CN107009184A - The digital-to-analogue localization method that a kind of part is repeatedly processed - Google Patents

Abstract

The invention belongs to field of machining, and in particular to the digital-to-analogue localization method that a kind of part is repeatedly processed, the multiple processing for the big heavy workpiece that is particularly suitable for use in.Many digital products due to process is various or reprocesses etc. reason needs again clamping process, this is accomplished by determining that machining benchmark during multiple clamping is determined, and the multiple clamping machining benchmark that conventional method is determined can cause larger error, influence machining accuracy and product quality.Instant invention overcomes determining that machining benchmark is wasted time and energy during part multiple clamping, but also it cannot be guaranteed that the problem of its machining accuracy, the method provides for workpiece multiple clamping a kind of new can quick and precisely determine the process and thinking of machining benchmark.

Description

The digital-to-analogue localization method that a kind of part is repeatedly processed

Technical field

The invention belongs to field of machining, and in particular to the digital-to-analogue localization method that a kind of part is repeatedly processed, Be particularly suitable for use in the multiple processing of big heavy workpiece.

Technical background

Many digital products due to process is various or reprocesses etc. reason needs again clamping process, this is just needed Determine that machining benchmark during multiple clamping is determined, and the multiple clamping machining benchmark that conventional method is determined can be made Into larger error, influence machining accuracy and product quality.

The content of the invention

The purpose of the present invention is：Determine that machining benchmark is wasted time and energy when overcoming part multiple clamping, but also It cannot be guaranteed that the problem of its machining accuracy, it is quickly accurate that the method provides a kind of new energy for workpiece multiple clamping Determine the process and thinking of machining benchmark.

In order to solve the above-mentioned technical problem, present invention employs following technical scheme：

The digital-to-analogue localization method that a kind of part is repeatedly processed, comprises the following steps：

Step 1, determine benchmark angle α

The random clamping of part is fixed on the work top of lathe before processing, two detection holes thereon are measured Coordinate, straight line is determined by the center of the two detection holes, draws this straight line and lathe reference coordinate axle Benchmark angle α；

Step 2, digital-to-analogue Coordinate Conversion

By adjusting the reference coordinate of digital-to-analogue in digital-to-analogue, make itself and the straight line that is determined by two detection hole centers Angle is α, so as to ensure that digital-to-analogue is consistent with the coordinate of part.

The beneficial effects of the invention are as follows：Compared with existing processing method, after workpiece is placed on CNC milling machine, It need not make any adjustments, use manpower and material resources sparingly, also can preferably ensure machining accuracy.It is large-scale for part Workpiece exceeds device travel, and only needs the workpiece of partial operation, it is not necessary to change larger equipment, solves Determined equipment component scarce capacity the problem of.

Brief description of the drawings

Fig. 1 is the part installation diagram of the present invention；

Fig. 2 is the digital-to-analogue positioning schematic diagram of the present invention.

1 it is platen face, 2 parts, 3 is detection hole

Embodiment

As shown in figure 1, arbitrarily clamping fixes workpiece on platen face 1, then surveyed by operator Go out two coordinates of detection hole 3, then can determine that straight line by two centers of detection hole 3, pass through slope calculations Or mapping can draw this line and machine coordinates axle angle α.As shown in Fig. 2 L1 is two in the digital-to-analogue of part 2 The line at detection hole center, L2 is, into the straight line of α angles, to assign L2 as a machining coordinate axle with L1 , so ensure that the uniformity of machining coordinate axle and machine coordinates axle.

Claims (1)

1. the digital-to-analogue localization method that a kind of part is repeatedly processed, it is characterised in that comprise the following steps：

Step 1, determine benchmark angle α

By part (2), arbitrarily clamping is fixed on the work top of lathe (1) before processing, measures thereon two The coordinate of individual detection hole (3), determines straight line by the center of the two detection holes (3), show that this is straight Line and the benchmark angle α of lathe reference coordinate axle；

Step 2, digital-to-analogue Coordinate Conversion

By adjusting the reference coordinate of digital-to-analogue in digital-to-analogue, make it with being determined by two detection hole (3) centers Included angle of straight line is α, so as to ensure that digital-to-analogue is consistent with the coordinate of part (2).