Cnc machining nm09/2
Contour machining using circular interpolation
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- Navigate this page:
- 4.17.2 Circular interpolation
- 4.17.3 Direction of rotation
- 4.17.5 Arc centre offsets
- 4.17.6 ‘I’ value statement
- 4.17.7 ‘J’ value statement
- 4.17.8 ‘K’ value statements
- 4.17.9 General rule for circular interpolation
- 4.18 Programming examples
- Exercise 6 — section 4 — circular interpolation programming
- Exercise 7 — section 4 — circular interpolation programming
4.17 Contour machining using circular interpolationCircles and curves can be produced on both the lather and on a Machining Centre by one of two methods, point to point programming or by circular interpolation. 4.17.1 Point to point contoursThis system of programming curves and contours is very much a thing ofthe past and would be used in the case where a machine was not fitted with a control capable of circular interpolation. When using the point to point method the curve is redefined as a series of straight lines within a calculated zone of tolerance. Refer to figure 4.23. 
Figure 4.23 Curve high limit 4.17.2 Circular interpolationMost modem machines (CNC) have a circular interpolation function which will produce a curve or circle in one motion and to a much higher accuracy than the point to point system. With the exception of a fewer minor points, the calculations for circular interpolation for CNC Machining Centres are the same for CNC lathes. Circular interpolation has three basic considerations.
A typical command for circular interpolation G03 X40 Y30 I -20 J 0 
Figure 4.24 4.17.3 Direction of rotationOn CNC lathes and machine centres the commands used to call up circular interpolation are the same. G02 Calls up circular interpolation in a clockwise direction. G03 Calls up circular interpolation in an anti-clockwise direction.
4.17.4 The end pointThe second of the three commands must inform the control exactly where the contour being programmed will end. This normally requires a calculation accuracy of two decimal places. Another important consideration is that the end point is an ‘X’, ‘Y’ or ‘Z’ axis co-ordinate defined as an absolute dimension. Using the mill sample above you will see that the end point follows the circular interpolation command, ego G03 X40. Y30. 4.17.5 Arc centre offsetsPut simply, an arc centre offset tells the control the point at which the centre ofthe arc is in relation to the start point of the curve. This distance is always expressed as an incremental dimension accurate to two decimal places. To identify an arc centre offset, the dimensions are prefixed with a letter code; ‘1’ values ‘J’ values and ‘K’ values, these can be positive (+) or negative (-). 4.17.6 ‘I’ value statementAn ‘1’ value statement is the incremental distance from the starting point to the centre ofthe arc measured parallel to the ‘X’ axis. 
Figure 4.26 Figure 4.27 4.17.7 ‘J’ value statementA ‘J’ value statement is the incremental distance from the starting point to the centre of the arc measures parallel to the ‘Y’ axis. 
Figure 4.28 Figure 4.29 4.17.8 ‘K’ value statementsIn the case of CNC lathes where the ‘X’ and ‘Z’ axes are the primary axes, a ‘K’ value statement is used to define the incremental distance from the starting point to the centre of the arc measures parallel to the ‘Z’ axis. 
Figure 4.30 Figure 4.31 4.17.9 General rule for circular interpolation
Figure 4.32 Lathe Figure 4.33 Mill 4.18 Programming examplesExample 1: When programming a full circle the end point will be at the same point as the start of the circle. For this reason you need only to define the direction of travel and the applicable arc centre offset.
Example 2: In this next example you will note that the end point is 84mm along the X axis therefore the value I will be + 42 mm.
In the case where the arc only forms part of an arc it is often necessary to apply some basic mathematical principles in order to calculate all the coordinates required to define the machining of the arc or curve. 
Figure 4.36 In the example above the Start Point and the arc centre offsets for the curve are lines AC and BC of the triangle ABC. Referring to triangle ABC in figure 4.37
The direction of rotation is in an anti-clockwise direction. The end point is X50 Z80 The arc centre offsets are 1-15 K-20 (measures from the start point) The correct command: G03 X50 Z80 I-15 K-20 Exercise 6 — section 4 — circular interpolation programming1. Write a tool path program for the job below. 
Circular interpolation
Exercise 7 — section 4 — circular interpolation programming2. Write a tool path program for the job below. 
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