DE808188C - Quick clamping device for bicycle hubs or the like. - Google Patents

Description

Quick clamping device for bicycle hubs o. The like. In the systems for Quick clamping of hubs, which have the effect of a cam, a ramp or use of an eccentric, one uses parts that as a result of the presence of Ramps, inclined planes or oval holes near the axis of the one to be actuated Drawbar are difficult to work with.

It appeared necessary to create a device in which the Tensile action is exerted in the axis of the system itself and the machining of the Parts is simple, so that their manufacture is economical, but with one gradual tightening is maintained. This object is the basis of the invention.

As a non-limiting exemplary embodiment, the clamping head is shown in FIG the drawing, Fig. i to 3, designed as follows: the clamping lever i drives an eccentric part 2 with which it forms one piece. He can come from a single Pieces are made as shown in Fig. 3 or assembled in any known manner be.

In the example shown (Fig. I and 3) the eccentric 2 is a cylindrical disc, in order to simplify machining; However, it is Of course, you can also use any other ramp or cam profile can use, which results in a more variable stroke when tightening.

Part 2 contains a hole 3 into which an axis 4 enters. Of the Diameter of the hole 3 is noticeably larger than that of the axis 4, so that in the Rotation of the part 2 about itself this can remain symmetrical to the head 5.

The part 2 transmits its pressure movement to a wedge 6, which in the longitudinal direction in a fork head 7 (Fig. i and 2) slides. A hole 8 is permitted the passage of the axis 4. This axis can be in the hole 8 with Frictional engagement or be stuck with a certain amount of play.

The wedge 6 transfers d14rch its ends 9 and io (Fig. I and 2) the Pressure force on the head 5, which on the attachment lug ii of the relevant Hub pushes.

The mode of operation is as follows: Each actuation of the handle i causes the rotation of part 2. This is supported on the one hand on axis 4. (within of the hole 3) and on the other hand on the wedge 6 (outside of part 2). Since the outer Edge of the part 2 and the hole 3 are eccentric to one another, causes the rotary movement of part 2 a mutual distance between parts 4 and 6. Since part 4 (axis) is attached to the fork head 7, this tries to lift itself vertically (according to Fig. i) and exert a pull on the rod 12. The wedge 6, however, looks perpendicular going downwards and exerting a compressive force on the head 5 (Fig. i, left side). The reverse movement (Fig. I, right side) seeks to loosen the rod 12 and to remove the head 5 from the approach ii, which causes the loosening of the hub.

The rod 12 penetrates the hub in a manner known per se hollow axle (this information is intended to identify the actual design the embodiment described above) and has a thread or any other thread at the end another means of attachment to a foot part which regulates the length and thus determines the moment at which the clamping effect occurs.

Since this latter device is known and not the subject of Invention forms, it is not shown in the drawing.

From Fig. 2 and 3 it can be seen that the wedge 6 is designed so that it contributes to the centering of part 2 through a curved or V-shaped shape, so that the symmetry of parts 2 and 5 is maintained during tightening and the pulling action exactly in the axis of the fork head 7 and consequently the rod 12 is exercised. It goes without saying that the wedge 6 has a smaller contact area may have, which is always in the axis of the device where the pulling effect is the strongest.

On the other hand, the eccentricity of the hole 3 causes part 2 of the desired gradual tightening. At the beginning of the movement, the angle is adjusted of the handle i a relatively rapid longitudinal displacement of the large stroke Head 5, e.g. B. for a movement of the lever i of 9o °. Then the second movement of the lever i, e.g. B. again by 90 °, the head 5 only very little in the longitudinal direction up to the point at which the clamping effect is greatest, d. H. the point (Fig. i, left side) at which the greatest distance between the the circles slid on part 2 and hole 3 consists. When the applied on lever i Force is assumed to be constant, the tightening force corresponds to the mechanical one Principles are inversely proportional to the path taken, so that at the end of the Tightening receives the highest pressure for the fastening of the hub in question.

It goes without saying that the invention does not depend on the above-described Embodiment is limited, but also includes all modifications.

Claims (4)

PATENT CLAIMS: i. Quick clamping device for bicycle hubs or the like, characterized by an eccentric (2) with an axis bore (3), the diameter of which is noticeably larger than that of the axis (4) of the fork head (7), so that the outer The circumference of the eccentric is symmetrical to the axis of the fork head when it is rotated can remain, without oval design of the hole or complicated machining Ramps. 2. Apparatus according to claim i, characterized in that the pressure of the outer profile of the eccentric (2) is exerted on a wedge (6), so that the force always acts in the pulling direction of the fork head (7) and the pull rod (12). 3. Device according to claim 1 and 2, characterized in that the wedge (6) has such a profile has that it wholly or partially centering the outer periphery of the eccentric (2) with regard to the fork head (7) and the outer head (5). 4. Device according to claims i to 3, characterized in that the wedge (6) exerts a pressure exerts the head (5) on both sides of the fork head (7) of the tie rod (12), the between the axis (4) of the eccentric and its own hole (3) existing game a gradual tightening effect results, which at the beginning a quick adjustment with light pressure and at the end of the suit a slight adjustment of the head under a very high pressure for one acting on the actuating lever (i) than constant assumed force results.