RU205026U1 - DORN WITH DUPLEX INSTRUMENT - Google Patents

Abstract

The utility model relates to mechanical engineering and repair production, in particular to tooling for machining holes.Dorn with a duplex tool, including a mandrel with an external thread in the tail section, on which coupling nuts and a current insulating sleeve are installed, a nut, a reinforcing tooth, a calibrating tooth, insulated from the mandrel and the reinforcing tooth with an insulator sleeve and insulating rings. In the front part of the mandrel, behind the gauge tooth, two flats are symmetrically made from the outside, the gauge tooth is made composite and includes an intake part made of steel in the form of a truncated cone, to the base of which a calibrating part made of hard alloy in the form of a spherical belt adjoins, which is a continuation of the intake part, a continuation The calibrating part is the rear part made of steel in the form of a truncated cone, the base adjacent to the calibrating part. Manufacturing of the calibrating tooth composite will reduce the cost of its manufacture due to the use of cheaper material in less loaded areas and reduce the complexity of manufacturing due to the facilitation of the machining process. The presence of flats on the mandrel will facilitate the assembly and disassembly of the tool.

Description

The utility model relates to mechanical engineering and repair production, in particular to tooling for machining holes.

Known mandrel with a duplex tool [Patent RU No. 100754, publ. 12/27/2010], including a mandrel with an external thread in the tail section, on which the coupling nuts and a current-insulating sleeve are installed, a nut, a reinforcing tooth, a gauge tooth, isolated from the mandrel and a reinforcing tooth by an insulator sleeve and insulating rings.

The known mandrel has the following disadvantages - the high cost and laboriousness of manufacturing the tool, in particular the calibrating tooth, as well as the high labor intensity of assembling and disassembling the tool.

The purpose of the utility model is to reduce the cost and labor intensity of tool manufacturing, as well as to reduce the labor intensity of assembly and disassembly of the tool.

This goal is achieved by the fact that in the front part of the mandrel behind the gauge tooth two flats are symmetrically made on the outside, the gauge tooth is made composite and includes an intake part made of steel in the form of a truncated cone to the base of which a calibrating part made of hard alloy in the form of a spherical belt adjoins the intake part, the continuation of the calibrating part is the rear part made of steel in the form of a truncated cone with the base adjacent to the calibrating part.

FIG. 1 shows a general view of a mandrel with a duplex tool. FIG. 2 shows a general view of the calibrating tooth.

The mandrel with a duplex tool includes a mandrel 1 with an external thread in the tail part, on which the coupling nuts 2 and a current-insulating sleeve 3 are installed, a nut 4 designed to fix the reinforcing 5 and calibrating 6 teeth on the mandrel 1. From the mandrel 1 and the reinforcing tooth 5, the calibrating tooth 6 is insulated with an insulator sleeve 7 and insulating rings 8. In the front part of the mandrel 1, behind the gauge tooth 6, two flats 9 with a turnkey size are made symmetrically on the outside, the gauge tooth 6 is made composite and includes an intake part 10 made of steel in the form of a truncated cone, to the base of which the calibrating part 11 of hard alloy in the form of a spherical belt is adjacent, which is a continuation of the intake part 10, the continuation of the calibrating part 11 is the rear part 12, made of steel in the form of a truncated cone, the base adjacent to the calibrating part 11.

They work with a mandrel with a duplex tool as follows.

The mandrel with a duplex tool is brought to the hole to be machined. Subsequently, the technological current is supplied to the part and the tool (j = 220 ... 270 A / mm ² ) and at the same time the vertical movement of the tool to the bottom of the hole is carried out. As a result of the passage of current, the contacting annular area of the reinforcing tooth with the inner surface of the hole heats up to a temperature of 900 ... 1100 ° C. Following the reinforcing tooth 5, the gauging tooth 6 processes the hole to the desired size and required roughness.

Due to the heating, the axial force on the tool decreases when the mandrel moves along the inner surface of the hole being machined. The presence of clamping nuts and a current-insulating sleeve will allow the current to be supplied to the hardening tooth and ensure reliable isolation of the tool from the machine. Due to the execution of the current-insulating sleeve under the Morse taper, it is possible to install the mandrel through the adapter sleeve in the spindle of the vertical milling machine and in the quill of the tailstock of the screw-cutting lathe. Heating the surface of the hole to be machined and instantaneous heat dissipation into the part will allow achieving high hardness.

Manufacturing a composite gauge tooth will reduce the cost of manufacturing it due to the use of cheaper material in less loaded areas and reduce the complexity of manufacturing by facilitating the machining process.

The presence of flats on the mandrel will facilitate the assembly and disassembly of the tool.

Claims (1)

A mandrel with a duplex tool, including a mandrel with an external thread in the tail part, on which the coupling nuts and a current-insulating sleeve are installed, a nut, a reinforcing tooth, a gauge tooth, isolated from the mandrel and a reinforcing tooth by an insulator sleeve and insulating rings, characterized in that in the front the parts of the mandrel behind the gauge tooth are symmetrically made from the outside, the gauge tooth is made composite and includes an intake part made of steel in the form of a truncated cone, to the base of which a calibrating part made of hard alloy in the form of a spherical belt adjoins, which is a continuation of the intake part, a continuation of the calibrating part is the rear part made of steel in the form of a truncated cone, the base adjacent to the calibrating part.

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