RU99363U1 - CUTTING TOOL - Google Patents

Abstract

The utility model relates to the technology of cutting hard-to-machine structural materials with low thermal conductivity, namely to cutting tools with replaceable cutting inserts. The technical result of the utility model is to increase tool life by lowering the temperature in the cutting zone. The technical result is achieved in that the cutting tool comprising a cutting insert, a support plate, a holder and a clamp further comprises a heat exchanger (for example, copper) made in the form of a case, located on both sides of the cutting edge and filled with a low-melting alloy (for example, an alloy Wood, Rose alloy, etc.)

Description

The invention relates to cutting technology.

hard-to-work structural materials with low thermal conductivity, namely, cutting tools with replaceable cutting inserts.

Known cutting tools, including cutting and supporting plates and holder, in which the supporting surface of the holder is covered with a layer of copper with a thickness of 5-50 μm to improve the contact of the plate and holder, and as a result to improve the thermal mode of operation of the tool, leading to improved tool life (RF patent for invention No. 2039635, IPC B23B 27/16, 1995)

However, the thermal conductivity of the joint between them and, as a result, the tool life remain insufficiently high.

The closest to the implementation is the cutting tool, the cutting insert of which contains a two-layer insert fixed in the socket of the plate body. To increase the resistance by reducing the temperature in the cutting zone, a cooler is placed in the free space between the insert and the side wall of the socket, made in the form of a mixture of copper powder and a binder material, which is taken as an adhesive (RF patent for the invention No. 2185935, IPC VV 27/18 , 2000).

However, the thermal mode of operation of the tool and, as a consequence, the tool life remain also not high enough.

The technical result of the utility model is to increase tool life by lowering the temperature in the cutting zone.

The technical result is achieved in that the cutting tool comprising a cutting insert, a support plate, a holder and a clamp further comprises a heat exchanger (for example, copper) made in the form of a case, located on both sides of the cutting edge and filled with a low-melting alloy (for example, an alloy Wood, Rose alloy, etc.)

Figure 1 presents the cutter assembly. Figure 2 shows the cutter and heat sink in a disassembled state, where 1 is the support plate, 2 is the clamp, 3 is the cutting plate, 4 is the copper case, 5 is the clamping screw, 6 is the holder and 7 is the low-melting alloy.

The device operates as follows.

The cutting tool is brought to the workpiece being machined on a lathe. The heat released during processing heats the interchangeable multi-faceted plate to a temperature of about 400 ° C. In this case, the heat flux is transferred from the cutting edge to the case with a low-melting alloy, which, when melted, displaces the air between the alloy particles and creates a continuous structure with greater thermal conductivity, and as a result reliable heat dissipation, which reduces the heating of the cutting insert and its wear.

Tests of the cutter during processing of VT 3-1 titanium alloy and 110G13L manganese steel showed a 2.4-fold increase in its resistance.

Claims (3)

1. A cutting tool, characterized in that it contains a cutting plate, a support plate, a holder, a clamp and a heat exchanger located on both sides of the cutting edge, made in the form of a case of heat-conducting material and filled with a low-melting alloy. 2. The cutting tool according to claim 1, characterized in that the case is made of copper. 3. The cutting tool according to claim 1, characterized in that as a fusible alloy, a Wood alloy or a Rose alloy is used.