SU869976A1 - Arrangement for working inner spherical surfaces in lathes - Google Patents

Description

(54) DEVICES FOR TREATMENT OF INTERNAL SPHERICAL SURFACES IN LATHE MACHINES

one

The invention relates to the field of metal machining, in particular, to devices for machining internal spherical surfaces, including fillets, on lathes.

The closest to the proposed device is a device for machining the internal spherical surfaces on lathes, comprising a housing, a carriage and a tool holder, interconnected with its rotation mechanism 1.

In this device, the tool holder is made in one piece with the worm wheel. The center of the processed radius coincides with the center of the worm gear, which significantly reduces the technological capabilities of the device.

The purpose of the invention is to expand the technological possibilities of the device.

This is achieved by the fact that a groove is made on the tool holder at an angle to the direction of movement of the carriage, and the carriage is provided with an abutment interacting with said groove.

Such an embodiment of the device allows several times to reduce the minimum possible radius of processing, since the radius of the axis on which the holder is mounted is smaller than the radius of the worm wheel many times.

FIG. 1 shows the device J in the plan; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one.

The fixture includes a housing 1 on which a tool holder 2 with a rigidly fixed axis 3 is installed, which is centered in the opening of the body I. 10 The tool holder 2 is pressed to the base plane of the body 1 by means of a nut 4 through the supporting support 5, the opposite end of the tool holder 2 is held by the sector clamp 6.

Using the nut 4 and the set of adjusting gaskets 7 provides backlash-free movement of the toolholder.

In the lower part of the housing 1, the lead screw 8 is mounted at an angle of 30 °, which is fixed in the axial direction by the support bearings 9. With the lead screw 8

20, the carriage 10 interacts, moving in a directional direction. slot, made in the housing 1. The carriage 10 is provided with a stop 11,

on the upper part of which a rotating ring 12 is put on. An emphasis I is passed through a through groove 13, which is located in the housing 1, and is placed in an inclined groove 14, which is made on the lower plane of the tool holder 2.

The device works as follows.

The housing 1 is attached to the support of the machine. In the tool holder 2, a cutter is installed, the cutter outgoing from the tool holder body depending on the radius of the surface to be machined. Thus, one and the same cutter can process surfaces of distinct radii.

By transverse displacement of the machine caliper, the cutter fixed in the tool holder 2 of the tool is brought to touch with the surface to be treated. In order to give the tool holder 2 a rotational movement, it is necessary to rotate the square screw 8 by means of a square shank. In this case, the carriage 10, interacting with the driving screw 8, will linearly move in the groove of the housing 1, and the carriage stop abutting the lateral surface of the inclined groove 14 will unfold tool post 2.

The tool holder 2 has a mount at two points, spaced on the large shoulder, which provides sufficient technological rigidity for various tool incisions. The length of the tool holder does not limit the technological possibilities of the device.

Such an embodiment of the device ensures the expansion of its technological capabilities due to the fact that the minimum possible radius of processing is reduced several times, since the radius of the axis on which the tool holder is mounted is many times smaller than the radius of the worm wheel.

Claims (1)

Invention Formula A device for machining internal spherical surfaces on lathes, comprising a housing, a carriage and a toolholder, interconnected with its rotation mechanism, which is made so that, in order to expand technological capabilities, the toolholder has a groove at an angle to the direction of movement of the carriage, focus, interacting with the specified groove. Sources of information taken into account in the examination of 25 1. Blumberg V. A. Reference book tokar. L., 1963, p. 304 (prototype). 6-6 eight Fig.b