SU848281A1 - Apparatus for supplying ferromagnetic cutting fluid - Google Patents

Description

one

The invention relates to the processing of metals by cutting and can be used to supply cutting fluid to the cutting tool both under normal conditions and when operating in a discharged medium and under weightless conditions.

A device for supplying a coolant to deep-hole drilling machines, made in the form of a chamber, encompassing a working tool, equipped with elements for connection with the workpiece and made of two axially movable parts relative to another, one of which is is fixed on the machine, and the other is pressed against the workpiece HZ.20

Such a device does not allow lubrication of the cutting tool when summing it from the bottom, as well as under vacuum conditions in zero gravity.

The purpose of the invention is to provide 25 retention of lubricant near the cutting zone in any spatial position of the tool, as well as when operating in vacuum and other controlled environments.

This goal is achieved by the fact that the part of the body, which is fixed on the machine, is equipped with permanent magnets, and the part of the body, adjacent to the child, is made in the form of a chamber, equipped with guide sleeve sleeves. In this case, the cooling lubricant, possessing magnetic properties and being in the chamber, tends to be under the action of a magnetic field in the direction of the cutting zone.

The drawing shows the proposed device for the supply of coolant.

The device consists of a short-circuit chamber 1 enclosing the cutting tool 2 and containing a lubricant-cooled liquid, magnet 3, crosshead 4 fixed to the sleeve 5 by means of a bolt 6. The upper stationary part of the device through the housing 7 is connected with an axially moving chamber 1 with eight columns 8. A spring 9 provides a constant contact of the chamber 1 through the legs 10 with the workpiece 11. The sleeve 12 and the replaceable sleeve 13 are made of a non-magnetic material, which prevents the magnetic field from scaling.

The sleeve 14 is made of a non-magnetic material, if the workpiece 11 is magnetic. In this case, the magnetic field closes through the legs 10, the workpiece 11 and the tool 2. If the workpiece 11 is made of a non-magnetic material, the sleeve 14 is made of a magnetic material. In this case the magnetic field {short-circuit through the sleeve 14 and the cutting tool 2, which provides lubrication in the gap between the sleeve 14 and the tool 2.

The cutting tool 2 is fixed in the spindle of the machine 15.

In a non-working state, the magnetic field passes through the body of the chamber 1, a cooling lubricant and an instrument, which leads to the formation of a seal of coolant preventing it from flowing out of the chamber 1.

When processing products made of ferromagnetic material, the magnetic field is closed as follows:

from magnet 3 through housing 7, pillars 8, camera body 1, legs 10, workpiece from ferromagnetic material 11, tool 2, spindle 15, sleeve 5, yoke 4 to the opposite pole of a constant ring magnet 3. The greatest intensity of a magnetic field in this case, it is in the zone of contact of the cutting tool 2 with the workpiece 11, where the lubricant cooling fluid is drawn.

When machining the holes in the parts of a non-magnetic material, a sleeve 14 of magnetic material is installed in the chamber 1. In this case, the magnetic flux is closed through the sleeve 14 and the cutting tool 2.

The sleeves 13 and 14 also vary depending on the diameter of the tool.

Periodic immersion of the cutting part of the tool into the chamber 1 during the return stroke ensures its lubrication.

The invention provides reliable lubrication of the cutting part of the tool, in particular, when it is brought to the workpiece from below and when operating in space, which increases the durability of the cutting tool, the cleanliness of the surfaces to be processed and the productivity of labor.

Claims (1)

1. USSR author's certificate No. 389913, cl. 23 Q 11/10, 1973. 312 15 "