DE854000C - Hobbing machines - Google Patents

Description

The gearing of gear wheels is done on hobbing machines various- procedures.

When milling spur gears: the milling headstock is with the milling cutter parallel to. Traverse the workpiece axis.

Worm gears can be toothed using the radial method, provided that there are inaccuracies of the flank shapes are permissible at helix angles over about 6 °. In this procedure the table with the workpiece is moved against the milling cutter. The axial method is permitted the most precise meshing of worm gears and prevents the tooth flanks from being mismatched. Here, the tool is inserted into the workpiece to the depth of the tooth in the direction of its center of rotation postponed. It is also possible to combine the radial and axial processes.

In the known hobbing machines that enable this milling process, a milling headstock can be moved up and down on the fixed column. For milling In the radial process, the workpiece table has a mechanically driven via change gears Delivery device. The milling headstock is also available for the axial process a special support and for its axial movement with an additional feed gear equipped.

The pivot milling: according to the invention also allows that Gear teeth of all types of wheel bodies with the greatest accuracy. A delivery device for the workpiece table, a special support on the milling headstock and a. Feed gear for an axial movement of the same, however, are not required here. The tool During swivel hobbing, the workpiece center is not only approached radially, but also also moved tangentially to the wheel body circumference at the same time. '' Swivel hobbing is shown and described in an exemplary embodiment on the drawings. However, it is not limited to this one embodiment. For example, can instead of the milling headstock. the workpiece table perform the swivel movement: Fig. I shows a gear scheme and a hob at the start of the gear teeth in Contact with a wheel body for a worm wheel, Figure 2 the same gear scheme with swiveled milling headstock and hob in finish cut. Gear parts for driving the tools and for the additional rotation of the workpiece table not shown, as these must be available in every case.

On the workpiece table i, which is via the worm 2 and the worm wheel 3 driven and only adjusted by hand by the handwheel with threaded spindle 4 needs to be, the gear body 5 to be toothed is clamped. The headstock 6 can be pivoted about the column 7 and moved vertically above it. Its pivot center, the point of contact between the tool and the wheel body circumference at the start of milling and the center of the workpiece table are connected to each other and form an obtuse triangle, the angle of which depends on the largest module to be milled.

The milling cutter 8 is driven via the gear 9. Panning the Milling headstock 6 takes place via the gear io with worm ii and worm wheel 12, which can be clamped on the column 7 and in the unblocked state is longitudinally movable with the headstock 6 over the column. So can spur gears and all similar workpieces are geared.

When milling the worm gear, the milling cutter 8 (Fig. I) is so far on the Wheel body pivoted until he touches it with his right teeth. This adjustment process is the same as that of the radial method. The swivel feed is then switched on. Here, the worm wheel 12 must be clamped on the column 7. During the panning movement of the milling headstock, the hob plunges with simultaneous tangential movement also radially into the workpiece until the tames have been cut (Fig.2). The swivel feed is then switched off. The swivel feed is used for spur gear milling out and the vertical feed. switched on. Is here a cutting edge part of the Then the still sharp edge part of the cutter becomes the wheel center swiveled in. There is no need to move the milling cutter in its axial direction.

Claims (3)

PATENT CLAIMS: i. Hobbing, in particular for the gear cutting of worm gears, characterized in that by pivoting the milling headstock (6) around a stationary column (7), the center of which is next to the extended connecting line between the center of the table and the point of contact of the tool (8) on the workpiece (5) at the start of milling, the tool penetrates this tangentially and radially until the teeth have finished cutting. 2. Machine for hobbing according to claim i, characterized by d'ass the center of gravity of the hob by several degrees offset to the center between the table center and the cut point on the wheel body circumference lies. 3. Machine for hobbing, especially for gear cutting worm gears, according to claims i and 2, characterized in that the pivoting movement of the Milling headstock (6) or the additional rotation of the workpiece table (i) over a differential gear takes place, which is also used for milling helical teeth Spur gears is used.