DE129860C - - Google Patents

Description

■ i HVl

PATENT OFFICE.

The present invention aims to solve the problem, the bevel gears whose Teeth up to now either left raw, planed or after various approximation methods are milled inaccurately to provide precise Evolyenten teeth.

The conical cutter corresponding to the tooth taper lies with its axis in the Length direction of the tooth gap to be machined. The center of the cutter cone falls with that of the wheel cone and is at this point in a ball bearing or a Compafs suspension freely rotatable in all directions. The other end of the router is mounted in the drive gear by means of a ball driven by a nose, which in turn, finds its storage in a ruler so that it can be moved lengthways and freely rotated; this ruler rolls on a round disc, the radius of which is the same as that their position reduced the radius of the evolute circle (base circle). Describes this way every point on the ruler, including the drive wheel and the milling cutter, is an involute.

To make it easier to understand, the arrangement chosen in the drawing is described: An arm £>, which carries the engine, and a fan-like arm d, which carries the various evolute disks c, is wedged in two places on the shaft α. The whole system can be adjusted around the axis of the shaft a by means of screw e, depending on the inclination of the wheel cone to be machined. The drive stage pulley, which is firmly connected on the one hand to the bevel gear ^ and on the other hand to a spur gear g , can be freely rotated around α. f drives the wheel h mounted on the arm d , which drives the spur wheel i , i rotates the wheel Z and thus the milling cutter through the intermediary of the wheel k. g takes care of the circuit by turning the worm η on the shaft m by means of a simple and a stepped gear train. The corresponding worm gear sector is attached to an arm 0, in the slot of which an angle ρ can be set; By means of a spring and a roller, ρ presses the ruler r against the evolute disk c.

The wheels to be machined must already have teeth that are too strong.

As already mentioned, the worm w, which in turn is driven from the stepped pulley through the intermediary of gear wheels, drives the worm wheel sector, which is screwed onto the arm ο. Fig. 5 shows the longitudinal section through this arm and the worm wheel together with the view of the remaining parts in question, Fig. 6 is the view of the entire switching mechanism from above, Figs. 3 and 4 are the cross sections of 0; In Fig. 4, depending on the size of the evolute disc c, the angle p is adjustable along the slot from 0 but has to be fixed at 0, in Fig. 3 the roller carriage 5 which presses the ruler r against the evolute disc c from ρ by means of a strong spring visible; this is straight out in the slot of arm 0. Fig. 7 shows the view of the arm 0 from below, namely in the upper half with, in the lower half without the worm gear sector.

Since 0, together with the parts ρ and s, rotates about its axis, the ruler r is compelled to roll along the disk c without closing

slide (which will presumably also occur without a toothing between r and c ), so that the bearing of the wheel /, which rotates the cutter, which is carried by this ruler, describes an involute. The wheel is rotated by I i k from the mediation of the intermediate wheel (Fig. 2), the axis of which is related to the / and by i in the main drawing Grundrifs only indicated intermediate members in connection.

The parts to be exchanged for different workpieces are: the milling cutter, which must have the appropriate taper and thickness, and the evolute disc c, which is a simple, fan-shaped plate provided with screw holes for attachment to d.

The mode of operation of the milling cutter is shown most clearly in FIG. 8, where the section through the the tooth to be machined is hatched. The diameter of the milling cutter is equal to the tooth gap width at the evolute circle. The tooth is formed up to this circle and semicircular below it continued by moving the cutter axis on the dashed involute. The drawn crown trajectory of the tooth from the other wheel shows that this semicircular gap base of the movement of this one Leaving sufficient space free for the tooth, provided that the head of the tooth is not made too high in which case the gap would have to be reworked, but this is not an accuracy requires more because it is not a work profile. In Fig. 8, this is a tooth along with its crown orbit, on the assumption that the line of incision is located extends to the evolutionary circle, but this does not usually have to be done. This machine can also be used for milling from solid, with only the Switching has to take place correspondingly more slowly than when re-milling, because then the milling cutter works to half its size.

Claims (1)

Patent claim:
Machine for milling bevel gears, characterized in that a milling cutter lying along the tooth to be milled is switched by rolling a straightedge on a round disk to accommodate its mounting. 1 sheet of drawings.