KR920007659Y1 - Lathe - Google Patents

Abstract

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Description

Polygon generating device of shelf

Figure 1 is an excerpt of the main part showing the configuration of the present invention.

Figure 2 is a side cross-sectional view showing a rocking state of the present invention.

Figure 3 illustrates the process of creating the hexagon of the present invention, (a) is a state in which the cutting is started, (b) is a state cut to the center line, (c) is a state in which the cutting is finished.

Figure 4 is a detailed view showing the process of creating a surface on the circular workpiece by the present invention.

* Explanation of symbols for main parts of the drawings

1: Spindle 2: Speed selection gear

3: driven shaft 4: spline shaft

5: universal joint 6: improvement tool construction

7: Idle Gear 8: Tool Stand

9: swing cylinder 10: feed cylinder

The present invention relates to a polygon generating device for lathes that creates polygons (hexagon head bolts, octagonal axes) by turning them into a turning lathe that can be turned only. It is possible to process at high speeds when not only reducing machining time but also to increase productivity and reduce costs.

In the conventional shelf, only the angles are used, so when you want to mass-produce hexagonal nuts, which are generally required for both polygonal and turning operations, finish the turning on the lathe and then machine the hexagonal surface on a milling or other machine. In the milling or other surface-machining machine, hex face must be machined first and then chamfered on the lathe. Increasing cost was a reality.

The present invention is to enable polygonal creativity in the shelf in view of the conventional defects as described above will be described in detail based on the accompanying drawings as follows.

In constructing the lathe, the spline shaft 4 is coupled with the universal joint 5 to the driven shaft 3 meshed with the main shaft 1 and the speed selector gear 2 and meshed with the rotary tool shaft 6. The idle gear 7 is interlocked with the spline shaft 4 and the tool post 8 is transferred to the swing cylinder 9 and the feed cylinder 10. Reference numeral 7 'denotes an idle gear 7 ) Is the spline keyway, and 13 is the pivot axis of the tool rest (8).

Referring to the operation and effect of the present invention configured as described above, the workpiece 11 is set on the chuck 14 of the main shaft 1 as shown in FIG. After moving the tool post 8 to the position where the workpiece 11 can be machined by using the cylinder 10, and rotating the spindle 1, the speed selection gear 2 and the idle gear 7 allow the workpiece ( 11) the speed ratio of the main shaft (1) is set to the rotary tool shaft (6) with the tool 12 is adjusted so that the tool 12 is rotated and the workpiece (11) is set on the chuck (14) to rotate Machining along the tangent line

At this time, as shown in (a) of FIG. 3, when the machined surface 11 'extension line of the hexagonal workpiece 11 is equal to + θ angle, the machining edge 12' of the tool 12 is processed by the workpiece 11. When the surface 11 'starts to be processed and the cutting edge 12' is rotated to the center line as shown in (b) of FIG. 3, the angle of the extension line 11 'of the workpiece 11 is 0 degrees in the vertical state. If the machining edge 12 'is rotated to the end point of machining as shown in (c) of FIG. 3, the vertical angle of the extension surface of the machining surface 11' becomes -θ, so that the tool edge of the rotating tool 12 12 ') The plane can be machined with two rotors if the machining surface 11' of the workpiece 11 that rotates in the rotation radius circumference is contacted and rotated within a certain angle range of + and-based on the horizontal center line. It is.

That is, one of the tool blades 12 'of the tool 12 rotates to contact the workpiece 11 as shown in FIG. 3 (a). In this case, the tool blade 12' becomes the A position of FIG. First contact with (11).

At this time, when moving to the B position rotated 2 ° toward the upper side of the tool blade 12 ', the tool 12 and the workpiece 11 having a rotation ratio of 2: 1 is rotated 1 ° to the lower side, so the tool blade 12 The position of the workpiece 11 where ') was connected at the A position is rotated by 1 ° downward.

Therefore, when A, B, C, D, E, F, and G are divided by 2 °, the tool blade 12 'rotates 12 °. State and the workpiece 11 is in a state of 6 ° rotation, as well as the position of the workpiece 11 in contact with the position A of the tool blade 12 'is rotated 6 ° downward and the position B The position of the workpiece 11 connected at 5 °, the position of the workpiece 11 contacted at the C position is 4 °, the position of the workpiece 11 contacted at the D position is 3 °, the workpiece contacted at the E position ( The position of 11) is 2 °, the position of the workpiece 11 contacted above F is 1 ° and the G position is the contact surface at present, so in this state, the tool blade 12 'first contacts the workpiece 11 at each position. Since the line connecting one point becomes the machining surface 11 'of the workpiece 11, when the tool 12 and the workpiece 11 are rotated at a rotation ratio of 2: 1, the plane workpiece is rotated while the circular workpiece 11 is rotated. If 11 'is that you can get.

In addition, in FIG. 4, when the tool blade 12 'reaches the D position, the workpiece 11 rotates to the same position as in FIG. 3B, and when the tool blade 12' reaches the G position, the workpiece ( 11) rotates to a position as shown in (c) of FIG.

On the other hand, when the tool 12 having three tool blades 12 'at a 120 ° angle is used, the workpiece 11 is 60 by rotating 120 ° of one tool blade 12' at a rotation ratio of 2: 1. Since it rotates °, three tool blades 12 ′ can process the workpiece 11 in a circular shape by rotating it once in two rotations while processing the workpiece 11 by 60 °.

As described above, the present invention is to facilitate the work by creating a polygon by turning on the lathe only turning, and the polygon creation time is shortened, thereby reducing the production cost and improving the productivity.

Claims (2)

In constructing the lathe, the spline shaft 4 is coupled with the universal joint 5 to the driven shaft 3 meshed with the main shaft 1 and the speed selector gear 2 and meshed with the rotary tool shaft 6. And a child idler gear (7) to the spline shaft (4) to interlock and drive the tool post (8) to the swing cylinder (9) and the feed cylinder (10). The rotational ratio of the tool 12 and the workpiece 11 by the speed selector 2 is 2: 1 in the same direction, and the number of the tool edges 12 'is 1/1 of the polygonal surface number. Shelf polygon generating device, characterized in that the two.