RU211536U1 - TOOL FOR ELECTROMECHANICAL HARDENING OF WORKING SURFACES OF SPLINED BUSHINGS - Google Patents

Abstract

The utility model relates to mechanical engineering, in particular to tooling for electromechanical hardening of working surfaces of splined bushings. The tool contains a mandrel with an external thread in the tail section, on which coupling nuts and a current-insulating sleeve are installed, a slotted reinforcing element made in the form of two slots located equidistantly and symmetrically relative to each other, and fixed in the front part of the mandrel between two guide current-insulating sleeves. The tool is equipped with a system for supplying process fluid to the machined surfaces of the splined bushing, which consists of a fitting mounted on the mandrel and a central channel and distribution channels made in the mandrel for supplying the process fluid to the contact zone of the strengthening element with the machined surfaces of the splines of the bushing. The reinforcing element is fixed on the mandrel with a screw that acts as a plug of the central channel of the mandrel. Improves heat removal from the contact zone, increases the quality of hardening. 2 ill.

Description

The utility model relates to mechanical engineering and repair production, in particular, to tooling for electromechanical hardening of the working surfaces of splined bushings.

Known tool for electromechanical hardening of the working surfaces of splined bushings. (Patent RF No. 204890. Published 16.06.2021. Bull. No. 17), including a mandrel with an external thread in the tail section, on which coupling nuts and a current-insulating sleeve are installed, a slotted reinforcing element made in the form of two slots located equidistantly and symmetrically relative to each other, fixed in the front part of the mandrel between two guide bushings.

The known tool has the disadvantage of poor heat removal from the contact zone of the splines of the reinforcing element with the working surfaces of the splined sleeve.

EFFECT: increased intensity by heat removal from the zone of contact of the splines of the reinforcing element with the working surfaces of the splined bushing.

The specified technical result is achieved by the fact that the tool is equipped with a system for supplying process fluid to the machined surfaces of the splined bushing, consisting of a fitting mounted on the mandrel and made in the mandrel of the central channel and distribution channels for supplying the process fluid to the contact zone of the strengthening element with the machined surfaces of the splines of the bushing, with In this case, the reinforcing element is fixed on the mandrel with the help of a screw that acts as a plug of the central channel of the mandrel.

In FIG. 1 shows a general view of the tool for electromechanical hardening of the working surfaces of splined bushings, Fig. 2 shows the location of the distribution channels relative to the splines of the tool.

The tool for electromechanical hardening of the working surfaces of splined bushings includes a mandrel 1 with an external thread in the tail section, on which coupling nuts 2 are installed, and a current-insulating bushing 3 made under a Morse taper. In the front part of the mandrel 1, a two-slotted reinforcing element 4 is fixed between two guide bushings 5. The seat of the two-slotted reinforcing element 4 has a square shape in cross section, which prevents it from turning relative to the mandrel 1. The tool is equipped with a process fluid supply system to the machined surfaces of the splined bushing, consisting of a fitting 6 mounted on the mandrel and made in the mandrel 1 of the central channel 7 and distribution channels 8 for supplying process fluid to the contact zone of the splines of the reinforcing element 4 with the machined surfaces of the splines of the sleeve. The reinforcing element 4 and the guide bushings 5 are fixed on the mandrel 1 with the help of a screw 9, which acts as a plug of the central channel 7 of the mandrel 1.

They work as a tool for electromechanical hardening of the working surfaces of splined bushings as follows. A mandrel with a reinforcing double-slotted bronze element, the splines of which are located equidistantly and symmetrically relative to each other, is brought to the upper part of the machined splined bushing, by turning the mandrel, the working part of the tool is reliably pressed against one of the sides of the working surface of the bushing. Subsequently, process current is supplied to the sleeve and the tool (j=220...270 A/mm ² ), process fluid is supplied through the system of channels (p=0.2 MPa) and the tool is simultaneously moved vertically to the lower part of the sleeve. After moving the tool to the lower part of the sleeve, the current is turned off, the tool is pressed against the opposite side surface of the splined sleeve by turning in the opposite direction, after which the process current of the same density is switched on again and the tool moves vertically to the top of the splined sleeve. After that, the above actions are carried out with each working surface of the machined splined bushing.

The centering of the tool for electromechanical hardening of the working surfaces of splined bushings relative to the splined surface of the bushing is carried out by means of a non-conductive bushing located in the lower and upper parts of the mandrel. The diameter of the non-conductive bushing corresponds to the inner diameter of the splined bushing.

The presence of a system of channels in the mandrel will ensure the supply of process fluid to the mating surfaces of the splines of the reinforcing element and the machined surfaces of the splined bushing, thereby improving heat removal from the contact zone and improving the quality of hardening.

Claims (1)

Tool for electromechanical hardening of working surfaces of splined bushings, containing a mandrel with an external thread in the tail part, on which coupling nuts and a current-insulating sleeve are installed, a splined reinforcing element made in the form of two slots located equidistantly and symmetrically relative to each other, and fixed in the front part mandrel between two guide current-insulating bushings, characterized in that it is equipped with a process fluid supply system to the machined surfaces of the splined bushing, consisting of a fitting mounted on the mandrel and made in the mandrel of the central channel and distribution channels for supplying the process fluid to the contact zone of the strengthening element with the machined surfaces splines of the sleeve, while the reinforcing element is fixed on the mandrel by means of a screw that acts as a plug of the central channel of the mandrel.

Images