989 EPX
0 252 834 Jun 1990 EPX
0 402 489 Dec 1990 EPX
0 557 863 Sep 1993 EPX
0 557 864 Sep 1993 EPX
0 442 014 Apr 1994 EPX
0 442 410 May 1994 EPX
0 709 266 Oct 1994 EPX
0 620 141 Oct 1994 EPX
0 562 423 Jan 1995 EPX
0 557 865 Apr 1995 EPX
2401671 Mar 1979 FRX
2 331 942 Jun 1997 FRX
28 02 031 Jul 1979 DEX
30 09 894 Sep 1980 DEX
34 07 379 Apr 1990 DEX
40 18 795 Dec 1990 DEX
40 06 117 Jan 1994 DEX
42 11 374 Dec 1994 DEX
43 24 967 Jan 1995 DEX
43 31 027 Mar 1995 DEX
295 05 268 U Sep 1995 DEX
296 05 115 U Aug 1996 DEX
296 13 044 U Dec 1996 DEX
297 03 665 U Apr 1997 DEX
2 151 458 Jul 1985 GBX
2 167 647 Jun 1986 GBX
2 174 590 Nov 1986 GBX