DE1205345B - Hub attachment - Google Patents

Description

Hub attachment The invention relates to axial displacements Approved hub fastening in which the shaft and the bore of the hub have teeth, which interlock with a sliding fit. It is known to be a wave and a deferred To connect the hub rotatably in that both parts have a toothing, the Interlocking teeth. This type of connection ensures a far greater level of security against knocking out as the connection by wedge and groove. On the other hand, it allows equal to that of a mutual axial displacement of the two parts also during of the company. Such a case is e.g. B. given with disc friction clutches, in which a torque is transmitted from a friction disc to a driven shaft should be and the torque transmission only with axial, z. B. magnetically controlled Contact pressure takes place. If the friction surfaces wear out, the clutch disc must also can move on the axially fixed driven shaft in the axial direction. Such Couplings are often used for intermittent torque transmission, with z. B. in magnetic tape recorders, the driven shaft from the clutch disc within must be accelerated by lms. It has been shown that this also includes a spline connection as a result of the tooth clearance, which can never be completely avoided in a sliding fit, in a short time fails, d. H. always gets more air.

The invention serves the purpose of establishing the connection between an externally toothed To design the shaft and an internally toothed hub with a longitudinal sliding fit on it in such a way that that the torque transmission even with strongly changing, especially jerky Loads remain backlash-free and axial displacements in particular as readjusting movements can take place during operation.

This is achieved according to the invention by the interlocking Toothings have gaps at individual points, in the tangentially directed Springs are used, on the one hand against a tooth flank of a tooth of the Support the hub and the other hand against a tooth flank of a tooth of the shaft. the Springs are preferably designed as expanding clasps.

The use of tangentially acting springs, which on the one hand oppose one face of a driving clutch half and the other against a face a driven coupling half is inherently in torsionally flexible couplings known. With these the springs should at least when starting or stopping the power transmission, and indeed compliant, cause what has to be the prerequisite, that the coupling halves can rotate against each other. A well-known, tangentially resilient driver in itself, which creates a shaft and a hub connects that he is in a groove of a shaft and at the same time a groove of the otherwise smooth Hub bore is seated.

In contrast, the springs prevent in the invention just in Advantageously, that small, leading to flank wear rotary movements between Shaft and hub take place as they are possible with a sliding fit, and nevertheless allow an axial displacement of the parts against each other. The feathers are to be dimensioned accordingly taking into account the maximum torsional forces, so, that the tooth flanks pressed against each other by their action are always in contact stay.

It should also be noted that a hub seat that remains backlash-free is required can achieve by a strong interference fit of the teeth, as it is with a well-known internally toothed longitudinally slotted sleeve is achievable, the slot of which is after Sliding the sleeve onto a toothed shaft can pull together the teeth press together. Axial shifts are then no longer possible.

The drawing shows an embodiment of the invention. Here, the broken-off shown, the hub forming section of a clutch disc of a magnetically controlled friction clutch is denoted by 1, which is arranged on a long pinion 2 with an involute toothing 2a, the long pinion forming the driven shaft. The hub 1 has an inner toothing l a, which snugly, ie without any noticeable air onto the external toothing 2a, can be pushed to the hub 1 and the Ritzel2 to connect. By recessing two teeth in each case, two gaps are formed in the toothing 1 a and in the toothing 2a. The hub 1 and the pinion 2 are pushed onto one another in such a way that these gaps, overlapping one another, form two spaces 3 and 4 which are each delimited by one tooth of the toothing 1a and one tooth of the toothing 2a. In each of the spaces 3 and 4 is inserted a bow-shaped spring clasp 5 and 6, respectively, such that pushing a against the tooth 1 a and the other against the tooth 2a of its two bar arms which seek to spread apart resiliently. As a result, the spring forces of the two clasps 5 and 6 seek to rotate the hub 1 and the pinion 2 in opposite directions and press the tooth flanks of the toothing 1a counterclockwise on one side against the opposing flanks of the teeth 2a, whereby the tooth clearance between these tooth flanks is eliminated. If the clasps 5 and 6 are sufficiently strong, even strong bouncing blows cannot cause mutual rotary movements of the hub 1 and the pinion 2 and thus no mutual deflection. On the other hand, however, these bouncing blows cause a very slight loosening between the tooth flanks pressed against one another, which briefly reduces the friction between them to such an extent that, for example, when the counter friction disk is worn, the hub 1 can move in the axial direction.

Claims (2)

Claims: 1. Hub attachment allowing axial displacements, in which the shaft and the bore of the hub have teeth that interlock with a sliding fit, characterized in that the intermeshing teeth (1 a, 2a) on individual Places have gaps (3, 4) in the tangentially directed manner in a manner known per se Springs (5, 6) are used, which are on the one hand against a tooth flank of a tooth the hub (1) and on the other hand against a tooth flank of a tooth of the shaft (2). 2. Axial displacements permitting hub attachment according to claim 1, characterized in that that the springs (5, 6) are designed as expanding clasps. Considered publications: German Patent Nos. 361993, 444 959, 708 284, 884 134; U.S. Patent No. 1397 530.