CN1533859A - Method of laser synchronous processing based on robot system - Google Patents

Abstract

A synchronous laser processing method based on robot system is disclosed. After the laser head is positioned to start point by the robot controlled by industrial control computer according to the data about processed tracing, a signal is fed back to said computer to turn on said laser head. A photoelectric detector on the laser head sends an instruction to robot for controlling its movement. According to predefined width and frequency of laser pulses and the speed of robot, the laser head and the robot are synchronized.

Description

A kind of method of the laser synchronous processing based on robot system

Technical field

The present invention relates to flexible transmission and multi-shaft interlocked laser processing, particularly a kind of method of the laser synchronous processing based on robot system.

Background technology

Robot and laser instrument overlap autonomous devices as two in having flexible transmission and multi-shaft interlocked laser processing device, as Chinese Academy of Sciences's mechanics the patent No. be 98101217.5 described a kind of flexible transmission and multi-shaft interlocked laser processing devices, inconsistent in the process owing to two equipment clocks, the robot system execution command has a response time, and the restriction on the laser instrument degree of opening, be difficult to realize the co-ordination of robot and laser instrument.Be by using oscillograph to observe the motion state of laser instrument and robot at present, and the machined parameters of setting laser device and robot respectively based on this, to realize the synchronous of laser instrument and robot, but, make that not only efficient is very low in actual applications in this way, and, on precision, can not satisfy the needs of processing.

For example, patent No. US4673795, exercise question has been described a kind of system that will combine with picture system based on the Materialbearbeitung mit Laserlicht of robot system for the United States Patent (USP) of " INTEGRATED ROBOTIC LASER MATERIALPROCESSING AND IMAGING SYSTEM ", it adopts vision system and the reception of slit tracking system combining image and treatment facility to control the motion and the laser parameter of robot arm. and its optical fiber has the function of transmitting high energy laser and image, this system can realize the correctness of the track of robot arm, but can not guarantee robot and laser instrument on the clock synchronously, though can be used for soldering, can not satisfy the requirement of laser synchronous processing with flexible transmission and multi-shaft interlocked laser processing device; Patent No. US5698121, exercise question is cut the equipment of cutting for the United States Patent (USP) of " THREE-DIMENSIONAL LASER BEAN MACHINING APPARATUS USING YAGCUTTING TOOL " has designed a three-dimensional YAG laser, this equipment will be cut at the figure tabular form of YAG cutting machine by a multitask function and cut order and be transformed into an internal processes at this order, the YAG of installation and robot arm end cuts the control that the instrument of cutting is subjected to two dimension, when YAG cuts when axle that the instrument of cutting moves through cylindrical parts, robot is compensated in the axial position of z-, make the distance of laser head and periphery keep normal value, this equipment and the method for synchronization thereof only are suitable for three-dimensional layering processing mode; Patent No. US6509576B2, exercise question is a kind of method of utilizing laser measuring equipment that the robot location is compensated for the United States Patent (USP) of " METHOD TOR COMPENDATING POSITION OF ROBOTUSING LASER MEASURING INSTRUMENT ", this method is coordinated laser instrument by teach mode and is finished attitude compensation work to the robot mechanical system, does not relate to the real-time problem of robot motion with the laser instrument bright dipping.

Summary of the invention

The objective of the invention is to: overcome robot and laser instrument difficult coordination that above-mentioned existing laser processing exists in process, and the defective of poor efficiency, low precision, thereby a kind of method of the laser synchronous processing based on robot system is provided.

The present invention seeks to realize like this: the method for a kind of laser synchronous processing based on robot system of the present invention, after this method method places the starting point of processing according to the machining locus Data Control robot in the industrial computer with laser Machining head, the ROBOT CONTROL cabinet will put signal feedback in place to industrial computer, and by industrial computer startup laser instrument, behind the laser instrument output light again by being installed on the photoelectric detector on the laser instrument processing head, and send communication instruction to the ROBOT CONTROL cabinet, the motion of control robot, pulse width according to the laser instrument of setting, the movement velocity of pulse output light frequency and robot, by industrial computer realize robot with between the laser instrument synchronously.

This method may further comprise the steps:

(1) industrial computer sends control instruction according to the machining locus data of input to robot, and laser Machining head is placed the top of processing starting point, and simultaneously, the ROBOT CONTROL cabinet pulse signal that will put in place feeds back to industrial computer;

(2) after industrial computer captured this pulse signal that puts in place, the exciter that starts laser instrument entered normal operating conditions;

(3) after the photoelectric detector on the laser instrument captures laser and converts photosignal to, send communication instruction to the ROBOT CONTROL cabinet, the control robot carries out the movement instruction in the buffering area, the instruction laser Machining head arrives the starting point of processing, be issued to the digit pulse signal feedback by the robot switch board after laser Machining head puts in place and give industrial computer, industrial computer is opened the laser instrument optical gate after capturing this pulse signal that puts in place;

(4) when adopting continuous processing mode, the continuous bright dipping of laser instrument, industrial computer sends the continuous motion instruction, the control robot makes continuous motion processing stand to the last, after laser Machining head arrives last processing stand, be issued to the digit pulse signal and give industrial computer, when industrial computer captures this when putting pulse signal in place, close optical gate;

(5) when adopting point-to-point discontinuous processing mode, industrial computer at first remains static by communication instruction control robot, when laser instrument is finished a pulse bright dipping, after photoelectric detector on the laser instrument captures the pulse bright dipping and converts photosignal to, send communication instruction to the ROBOT CONTROL cabinet, the control robot carries out the movement instruction in the buffering area, and the instruction laser Machining head arrives next processing stand when laser instrument sends the next pulse bright dipping;

Simultaneously, the robot switch board sends to industrial computer with each signal that puts in place, and when this signal that puts in place is putting in place during signal of last processing stand, industrial computer is closed optical gate;

(6) close exciter.

Advantage of the present invention: the method for a kind of laser synchronous processing based on robot system of the present invention, by industrial computer according to the machining locus data, pulse width, the pulse of the laser instrument of setting goes out light frequency and the movement velocity of the robot that determines thus, realized robot system in the laser processing procedure with Optical Maser System synchronously, make this system have good stable, to being swift in response and correctly of accidents such as fault; The work of integrated laser-processing system has not only been controlled in this invention effectively, synchronous precision height, and, can realize multiple Laser Processing.

Description of drawings

Fig. 1 the present invention is based in the method for laser synchronous processing of robot system the schematic flow sheet of processing at interval

Fig. 2 is the structural representation that the present invention is based on the laser synchronous processing system of robot system

Fig. 3 is the surface topography that mould is carried out laser treatment with the present invention interval processing method

Accompanying drawing indicates:

1, laser instrument 2, industrial computer 3, multi-shaft interlocked frame-type robot

4, laser Machining head 5, photoelectric detector

The specific embodiment

Embodiment 1

The laser synchronous processing device that present embodiment adopted based on robot system be Chinese Academy of Sciences's mechanics the patent No. be 98101217.5 a kind ofly have flexible transmission and a multi-shaft interlocked laser processing device, as shown in Figure 2, laser Machining head 4 is fixedlyed connected with frame-type robot 3 arms, link to each other with optical fiber between the output of laser instrument 1 and the laser Machining head 4, the input of laser instrument 1 is connected with industrial computer 2 by fieldbus, photoelectric detector 5 is installed on the laser instrument processing head 4, the switch board of multi-shaft interlocked frame-type robot 3 also is connected with industrial computer 2 by serial ports, this example adopts 500W YAG pulse laser (peak power can reach 7KW) to carry out laser boring on the steel plate of thickness 2mm, the parameter of laser instrument 1: pulse recurrence rate 30HZ, pulsewidth 1.5ms, energy is 3J, multi-shaft interlocked frame-type robot 3 is a high accuracy, five robots on a large scale, size 4k when the robot buffering area is half-full.

In process, multi-shaft interlocked frame-type robot 3 and laser instrument 1 are by serial ports control, and connection speed is 9600 bauds, as a supplement, in system, leave I/O control, directly return by the I/O circuit for the demanding information of real-time (as the signal etc. that puts in place of robot).

In this example, multi-shaft interlocked frame-type robot 3 adopts the continuous motion modes to process, and concrete steps comprise:

1, industrial computer 2 sends robot motion's command M OVJPTP, passes to the buffer area in the switch board of robot 3 by serial ports, and robot carries out this movement instruction, with the distal point of laser Machining head 4 arrive to be processed above the 50cm place;

2, the robot switch board is issued to the digit pulse signal, and after industrial computer 2 was caught this pulse signal that puts in place that the robot switch board sends, the exciter that starts laser instrument 1 entered normal operating conditions;

3, after the photoelectric detector 5 on the laser instrument 1 captures laser and converts photosignal to, send the switch board of communication instruction to robot 3, buffer area in the switch board of instruction robot 3 sends the starting point that movement instruction places laser Machining head 4 processing, industrial computer 2 is opened laser instrument 1 optical gate after capturing the pulse signal that puts in place of robot 3 switch boards feedback;

4, laser instrument 1 continuous bright dipping, industrial computer 2 are sent continuous motion instruction instruction robot 3 and are in the continuous motion state, when industrial computer 2 captures putting in place during signal of last processing stand, close optical gate;

5, close exciter.

Embodiment 2

The laser synchronous processing device that present embodiment adopted based on robot system be Chinese Academy of Sciences's mechanics the patent No. be 98101217.5 a kind ofly have flexible transmission and a multi-shaft interlocked laser processing device, as shown in Figure 2, laser Machining head 4 is fixedlyed connected with frame-type robot 3 arms, link to each other with optical fiber between the output of laser instrument 1 and the laser Machining head 4, the input of laser instrument 1 is connected with industrial computer 2 by fieldbus, the switch board of frame-type robot 3 also is connected with industrial computer 2 by serial ports, adopt 2000W YAG pulse laser that mould is carried out surface peening in this example, laser parameter: pulsewidth 80ms, pulse recurrence rate 2Hz, power 2000W; Frame-type robot 3 is high accuracy, five robots on a large scale, size 60k when the robot buffering area is half-full.

In process, robot and laser instrument are controlled by serial ports, and connection speed is 9600 bauds, as a supplement, leave I/O control in system, directly return by the I/O circuit for the demanding information of real-time (as the signal etc. that puts in place of robot).In this example, robot adopts point-to-point non-continuous movement mode to process, as shown in Figure 1,

Concrete steps comprise:

1, industrial computer 2 sends robot motion's command M OVJPTP, passes to buffer area in robot 3 switch boards by serial ports, and robot carries out movement instruction, the distal point of laser Machining head 4 arrive to be processed above the 50cm place;

2, the robot switch board is issued to the digit pulse signal, and after industrial computer 2 was caught this pulse signal that puts in place that the robot switch board sends, the exciter that starts laser instrument 1 entered normal operating conditions;

3, by movement instruction laser Machining head 4 is placed the starting point of processing, the robot switch board is issued to the digit pulse signal feedback to industrial computer 2, after industrial computer 2 captures the pulse signal that puts in place, opens the laser instrument optical gate;

4, laser instrument is whenever finished a pulse bright dipping on the processing style, promptly send communication instruction to the robot switch board behind the above-mentioned photosignal that captures by optoelectronic device 5, the control robot carries out the movement instruction in the buffering area, and the instruction robot is to next processing stand.

When capturing the putting in place during signal of last processing stand, close optical gate.

5, close exciter.

When by serial ports robot instruction's data being imported in the buffering area of robot switch board, because buffer size is restricted, before sending instruction, judge whether buffering area is in half-full state, if be in half-full state, industrial computer suspends the transmission director data, otherwise sends one group of director data continuously.After laser instrument was finished a pulse bright dipping, light action was on the processing style, and the movement velocity of robot is 6mm/s, forms to be of a size of 3.0 * 3.0mm ²Hot spot, the laser reinforcing effect as shown in Figure 3.

Claims (2)

1, a kind of method of the laser synchronous processing based on robot system, after this method places the starting point of processing according to the machining locus Data Control robot in the industrial computer with laser Machining head, the ROBOT CONTROL cabinet will put signal feedback in place to industrial computer, and by industrial computer startup laser instrument, behind the laser instrument output light again by being installed on the photoelectric detector on the laser instrument processing head, and send communication instruction to the ROBOT CONTROL cabinet, the motion of control robot, pulse width according to the laser instrument of setting, the movement velocity of pulse output light frequency and robot, by industrial computer realize robot with between the laser instrument synchronously.

2, by the method for the described laser synchronous processing based on robot system of claim 1, it is characterized in that, may further comprise the steps:

(1) industrial computer sends control instruction according to the machining locus data of input to robot, and laser Machining head is placed the top of processing starting point, and simultaneously, the ROBOT CONTROL cabinet pulse signal that will put in place feeds back to industrial computer;

(2) after industrial computer captures this pulse signal that puts in place, start the laser instrument exciter and enter normal operating conditions;

(3) after the photoelectric detector on the laser instrument captures laser and converts photosignal to, send communication instruction to the ROBOT CONTROL cabinet, the control robot carries out the movement instruction in the buffering area, the instruction laser Machining head arrives the starting point of processing, be issued to the digit pulse signal feedback by the robot switch board after laser Machining head puts in place and give industrial computer, industrial computer is opened the laser instrument optical gate after capturing this pulse signal that puts in place;

(4) when adopting continuous processing mode, the continuous bright dipping of laser instrument, industrial computer sends the continuous motion instruction, the control robot makes continuous motion processing stand to the last, after laser Machining head arrives last processing stand, be issued to the digit pulse signal and give industrial computer, close optical gate when this puts pulse signal in place when industrial computer captures;

(5) when adopting point-to-point discontinuous processing mode, industrial computer at first remains static by communication instruction control robot, when laser instrument is finished a pulse bright dipping, after photoelectric detector on the laser instrument captures the pulse bright dipping and converts photosignal to, send communication instruction to the ROBOT CONTROL cabinet, the control robot carries out the movement instruction in the buffering area, and the instruction laser Machining head arrives next processing stand when laser instrument sends the next pulse bright dipping;

Simultaneously, the robot switch board sends to industrial computer with each signal that puts in place, and when this signal that puts in place is putting in place during signal of last processing stand, industrial computer is closed optical gate;

(6) close exciter.

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