CN205200646U - A smart milling cutter utensil for hub surface processing - Google Patents

Abstract

The utility model provides a smart milling cutter utensil for hub surface processing, include the have the cutter body smart milling cutter utensil body of (1), the setting is and have the diamond cutting edge body that row cut the passageway in the cutting terminal surface portion of cutter body (1), the extrusion processing who goes on hub surface through diamond cutting edge body, form bright face at hub surface, row through diamond cutting edge body cuts the passageway thermolysis, prevent that cutting bits yin gaowen from bonding with diamond cutting edge body, the out of use cutting fluid, consequently, processing cost and security performance have been reduced.

Description

For the finish-milling cutter of hub surface processing

One, technical field

The utility model relates to a kind of finish-milling cutter and method, especially a kind of finish-milling cutter for hub surface processing.

Two, background technology

Surface of aluminum alloy hub is designed with and is much window and needs that marginal surface is carried out milling is bright, in order to ensure the brightness that hub surface milling is bright and working (machining) efficiency, therefore the finish-milling cutter for hub surface processing is a kind of important mechanical processing technique instrument, in the existing finish-milling cutter for hub surface processing, adopt monoblock type carbide alloy bulb milling cutter and conventional cutting liquid to process, after processing, product surface glues aluminium, surface smoothness can not be guaranteed.Also have and use kerosene or diesel oil to carry out Milling Machining for Cooling and Lubricator agent, because kerosene is flammable liquid, the too fast easy generation high temperature initiation fire of process velocity, so working (machining) efficiency is slower, the surface smoothness and the brightness that process rear product can meet the demands, and pollute comparatively large to Coating Pretreatment, and diesel oil is lubricant, product after processing in brightness a little almost, but process time, security, processing cost are too high.

Three, summary of the invention

In order to overcome above-mentioned technical disadvantages, the purpose of this utility model is to provide a kind of finish-milling cutter for hub surface processing, because this reducing processing cost and security performance.

For achieving the above object, the technical scheme that the utility model is taked is: to include on the finish-milling cutter body with cutter hub, the cutting end face being arranged on cutter hub and to have the diamond knife edge body that row cuts passage.

Owing to devising finish-milling cutter body and diamond knife edge body, by the extrusion process that diamond knife edge body carries out hub surface, wet look is formed at hub surface, passage thermolysis is cut by the row of diamond knife edge body, prevent cutting swarf Yin Gaowen bonding with diamond knife edge body, do not re-use cutting fluid, because this reducing processing cost and security performance.

The utility model devises, and arranges the shape of diamond knife edge body according to the mode of hub surface being carried out to the extrusion process of bulb blade.

The utility model devises, diamond knife edge body is set to include diamond knife edge I and diamond knife edge II, be provided with diamond knife edge I and diamond knife edge II and diamond knife edge I and diamond knife edge II are set to clearance-type distribution at the cutting end face of cutter hub, the assembly of diamond knife edge I and diamond knife edge II is set to a part for spherosome.

The utility model devises, and cutter hub is set to strip shape body.

The utility model devises, diamond knife edge I and diamond knife edge II are set to include cutting edge portion respectively and row cuts portion and the row portion of cutting is set to be coupled to each other with cutting edge portion, the transverse contour line in cutting edge portion is set to inverted L-shaped and that row cuts portion transverse contour line and is set to camber line, and the camber line that row cuts portion is set to be connected to extend with inverted L-shaped one end end line in cutting edge portion distribute.

The utility model devises, the cutting edge portion of diamond knife edge I is set to corresponding distribution with the cutting edge portion of diamond knife edge II and is set to be distributed with opened type groove between the cutting edge portion and the cutting edge portion of diamond knife edge II of diamond knife edge I, a sidewall of opened type groove be set to overlap with the center line of cutter hub distribute and opened type groove be set to along cutter hub cutting end face through extension distribute.

The utility model devises, and the outline line of opened type groove is set to rectangle and the width of opened type groove is set to 0.8-1mm, the degree of depth is set to 1.2-1.5mm.

The utility model devises, and diamond knife edge I and diamond knife edge II are set to split type and point body of diamond knife edge I and diamond knife edge II a point body respectively and are set to interlaced distribution.

The utility model devises, and opened type groove is set to split type groove body and opened type groove is set to include upper and lower two cell bodies, and the side surface part of two cell bodies up and down of opened type groove is set to a cylindrical part respectively

In the technical program, the row of diamond knife edge body cuts the opened type groove that passage refers to diamond knife edge I and diamond knife edge II.

In the technical program, diamond knife edge body hub surface being carried out to the extrusion process of bulb blade is important technical characteristic, in the technical field of the finish-milling cutter processed for hub surface, have novelty, creativeness and practicality, the term in the technical program is all to make an explanation with patent document in the art and to understand.

Four, accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the schematic diagram of first embodiment of the present utility model:

Fig. 2 is the schematic diagram of the opened type groove 4 of second embodiment of the present utility model.

Five, detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

A kind of finish-milling cutter for hub surface processing, Fig. 1 is first embodiment of the present utility model, illustrate the present embodiment by reference to the accompanying drawings, include cutter hub 1, diamond knife edge I 2 and diamond knife edge II 3, be provided with diamond knife edge I 2 and diamond knife edge II 3 and diamond knife edge I 2 and diamond knife edge II 3 are set to clearance-type distribution at the cutting end face of cutter hub 1, the assembly of diamond knife edge I 2 and diamond knife edge II 3 is set to a part for spherosome.

In the present embodiment, cutter hub 1 is set to strip shape body.

In the present embodiment, diamond knife edge I 2 and diamond knife edge II 3 are set to include cutting edge portion 5 and row respectively and cut portion 6 and row cuts portion 6 is set to be coupled to each other with cutting edge portion 5, the transverse contour line in cutting edge portion 5 is set to inverted L-shaped and that row cuts portion 6 transverse contour line and is set to camber line, and the camber line that row cuts portion 6 is set to be connected to extend with inverted L-shaped one end end line in cutting edge portion 5 distribute.

In the present embodiment, the cutting edge portion 5 of diamond knife edge I 2 is set to corresponding distribution with the cutting edge portion 5 of diamond knife edge II 3 and is set to be distributed with opened type groove 4 between the cutting edge portion 5 and the cutting edge portion 5 of diamond knife edge II 3 of diamond knife edge I 2, a sidewall of opened type groove 4 be set to overlap with the center line of cutter hub 1 distribute and opened type groove 4 be set to along cutter hub 1 cutting end face through extension distribute.

In the present embodiment, the outline line of opened type groove 4 is set to rectangle and the width of opened type groove 4 is set to 0.8mm, the degree of depth is set to 1.2mm.

Second embodiment of the present utility model, diamond knife edge I 2 and diamond knife edge II 3 are set to split type and point body of diamond knife edge I 2 and diamond knife edge II 3 a point body respectively and are set to interlaced distribution.

In the present embodiment, opened type groove 4 is set to split type groove body and opened type groove 4 is set to include upper and lower two cell bodies, and the side surface part of two cell bodies up and down of opened type groove 4 is set to a cylindrical part respectively.

3rd embodiment of the present utility model, the width of opened type groove 4 is set to 1mm, the degree of depth is set to 1.5mm.

4th embodiment of the present utility model, the width of opened type groove 4 is set to 0.9mm, the degree of depth is set to 1.35mm.

5th embodiment of the present utility model, the width of opened type groove 4 is set to 0.8-1mm, the degree of depth is set to 1.2-1.5mm.

6th embodiment of the present utility model, the width of opened type groove 4 is set to 0.81mm, the degree of depth is set to 1.48mm.

For a finish-milling method for hub surface processing, below in conjunction with embodiment, further describe the utility model, following examples are intended to the utility model instead of to further restriction of the present utility model is described.First embodiment of the present utility model, the steps include:

According to rotating speed S6500r/mm, rough mill feed rate F800mm/r, speed governing percentage 130% and layer depth 0.5MM, the position bright with the milling of wolfram steel milling cutter to wanted wheel hub first rough mills one time;

According to rotating speed S6500r/mm, rough mill feed rate F1420mm/r, speed governing percentage 130% and layer depth 0.1MM, with the position first time finish-milling one time that the milling of finish-milling cutter of the present utility model to wanted wheel hub is bright;

According to rotating speed S6500r/mm, rough mill feed rate F1460mm/r, speed governing percentage 130% and layer depth 0.02MM, with the position second time finish-milling one time that the milling of finish-milling cutter of the present utility model to wanted wheel hub is bright.

In the present embodiment, first embodiment of a kind of finish-milling cutter for hub surface processing of first time finish-milling use, second embodiment of a kind of finish-milling cutter for hub surface processing that second time finish-milling uses, best to the finish-milling precision of hub surface processing, surface roughness is: Ra1.6

Second embodiment of the present utility model, the steps include:

According to rotating speed S7500r/mm, rough mill feed rate F1200mm/r, speed governing percentage 150% and layer depth 0.8MM, the position bright with the milling of wolfram steel milling cutter to wanted wheel hub first rough mills one time;

According to rotating speed S7500r/mm, rough mill feed rate F1440mm/r, speed governing percentage 150% and layer depth 0.2MM, with the position first time finish-milling one time that the milling of finish-milling cutter of the present utility model to wanted wheel hub is bright;

According to rotating speed S7500r/mm, rough mill feed rate F1480mm/r, speed governing percentage 150% and layer depth 0.0.03MM, with the position second time finish-milling one time that the milling of finish-milling cutter of the present utility model to wanted wheel hub is bright.

3rd embodiment of the present utility model, the steps include:

According to rotating speed S7000r/mm, rough mill feed rate F1000mm/r, speed governing percentage 140% and layer depth 0.65MM, the position bright with the milling of wolfram steel milling cutter to wanted wheel hub first rough mills one time;

According to rotating speed S7000r/mm, rough mill feed rate F1430mm/r, speed governing percentage 140% and layer depth 0.15MM, with the position first time finish-milling one time that the milling of finish-milling cutter of the present utility model to wanted wheel hub is bright;

According to rotating speed S7000r/mm, rough mill feed rate F1470mm/r, speed governing percentage 140% and layer depth 0.025MM, with the position second time finish-milling one time that the milling of finish-milling cutter of the present utility model to wanted wheel hub is bright.

4th embodiment of the present utility model, the steps include:

According to rotating speed S6500-7500r/mm, rough mill feed rate F800-1200mm/r, speed governing percentage 130-150% and layer depth 0.5MM-0.8MM, the position bright with the milling of wolfram steel milling cutter to wanted wheel hub first rough mills one time;

According to rotating speed S6500-7500r/mm, rough mill feed rate F1420-1440mm/r, speed governing percentage 130-150% and layer depth 0.1MM-0.2MM, with the position first time finish-milling one time that the milling of finish-milling cutter of the present utility model to wanted wheel hub is bright;

According to rotating speed S6500-7500r/mm, rough mill feed rate F1460-1480mm/r, speed governing percentage 130-150% and layer depth 0.02MM-0.0.03MM, with the position second time finish-milling one time that the milling of finish-milling cutter of the present utility model to wanted wheel hub is bright.

5th embodiment of the present utility model, the steps include:

According to rotating speed S6566r/mm, rough mill feed rate F1190mm/r, speed governing percentage 142% and layer depth 0.59MM, the position bright with the milling of wolfram steel milling cutter to wanted wheel hub first rough mills one time;

According to rotating speed S7409r/mm, rough mill feed rate F1429mm/r, speed governing percentage 138% and layer depth 0.11MM, with the position first time finish-milling one time that the milling of finish-milling cutter of the present utility model to wanted wheel hub is bright;

According to rotating speed S7302r/mm, rough mill feed rate F14780mm/r, speed governing percentage 135% and layer depth 0.022MM, with the position second time finish-milling one time that this milling of finish-milling cutter of the present utility model to wanted wheel hub is bright.

Obtain wheel hub by the utility model finish-milling, surface roughness is: Ra3.2-1.6.

The utility model has lower feature:

1, owing to devising finish-milling cutter body and diamond knife edge body, by the extrusion process that diamond knife edge body carries out hub surface, wet look is formed at hub surface, passage thermolysis is cut by the row of diamond knife edge body, prevent cutting swarf Yin Gaowen bonding with diamond knife edge body, do not re-use cutting fluid, because this reducing processing cost and security performance.

2, owing to devising diamond knife edge I 2 and diamond knife edge II 3, by the milling process of diamond knife edge, under extrusion process effect, bright machined surface is produced.

3, owing to devising opened type groove 4, improve radiating effect and improve working (machining) efficiency.

4, owing to devising, the restriction of number range has been carried out to planform, number range is made to be technical characteristic in the technical solution of the utility model, be not by formulae discovery or tested the technical characteristic drawn by limited number of time, test shows that the technical characteristic of this number range achieves good technique effect.

5, owing to devising technical characteristic of the present utility model, in the effect of the set separately and each other of technical characteristic, by test show, property indices of the present utility model be existing property indices be at least 1.7 times, by assessment there is good market value.

Also have other be equal to diamond knife edge body hub surface being carried out to the extrusion process of bulb blade or other technical characteristic of equivalence is all one of embodiment of the present utility model, and each technical characteristic of the above embodiment can combine arbitrarily, for meeting the requirement of Patent Law, patent regulation and guidelines for examination, no longer the embodiment of all possible combination of each technical characteristic in above-described embodiment is all described.

Therefore in the finish-milling cutter technical field of processing for hub surface, every to include on the finish-milling cutter body with cutter hub 1, the cutting end face being arranged on cutter hub 1 and there is row cut the technology contents of the diamond knife edge body of passage all in protection domain of the present utility model.

Claims (9)

1. for a finish-milling cutter for hub surface processing, it is characterized in that: to include on the finish-milling cutter body with cutter hub (1), the cutting end face being arranged on cutter hub (1) and there is the diamond knife edge body that row cuts passage.

2. the finish-milling cutter for hub surface processing according to claim 1, is characterized in that: the shape arranging diamond knife edge body according to the mode of hub surface being carried out to the extrusion process of bulb blade.

3. the finish-milling cutter for hub surface processing according to claim 1, it is characterized in that: diamond knife edge body is set to include diamond knife edge I (2) and diamond knife edge II (3), be provided with diamond knife edge I (2) and diamond knife edge II (3) and diamond knife edge I (2) and diamond knife edge II (3) are set to clearance-type distribution at the cutting end face of cutter hub (1), the assembly of diamond knife edge I (2) and diamond knife edge II (3) is set to a part for spherosome.

4. the finish-milling cutter for hub surface processing according to claim 3, is characterized in that: cutter hub (1) is set to strip shape body.

5. the finish-milling cutter for hub surface processing according to claim 3, it is characterized in that: diamond knife edge I (2) and diamond knife edge II (3) are set to include cutting edge portion (5) and row respectively and cut portion (6) and row cuts portion (6) is set to be coupled to each other with cutting edge portion (5), the transverse contour line in cutting edge portion (5) is set to inverted L-shaped and that row cuts portion (6) transverse contour line and is set to camber line, and the camber line that row cuts portion (6) is set to be connected to extend with inverted L-shaped one end end line of cutting edge portion (5) distribute.

6. the finish-milling cutter for hub surface processing according to claim 3, it is characterized in that: the cutting edge portion (5) of diamond knife edge I (2) is set to corresponding distribution with the cutting edge portion (5) of diamond knife edge II (3) and is set to be distributed with opened type groove (4) between the cutting edge portion (5) and the cutting edge portion (5) of diamond knife edge II (3) of diamond knife edge I (2), a sidewall of opened type groove (4) be set to overlap with the center line of cutter hub (1) distribute and opened type groove (4) be set to along cutter hub (1) cutting end face through extension distribute.

7. according to claim 6 for hub surface processing finish-milling cutter, it is characterized in that: the outline line of opened type groove (4) be set to rectangle and opened type groove (4) width is set to 0.8-1mm, the degree of depth is set to 1.2-1.5mm.

8. the finish-milling cutter for hub surface processing according to claim 3, is characterized in that: diamond knife edge I (2) and diamond knife edge II (3) are set to split type and point body of diamond knife edge I (2) and diamond knife edge II (3) a point body respectively and are set to interlaced distribution.

9. the finish-milling cutter for hub surface processing according to claim 6, it is characterized in that: opened type groove (4) is set to split type groove body and opened type groove (4) is set to include upper and lower two cell bodies, and the side surface part of two cell bodies up and down of opened type groove (4) is set to a cylindrical part respectively.