RU2457077C1 - Damper cutter - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: cutter has cutting plate with its holder with recess, and insert made from material with high damping properties. Recess is made regularly along holder edges on length from its en to extending part with cutting plate. Holder end with recess is arranged in metal rectangular-prism cup with identical clearance along its base and walls. Note here that clearance is filled with material of said insert. Said holder may not get in contact with said cup.

EFFECT: higher quality of processing.

2 dwg

Description

The invention relates to cutting processes and can be used in the machining of structural materials.

Known cutter for finishing, containing the holder, in which the cutting insert and its mount is located, an insert of a highly filled composite material on a polymer basis with an oval protrusion on the side of the mount, located in the sample holder, and a force sensor (AS USSR No. 1620212, CL B23B 27/00, 1991, bull. No. 2).

The disadvantages are: low reliability of the cutting process and the quality of processing, since at high cutting forces, the protruding part of the holder deforms, weakened by the selection in it, and also due to the fact that the cutting insert and its mount are located directly in the holder, rigidly fixed in tool holder, which leads to low damping of vibrations arising during cutting by an insert of a highly filled composite material on a polymer basis, placed in a sample inside the holder.

Known cutter containing the holder, in which the cutting insert and its mount, and an insert of material with high damping, located in the sample holder, the cutter is equipped with a movable stop placed in the support part made on the holder and having a sample, with a longitudinal axis the stop is parallel to the longitudinal axis of the cutter, and in the place of contact of the support part with the support plane of the holder, an elastic hinge is made, and a protrusion located in the sample of the support part is made on the insert (RF patent No. 20099768, IPC ⁵ B23B 27/00, 1994).

The cutter has the following disadvantages:

1. Low reliability of the stable cutting process, due to the fact that the movable stop by means of a threaded connection is placed in the support part made on the holder, and when it is force-closed with the tool holder, shock loads arise when the contacted metal parts of the stop and tool holder vibrate, and there are gaps in the kinematic pair of the threaded connection of the stop and the holder increases the vibration, therefore, shock loads, and the protrusion on the insert, placed in the sample of the support part and covering the stop Just around the perimeter, slightly attenuates vibrations along the axes of the stop and holder.

2. Poor processing quality due to the damping inefficiency of vibrations arising during the cutting process, since the holder with the cutting insert and its attachment unit are rigidly mounted in the tool holder, and the insert made of material with high damping is placed in the sample inside the holder, that is, the metal contacts constantly the surfaces of the holder and tool holder, in addition, the movable stop and holder are not vibration-isolated.

3. The complexity of the design of the cutter due to the presence of the supporting part of the holder with a sample, a movable stop and an elastic hinge in the place of contact of the supporting part with the supporting plane of the holder.

The technical task of the invention is to increase the reliability of a stable cutting process and processing quality, as well as simplifying the design of the cutter.

The technical result of improving the reliability of a stable cutting process and processing quality, as well as simplifying the design of the cutter is achieved by the fact that in a damping cutter containing a cutting plate with its mount in a holder having a sample and an insert made of a material with high damping, the selection is made uniformly according to the perimeter of the end of the holder along the length from its end to the protruding part with the cutting plate, the end of the holder with a sample is placed in a metal cup made of a rectangular parallelepiped with What are the gaps on its bottom and walls, the gaps are filled with an insert from a material having a high damping and holder is installed without the possibility of contact with the glass.

Figure 1 presents a General view of the cutter, figure 2 is a section aa in figure 1.

The cutting insert 1 is fixed by the attachment unit 2 in the holder 3 having a sample made evenly around the end of the holder 3 at a length L from its end to the protruding part with the cutting insert 1. The end of the holder 3 with a sample is placed in a metal cup made in the form of a parallelepiped 4 with the same gaps t along its base and walls, while the gaps t are filled with an insert 5 of high damping material, and the holder 3 is installed without the possibility of contacting the glass 4.

The holder 3 is rigidly fixed at one end by means of the attachment unit 2 by the cutting insert 1 with the other end with a sample made uniformly along its perimeter along the length L of the holder 3 from its end to the protruding part with the cutting insert 1, placed in a metal box made in the form of a rectangular parallelepiped glass 4 with the same gaps t at its base and walls. The gaps t fill (for example, fill) with a highly filled polymer-based composite material. It is also possible to place the holder 3 at the end with a sample in a glass 4 already filled with composite materials based on a polymer base, with equal gaps t. After polymerization and hardening of the highly filled composite material on a polymer basis between the cup 4 and the holder 3, an insert 5 of material with high damping is formed, while the holder 3 should be installed without the possibility of contacting with the glass 4, which ensures the selection of the required height.

The cup 4 with the end of the holder 3 with a sample and a rigidly fixed fastening mechanism 2 at the other end of the holder 3 with a cutting insert 1 is mounted in a tool holder (not shown) located inside it in an insert 5 made of highly damped material 5. The size of the sample around the perimeter of the end of the holder 3, the size of the gaps t and the wall thickness of the glass 4 is assigned so that the glass can be placed in the tool holder. If the cross-sectional dimensions of the holder are small, then it is permissible not to sample along the perimeter of one end of the holder 3, but to place the end of the holder 3 directly in the cup 4 with the same gaps t at its base and walls with filling the gaps with an insert 5 made of high damping material 5.

The process of processing structural material with a damping cutter is as follows.

When the insert 1 interacts with the product material, a cutting force arises, tending to bend the holder 3 and move it in the insert 5 located in the gaps t between the nozzle 4 and the holder 3. In turn, the insert 5 made of high damping material acts on the end of the holder 3, placed in the glass 4, restoring force, resistance force and moment of resistance, and the forces of the insert 5 are directed in the opposite direction from the cutting force, and the moment of resistance is opposite to the bending moment. The restoring force is proportional to the magnitude of the linear displacement, and the moment of resistance to the angle of rotation of the holder 3. The resistance force is proportional to the second or highest degree of speed of movement of the holder 3, since the material of the insert 5 has the property of high damping. Thus, the resulting forces perceived by the holder 3 are equal to the differences between the cutting forces and the sum of the restoring and resistance forces, as well as the bending moment and the moment of resistance of the material of the insert 5. The resulting forces can be minimized by selecting the stiffness of the material with high damping of the insert 5. Therefore, there is no need for additional design developments to increase the rigidity and strength of the holder 3.

Since the holder 3 without the possibility of contacting with the nozzle 4 is placed in the insert 5, filling the gaps t between the base, the walls of the nozzle 4 and the holder 3, there is a highly effective damping of longitudinal and transverse vibrations and shock loads that occur during cutting, thereby ensuring high reliability sustainable cutting process and the quality of the processed surface of the product in both turning and planing technological operations.

The originality of the proposed damping cutter is that the selection is made uniformly around the perimeter of the holder 3 at a length L from its end to the protruding part with the cutting plate 1, the end of the holder 3 with the sample is placed in a metal cup 4 made in the form of a parallelepiped with the same gaps t along its base and walls, while the gaps t are filled with an insert 5 of material with high damping, and the holder 3 is installed without the possibility of contacting the glass 4. This allows you to:

1. To increase the reliability of a stable cutting process due to the possibility of minimizing the cutting forces perceived by the holder by selecting the rigidity of the material with high damping of the insert.

2. To improve the quality of processing products, as the holder without the possibility of contact with the glass is placed in the insert filling the gaps between the base, the walls of the glass and the holder, therefore, highly effective damping of longitudinal and transverse vibrations and shock loads arising during the cutting process occurs.

3. To simplify the design of the cutter due to the lack of the need for additional developments to increase the rigidity and strength of the holder.

Thus, the proposed damping cutter allows you to achieve a technical result to increase the reliability of a stable cutting process and the quality of processing, as well as simplifying the design of the cutter.

Claims (1)

A damping cutter containing a cutting insert with its attachment unit in a holder having a sample and an insert made of a material having a high damping property, characterized in that the sample is made uniformly along the perimeter of the holder end along the length from its end to the protruding part with the cutting plate, end holders with a sample are placed in a metal cup made in the form of a rectangular parallelepiped with identical gaps along its base and walls, while the gaps are filled with the material of the said insert, and the holder anovlena without the possibility of contact with said glass.

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