SU1590203A1 - Cutting tool - Google Patents

Abstract

The invention relates to mechanical engineering, primarily to the cutting tool industry. The aim of the invention is to increase the productivity of processing by reducing the dynamic effect by damping vibrations. In the body of the cutting tool, there are guides, in which the cutting element is located associated with the elastic elements and the fastening element. Moreover, one of the elastic elements is placed between the end of the cutting element and the elastic elements and between the fastening element and the plane of the cutting element on the side of its front surface. 5 il.

Description

The invention relates to metal working, in particular to a cutting tool.

The aim of the invention is to increase the processing performance by reducing the dynamic effect by damping vibrations.

FIG. Figure 1 shows a scheme for fastening the cutting element to a straight guide; in fig. 2 is a view A of FIG. one; in fig. 3 is a diagram of fastening the cutting element with a curved guide; in fig. 4 - cutter; in fig. 5 - milling cutter.

The cutting plate 1 can move in the direction of the elastic element 2 under the action of the cutting force if the component of the cutting force along the 3 P Pcosa guide is greater than the frictional force, which can be determined from the condition:

p / (L / s + L), where N R-sina,

N3 is the fastening force, then f-N3 -} - f-R-sina: .R-cosa,

R (cosa-fsina) from where. UZ - g- - f

The need to create frictional force on the guide determines the condition that is possible in the case of cosa fsina, whence

 and the angle a can be determined from the condition

a arcctg /.

Failure to fulfill this condition will lead to the fact that the cutting force of its component N R-sma will provide on the guiding friction force F f-R-sma, which exceeds the shearing force P / Cosa, i.e. the cutting element will be fixed, i.e. fixed by the cutting forces, the friction force will not perform work during the cutting process and energy dissipation on the cutting surface of the cutting element and the guide will not occur.

The proportionality of the clamping force and, consequently, the friction force, the cutting force provides the mobility of the cutting element when the cutting force changes, which determines the performance of the force of the friction work.

A cutting plate 1 is mounted on the guide body 3 at an angle a to the direction of the cutting force, resting on the elastic element 2, made in the form of a steel hardened tube. Between the plate 1 and the elastic element 2 there is an end of the elastic lever 4, the second end of which is pressing the plate against the guide. The lever 4 is pressed to the surface of the plate 1 with the clamp 5 and

Yu

cl

sd

about o to

about

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screw 6, under the head of which 1; jHO: i. iC:; t, i

1) dinner washers 7.

The cutting tool works follow; 1 in a manner.

When installing the plate using screw b and grip 5, the clamping forces Lz. In the process of intermittent turning, the cutting force changes, the blade moves in the direction of the elastic element 2, the lever 4 deforms and the pressing force changes in proportion to the cutting force.

The cut-off cutter manufactured according to this scheme for intermittent turning allowed, by reducing dynamic loads and damping vibrations, to increase cutting conditions when using a brittle but wear-resistant VKMM alloy. So, with a 0100 pipe cut of OX18H9T steel with longitudinal grooves, the cutting conditions were m / min; , 3 mm / rev.

FIG. 5 shows an example of a specific embodiment of a device in the form of a milling cutter (cutting element) mounted on a mandrel (body). The milling cutter 8 is mounted on the cylindrical surface of the mandrel 9 with the possibility of rotation along the cylindrical guide. The milling cutter 8 is connected to the mandrel via elastic elements 10. In addition, the milling cutter is connected to the mandrel by elastic levers 11, one end of which is in kinematic connection with the milling cutter, and the second is pressed against the guide of the cylindrical surface of the milling cutter in zone A.

When changing the cutting force in passing milling or counter milling

the cutter rotates relative to the mandrel when the elastic elements 10 are deformed. At the same time, the control levers 1 and 11 deform, and their ends are pressed to the directions of the cylindrical surface of the cutter with a force proportional to the displacement, i.e. cutting force. At the same time, the pressing force, and consequently, the force of friction, increases only during movement. When this happens, energy dissipation on the surface of the friction and vibrations quickly fade out. The milling cutter made it possible, by damping shock loads and reducing vibrations, to use cutting machining when machining high-strength steel 38HNZMFA.

elements of tungsten-free hard alloys of the type KNT-16 and TN-20, with cylindrical milling of sheet edges in modes m / min, 2 mm / tooth, mm, mm, at 100 mm and.

20

Claims (1)

Invention Formula A cutting tool comprising a body in whose guides a cutting element with an elastic element is placed, and the fastening element, characterized in that, in order to increase the processing efficiency by reducing the dynamic effect by damping vibrations, an additional elastic element is inserted into the cutting tool, in the housing between the end of the cutting element and the elastic element and between the fastening elements and the plane of the cutting element on the side of its front surface. ag.1 view d  J 2 IG / J y