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Manufacturing method of milling cutter

A manufacturing method and a milling cutter technology, which are applied in the manufacturing field of milling cutters, can solve the problems of poor cross-section geometry, poor precision, and low precision of spiral grooves.

Active Publication Date: 2013-07-31
SUZHOU SAN JUN TOOLS TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] The current milling cutter consists of a spiral groove part and a shank. The general milling cutter is formed by rolling. The rolling drill is to extrude the spiral groove by heating the bar with a roll. The advantage is that the production efficiency is high, and the material after hot rolling The fiber is not cut, the physical properties of the finished product are good, the raw material is saved and the consumption of the grinding wheel is saved. The disadvantage is that the surface roughness of the spiral groove affects chip removal, the geometric formation of the spiral groove section is poor, and the precision is low. The symmetry of the two spiral grooves often does not meet the standard. It can only be used for rough processing. With the improvement of processing requirements, although the rolling drill has the advantages of good physical properties, high durability and low manufacturing cost, it will be gradually eliminated due to poor precision.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0021] A method for manufacturing a milling cutter, comprising the steps of:

[0022] 1) Carrying out cylindrical grinding of the rough material steel, grinding off the black skin on the surface of the rough material steel, making the surface of the rough material steel smooth, and obtaining a blank after grinding;

[0023] 2) Heat treatment of the billet: the temperature of low-temperature preheating is 555°C, and the temperature is kept for 2 hours; the temperature of medium-temperature preheating is 855°C, and the temperature is kept for 20 minutes; 560°C, tempering time is 2h, keep warm for 2h, then air cool to room temperature; second tempering temperature is 560°C, tempering time is 2h, then air cool to room temperature; third tempering temperature is 560°C, tempering The time is 2h, then air-cooled to room temperature;

[0024] 3) Carry out pickling treatment to the blank after heat treatment;

[0025] 4) Rolling grooves on the billets after pickling treatment, and cu...

Embodiment 2

[0035] A method for manufacturing a milling cutter, comprising the steps of:

[0036] 1) Carrying out cylindrical grinding of the rough material steel, grinding off the black skin on the surface of the rough material steel, making the surface of the rough material steel smooth, and obtaining a blank after grinding;

[0037] 2) Carry out heat treatment on the billet: the temperature of low temperature preheating is 560°C, and keep it for 2 hours; the temperature for medium temperature preheating is 860°C, and keep it for 23 minutes; 570°C, tempering time is 2.5h, keep warm for 2.5h, then air cool to room temperature; the second tempering temperature is 570°C, tempering time is 2.5h, then air cool to room temperature; the third tempering temperature is 570°C , the tempering time is 2.5h, and then air-cooled to room temperature;

[0038] 3) Carry out pickling treatment to the blank after heat treatment;

[0039] 4) Rolling grooves on the billets after pickling treatment, and cu...

Embodiment 3

[0049] A method for manufacturing a milling cutter, comprising the steps of:

[0050] 1) Carrying out cylindrical grinding of the rough material steel, grinding off the black skin on the surface of the rough material steel, making the surface of the rough material steel smooth, and obtaining a blank after grinding;

[0051] 2) Carry out heat treatment on the billet: the temperature of low temperature preheating is 565°C, and keep it for 2 hours; the temperature for medium temperature preheating is 865°C, and keep it for 25 minutes; 575°C, tempering time is 3h, keep warm for 3h, then air cool to room temperature; second tempering temperature is 575°C, tempering time is 3h, then air cool to room temperature; third tempering temperature is 575°C, tempering The time is 3h, then air-cooled to room temperature;

[0052] 3) Carry out pickling treatment to the blank after heat treatment;

[0053] 4) Rolling grooves on the billets after pickling treatment, and cutting them into requi...

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PUM

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Abstract

The invention discloses a manufacturing method of a milling cutter. The manufacturing method of the milling cutter comprises the following steps: 1) performing cylindrical grinding on coarse steel; 2) performing heat treatment on blanks: performing low-temperature preheating at 555 to 565 DEG C and preserving heat for 2 hours, performing medium-temperature preheating at 855 to 865 DEG C and preserving heat for 20 minutes to 25 minutes, performing high-temperature heating at 1,295 to 1,305 DEG C and preserving heat for 110 seconds to 125 seconds, tempering for the first time at 560 to 575 DEG C for 2 to 3 hours, preserving heat for 2 to 3 hours and performing air cooling to room temperature, tempering for the second time at 560 to 575 DEG C for 2 to 3 hours and performing air cooling to room temperature, and tempering for the third time at 560 to 575 DEG C for 2 to 3 hours and performing air cooling to room temperature; 3) performing acid-washing treatment; 4) rolling a groove; 5) grinding cylindrical burrs; 6) annealing; 7) performing coarse cylindrical grinding; 8) edging; 9) performing fine cylindrical grinding; 10) performing surface treatment; 11) placing into engine oil, cooking for 6 hours and performing air cooling to room temperature; and 12) coating anti-rust oil to manufacture the finished product milling cutter. The milling cutter manufactured by the method is sharp and can be applied to fine machining.

Description

technical field [0001] The invention relates to a method of manufacturing a milling cutter. Background technique [0002] The current milling cutter consists of a spiral groove part and a shank. The general milling cutter is formed by rolling. The rolling drill is to extrude the spiral groove by heating the bar with a roll. The advantage is that the production efficiency is high, and the material after hot rolling The fiber is not cut, the physical properties of the finished product are good, the raw material is saved and the consumption of the grinding wheel is saved. The disadvantage is that the surface roughness of the spiral groove affects chip removal, the geometrical formation of the spiral groove section is poor, and the precision is low. The symmetry of the two spiral grooves often does not meet the standard. Scrapped and can only be used for rough machining. With the improvement of machining requirements, although rolling drills have the advantages of good physical ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B23P15/34
Inventor 周静波
Owner SUZHOU SAN JUN TOOLS TECH CO LTD
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