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Figure 1 - Poor Suitable for pitch change less than 10%

Figure 2 - Good Suitable for pitch change up to 20%

Figure 3 - Ideal Will produce cleanest knurled parts

Often, parts may require knurling on conical or radial surfaces, either for function or decorative purposes. With proper tools and application, a clean, well-formed knurl or serration can be produced.

One of the most frequent mistakes when knurling a conical surface is having the knurling tool and the part set with parallel axes. This is shown in figure 1 and is similar to running a pair of bevel gears the wrong way. It can work for larger parts with small conical angles, but as the conical angle increases, the results become worse. This method should only be used when the pitch change from the small to large end of the part is less than 10%.

While technically not correct, using a conventional forming knurl as shown in figure 2 can be effective when rolling on relatively larger diameters with smaller conical angles. The advantage here is that tooling is substantially cheaper, but once again as the conical angle increases the knurled part will be of lesser quality. This method can be used to produce acceptable parts when the pitch change is as high as 15-20%.

A better method of producing a clean knurl on a conical surface with maximum tool life is shown in figure 3. By using an adjustable angle holder along with the proper conical knurl die, this method makes it possible to roll tapered serrations with a controlled number of teeth and consistent repeatability.

For proper tracking at both ends of the piece, it is necessary to establish the geometrical relationship between the part and the tool with consideration given to the space available for tooling. It is sometimes advantageous to use a shank-type knurling tool where clearance is not available for the conventional style knurl holder.

In certain cases, parts may be knurled with radial teeth on the end of parts, by using a conical knurl of the proper design. Here again, the results depend primarily on establishing the geometric relationship between the part and the tool. For more information on either of the above cases see face knurling.

Whenever knurling on conical and end surfaces, a tracking correction factor is usually applied to the calculated diameter because of many of the many variables involved, such as hardness of material, elasticity of machine tools and tool holders, etc. This factor is necessarily empirical. 

• 內孔滾花刀具
• ceshi1123
• CB系列 14.5*3*5
• CV系列 25*6*8
• 單輪切削式刀柄
• 雙輪切削滾花刀柄
• 數控精巧型雙輪刀柄/公英
• 傘型帶柄滾花輪
• 三輪滾花刀柄
• 三輪滾花刀柄
• 45度單輪滾花刀柄
• 臺階端面滾花刀柄
• GKV系列 5/8*1/4*1/4
• BP系列 5/16*5/32*1/8
• EP系列 1/2*3/16*3/16
• EQ系列 1/2*1/4*3/16
• GK系列 5/8*1/4*1/4
• GR系列 5/8*5/16*7/32
• KN系列 3/4*1/4*1/4
• KP系列 3/4/3/8*1/4
• KR系列 3/4*1/2*1/4
• MT系列 7/8*3/8*1/4
• OU系列 1*3/8*5/16
• PH系列 1-1/4*1/2*1/2
• EPV系列 1/2*3/16*3/16
• KNV系列 3/4*1/4*1/4
• PHV系列 1-1/4*1/2*1/2
• MRV系列 20*6*6
• KPV系列 3/4*3/8*1/4
• 成型（倒角）滾花輪
• CG系列 8.9*2.5*4
• CC系列 21.5*5*8
• MW系列 25*8*6
• MU系列 20*10*6
• MS系列 20*8*6
• MR系列 20*6*6
• MQ系列 15*6*4
• MN系列 15*4*4
• ML系列 20*8*10/12
• MB系列 10*3*4