DE737208C - Shaft coupling with worm drive for adjusting the two shafts to each other in the direction of rotation - Google Patents

Description

Shaft coupling with worm drive for adjusting the two shafts to each other in the direction of rotation To adjust two shafts against each other, is already it has been proposed to use a clutch consisting of a worm drive, whereby. the worm with one shaft, the worm wheel with the other shaft connected is.

According to the invention, such is preferably for equiaxed Shafts specific couplings. the worm pivoted and supported by a spring held in their engaged position. In worm gears, it is known that Press the worm resiliently against the worm wheel in order to reduce the tooth pitch errors reduce and improve the running of the transmission. The invention relates to not on a running gear, but on a clutch and its parts from the readjustment movement, maintain their mutual position permanently. The ones on the The spring acting on the worm causes self-locking of the worm gear a mutual securing of the coupling parts and at the same time allows a pivoting and moving the auger to.

This makes it possible to carry out both a coarse and a fine adjustment perform. The worm is used for coarse adjustment. pivots so that they except Intervention is coming. The screw shaft is rotated for fine adjustment. To this For this purpose, a knurled wheel can be connected to the shaft of the worm. One becomes the Preferably hit the pitch of the screw in such a way that self-locking occurs. But you can also provide a ratchet wheel in which a spring engages, whereby the snail is held in place. You can also use the thumbwheel itself train as a ratchet wheel.

The drawing shows further details of the invention. In Fig. R 9 is the drive shaft, ro is the driven shaft. With the wave 9 is connected to a worm wheel i which engages in a worm 2. The slope is chosen so that the worm gear is self-locking.

The screw is mounted in a Winkelhebe13, which itself around the bearing is pivotable. The bearing 7 is attached to the disc 8, which is fixed sitting on the shaft io. By means of a compression spring that is attached to the on the one hand Disk 8 attached stop pin i i, on the other hand to one arm of the angle lever applies, the worm is pushed into its position of engagement. For easy handling of the lever, a push button 5 is provided in the exemplary embodiment. The whole clutch is completed by an easily removable cap 6.

For a rough adjustment the push button 5 is actuated and with it the worm disengaged. The screw shaft is rotated for fine adjustment.

The clutch according to the invention has the further advantage that by the spring eliminates any backlash. In addition, the occurring Friction between worm and worm wheel causes the worm drive to lock itself supports. In the case of waves that do not run exactly in the middle, Ilie resilient arrangement of the worm inaccuracies compensated.

As mentioned earlier, you can use the shaft of the worm to turn a knurled wheel use for fine adjustment. Such an arrangement is shown in FIGS. 2 and 3, in which also the coupling is designed so that it is a unit with the driven shaft i o forms. So much for the parts of FIGS. 2 and 3 with those correspond to FIG. i, the same reference numerals are chosen. On the wave i o A toothed wheel 13 is loosely seated, which is connected to the toothed wheel 12 driven by the shaft 9 cooperates. The angle lever 3 is again mounted in the bearing 7, which with the gear 13 is connected. The pin i i is also connected to the gear 13. On the shaft of the worm 2 sits a knurled wheel 15, with which the worm to Fine adjustment can be moved. This wheel is also designed as a ratchet wheel (Part 16), in which the spring 14 engages, whereby the worm in its position is being held. The knurled wheel is also designed as a dial (part i;) and the spring 1 4th as a pointer. You could also use a special scale wheel Provide a pointer or a special ratchet wheel with a spring in addition to the knurled wheel. That Worm gear i is firmly seated on the shaft io.

You can also reverse the arrangement and make the worm wheel Loosely put it on the shaft and couple a gear with the worm wheel, which then meshes with the gear 12. The fastening of the angle lever would then be in done in the same way as the. Arrangement according to Fig. I, d. H. on the disc 8, which is firmly connected to the shaft i o.

Claims (7)

PATENT CLAIMS i. Coupling, preferably for coaxial shafts, consisting of a worm drive in which the worm is connected to one shaft and the worm wheel to the other, characterized in that the worm (2) is pivotably mounted and supported by a spring (q.) In their engaged position is held. 2. Coupling according to claim i, characterized in that with the A knurled wheel (15) is connected to the shaft of the worm (2) (Fig. 2). 3. Coupling after Claim 2, characterized in that the knurled wheel (15) is designed as a ratchet wheel is, in "which a spring (1, l) engages (Fig.2). q .. Coupling according to claim 2, characterized in that the knurled wheel (15) is designed as a dial (i 7) is (Fig. 3). . 5. Coupling according to claim 3 and characterized in that the Spring (14-) serves as a pointer (Fig. 3). 6. Coupling according to claim i, characterized in that that the pivoting takes place with the help of a push button (5). 7. Coupling after Claim i, characterized in that the worm (2) and the worm wheel (i) sit on the g1e1Che17 shaft (io), one tight and the other loose or vice versa (Fig. 2).