SU1495018A1 - Device for guiding the tool in deep drilling - Google Patents

Abstract

The invention relates to a machine tool industry, in particular, to machining holes with deep drilling. The purpose of the invention is to increase the durability of the tool by reducing its buckling. The inertial masses 7 and 8 are placed in the multi-link mechanism at the junction of its links, and the conductor sleeve 6 is placed in the spherical bearing 10. At the initial processing time, the spindle 1 is set to a small rotation frequency and the conductor sleeve 6 is located at the maximum distance from the spindle 1. After the tool has been inserted 9, the rotational speed is increased, and the inertial masses 7 and 8 are consumed, the conductor sleeve 6 rises to the position of the greatest deflection of the tool 9, further deflecting it and increasing its longitudinal stability. Installing the conductor sleeve 6 in the spherical bearing 10 ensures smooth operation. 1 il.

Description

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Inertial masses 7 and 8 are installed at the junction of its links, and the conductor sleeve 6 is placed in a spherical bearing 10. At the initial processing time, spindle I is set at a low rotation frequency and the conductor sleeve 6 is located at a maximum distance from the spindle 1. After cutting, the tool - Q

Step 9 increases the rotational speed and inertial masses 7 and 8 is consumed, the conductor sleeve 6 rises to the position of the greatest deflection of the tool 9, preventing its deflection and increasing its longitudinal stability. The installation of the conductor sleeve G and the spherical bearing 10 ensures smooth operation, 1 sludge,

The invention relates to machine-tool construction, in particular, to machining of holes with deep slinging.

The purpose of the invention is to increase the durability of the tool by reducing its buckling,

The drawing shows the device, a general view.

The device contains a spindle, links 2-5, conductor sleeve

6, inertial masses 7 and 8, drill 9, spherical bearing 10,

The elements are interrelated as follows.

The multilink mechanism contains inertial masses 7 and 8, mounted on a rotating spindle 1, and the conductor sleeve 6 is installed in a spherical bearing 10,

The fixture works as follows

When the drill bit 9 is inserted into the metal, the rotational speed is low, and the conductor sleeve 6 is located at a maximum distance from the spindle 1, the rotational speed increases after insertion, and the inertial masses 7 and 8 are consumed, and the conductor sleeve goes up. As a result, the shear is not wound on

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the design does not affect the drill bit 9, Also links 2 and 4 connected to spindle 1, and links 3 and 5 connected sharkshno with a spherical bearing 10, rotate with synchronous drill bit 9, between conductor bushing 6 and drill 9 does not cause friction, which increases the durability and service life of the drill, Gakim way, offering a drill conductor allows you to increase the service life, reliability, accuracy and durability of the drill,

F, about rmu l and inventions

A tooling device for deep-hole drilling, comprising a conductor sleeve mounted for movement along the tool axis and connected to the spindle by means of pivotally connecting levers, mounted in the radial direction of the elements, characterized by the fact that In order to increase tool life, the elements mentioned are made in the form of inertial masses, and the conductor sleeve is installed in a spherical bearing.

Claims (1)

Claim A device for guiding a tool during deep drilling, comprising a conductive sleeve mounted to move along the axis of the tool and connected to the spindle via pivotally connected levers, with radially movable elements installed at the points of articulation, characterized in that, in order to increase tool life , the said elements are made in the form of inertial masses, and the conductor sleeve is installed in a spherical bearing, I Compiled by M, Black