RU204890U1 - TOOL FOR ELECTROMECHANICAL HARDENING OF SPLINE BUSHING SURFACES - Google Patents

Abstract

The utility model relates to mechanical engineering and repair production, in particular to tooling for the processing of spline holes. A tool for electromechanical hardening of the working surfaces of spline bushings, containing a threaded mandrel, with the possibility of screwing clamping nuts and a current-insulating bushing on it in the tail section and with the possibility of fixing nut of the reinforcing element and guiding current-insulating bushings on its front part, and the surface of the reinforcing element in the cross-section is slotted, while in the longitudinal section the outer surface of each slot is made in the form of a trapezoid, and the guiding current-insulating bushings are installed in the lower and upper parts of the reinforcing element. The reinforcing element is made in the form of two splines, located equidistantly and symmetrically relative to each other. The use of a tool for electromechanical hardening of the working surfaces of the spline bushings will ensure uniform hardness and depth of hardening, and, consequently, the wear resistance of the working surfaces of the spline bushings, as a result of which to extend the operating period spline connection.

Description

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

Known tool (Tool for electromechanical hardening of the working surfaces of the splined bushings. RF patent RU2572677 C1 IPC B23D 43/00), including a mandrel, a reinforcing element, guide current-insulating bushings, clamping nuts, current-insulating bushing.

The known tool has a disadvantage associated with the lack of a stable tight fit of each slot of the reinforcing element to the machined surface of the splines of the sleeve, as a result of which the required hardness and depth of hardening of the working surfaces of the splines are not provided, due to the unstable accuracy of manufacturing the spline profiles in the bushings.

The purpose of the utility model is to provide the required hardness and depth of hardening of the working surfaces of the splines.

This goal is achieved by the fact that the reinforcing element is made in the form of two splines located equidistantly and symmetrically relative to each other.

FIG. 1 shows a general view of the tool for electromechanical hardening of the working surfaces of the splined bushings; in fig. 2 shows a reinforcing element in cross section.

The tool for electromechanical hardening of the working surfaces of the spline bushings includes a mandrel 1, a reinforcing element 2, the seat of the reinforcing element in cross-section has the shape of a square, which prevents it from rotating relative to the mandrel 1. An external thread is cut in the tail part of the mandrel 1. Coupling nuts 3 and a current-insulating sleeve 4 are installed on the external thread. The outer surface of the current-insulating sleeve is made under the Morse taper.

Guide current-insulating bushings 5 are installed in the lower and upper parts of the reinforcing element. The nut 6 fixes the reinforcing element 2, the current-insulating guide bushings 3 on the mandrel 1 and prevents their axial displacement.

They work as a tool for electromechanical hardening of the working surfaces of the splined bushings as follows. A mandrel with a hardening bronze tool, made in the form of two splines, located equidistantly and symmetrically relative to each other, is brought to the upper part of the spline sleeve to be machined, turning the mandrel ensures reliable pressing of the working part of the tool to one of the sides of the working surface of the sleeve. Further, the technological current is supplied to the bushing 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 bushing is carried out. After moving the tool to the bottom of the bushing, the current is turned off, the tool is turned in the opposite direction against the opposite side surface of the spline bushing, after which the technological current of the same density is switched on again and the tool moves vertically to the upper part of the spline bushing. After that, the above actions are carried out with each working surface of the spline sleeve to be processed.

The centering of the tool for electromechanical hardening of the working surfaces of the spline bushings relative to the spline surface of the bushing is carried out by means of current-insulating guide bushings located in the lower part of the mandrel. The diameter of the current-insulating sleeves corresponds to the inner diameter of the splined sleeve.

The use of a tool for electromechanical hardening of the working surfaces of the spline bushings will ensure uniform hardness and hardening depth, and, consequently, the wear resistance of the working surfaces of the spline bushings, as a result of which the service life of the spline joint will increase.

Claims (1)

A tool for electromechanical hardening of the working surfaces of spline bushings, containing a threaded mandrel, with the possibility of screwing on it the clamping nuts and the current-insulating sleeve in the tail part and with the possibility of fixing the reinforcing element and the guiding current-insulating bushings on its front part with a nut, and the surface of the reinforcing element in cross-section is made spline, while in longitudinal section the outer surface of each slot is made in the form of a trapezoid, and the current-insulating bushings are installed in the lower and upper parts of the reinforcing element, characterized in that the reinforcing element is made in the form of two splines located equidistantly and symmetrically relative to each other.

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