SU904921A1 - Machine for non-routing milling of surfaces - Google Patents

Description

one

The invention relates to mechanical engineering and can be used in all parts of the national economy for the mechanical processing of curvilinear profiles (cams / washers) or grooves delineated by transcendental curves, without the use of copiers.

Known machines dzl beskopirnoy. surface treatments, on the base of which a table is installed, carrying a cartridge with a workpiece, mounted A carriage with a tool mounted on it with a drive and a surface forming mechanism consisting of two interacting gear sectors, one of which is rigidly connected zan with the boss, and the second is fixed on the carriage 1.

Known machines do not allow processing of a sufficiently wide range of profiled contours.

The purpose of the invention is the milling of profiles and grooves according to transcendental curves.

The goal is achieved by the fact that the toothed sector associated with the chuck is made in the form of a square, and the second sector has a profile of a repeating branch of a catenary line.

FIG. 1 shows the proposed machine, the main sectional view; on . 2 - the same plan view; in fig. 3 shows section A-A in FIG. one; in fig. 4 is a diagram of the relative movement of the plane of the workpiece and the tool.

The machine contains a base 1 with a lead screw 2 and a table 3 for mounting the cartridge 4 carrying the workpiece 5. In the straight guide bases are mounted on the lead screw 2 a carriage 6 carrying the sector 7, made on a chain 15 line, there is a column with 8 seconds a bracket 9 on which the cutter drive 10 is fastened. The second square toothed sector 11 is rigidly fixed with the chuck 4 by means of the shaft 12.

20

The machine works as follows.

When the handle of the spindle screw 2 is rotated, the carriage 6 moves to

25 straight guide bases 1. Together with the carriage 6, the column 8 is driven by the milling cutter 10 and the sector 7, which engages with the sector 11 mounted on the shaft 12.

30 Moving sector 7 provides

turn sector 11 and through the shaft 12 and the cartridge 4 turn parts 5.

Thus, the engagement of the toothed sectors 7 and 11. ensures the following relative movement of the cutting tool and part tool (cutter) moves along with the carriage in a straight line, and the product rotates around the axis of the shaft 12. Depending on the setting of the device, the cutter processes a curvilinear profile on the surface or groove delineated by various transcendental curves using equations

X m cosf-tn- (f) r cos

for m-sinf-tn -, (f) cosf.

The device is adjusted by fixing the bracket 9 on the column 8 at a different angle of ° C and installing the drive with the cutter 10 at a certain distance from the axis of the column 8 (Fig. 4}.

The proposed device allows, with simplicity of design, to automate the process of a wide range of profiled contours.

Claims (1)

1. USSR author's certificate 677829, cl. B 23 C 3/16, 1977. J