SU1523309A1 - Method and apparatus for working ruled surfaces - Google Patents

Abstract

The invention relates to mechanical engineering and can be used to process ruled surfaces, for example shaped laps. The purpose of the invention is the expansion of technological capabilities through the processing of nonaxisymmetric ruled surfaces. The part 1 is mounted on the carriage 9. The rotation of the tool 2 and the spindle 8 is reported. Simultaneously from the drive 7, the rotation of the spindle 8 through the gears 11 and 12, the rotation is transmitted to the cam 10 and through the stop 6 is converted into the translational movement of the support 5 in the direction of the spindle axis 8. Through the gears 14 and 15, the rotation is transmitted to the cam 13 and is converted into a forward movement of the carriage 9 in the direction perpendicular to the axis of the spindle 8. This provides the set of movements necessary for the production of surfaces: a circular under The workpiece, the translational movement of the part along the axis of the circular feed, the translational movement of the part along the specified axis, relative to this axis in a plane, perpendicular to the axis. 2 sp.f-ly, 3 Il.

Description

The invention relates to mechanical engineering and can be used to process ruled surfaces, for example shaped laps. The purpose of the invention is the expansion of technological capabilities through the processing of nonaxisymmetric ruled surfaces.

Fig. 1 shows a general scheme of the proposed device for carrying out the method in Fig. 2 — node I in Fig. 1 in Fig. 3 is section A-A in Fig. 2,

Part 1 is machined with a rotating tool 2. Parts 1 report movement along arrows B, movement of a circular feed relative to axis 1-1 and movement along arrows G relative to axis 1-1 in a plane perpendicular to axis .1-1.

The apparatus for carrying out the method has the following construction.

On the base 3 there is a drive for rotating the tool with the tool 2, a longitudinal caliper 5 and an abutment 6. On the longitudinal caliper 5 there are located a drive 7 for rotating the spindle 8. The spindle 8 is equipped with a carriage 9. On the base there is a cam 10 with associated gear wheels 11 and 12 and a cam 13 with associated gears 14 and 15. The spindle 8 is fixedly connected by guides 16 for the carriage 9, and the carriage 9 has a key 17 and a clamp 18 with a screw 19 for mounting and securing the part 1.

The device works as follows.

The part 1 is mounted on the carriage 9, fixed in the radial direction by the key 17 and clamped with the stop with the screw 19. The drive is turned, the tool 2 is turned and the rotation drive 7 is turned

spindle 8. Tool 2 and spindle; get rotation. Simultaneously from

0

Q

five

five

0

five

the drive 7 of the spindle 8 through the gears 11 and 12, the rotation is transmitted to the cam 10 and through the stop 6 is converted into translational movement of the caliper 5 in the direction of the arrows B. Through the gears 14 and 15, the rotation is transmitted to the cam 13 and converted into the translational movement of the carriage 9 in the direction of arrows C. This provides the complex of movements of the executive bodies necessary for obtaining the indicated surfaces,

Claims (2)

Invention Formula one . The method of processing ruled surfaces with a rotating tool, in which the parts report circular feed and movement along the circular feed axis, characterized in that, in order to expand technological capabilities, the details report additional, saved with circular feed, movement relative to the circular feed axis in the plane perpendicular to the upper axis of the axis. 2. A device for processing ruled surfaces, including a caliper installed with the possibility of longitudinal movement, a spindle for adjusting with the part, a cam mechanism for coupling the longitudinal movement of the spindle rotary caliper, characterized in that, in order to expand technological capabilities, The device is equipped with a carrier device with a part of the carriage placed on the spindle with the ability to move perpendicular to its axis, and a cam mechanism for moving the carriage, kinematically associated with the drive spindle rotation.