DE2400835C3 - - Google Patents

Description

lowing arm is attached to the pivot axis of the pivot lever

Storage of this, the guide means may be constituted by a guide which receives a sliding block and is fixed to the actuating device for shifting the s pivotal lever parallel to the axis of the freewheel, while the sliding block is mounted on the pivot axis of the pivot lever.

In both embodiments of the guide device the tension spring advantageously encloses the pivot axis of the pivot lever and is with it one end fixed, while the other end is attached to a point on the guide device, whose angular position remains unchangeable with respect to the pivot axis of the pivot lever.

An exemplary embodiment of the invention is shown in the drawing. In it shows

F i g. 1 is a schematic side view of an embodiment of a derailleur according to the invention,

2 shows a sectional view along the line A-AmF ig. 1,

F i g. 3 shows an exploded view with the components of a derailleur corresponding to that in FIG. 1 and 2 embodiment shown,

F i g. 4 shows a detail from a side view of a derailleur according to the invention with a highlighted illustrated quadrangle,

F i g. 5 An exploded perspective view of the components of the hinge square in Fig. 4,

F i g. 6 and 7 each show a side view of a derailleur according to FIGS. 3 to 5 in the two outermost ones Operating positions,

F i g. 8 is a schematic side view of a modified embodiment of one according to the invention Derailleur and

F i g. 9 is a sectional view along the line BB in FIG. 8th.

In the illustrated embodiments of the derailleur according to the invention, it is assumed that the bicycle (not shown) has a freewheel 1 with five sprockets Ii to I5 of different diameters. A drive chain 2 is in the position in which it runs over the chain wheel Ii of the smallest diameter, denoted by 2 \; in another position, in which the chain runs over the sprocket I5 of the largest diameter, it is denoted by I ₂ (FIGS. 1 and 8). The freewheel 1 has an axis 3 which is normal to the plane of the F: i g. 1 and 8 and coincides with the hub axle in the rear wheel of the bicycle. In order not to overload the drawing, the frame of the bicycle is not shown; Only one fastening screw 4 is drawn, with which the derailleur is fastened to the fork plates (dropouts) of the bicycle in a known manner.

Otherwise, the drawing is limited to the representation of the device by means of which the rollers the derailleur can be moved parallel to the axis of the freewheel 1. According to the invention, this is how drawn, an articulated bar provided.

In the case of the in FIG. 1 and 2 drawn embodiment of a quadrangle for moving the Chain guide roller parallel to the axis 3 of the freewheel 1 are two Pa.allel-Lenker 5,6 provided with their ends are each hinged to two end pieces 7 and 8, which the others, too form opposite arms of the quadrangle. By means of the screw 4, the end piece 7 is attached to the Fork plate or attached to one dropout of the bicycle frame The other end piece 8 holds the remaining components of the derailleur. The quadrangle designed as a joint parallelogram 5 to 8 can be operated in the usual way by means of a (not shown) cable, for a Adjusting lever is attached to the frame or to the handlebar of the bicycle.

In a manner known per se, the derailleur also has a chain guide roller 9 and a chain tensioning roller 10, which are each rotatably mounted on an axis 11 and 12, respectively. These axes 11, 12 are carried by a pivot lever, which consists of two flat parts (with end shields) 13,14 are held together by a connecting bolt 15 (with spacer).

In the embodiment of FIG. 1 and 2, the axis 11 of the chain guide roller 9 is above the end shield 13 also in front and thus simultaneously forms the pivot axis for the pivot lever 13, 14. The latter is according to the invention with the end piece 8 of the quadrangle 5 to 8 connected by a carrier, which as Guide for moving the pivot axis 11 of the pivot lever 13, 14 towards and away without hindrance. is formed by the axis 3 of the freewheel 1.

It can be seen that the pivot lever 13, 14 and the rollers 9 and 10 are overhung on the end piece 8 are. No mechanical device is required for the transition of the chain 2 from a Sprocket of the freewheel 1 to the next inevitably a displacement of the pivot lever 13, 14 and the rollers 9, 10 to effect. In the embodiment according to FIG. 1 and 2 consists of the Carrier made of a four-bar linkage, the four arms or sides of which are supported by two pairs of links 16, 18 and 17, 19 are formed. The arm 16 is fastened to the end piece 8 by means of a retaining screw 20. You can see that the Axis 11 of the guide roller 9, which is also the pivot axis of the pivot lever 13, 14, in addition forms the joint for the arms 17, 18 of the joint quadrangle 16 to 19 designed as a joint parallelogram.

So that the chain tensioning roller 10 constantly tensions the chain 2 (or 2 |, 2 ₂ , etc.), a tension spring is provided which constantly loads the pivot lever 13, 14 in the corresponding pivot direction. This spring is designed as a helical spring 21, one end 211 of which is fixed to a tab 22 of the pivot lever part 13, while its other end 2I2 engages a holding piece 23 of the arm 18 on the joint parallelogram 16 to 19.

Particular advantages of the invention result from the fact that no holding device for the pivot lever 13, 14 and for the rollers 9, 10 is required in a chain circuit of this construction and that in particular no device is required to provide the guide roller 9 on one of the sprockets Ii to I ₅ control. If the drive chain 2 is not in place, the joint parallelogram 16 to 19 is adjusted under the effect of the weight of the rollers 9, 10 and the pivot lever 13, 14. However, if the chain 2 rests on the freewheel 1 and the rollers 9, IC of the derailleur, the chain 2 is kept under constant tension thanks to the tension spring 21 via the pivot lever 13, 14 and the chain tensioning roller 10, although the chain 2 itself has a constant reaction exerts force that seeks to reduce its tension About the rollers 9 and 10, this reaction force has the ability to do the joint parallelogram

24 OO

10

1 ₅

16 to 19 act, while the tensioning effect exerted by the spring 21 on the chain 2 Guide roller 9 is brought up to that sprocket of the freewheel 1 over which the chain 2 runs, so that whose tension could decrease in itself. Under the action of the spring 21, this decrease is the However, the chain tension is automatically compensated for by pivoting the tensioning roller 10 accordingly.

In Fig. 1, the two extreme positions of the rollers 9, 10 are shown. The rollers 9 and 10 are drawn with solid lines in the position in which the chain 2 or 2 \ runs over the chain wheel 11 of the smallest diameter and then over the rollers 9 and 10. It can be seen that the chain strand located between the chain guide roller 9 and the chain wheel 11 has the smallest possible length. If the four-bar linkage 5 to 8 is now actuated, for example by means of a cable, as an adjusting device for the displacement of the pivot lever 13, 14 parallel to the axis 3, the joint parallelogram 16 to 19 is freely adjusted, i.e. without controlled forced guidance, in such a way that the arms 17 to 19 can get into the positions which are shown in phantom and denoted by 17i, I81 and 19i. The guide roller 9 assumes the position 9i in which the chain I ₂ is in engagement with the teeth of the sprocket Is. To compensate for the change in diameter from the chain wheel Ii to the chain wheel I5, the chain tensioning roller 10 comes at the same time into the position 10 _t shown in dot-dash lines.

In Figures 3 to 7, a practical embodiment of a derailleur is shown, which after the Principle of Figs. 1 and 2 works. The same parts are provided with the same reference numbers. It should be noted is, however, that according to FIG. 1 and 2, the pivot lever part 13 is mounted on the axis 11 which the Connecting the arms 17 and 18 of the four-bar linkage 16 to 19 forms; on the other hand, in FIGS. 3 to 7 the Storage of the pivot lever part 13 and the guide roller 9 drawn on an axis 32 which the This arrangement enables the connecting joint for the arms 18 and 19 of the joint parallelogram it that the arms 17, 19 occupy an approximately horizontal position on the average, which is between the in F i g. 6 drawn lower position and in F i g. 7 upper position can vary. This ensures that the generated by the chain 2 and via the

25th

30th

35

40 freewheel 1 can be brought about. 6 corresponds to the one end position of this arrangement, the chain 2 or 2 ₂ running over the large sprocket I _{5 of} the freewheel 1, while F i g. 7 shows the arrangement in the other end position, in which the chain 2 \ runs over the small sprocket It.

Another guide device for the unimpeded movement of the axis of the pivot lever to and from the freewheel 1 is shown in FIG. 8 and 9 shown embodiment provided. Here, the carrier is formed by a guide 24 which slidably receives a sliding block 25 and is rigidly connected to a plate 35 which is fastened to an end piece 27 by means of a screw 26. The latter forms an arm of a four-bar linkage, the three other arms of which consist of two parallel links 28, 29 and an upper end piece 30 which is attached to the fork plate or the dropout of the bicycle frame by means of a screw 31. In the embodiment shown, the guide 24 is a tube which is provided with a slot along a surface line, and the sliding block 25 is formed by a cylindrical rod to which one end of an axle 36 is rigidly attached, which is the pivot bearing for the chain guide roller 9 and the pivot lever 13, 14 forms. The axis 36 is enclosed by a helical spring 37 and carries a pressure disk 34. The latter has a hole for receiving the one spring end 37 | the tension spring 37, the other end 37 ₂ of which is fixed on the tab 22 of the pivot lever part 13

In this embodiment of the invention, too, no special actuating device is required in order to effect a displacement of the chain guide roller 9 in relation to the sprocket of the freewheel 1 used in each case. If chain 2 (or 2 ,, 2 ₂ , etc.) is not on. so the sliding block 25 slides due to its own weight and the weight of the rollers 9, 10 and the pivot lever 13, 14 inside the guide 24 downwards. However, if the chain 2 is in place, the tensioning spring 37, by pivoting the pivot lever 13, 14 by means of the tensioning roller 10, exerts a tensioning effect on the chain 2 and this automatically generates a reaction force which the tension of the chain 2 by approaching the guide roller 9 to the used lower sprocket of the freewheel 1 seeks a result, the free chain run between the sprocket used in each case and has Ketteiifuhrungsrolle 9 _v independently of. diameter

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Claims (7)

Patent claims: j. Fahjrad derailleur with a Kettenführwigsrorie and a tension roller, which are rotatably mounted on axles, which sit on a pivot lever that is attached to a pivot bearing and on which a tension spring engages, which constantly loads the pivot lever to maintain the chain tension, and with an adjusting device for moving the pivot lever parallel to the axis of a freewheel for changing gear shifting of the drive chain from one chain wheel to the next, characterized in that the adjusting device (5 to 8; 27 bit 30) with a pivot axis (11; 36) dec pivot lever (13, 14) supporting, separate guide device (16 to 19; 24, 25) is connected, by means of which the pivot axis of the pivot lever for an adjustment movement perpendicular to the axis (3) of the freewheel (1) as a result of a parallel displacement of the pivot axis by means of the adjusting device, but independently is led by the latter. 2. derailleur according to claim 1, characterized in that the pivot axis (11; 36) of the The pivot lever (13, 14) is also the axis of rotation of the chain guide roller (9) 3. derailleur according to claim 1 or 2, characterized in that the tension spring (21; 37) encloses the pivot axis (11; 36) of the pivot lever (13, 14) and is fixed _{to it with one end (211; 37 2) while} the other end (2I ₂ ; 37j) is attached to a point of the guide device (16 to 19; 24, 25), the angular position of which remains unchangeable with respect to the pivot axis (11; 36) of the pivot lever (13, 14). 4. derailleur according to one of claims 1 to 3, characterized in that the guide device (16 to 19) is formed by a quadrilateral joint with one (16) of its arms on the Adjusting device (5 to 8) for moving the pivot lever (13, 14) parallel to the axis (3) of the Freewheel (1) and with an opposite arm (18) on the pivot axis (11) of the pivot lever (13,14) is attached. 5. Derailleur according to Claim 4, characterized in that the four-bar linkage is a joint-parallel selogram forms in the shape of a rhombus. 6. derailleur according to claim 2 and claim 4 or 5, characterized in that the pivot axis (11) of the pivot lever (13, 14) at the same time forms a hinge axis of arms (17, 18) of the quadrilateral joint, that of its connection with the adjusting device (5 to 8) for moving the pivot lever (13,14) parallel to the axis (3) of the Freewheel (1) are kept free. 7. derailleur according to one of claims 1 to 3, characterized in that the guide device (24,25) is formed by a guide (24) which receives a sliding block (25) and on the Adjusting device (5 to 8) for moving the pivot lever (13, 14) parallel to the axis (3) of the Freewheel (1) is attached, while the sliding block (25) on the pivot axis (36) of the pivot lever (13,14) is attached. The invention relates to a bicycle derailleur with a chain guide roller and a tensioning roller that are rotatably mounted on axes, which sit on a pivot lever attached to a pivot bearing is attached and on which a tension spring engages, which the pivot lever constantly to maintain the Chain tension loaded, and with an adjusting device for moving the pivot lever parallel to Axis of a freewheel for changing gear shifting of the drive chain from a sprocket to next. In a known derailleur of this type (DT-AS 1006 288) the pivot axis is the pivot lever in a longitudinal slot or a slide to regulate the center distance according to the given gear diameter of the gear shift used can be displaced and locked. With big ones The gear wheel diameter of the gear shift used is the pivot axis at the bottom and for small ones Gear diameters set in the upper area of the longitudinal slot. This is a Presetting of the center distance, which is determined by the dimensions of the gears of the gear shift used This distance remains unchanged during operation It has been shown that when using Freiiaui wheels with sprockets very different Diameter the chain guide roller of the circuit in too large a distance to the smallest Sprocket of the freewheel arrives and the switching process for the transition of the chain from this Smallest diameter chain wheel on the adjacent chain wheel is no longer sufficiently fast and accurate carries out The invention is based on the object of providing a bicycle derailleur with simple, inexpensive means to create the type specified above, which is easy to use even under unfavorable Conditions, especially when using sprockets with widely differing diameters, quick and flawless gear changes are permitted. This is achieved according to the invention in that the adjusting device has the axis of the pivot lever supporting, separate guide device is connected, by means of which the pivot axis of the Swivel lever for an adjustment movement perpendicular to the axis of the freewheel as a result of a parallel shift the pivot axis is guided by means of the adjusting device, but independently of the latter. It takes place during operation in addition to the parallel displacement caused by the actuating device Pivot axis still an adjustment movement of the pivot axis by means of the separate guide device perpendicular to the axis of the freewheel, which free the guide roller and the chain idler, i.e. without controlled forced operation leads to the new switch positions. This way it is increased without A reliable and precise gear change is achieved in a very short time, regardless of the operating effort the difference in the number of teeth and therefore in the diameter of the individual sprockets of the freewheel In a further embodiment of the invention, the sensing device can be formed by a four-bar linkage be that with one of his arms on the adjusting device for moving the pivot lever parallel to Axis of the freewheel and with an opposite