RU209752U1 - TOOL FOR ELECTROMECHANICAL BURNING - Google Patents

Abstract

The utility model relates to mechanical engineering and repair production, in particular, to tooling for electromechanical burnishing and can be used for finishing and hardening the holes of parts. A tool for electromechanical burnishing, containing a pusher, in the tail part of which an external thread is made, on which coupling nuts and a current-insulating sleeve are installed. An insulating sleeve is installed on the outside of the pusher in front of the pusher. The front part of the pusher is pivotally connected to the mandrel, on which the calibrating tooth is fixed with a fixing nut. The calibrating tooth is made composite and includes a chamfer made of steel in the form of a truncated cone, to the base of which is adjacent a caliber part made of hard alloy in the form of a spherical belt, which is a continuation of the chamfer, a continuation of the gauging part is a rear part made of steel in the form of a truncated cone , with its base adjacent to the calibrating part. Each part of the gage tooth has an axial hole of the same diameter, connects to the transition fit in the above order on the mandrel. The labor intensity of manufacturing is reduced. 2 ill.

Description

The utility model relates to mechanical engineering and repair production, in particular to tooling for electromechanical burnishing, and can be used for finishing and hardening the holes of parts.

A known tool for electromechanical mandrel [Patent RU 2471608 C1 IPC B24V 39/02], including a pusher, in the tail part of which an external thread is made, on which coupling nuts and a current-insulating sleeve are installed, an insulating sleeve is installed in front of the pusher, the pusher is hinged with the front part connected to the mandrel on which the calibrating tooth is fixed with a fixing nut.

Known tool for electromechanical burnishing has the following disadvantages - the high cost and complexity of manufacturing the tool, in particular the calibrating tooth.

The technical result is a reduction in the cost and labor intensity of tool manufacturing.

The specified technical result is achieved by the fact that the calibrating tooth is made composite and includes a sampling part made of steel in the form of a truncated cone, to the base of which is adjacent a calibrating part made of hard alloy in the form of a spherical belt, which is a continuation of the intake part, the continuation of the calibrating part is the rear part, made made of steel in the form of a truncated cone, with its base adjacent to the gauge part, each part of the gauge tooth has an axial hole of the same diameter, is connected to the transition fit in the above order on the mandrel.

In FIG. 1 shows a general view of the tool for electromechanical processing, Fig. 2 shows a general view of the gauge tooth.

The tool for electromechanical turning includes a pusher 1, in the tail part of which an external thread is made, on which coupling nuts 2 and a current-insulating sleeve 3 are installed. In the front part of the pusher 1, an insulating sleeve 4 is installed from the outside. a gauging tooth 7 is fixed with a fixing nut 6. The gauging tooth 7 is made composite and includes a chamfer 8 made of steel in the form of a truncated cone, to the base of which is adjacent a caliber part 9 made of hard alloy in the form of a spherical belt, which is a continuation of the chamfer 8, a continuation of the calibrating part 9 is the back part 10, made of steel in the form of a truncated cone, the base adjacent to the gauge part 9. Each part of the gauge tooth has an axial hole of the same diameter, connected to the transition fit in the above order on the mandrel 5.

Work tool for electromechanical burnishing as follows. A mandrel with a composite gauge tooth is installed in the hole to be machined. Reliability and accuracy of installation is provided by a fixing nut. The current-carrying cables are fastened to the pusher with the help of coupling nuts and to the workpiece. The pusher is brought to the mandrel and reliable contact (touching) of their spherical surfaces is achieved to prevent the formation of a spark at the moment the electric current is started in the circuit. A current with a density of 250 ... 00 A / mm ² , a voltage of 4 ... 6 V is passed through the contact point of the calibrating tooth with the surface being machined. °C, and with the subsequent axial movement of the tool relative to the axis of the hole, instant heat is removed into the body of the tool and the workpiece and the formation of a hardened layer. Due to the movement of the calibrating tooth with an interference fit, the microroughnesses on the surface of the hole are smoothed out and the final size is formed.

Due to heating, the axial force on the tool decreases when the mandrel moves along the inner surface of the workpiece.

The swivel connection of the mandrel with the pusher and the use of the fixing nut as a guide will improve the accuracy of processing even with deviations in the centering of the tool with the hole being machined.

Making the gauge 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 by facilitating the machining process.

Claims (1)

A tool for electromechanical turning, containing a pusher, in the tail part of which an external thread is made, on which coupling nuts and a current-insulating sleeve are installed, and an insulating sleeve is installed in the front part of the pusher, while the pusher is pivotally connected by the front part to the mandrel, on which it is fixed with a locking nut a calibrating tooth, characterized in that the calibrating tooth is made composite and includes a truncated cone-shaped steel chamfer, to the base of which is adjacent a hard alloy gage in the form of a spherical belt, which is a continuation of the chamfer, and the rear part is a continuation of the calibrating part , made of steel in the form of a truncated cone, with its base adjacent to the gauge part, while each part of the gauge tooth has an axial hole of the same diameter and is connected to a transitional fit in the above order on the mandrel.

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