SU1126420A1 - Expandable tool for lapping holes - Google Patents

Abstract

A RELEASE TOOL FOR REINFORCING HOLES, containing a unclamping mechanism installed in a housing, along the longitudinal axis of which a through groove is made, characterized in that, in order to improve the accuracy and productivity of processing, the walls of the groove are perpendicular to the longitudinal axis of the tool and cone with differently directed angles the cone of the adjacent holes, and the unclamping mechanism is made in the form of cone-shaped expanding elements installed in the said holes.

Description

The invention relates to mechanical engineering and can be used in finishing operations when machining holes.

Known expanding tool for finishing the holes, containing the unclamping mechanism installed in the housing, along the longitudinal axis of which is made through the groove 1.

The disadvantage of the design is a reduction in machining accuracy as the tool wears out, since the straight line forming turns into a curvilinear one. Since it is not possible to place more than two expansion elements in the tool, simultaneous or separate adjustment by them allows deforming the cutting surface, changing the taper value, but does not allow to transform the worn curvilinearity of the surface into a straight line. In addition, since the expanding elements can be located only at the ends of the tool, this makes it difficult to access them and to adjust to the desired diameter, it is necessary to remove the tool from the machine, which reduces machining performance.

The expanding tool is not very suitable for machining deep holes because of its reduced radial rigidity, the large distance between the expanding elements leads to a slight deformation of the generator, and in the initial state the shape of the cutting surface will differ from the cylindrical one.

The purpose of the invention is to improve the accuracy and productivity of processing.

This goal is achieved by the fact that in an expanding tool for finishing the holes, the expanding mechanism installed in the housing, along the longitudinal axis of which a through-groove is made, in the walls of the groove perpendicular to the longitudinal axis of the tool, has conical holes with a differently directed cone angle of the adjacent holes, and the unclamping mechanism is made in the form of cone-shaped elements installed in the said holes.

The arrangement of the axes of the expansion elements perpendicular to the tool axis allows the diameter of the tool to be adjusted directly on the machine, and it is also possible to place a large number of expansion elements, which makes it possible to form the necessary longitudinal profile of the cutting part of the tool.

FIG. 1 shows the expanding tool assembly; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a section along BB in FIG. 1 (option with a screw plug).

The expanding tool comprises a housing 1 in which a through slot 2 is made. The housing 1 on either side of the slot 2 has thin-walled portions 3. On one side of the housing 1 there is a shank 4 in which pin 5 is fastened to attach to a tool cartridge (not shown ). The outer working part of the housing 1 can be covered with an abrasive layer 6. The tool can work with applying an abrasive paste. Perpendicular to the tool axis in the plane of the slot 2, expansion elements are arranged, which can be either in the form of a pin 7, which is moved by a screw 8 supported on the washer 9, or in the form of a casing in FIG. 3 screw plugs 10 with tapered threads. The latter is mainly used for small diameter tools. When the screw 8 is rotated, the pin 7 can be turned over; to prevent this phenomenon,

it slot 11.

The expansion elements are located in slot 2 so that the ends of the adjacent expansion elements, with their equal diameters, are directed to opposite sides. Such a constructive solution averages the errors in the corners of the cones of the mating elements, improves the geometrical accuracy of the tool and, accordingly, increases the accuracy of the hole machined by this tool. Indeed, if one treats the conical holes in the slot 2 on one side, then the errors in the corners of the cone on the expanding element and the cone in the hole in this case are directed to one side. This leads

0 to one-sided, asymmetrical deformation of the body, i.e., to the distortion of its profile in cross section. By processing the adjacent conical holes on opposite sides, errors in the corners of the said cones are compensated, and, accordingly, the distortion of the tool profile in the cross section is reduced.

The adjustment of the diametrical size of the tool is as follows. If you need to increase the diameter

0 of the tool, then with one screwdriver holding the slot II, and the other with a screwdriver turn the screw 8 into the pin 7, which begins to move along its axis and move the working sections of the tool. Same

It is also made with the other expandable elements (their number is assigned depending on the length of the work area).

If it is necessary to reduce the diameter of the tool, unscrew the screw 8 and, moving along it, move the pin to the right.

0 Adjustment is possible with the help of additional washers and screws shown in FIG. 2 dashed lines. Wrap this screw in the threaded hole of the pin, it is moved to the right.

Size control with a screw plug is shown in FIG. 3-d and requires no explanation.

Tool processing is performed as follows.

If diamond grains are fixed on the cylindrical part of the tool (for example, by electroplating), its diameter is adjusted 0.01-0.03 mm larger than the diameter of the hole in the workpiece, the tool is fixed in the cartridge and give it a rotational and reciprocating motion.

Work with abrasive paste occurs with similar kinematic movements.

but the diameter of the tool is slightly smaller than the diameter of the hole in the workpiece, and an abrasive paste is fed into the gap between the tool and the walls of the hole.

Thus, this design allows to precisely form the longitudinal contour of the tool, which has a positive effect on the machining accuracy and leads to an increase in productivity.

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Claims (1)

A CLIPPING TOOL FOR TREATING HOUSES, containing a clamping mechanism installed in the housing, along the longitudinal axis of which a through groove is made, characterized in that, in order to increase the accuracy and productivity of the machining, conical holes with a multidirectional cone angle are made in the walls of the groove perpendicular to the longitudinal axis of the tool adjacent holes, and the expansion mechanism is made in the form of cone-shaped expansion elements installed in these holes. SU, 1126420 1126420 _h