SU1722712A2 - Anisotropic cutter - Google Patents

Abstract

The invention relates to the design of metal cutting tools and can be used in the design and manufacture of mills. The purpose of the invention is to increase milling performance by increasing the vibration resistance of the structure. The anisotropic milling cutter comprises a body 1 and cutting plates 2 connected to the body by means of a single ring made around the body of the binder connecting element 3 of solder. A wire helix is located between the adjacent surfaces of the bonding element and the housing, and is wound on the threaded surface 5. High dissynational properties are achieved due to frictional bonds between the wire and the thread profile of the housing, as well as internal friction in the wire, which increases the vibration resistance of the structures. 3 il.

Description

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The invention relates to the design of metal cutting tools and can be used in the design and manufacture of mills.

The purpose of the invention is to increase the milling performance by increasing the vibration resistance of the structure.

Figure 1 shows the cutter; figure 2 - section a - a in figure 1; on fig.Z - node I in figure 1.

The anisotropic milling cutter comprises a body 1 and cutting plates 2 connected to the body by means of a single ring formed around the body of the milling element 3. The wire helix A is wound between the adjacent surfaces of the connecting element and the body and is wound on casing. The high dissipative properties due to frictional bonds between the wire and the thread profile in the connection between the wire and the casing, as well as the internal friction in the wire, increase the vibration resistance of the technology. cal system. As a result of inserting the wire, the rigidity in the radial direction of the dynamic system is reduced in comparison with the prototype. However, using wire of different stiffness and changing the angle of the thread profile, you can change the stiffness of the system by increasing or decreasing it.

The operation of the dynamic system, its vibration resistance is determined by the rigidity and damping of the system. The milling cutter has increased vibration resistance due to improved damping capacity.

system. Its rigidity in the tangential direction depends on the angle of the thread profile and the diameter of the wire.

Anisotropic milling works as follows.

When removing a semi-finishing or finishing allowance in the cutting zone, as a rule, there are several cutters at the same time. Binding material and wire will be in a complicated stress-strain state under the action of cutting forces applied to the cutting blades. The calculated circuit of the obtained vibration-isolating connection of the cutting plates with the body can be represented as a dynamic system consisting of n masses (n is the number of cutting plates) connected to each other and wire-free elastic-damped vibration isolators.

The proposed tool has a good ability to remove heat from the cutting zone, thereby increasing the resistance of the cutting plates. In addition, the channels 6 formed by the adjacent surfaces of the thread profile and wire can, if necessary, be used to provide coolant therethrough, without additional design changes.

Claims (1)

Invention Formula Anisotropic milling machine on auth.St. No. 1379019, characterized in that, in order to increase milling performance by increasing the vibration resistance of the structure, the cutter is equipped with a wire coil wound on a threaded surface formed on the body.