RU2765554C1 - Device for turning the outer surface of an axisymmetric part - Google Patents

Abstract

FIELD: metalworking.

SUBSTANCE: invention relates to the field of metalworking and can be used for high-precision turning of the outer surfaces of axisymmetric parts, in particular for turning shafts on universal machines in manufacturing. A device for turning the outer surface of an axisymmetric part contains a tool holder with roughing and finishing cutters installed in the axial direction. These cutters are mounted with a constant offset in the axial direction. Both tool holders are equipped with integral elastic elements. The finishing cutter is set from the condition of removing the allowance equal to the size of the roughness protrusions of the machined surface from processing with a rough cutter. Between these cutters, a beam is installed, made with a built-in elastic element and ensuring the transmission of vibrations from the rough cutter to the finishing cutter. A hydraulic damper is installed parallel to the beam, which provides a phase shift of the finishing cutter relative to the rough cutter.

EFFECT: accuracy and quality of processing is increased by reducing the roughness and reducing the energy consumption of the clean turning process by using the energy of metal destruction in rough turning and high-frequency vibrations of the finishing cutter, equal to the frequency of chip lamelling.

1 cl, 2 dwg

Description

The present invention relates to the field of metalworking, in particular to the processing of the outer surfaces of axisymmetric parts on lathes. A device for simultaneous roughing and finishing of surfaces of bodies of revolution, containing two cutters. The finishing cutter is rotated relative to the roughing cutter and fixed on the mandrel with the possibility of angular adjustment. [one].

The disadvantage of this device is the impossibility of smooth adjustment of the angular position of the finishing cutter during the cutting process as a function of turning modes. Adjusting the angular position of the cutters with spacers does not allow continuous and smooth adjustment.

A device for processing internal surfaces, selected as a prototype, containing two cutters installed on the same diametrical size and displaced in the axial direction by an amount that ensures the removal of the scallops left after black turning with a finishing cutter is known. The calculation of the offset value of the finishing cutter is calculated according to the analytical formula in advance. [2].

The disadvantage of this device is the difficulty of fine-tuning the finishing cutter for the finishing size-diameter of the part. The surface of the part has the same roughness profile as in roughing, only less in height. The device does not control the wear of the cutting part of the cutter. Machining accuracy is not measured during the turning process.

The task to be solved by the claimed invention is to increase the efficiency of processing and productivity with the achievement of the following technical results: increasing the reliability of the tool due to the stabilization of high-frequency vibrations of the tool, improving the accuracy and quality of processing by reducing roughness and reducing the energy intensity of the pure turning process through the use of metal destruction energy on rough turning and high-frequency oscillations of the finishing cutter, equal to the frequency of chip lamellarization.

This problem is solved by the fact that the roughing and finishing cutters are set to the same diametrical size and are displaced in the axial direction by a constant value. Both cutters are equipped with built-in elastic elements and a beam with an elastic element is installed between them in the axial direction, which transmits vibrations from the rough cutter to the finishing one. Parallel to the beam, a hydraulic damper is installed, which provides a phase shift of the finishing cutter relative to the rough cutter. The finishing cutter is set from the condition of removing the allowance equal to the size of the roughness protrusions from processing with a rough cutter.

Equipping cutters with elastic elements makes it possible to fluctuate within specified limits as a function of cutting forces and use the cutting process itself as a source of high-frequency oscillations. A beam connecting two cutters and equipped with an elastic element allows transferring the energy of the cutting process and the oscillation frequency to the finishing cutter. The built-in damper between the cutters provides a phase shift of the oscillation of the finishing cutter, which reduces the level of roughness in fine turning. With this setting of the cutters, the finishing cutter does not copy the helical surface left by the rough cutter, but cuts off the protrusions from the rough cutter H to the value H ₁ . In addition, the finishing cutter removes small chips and the cutting forces are therefore small and the elastic movements of the finishing cutter are minimal, which leads to an increase in machining accuracy.

The present invention is illustrated by the drawings shown in Fig. 1 and 2. In FIG. 1 shows a general view of a device for turning axisymmetric parts, and Fig. 2 is a diagram of the formation of roughness on the treated surface.

The two-cutter device for turning axisymmetric parts contains a rough cutter 1 with a built-in elastic element 2, a finishing cutter 3 with a built-in elastic element 4, a beam 5 with a built-in elastic element 6 and a damper 7. The two-cutter block is fixed in the tool holder 8 relative to the workpiece 9. workpiece surface from roughing 10 and finishing turning 11.

Dvuhryztsovy device works as follows. The block of cutters is adjusted according to the standard sample to the specified diameters, fixed in the tool holder of the machine and brought to the workpiece. The rough cutter 1 is included in the cutting process first, and then, after a distance L, the finishing cutter 3 starts working. Elastic elements 2 and 4 with elastic elements a and b are built into each cutter (Fig. 1). The cutters are connected by a beam 5 with a built-in elastic element 6 made in the form of a rectangle, which allows both cutters to oscillate in the YOX plane in the same direction. Parallel to the beam 5, between the cutters 1 and 3, a damper 7 is built in, the body of which is fixed on the cutter holder 3, and the piston rod is mounted on the cutter holder 1.

The finishing cutter 3 lags behind the roughing cutter 1 in phase, this is due to the operation of the damper 7, then the axial displacement of the finishing cutter 3 relative to the top of the roughing cutter 1 occurs at an angle β (delay angle). The finishing cutter 3 does not copy the helical surface left by the rough cutter 1, but cuts off the tops of the scallops, leaving an unevenness with a height H ₁ less than the unevenness H on the machined surface. This design of the two cutting unit allows the finishing cutter 3 to oscillate in the same direction with the same frequencies.

The use of the design of a two-cutter device makes it possible to increase the productivity of processing, the quality and accuracy of the machined surface, improve the reliability of the tool and ensure the stability of shapes and sizes during the operational period of the part.

Sources of information

1. A.S. USSR 319391 IPC B23b 29/03

2. A.S. USSR 397275 IPC B23b 29/03

Claims (1)

A device for turning the outer surface of an axisymmetric part, containing a tool holder with rough and finishing cutters installed in the axial direction, characterized in that these cutters are installed with a constant offset in the axial direction and are equipped with built-in elastic elements, and the finishing cutter is installed from the condition of removing the allowance , equal to the value of the protrusions of the roughness of the machined surface from processing with a rough cutter, while the device is equipped with a beam installed between the indicated cutters, made with a built-in elastic element and ensuring the transmission of vibrations from the rough cutter to the finishing one, and a hydraulic damper installed parallel to the beam from the condition of ensuring vibration shear in phase of the finishing cutter relative to the rough cutter.

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