CN103551594A - Reticulate pattern turning technology for digital controlled lathe - Google Patents

Abstract

The invention provides a reticulate pattern turning technology for a digital controlled lathe. Different turning tool processing points are selected respectively at the two ends where the reticulate pattern turning is required; a component is controlled to rotate around the axle center of the component correspondingly while the component is kept moving forwards or backwards along the axle center of the component; a turning tool is operated along the surface of the component; a linear spiral slot is turned correspondingly, and linear spiral slots formed in different directions can be crossed correspondingly to form reticulate patterns. As the technology adopts the turning tool to turn the reticulate patterns, the reticulate patterns on the surface of the component can be clearer.

Description

A kind of numerical control lathe wheeled litter reticulate pattern flower process

 

Technical field

The present invention relates to metal parts annular knurl technology, what be specifically related to is a kind of process of car hatching knurling of part being carried out by numerically controlled lathe.

Background technology

Annular knurl refers to the mode at the outer surface roll extrusion decorative pattern of handle knob place or other parts of metallic article by knurling tool.The reticulate pattern of piece surface flower, be all generally to use knurling tool rolling to form, but there is unsharp problem in the reticulate pattern that this mode processes, conventionally cannot meet the appearance requirement of consumer electronics finished product and handicraft at present.

Summary of the invention

For this reason, the object of the present invention is to provide a kind of process of car hatching knurling of part being carried out by numerically controlled lathe, utilize lathe tool to carry out turning reticulate pattern flower to piece surface, so that the reticulate pattern of piece surface flower is more clear.

The object of the invention is to be achieved through the following technical solutions.

A wheeled litter reticulate pattern flower process, comprising:

On part, need the region first end of car reticulate pattern flower at least to choose a some A1, at the second end, at least choose a some B1;

Part is fixedly mounted on lathe, and A1 point correspondence on part first end is contacted with lathe tool, control part and rotate according to speed V1 around part axle center, along part axle center, according to speed V2, advance;

Lathe tool A1 point from part runs to B1 point along piece surface, at piece surface car, goes out the linear helicla flute A1 ' of A1;

Adjust lathe tool, it is contacted with the B1 point of part the second end, control part and rotate according to speed V1 around part axle center, along part axle center, according to speed V2, retreat;

Lathe tool B1 point from part runs to A1 point along piece surface, at piece surface car, goes out the linear helicla flute B1 ' of B1;

Described linear helicla flute A1 ' and linear helicla flute B1 ' formation reticulate pattern.

Preferably, need the region first end of car reticulate pattern flower to choose A1 point and A2 point on part, the second end is chosen B1 point and B2 point;

Part is fixedly mounted on lathe, and A1 point on part first end is contacted with lathe tool with A2 point is corresponding successively, control part and rotate according to speed V1 around part axle center, and advance according to speed V2 along part axle center, at piece surface car, go out the linear helicla flute A1 ' of A1 and the linear helicla flute A2 ' of A2;

Adjust lathe tool, it is contacted with B2 point with the B1 point of part the second end successively, control part and rotate according to speed V1 around part axle center, and retreat according to speed V2 along part axle center, at piece surface car, go out the linear helicla flute B1 ' of B1 and the linear helicla flute B2 ' of B2;

Described linear helicla flute A1 ', A2 ' and linear helicla flute B1 ', B2 ' formation reticulate pattern.

Preferably, described A1 point and A2 point are positioned on the circumference of the same radial section of part; Described B1 point and B2 point are positioned on the circumference of the same radial section of part, and described A1 point and B1 point be positioned on the axial straight line of Same Part, and A2 point and B2 point are positioned on the axial straight line of Same Part.

The present invention compared with prior art, beneficial effect is: the present invention is by needing the two ends of car reticulate pattern flower to choose respectively different lathe tool processing stands, and corresponding when controlling part and rotate around part axle center, keep it along part axle center, advance or retreat, lathe tool moves along piece surface, corresponding car goes out linear helicla flute, and the upper linear helicla flute forming can correspondence intersect to form reticulate pattern from different directions.Because the present invention adopts lathe tool car, go out reticulate pattern, can make the reticulate pattern flower of piece surface more clear.

Accompanying drawing explanation

Fig. 1 is that the present invention carries out the device schematic diagram of car hatching knurling to part by numerically controlled lathe;

Fig. 2 is that part of the present invention carries out the schematic diagram after car hatching knurling;

Fig. 3 is that the present invention carries out fare shape spiral fluted schematic diagram at part A1 point place to part;

Fig. 4 is that the present invention carries out fare shape spiral fluted schematic diagram at part B1 point place to part;

Fig. 5 is that the present invention carries out fare shape spiral fluted schematic diagram at part A1, A2 point place to part;

Fig. 6 is that the present invention carries out fare shape spiral fluted schematic diagram at part B1, B2 point place to part;

Fig. 7 is that the present invention carries out fare shape spiral fluted schematic diagram at part A1, A2, B1, B2 point place to part.

The specific embodiment

In order to make object of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

In the present embodiment, disclose a kind of numerical control lathe wheeled litter reticulate pattern flower process, it mainly forms reticulate pattern by lathe tool at piece surface, to realize the clear of piece surface reticulate pattern.

Refer to shown in Fig. 1, Fig. 1 is that the present invention carries out the device schematic diagram of car hatching knurling to part by numerically controlled lathe.In this enforcement, part 100 is cylindrical, and its correspondence is fixedly mounted on numerically controlled lathe, by fixture fixed clamp, in a side of part 100, knife rest is installed, and lathe tool 200 is installed on described knife rest.

As shown in Figure 3, Fig. 3 is that the present invention carries out fare shape spiral fluted schematic diagram at part A1 point place to part.First on part to be processed, need one end, region of car reticulate pattern flower to select a some A1, the other end is selected a some B1, then adjust knife rest, make lathe tool be positioned at an A1 place, by operating numerical control lathe, make the fixture that clamps part drive part correspondence to rotate around the axial line of part with speed V1, and make part move forward with speed V2 along direction of axis line simultaneously, now comparatively speaking, lathe tool is the motion of spinning from A1 point to B1 on part, thereby can on the surface of part, form a helicla flute A1 ' and (see Fig. 3, wherein in Fig. 3, solid line is the helicla flute in part front, dotted line is the helicla flute at the part back side, and solid line and dotted line link together).

As shown in Figure 4, Fig. 4 is that the present invention carries out fare shape spiral fluted schematic diagram at part B1 point place to part.Helicla flute A1 ' in processing Fig. 3 afterwards, lathe tool is positioned at part B1 point place, operating numerical control lathe now, make the fixture that clamps part drive part correspondence to rotate around the axial line of part with speed V1, direction of rotation is identical with Fig. 3, and make part move backward with speed V2 along direction of axis line simultaneously, now comparatively speaking, lathe tool is the motion of spinning from B1 point to A1 on part, thereby can on the surface of part, form a helicla flute B1 ' and (see Fig. 4, wherein in Fig. 4, solid line is the helicla flute in part front, dotted line is the helicla flute at the part back side, and solid line and dotted line link together).

After A1 point and B1 point, the helicla flute B1 ' that car goes out and A1 ' correspondence are staggered, form reticulate pattern.

As shown in Figure 5, Fig. 5 is that the present invention carries out fare shape spiral fluted schematic diagram at part A1, A2 point place to part.On part to be processed, need one end, region of car reticulate pattern flower to select a some A2, the other end is selected a some B2, after the mode of operation in Fig. 4, lathe tool is positioned at the A1 point place of part, now regulate knife rest, make lathe tool adjust to A2 point place, by operating numerical control lathe, make the fixture that clamps part drive part correspondence to rotate around the axial line of part with speed V1, and make part move forward with speed V2 along direction of axis line simultaneously, now comparatively speaking, lathe tool is the motion of spinning from A2 point to B2 on part, thereby can on the surface of part, form a helicla flute A2 ' and (see Fig. 5, wherein in Fig. 5, solid line is the helicla flute in part front, dotted line is the helicla flute at the part back side, and solid line and dotted line link together).

Formed like this two parallel helicla flutes, according to different requirements, the point of selection can be a plurality of, as A3, A4, A5 ... AN etc., wherein selected point is more, and the corresponding reticulate pattern spacing forming is also closeer.

As shown in Figure 6, Fig. 6 is that the present invention carries out fare shape spiral fluted schematic diagram at part B1, B2 point place to part.After the mode of operation in Fig. 5, lathe tool is positioned at the B2 point place of part, now by operating numerical control lathe, make the fixture that clamps part drive part correspondence to rotate around the axial line of part with speed V1, and make part move backward with speed V2 along direction of axis line simultaneously, comparatively speaking, lathe tool is the motion of spinning from B2 point to A2 on part, thereby can on the surface of part, form a helicla flute B2 ' and (see Fig. 6, wherein in Fig. 6, solid line is the helicla flute in part front, dotted line is the helicla flute at the part back side, and solid line and dotted line link together).

Formed like this two parallel helicla flutes, according to different requirements, the point of selection can be a plurality of, as B3, B4, B5 ... BN etc., wherein selected point is more, and the corresponding reticulate pattern spacing forming is also closeer.

As shown in Fig. 2, Fig. 7, Fig. 2 is that part of the present invention carries out the schematic diagram after car hatching knurling; Fig. 7 is that the present invention carries out fare shape spiral fluted schematic diagram at part A1, A2, B1, B2 point place to part.After processing by the mode of Fig. 4 to Fig. 6, at piece surface, can correspondingly form and the reticulate pattern shown in Fig. 7, and different according to the quantity of the upper point of part reticulate pattern region first end (front end) and the second end (rear end), can form intensive reticulate pattern as shown in Figure 2.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any modifications of doing within the spirit and principles in the present invention, be equal to and replace and improvement etc., within all should being included in protection scope of the present invention.

Claims (3)

1. a numerical control lathe wheeled litter reticulate pattern flower process, is characterized in that, comprising:

On part, need the region first end of car reticulate pattern flower at least to choose a some A1, at the second end, at least choose a some B1;

Part is fixedly mounted on lathe, and A1 point correspondence on part first end is contacted with lathe tool, control part and rotate according to speed V1 around part axle center, and advance according to speed V2 along part axle center;

Lathe tool A1 point from part runs to B1 point along piece surface, at piece surface car, goes out the linear helicla flute A1 ' of A1;

Adjust lathe tool, it is contacted with the B1 point of part the second end, control part and rotate according to speed V1 around part axle center, and retreat according to speed V2 along part axle center;

Lathe tool B1 point from part runs to A1 point along piece surface, at piece surface car, goes out the linear helicla flute B1 ' of B1;

Described linear helicla flute A1 ' and linear helicla flute B1 ' formation reticulate pattern.

2. numerical control lathe wheeled litter reticulate pattern flower process according to claim 1, is characterized in that, comprising:

On part, need the region first end of car reticulate pattern flower to choose A1 point and A2 point, the second end is chosen B1 point and B2 point;

Part is fixedly mounted on lathe, and A1 point on part first end is contacted with lathe tool with A2 point is corresponding successively, control part and rotate according to speed V1 around part axle center, and advance according to speed V2 along part axle center, at piece surface car, go out the linear helicla flute A1 ' of A1 and the linear helicla flute A2 ' of A2;

Adjust lathe tool, it is contacted with B2 point with the B1 point of part the second end successively, control part and rotate according to speed V1 around part axle center, and retreat according to speed V2 along part axle center, at piece surface car, go out the linear helicla flute B1 ' of B1 and the linear helicla flute B2 ' of B2;

Described linear helicla flute A1 ', A2 ' and linear helicla flute B1 ', B2 ' formation reticulate pattern.

3. numerical control lathe wheeled litter reticulate pattern flower process according to claim 2, is characterized in that, comprising: described A1 point and A2 point are positioned on the circumference of the same radial section of part; Described B1 point and B2 point are positioned on the circumference of the same radial section of part, and described A1 point and B1 point be positioned on the axial straight line of Same Part, and A2 point and B2 point are positioned on the axial straight line of Same Part.

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