RU2022726C1 - Side milling cutter - Google Patents

Abstract

FIELD: mechanical engineering; construction of cutting tool made from powder of high-speed steel. SUBSTANCE: milling cutter has disk and ring with bores connected to each other. Bimetallic ring has outer part made from powder high-speed steel and inner part made from structural steel. The disk has cone-shaped periphery surface. EFFECT: enhanced operating reliability. 3 dwg

Description

 The invention relates to mechanical engineering, in particular to the design of a cutting tool made of high speed steel powder.

 The scope of the invention is the cutting of rolled profiles into blanks of an exact size with minimal loss of cut metal, cutting through deep grooves in the manufacture of various products.

 Various designs of disk mills are known, which have a permanent housing or a disk made of structural low alloy steel and a cutting part made of high speed steel attached to the housing or disk, for example, a design of a disk mill containing a housing, in the slots of which there is a device for changing the position of the cutting plates relative to the housing. The design disadvantages are the impossibility of reducing the thickness of the case due to the device located in it, the high cost of manufacture, the narrow area of rational use of this cutter.

 A known mill, the design of which is regulated by GOST 4047-82 for a large group of sizes, for example, 250 mm in diameter, has a steel disk 50G-65G, along the rim of which a central rib is made in one third of the disk thickness, on which 14 gears are each secured with four rivets segments with a slot in the middle on the edge. Four rivets hold each segment from radial and tangential displacement, the edge of the rim from axial.

 The design has the following disadvantages: additional consumption of high-speed steel for fastening segments due to the rivet belt on the segments, restrictions on reducing the thickness of the cutter by the segment fastening system, which at small thicknesses does not provide the necessary rigidity and strength of the ribs of the segments on the rivet belt, and high manufacturing costs segments (except for processing the external working contour) it is necessary to process the internal contour), high costs for assembling the cutter - you need to drill 56 coaxial holes on rib ribs and ribs segments and plant 56 rivets.

 The design of the cutter according to GOST 4047-82 determines the manufacture of segments from forgings of rolled steel ingots R6M5K5 according to GOST 19265-73 with all the difficulties and losses that occur when forging high-speed steel.

 Steel P6M5K5 according to GOST 19265-73 for milling segments according to GOST 4047-82 does not pass the powder limit and has a cutting resistance three times lower than steel made from powder of high-speed steel of the Dneprostal plant.

 A known design of a rotary disk tool, for example, circular saws, splined circles, circular knives, in which the disk planes of the tool blade are ground in the shape of a segment and their position is regulated by a compression force sensor located in the center. The design disadvantages are the high manufacturing cost and increased consumption of high speed steel.

 Distinctive features of the proposed cutter are the connection in the crown of high-speed steel with structural direct splicing in the process of manufacturing the crown by hot stamping from powder of high-speed and structural steel without the formation of a liquid phase and without the presence of a third alloy (solder); use for the manufacture of crown high-speed steel powder; bimetallic crown instead of segments, manufactured by a simpler and cheaper technology than segments; fastening the crown to the disk, in which two mating flat rings of homogeneous alloys are provided, which allows the assembled cutter, if necessary, to reduce the thickness by double-sided grinding without changing the relative strength of the cutter elements, their fastening; bilateral fastening of the crown to the disk by deformation of the metal along the edge of the groove on the crown until the crown metal completely contacts the conical side surface of the disk; a cheaper way to assemble the cutter by reducing the number of rivets.

 In FIG. 1,2 and 3 show the complete assembly in a static position. The bimetallic crown consists of the outer part 1 of the powder of high speed steel and the inner part 2 of structural steel. Disk 3 is made of structural steel; in FIG. 1,2 and 3 the following notation is introduced: 4 - rivets; 5 - deformable metal along the edge of the grooves on the crown; 6 - radial slot of the smallest possible width (an element is optional for all milling cutters); 7 - grooves (dashed lines with a dot outline the grooves).

 In dynamics, the milling cutter retains its shape and dimensions and the relative position of its constituent elements. When cutting, the radial force of penetration is perceived from the disk crown along the entire lateral surface of the disk 3, the axial forces on the crown - by the system of double-sided mounting of the crown with the disk, the tangential forces - by four rivets 4 and the friction force between the disk and the crown.

 PRI me R. A mill with a working crown thickness of 3.5 mm and an outer diameter of 250 mm.

The crown has an outer diameter of 250 mm, an inner 184 mm, the width of the outer cutting part from powder P6M5K5-20 mm, the width of the inner part for fastening from steel 40X-13 mm. The hardness of the working part after quenching from 1220 ^о С and three-time tempering at 560 ^о С-65-69 HRC, the hardness of the inner part of the crown after heat treatment together with Р6М5К5-180НВ, after assembly and deformation of volume 5 at the deformation site is 210 HB. After assembly, the crown is ground from two sides on a cone from a thickness of 3.5 mm to a disk thickness at an angle of up to 1 ^about 19 '. The groove on the crown has a width of 8 mm and a depth of 1/2 the thickness of the crown. The disk is made of steel 60G, heat treatment to a hardness of 320 HB, diameter 200 mm, the angle of the cone on the side surface - 45 ^about ; disk thickness 3.2 mm. The groove from the side of the base of the cone has a width of 8 mm, a depth of 1/2 the thickness of the disk.

On the circle has a diameter of 190.4 mm by ⁹⁰ four rivets 3.6 mm in diameter, planted in countersunk countersinking 4.6 mm diameter, 0.5 mm in depth.

Claims (1)

 A DISK MILL, containing a disk and a crown with grooves, interconnected, characterized in that the crown is made bimetallic with the outer part made of high-speed powder steel and the inside made of structural, and the peripheral surface of the disk is conical.

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