RU193474U1 - Planer - Google Patents

Abstract

The utility model relates to the field of metalworking, in particular metal cutting, and can be used for planing bronze. The cutter is a straight-through curved right rectangular cutter including a shank and a cutting part made integral with a flat shape of the front surface of the cutting part, characterized in that the cutter a planer 58-61 mm wide is designed for processing a bronze plate, has a sampling edge on the left, the width of which is b = 9-11 mm, radius R = 2.0 mm, the rake angle on the sampling edge of the cutter is γ = 0 °, auxiliary The specific rear angle on the cutting edge of the cutter is α = 17-19 °, the auxiliary rear angle on the cutter body is α = 19-21 °, and the angle in the plan is ϕ = 4-7 °, while the main rear corner of the cutter is α = 7-11 ° , the rake angle at the main edge of the cutter is γ = 24-30 °, and the radius at the main edge of the cutter is R = 3-5 mm, while the sharp edge of the cutting part of the cutter is cut down and brought to the cast-iron disk with abrasive paste. The cutter is installed in the universal headstock planing machine with the cutter turning at an angle of 64-66º relative to the direction of movement of the table. Technical result - reduction of roughness vatosti treated surface bronze plate.

Description

The utility model relates to the field of metalworking, in particular, metal cutting, and can be used for planing bronze.

A known design of a planing cutter with a straight transition edge f ₀ = 3 mm, α = 6 °, γ = 15 °, ϕ ₀ = 30 ° [General engineering standards of cutting conditions: Reference: In 2 t. T. 2 / A.D. Loktev, I.F. Gushchin, B.N. Balashov et al. - M: Mechanical Engineering, 1991. - 304 p.].

The disadvantage of this design of the cutter is that it is designed for processing steel and is not suitable for processing bronze.

Known cutter planer finishing wide curved with a plate of hard alloy with a flat front surface of the cutting part. Cutter section height × width h × b = 40 × 25 mm, cutter width on the cutting part a = 22 mm, cutter length L = 340 mm GOST 18892-73.

The disadvantage of the cutter is low productivity, since the design features do not allow to ensure the roughness of the machined surface Ra = 3.2 μm when planing BrX0.5 bronze without additional use of grinding.

The objective of the utility model is to improve the design of the planing cutter, which provides increased productivity when planing bronze plates.

The technical result is a reduction in the roughness of the machined surface of the bronze plate.

The technical result is achieved in that the cutter is a straight-through planer curved right rectangular section for processing a bronze plate, characterized in that it is made integral and includes a shank and a cutting part with a flat shape of the front surface and with a fence part to the left of the main cutting edge in a plan view with a width 58-61 mm, with the width of the intake edge b ₁ = 9-11 mm and the radius of the intake edge R _zab = 2.0 mm, the rear angle on the intake edge of the cutter α _z = 17-19 ° and the rear angle on the cutter body α _zk = 19-21 °, while it has a main rear angle α = 7–11 °, the rake angle on the main cutting edge of the cutter γ = 24–30 ° and the radius of the tip of the cutter R = 3-5 mm, and a chamfer is made on the back surface of the cutting part by finishing with abrasive paste on a cast-iron disk.

The cutter is installed in the spindle head of a universal longitudinal planing machine with the cutter turning at an angle of 64-66º relative to the direction of movement of the table.

The reduction in roughness is achieved due to optimally selected geometric and structural parameters, as well as by setting the cutter at an angle of 64-66º relative to the direction of movement of the table. Reducing roughness allows you to increase processing productivity due to the exclusion of grinding operations.

The invention is illustrated in graphic materials. In FIG. 1 shows a main view of a planer cutter of a straight-through bent right rectangular section for processing a slab, FIG. 2 is a top view, where the front surface of the cutter 1, the main rear angle α is 2, the main rear corner of the body α _k is 3, the front angle at the main edge of the cutter γ is 4, the chamfer along the main rear surface is 5, the main cutting edge is 6, sampling edge - 7, the angle in the plan on the sampling edge ϕ _zab - 8, the width of the cutter b - 9, the width of the sampling edge b ₁ - 10, the radius of the tip of the cutter R - 11, the radius at the sampling edge of the cutter R _zab - 12. In FIG. 3 shows section AA in FIG. 2, where the _rake angle on the intake edge of the cutter γ _zab - 13, the auxiliary _clearance angle on the intake edge of the cutter α _z 14, the auxiliary _clearance angle on the cutter body α _zk 15, the chamfer on the intake edge 16, the tail 17, the cutting part 18.

The planer has strict straightness of the main cutting edge 6 in compliance with the correct sharpening geometry. The sharp edges of the cutting part of the cutter 5 and 16 are cut down or blunted with a file. Finishing the cutting part of the cutter on the cast-iron disc with abrasive paste is required.

The planer cutter is installed in the headstock of a universal longitudinally-planer machine with the cutter turning at an angle of 64-66º relative to the direction of movement of the table.

Examples of specific manufacturing are given in table. 1. A planing compound cutter was made, the tail of which is made of steel grade 50, the cutting part is made of hard alloy grade VK8. The shape of the front surface is flat, the main trailing angle of the cutter α = 9 °, the rake angle at the main edge γ = 28 °, the _rake angle on the intake edge of the cutter γ _zab = 0 °, the auxiliary trailing angle on the intake edge of the cutter α _z = 18 °, auxiliary the rear angle on the tool body α _zk = 20 ° the angle in the plan on the intake edge of the tool ϕ _zab = 5 °, the width of the tool b = 60 mm, the width of the intake edge b ₁ = 10 mm, the radius of the tip of the tool R = 4 mm, the radius of the fence the edge of the cutter R = 2 mm ensured a decrease in surface roughness to Ra = 3.2 μm.

Obtained according to examples, the incisors processed the bronze plate BrX0.5.

When testing the improved design of the planer cutter, a roughness of Ra = 3.2 μm was achieved without the use of grinding operations.

The best result was shown with a planing cutter in Example 2.

Planing the flat surface of the bronze plate with the set geometric parameters, with the installation of the cutter and rotation through an angle of 65º relative to the direction of movement of the table allows you to get a surface roughness Ra = 3.2 μm without additional grinding of the surface of the plate with abrasive wheels.

Claims (1)

A curved right-handed planer cutter of rectangular cross section for processing a bronze plate, characterized in that it is made integral and includes a shank and cutting honor with a flat shape of the front surface and with an intake part to the left of the main cutting edge in a plan view with a width of 58-61 mm, with the width of the intake edge b ₁ = 9-11 mm and the radius of the intake edge R _zab = 2.0 mm, the rear angle on the intake edge of the cutter α _z = 17-19 ° and the rear angle on the cutter body α _{zk =} 19-21 °, while it has a main rear angle α = 7-11 °, the front angle on the main cutting edge the edge of the cutter is γ = 24-30 ° and the radius of the tip of the cutter is R = 3-5 mm, and a chamfer is made on the back surface of the cutting part by finishing with abrasive paste on a cast-iron disk.

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