RU1804975C - Metal cutting disk saw - Google Patents

Abstract

Use: for cutting workpieces of technically pure aluminum. SUMMARY OF THE INVENTION: In the chip groove, an undercut is made relative to the front surface of the tooth, the depth of which is equal to the front surface. During the cutting process, the chips moving along the front surface of the tooth come into contact with the tool with the cutter side until they are undercut, after which the cutter side of the chip comes in contact with air, instantly oxidizes, loses its active properties when it comes into secondary contact with the surface of the chip groove does not form a growth. 3 ill.

Description

The invention relates to mechanical engineering, in particular for cutting workpieces of technically pure aluminum.

Uejib invention is the provision of cutting blanks of technically pure aluminum without CO: W and oil.

In FIG. 1 while she saw, general view; in FIG. 2 - node I in FIG. 1; in FIG. 3 is a section AA in FIG. 2.

A circular segment saw for cutting zarotobok made of technically pure aluminum consists of a disk 1 and segments 2. On the front cutting surface of the teeth 3 of the saw, grooves 4 are made, connecting grooves 5 and 6 located on the side surfaces of the teeth 3.

The proposed saw works as follows. During the cutting process, the chip moving along the front surface of the tooth 3 contacts the cutter side with the tool to the groove 4, after which the cutter side of the chip comes into contact with air, instantly oxidizes, loses its active properties, and. with secondary

contact with the surface of the chip groove does not form a growth. Grooves 5 and 6, made on the sides, prevent chip metal from flowing into the gap between the tool and the end face of the slot, which ensures that chips are not held in the chip groove due to the setting of the metal of the workpiece and tool according to the prototype. The growth that forms on the front surface of the cutting tooth blade is removed by convergent chips, i.e. has virtually no effect on the chip formation process. Therefore, the shrinkage of the chips when cutting with the proposed saw, of technically pure aluminum, is close in magnitude to the value of the shrinkage of chips when cutting aluminum alloys of medium hardness. The chips that are in the chip groove after the first pass, when the saw tooth leaves the workpiece to be cut, are not held in it by inertial forces and are thrown out of the tool limit. With further work, this process is repeated. So regained

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That is, making a groove on the front surface of the saw tooth connecting the side grooves allows cutting workpieces of technically pure aluminum without the use of coolant and oil.

The exclusion of coolant and oil from the cutting process leads to improved working conditions, facilitates processing for reuse of chips, eliminates operations for the preparation, storage, transportation and recovery of coolant,

A segmented circular saw for cutting blanks of pure aluminum was made and tested in laboratory conditions of the Department of Mechanical Engineering of the Samara Polytechnic Institute, with full confirmation of the expected economic effect.

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Claims (1)

The claims Circular saw for cutting metals, containing cutting teeth between which chip grooves are made, and grooves symmetrically located relative to the axial plane of the saw blade are made on the lateral surfaces of the blade, each of which overlaps the chip groove, with the exception of that, in order to expand technological capabilities by cutting materials from technically pure aluminum without cutting fluid and oil, undercutting is performed in the chip groove relative to the front surface of the tooth, hl a bin which is the length of the front surface. Figure 2 IT