CN207077080U - Weld Seam Tracking Control device based on cross laser - Google Patents
Weld Seam Tracking Control device based on cross laser Download PDFInfo
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- CN207077080U CN207077080U CN201721046717.5U CN201721046717U CN207077080U CN 207077080 U CN207077080 U CN 207077080U CN 201721046717 U CN201721046717 U CN 201721046717U CN 207077080 U CN207077080 U CN 207077080U
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Abstract
It the utility model is related to the Weld Seam Tracking Control device based on cross laser, it is characterised in that the device includes four-degree-of-freedom robot, vision sensor and Integral control cabinet;The four-degree-of-freedom robot includes workbench, mobile module, y-axis stepper motor, support and welding gun;The y-axis stepper motor is fixed on the Z axis slide unit of Z-direction movement module, and the rotating shaft of y-axis stepper motor is parallel with the direction of motion of Y direction movement module;The support is used to fix vision sensor and welding gun;The vision sensor includes video camera and cross laser;The cross laser rays that the cross laser is sent is radiated on workpiece to be welded and shot by the video camera.Cross laser application in weld seam recognition tracking, can be significantly reduced the random error of detection by the control device;The device uses four-degree-of-freedom robot simultaneously, can change angle of welding gun by y-axis stepper motor, can significantly improve welding effect.
Description
Technical field
The utility model belongs to auxiliary welding equipment technical field, more particularly to a kind of weld seam based on cross laser
Follow-up control apparatus and control method, the control device and control method are based on cross laser and carry out vision knowledge to angle welding
Not and four-degree-of-freedom robot can be realized to weld seam adaptive tracing.
Background technology
With Present S & T Development, manufacture field proposes higher requirement to the work quality and operating efficiency of welding.
Angle welding appears widely in the key areas such as ship, automobile, building and space flight and aviation as a kind of typical welding type.
And there is larger gap, the particularly control accuracy in four-degree-of-freedom robot in four-degree-of-freedom robot of China with foreign technology
Aspect also needs to further improve.
Currently available technology, the working method of four-degree-of-freedom robot mainly include:1st, by manually entering to welding process
Row teaching, machine reproduce the welding of welding process;2nd, automatic welding is carried out by machine contact measurement position while welding;3 by regarding
Feel the automatic welding of detection weld joint tracking.There is the intervention of people in the mode of artificial teaching, produce human error, and can not eliminate
The random error of angle welding in the vertical direction and the horizontal direction;, machine be present in the automatic soldering method of machine contact measurement weld seam
The characteristics of tool is complicated, accuracy of detection is low, percent defective is high.
Publication No. is that CN105728972A Chinese patent discloses a kind of concave-convex change angle welding adaptive Gaussian filtering dress
Put and its control method, this method are the methods of the vision-based detection weld joint tracking based on yi word pattern laser, the device uses one
Font laser and Three Degree Of Freedom robot carry out detect and track to angle welding, have the following disadvantages:1st, in welding process
It is only capable of detecting the relative space position of angle welding, it is impossible to detect the angle in two faces of weldment;2nd, weldering is worked as
Seam direction and weldment plane included angle can not adjust angle of welding gun when changing, it is impossible to keep welding gun and weld seam angle vertical, and then lead
Welding quality is caused to decline;3rd, yi word pattern laser can only produce a weld seam detection point, only to weld seam when being advanced every time along weld seam
One-time detection is carried out, dynamic detection weld seam has random error in welding process;4th, the device can not be to angle welding starting point
Positioned, it is necessary to carry out single pass positioning to weld seam and reset to start to weld weld seam, welding every time needs
Time length.
Utility model content
In view of the shortcomings of the prior art, the technical problem that the utility model intends to solve is:There is provided a kind of based on cross sharp
The Weld Seam Tracking Control device and control method of light device.The control method is used to carry out vision measurement to angle welding, is accurately obtaining
On the basis of obtaining weld seam three dimensional local information (X, Y, Z three-dimensional coordinate), weldment plane rake angle and bead direction, welding gun is realized
For the high-accuracy self-adaptation tracing control of weld seam.The control device by cross laser application in weld seam recognition tracking in,
Equivalent to two yi word pattern lasers of one cross laser device, in the detection, cross laser is to weld seam equivalent to progress
Twice sweep detects, and can significantly reduce the random error of detection, and when the laser of cross laser device is radiated at different inclination angle
When on two faces of angle welding, caused laser stripe slope can be changed, and the Space Angle of angle welding can be calculated by slope
Degree;The device uses four-degree-of-freedom robot simultaneously, increases y-axis stepper motor, can change welding gun angle by y-axis stepper motor
Degree, makes welding gun to significantly improve welding effect perpendicular to bead direction.
The technical scheme that the utility model solution described device technical problem uses is to provide one kind and is based on cross laser
The Weld Seam Tracking Control device of device, it is characterised in that the device includes four-degree-of-freedom robot, vision sensor and integral type control
Cabinet processed;
The four-degree-of-freedom robot includes workbench, mobile module, y-axis stepper motor, support and welding gun;The shifting
Dynamic model group is three and moved linearly module by the ball screw type of AC servo machinery driving, including X-direction movement module, Y
Direction of principal axis moves module and Z-direction movement module;The Y direction movement module is fixed on the X-axis of X-direction movement module
On slide unit, and vertical with X-direction movement module, the plane that Y direction movement module and X-direction movement module is formed with
Workbench is parallel;The Z-direction movement module is fixed on the Y-axis slide unit of Y direction movement module, and and workbench
Method direction it is parallel;The y-axis stepper motor is fixed on the Z axis slide unit of Z-direction movement module, and y-axis stepper motor
Rotating shaft is parallel with the direction of motion of Y direction movement module;The support is used to fix vision sensor and welding gun, and support is fixed
In the rotating shaft of y-axis stepper motor, support includes level frame and vertical stand, and the rotating shaft of vertical stand bottom and y-axis stepper motor is hung down
Straight fixed, level frame and welding gun are fixed in vertical stand top, and vision sensor is fixed on level frame;There is pendulum above the workbench
Put the mark and fastener of workpiece reference position to be welded;
The vision sensor includes video camera and cross laser;The cross laser is sent cross sharp
Light is radiated on workpiece to be welded and shot by the video camera;
The Integral control cabinet includes PLC, motor servo driver, industrial control computer and touch-screen;The PLC
By sending high-speed pulse signal to four motor servo drivers, to control respectively, X-direction moves module, Y direction moves
Module, Z-direction movement module and y-axis stepper motor;The PLC using RS232 communication modules by HOSTLINK agreements with
Touch-screen is communicated;The PLC is led to using RS232 communication modules by MODBUS agreements and industrial control computer
Letter;The industrial control computer is connected with the video camera of vision sensor.
The utility model solves the technical scheme that the control method technical problem uses and is to provide one kind based on cross
The Weld Seam Tracking Control method of laser, this method use above-mentioned control device, comprised the following steps:
1) X is used as using the direction of motion of X-direction movement module, Y direction movement module, Z-direction movement moduleT、
YT、ZTAxle, the point chosen on reference position establish tool coordinates system T for origin;Using at the optical axis center of video camera as origin, with
The optical axis of video camera is ZC, with camera review horizontally and vertically for XC、YCAxle establishes image coordinate system C;Workpiece to be welded is consolidated
It is scheduled on the reference position of workbench, according to the preset value of reference position setting guide's distance and welding gun in tool coordinates system T
The preset value of lower origin coordinates;
2) cross laser is sent into cross laser line to be irradiated on workpiece to be welded, camera acquisition cross laser line shines
The image being mapped on workpiece to be welded, the image of camera acquisition is sent to industrial control computer in real time, Industry Control calculates
Machine is handled the image received, obtains coordinate value and to be welded workpiece facade of the weld bead feature points under tool coordinates system T
With YTAngle of the axle under tool coordinates system T, by coordinate value of the weld bead feature points under tool coordinates system T and workpiece facade to be welded
With YTAngle of the axle under tool coordinates system T sends PLC to;
3) PLC receives coordinate value and to be welded workpiece facade and Y of the weld bead feature points under tool coordinates system TTAxle is in work
Has the angle under coordinate system T, by controlling X-direction to move module, Y direction moves module, Z-direction moves module and Y
Shaft step motor operates four-degree-of-freedom robot motion, is sequentially completed data sampling processing stage, welding gun is automatically positioned weld seam
Starting point, welding gun automatic tracking welding seam, angle of welding gun Self Adaptive Control, realize Weld Seam Tracking Control.
Compared with prior art, the beneficial effects of the utility model are:
It is provided by the utility model to provide a kind of Weld Seam Tracking Control device based on cross laser using based on ten
The vision sensor of font laser carries out the detection of diagonal welding seam position information, and by controlling four-degree-of-freedom robot real
Show weld seam welding starting point to be automatically positioned, the function of weld joint tracking and angle of welding gun control.Specifically include it is following some:
(1) the utility model devises vision sensor and its detection method based on cross laser, to weld seam
Position is positioned, by asking the position of two lasing areas and weld seam intersection point to calculate the locus of weld seam, equivalent to two one
Font laser, single detection have carried out twice sweep detection to weld seam, examined compared with the vision sensor of yi word pattern laser
The random error of survey reduces half, improves the accuracy of detection of diagonal welding seam position information.
(2) the utility model devises vision sensor and its detection method based on cross laser, treats welder
The facade and Y of partTThe angle of axle is detected, and laser is radiated at laser stripe slope meeting caused by the angle welding of variable angle
Change, by seeking laser stripe line slope, so as to calculate the facade of workpiece to be welded and YTThe angle of axle, add existing to fillet welding
The detection information amount of information is stitched, the diagonal bead direction of welding gun is adaptively adjusted, realizes the prominent of vision sensor function
It is broken.
(3) the utility model devises four-degree-of-freedom robot and its control method comprising y-axis stepper motor, increases Y
The rotary freedom of direction of principal axis, the facade and Y of the workpiece to be welded detected according to vision sensorTThe angle control welding gun of axle, makes
Welding gun is kept and weld seam Relative vertical, prevents from producing the situation that molten iron splashes, solder is uneven in welding process, improves and welding
Connect welding quality during deformation angle welding.
(4) the utility model devises the method that welding gun is automatically positioned weld seam starting point, allows the welding gun starting to weld
Weld seam starting point directly can be navigated to automatically before connecing and directly start to weld, be not required to carry out prescan to weld seam, will be automatic
The time of welding reduces half, realizes welding in real time, improves welding efficiency.
(5) the utility model realizes welding gun and is automatically positioned weld seam starting point, welding gun automatic tracking welding seam, angle of welding gun certainly
Suitable solution, the method for avoiding artificial teaching, the process that machine reproduces and mechanical contact measurement weld seam, improves automatic welding
The equipment and process connect, saves manpower and time, and improves operating efficiency.
Brief description of the drawings
Fig. 1 is a kind of structural frames of embodiment of Weld Seam Tracking Control device of the utility model based on cross laser
Figure;
Fig. 2 is a kind of mechanical three-dimensional of embodiment of Weld Seam Tracking Control device of the utility model based on cross laser
Figure;
Fig. 3 is a kind of peace of the support of embodiment of Weld Seam Tracking Control device of the utility model based on cross laser
Assembling structure schematic diagram;
Fig. 4 is a kind of visual sensing of embodiment of Weld Seam Tracking Control device of the utility model based on cross laser
The operating diagram of device;
Fig. 5 is a kind of camera of embodiment of Weld Seam Tracking Control device of the utility model based on cross laser
Laser stripe lines detection figure;
Fig. 6 is a kind of integral type control of Weld Seam Tracking Control device embodiment of the utility model based on cross laser
The device arrangements schematic diagram of cabinet processed;
In figure, 1, four-degree-of-freedom robot;2nd, vision sensor;3rd, Integral control cabinet;4th, workpiece to be welded;11st, work
Platform;12nd, mobile module;121st, X-direction movement module;122nd, Y direction movement module;123rd, Z-direction movement module;
13rd, y-axis stepper motor;14th, support;15th, welding gun;21st, video camera;22nd, cross laser;31、PLC;32nd, servomotor drives
Dynamic device;33rd, industrial control computer;34th, touch-screen.
Embodiment
The utility model is described in further details with reference to embodiment and its accompanying drawing.Embodiment is with this practicality
Implemented under premised on new technique scheme, give detailed embodiment and specific operating process, but the application weighs
The protection domain that profit requires is not limited to following embodiments.
The utility model provides a kind of Weld Seam Tracking Control device (abbreviation control device or dress based on cross laser
Put, referring to Fig. 1-3) include four-degree-of-freedom robot 1, vision sensor 2 and Integral control cabinet 3;
The four-degree-of-freedom robot 1 includes workbench 11, mobile module 12, y-axis stepper motor 13, support 14 and weldering
Rifle 15;The mobile module 12 is three and moved linearly module, including X-axis side by the ball screw type of AC servo machinery driving
To mobile module 121, Y direction movement module 122 and Z-direction movement module 123;The Y direction movement module 122 is solid
It is scheduled on the X-axis slide unit of X-direction movement module 121, and, Y direction movement module vertical with X-direction movement module 121
122 is parallel with workbench 11 with X-direction movement module 121 plane formed;The Z-direction movement module 123 is solid
It is scheduled on the Y-axis slide unit of Y direction movement module 122, and it is parallel with the method direction of workbench 11;The y-axis stepper motor
13 are fixed on the Z axis slide unit of Z-direction movement module 123, and the rotating shaft of y-axis stepper motor 13 and Y direction movement module
122 direction of motion is parallel;The support 14 is used to fix vision sensor 2 and welding gun 15, and support 14 is fixed on Y-axis stepping electricity
In the rotating shaft of machine 13, support includes level frame and vertical stand, and vertical stand bottom is vertical with the rotating shaft of y-axis stepper motor 13 to be fixed,
Level frame and welding gun are fixed in vertical stand top, and vision sensor 2 is fixed on level frame;
The workbench 11 be used for put workpiece 4 to be welded, its top have put the reference position of workpiece 4 to be welded mark and
Fastener;The mobile module 12 is used for the position for changing welding gun 15;The y-axis stepper motor 13 is used for the angle for adjusting welding gun 15
Degree, welding gun 15 and weld seam Relative vertical are kept, improve welding quality;The welding gun 15 is used to weld angle welding;
The vision sensor 2 includes video camera 21 and cross laser 22;What the cross laser 22 was sent
Cross laser rays is radiated on workpiece 4 to be welded and shot by the video camera 21;
The Integral control cabinet 3 includes PLC 31, motor servo driver 32, industrial control computer 33 and touch-screen
34;The PLC 31 to four motor servo drivers 32 by sending high-speed pulse signal to control X-direction to move respectively
Module 121, Y direction movement module 122, Z-direction movement module 123 and y-axis stepper motor 13;The PLC 31 is utilized
RS232 communication modules are communicated by HOST LINK agreements with touch-screen 34;The PLC 31 utilizes RS232 communication modules
Communicated by MODBUS agreements and industrial control computer 33;The industrial control computer 33 and vision sensor 2
Video camera 21 is connected;
The industrial control computer 33 is used for the calculating for carrying out image procossing;The PLC 31 is used for mobile module 12
It is controlled with y-axis stepper motor 13;The motor servo driver 32 is according to PLC 31 control signal to mobile module 12
It is driven with y-axis stepper motor 13;The touch-screen 34 operates for user to equipment.
The PLC 31 is model Omron CP1H PLC;The motor servo driver 32 is model pine
Lower A5 motor servo driver, for driving X-direction movement module 121, Y direction movement module 122, Z-direction to move
Dynamic model group 123 and y-axis stepper motor 13.
Weld Seam Tracking Control method of the utility model based on cross laser, this method are filled using above-mentioned control
Put, comprise the following steps:
1) tool coordinates system T and image coordinate system C are established, workpiece 4 to be welded is fixed on to the reference position of workbench 11
On;The preset value of preset value and welding gun 15 origin coordinates under tool coordinates system T of guide's distance is set according to reference position;
2) cross laser 22 is sent into cross laser line to be irradiated on workpiece 4 to be welded, video camera 21 gathers cross and swashed
Light is irradiated to the image on workpiece 4 to be welded, and the image that video camera 21 is gathered is sent to industrial control computer 33, work in real time
Industry control computer 33 is handled the image received, obtain coordinate value of the weld bead feature points under tool coordinates system T and
The facade of workpiece 4 and Y to be weldedTAngle of the axle under tool coordinates system T, by coordinate value of the weld bead feature points under tool coordinates system T
With the facade of workpiece 4 to be welded and YTAngle of the axle under tool coordinates system T sends PLC 31 to;
3) PLC 31 receives coordinate value and to be welded workpiece 4 facade and Y of the weld bead feature points under tool coordinates system TTAxle
Angle under tool coordinates system T, by controlling X-direction to move module 121, Y direction moves module 122, Z-direction is moved
Dynamic model group 123 and y-axis stepper motor 13 move to operate four-degree-of-freedom robot 1, are sequentially completed data sampling processing stage, weldering
Rifle is automatically positioned weld seam starting point, welding gun automatic tracking welding seam, angle of welding gun Self Adaptive Control, realizes Weld Seam Tracking Control;Institute
State the length of position that data sampling processing stage is survey calculation weld seam starting point and guide's distance;The welding gun is automatically positioned
Weld seam starting point is that welding gun is automatically moved into weld seam starting point, is welding gun from the initialization step before motion tracking;The welding gun
Automatic tracking welding seam refers to that the position of welding gun follows weld movement automatically, is not required to be manually set welding gun mobile route;The weldering
The angle that rifle angle Self Adaptive Control refers to adjusting welding gun with the angle change of the facade of workpiece 4 to be welded controls, in order to
Welding gun is set perpendicular to weld seam, to ensure welding quality all the time.
Guide's distance described in the utility model refers to welding gun 15 to left side weld bead feature points P1 in XTDistance on direction.
The characteristic point for being scanned detection to weld seam due to laser must be prior to welding gun, so in the presence of this section of guide's distance, welding gun needs
This section of guide's distance of passing by gets to weld bead feature points.Guide's distance is synthesized with " guide " and " distance " two words, " first
Lead " it is open circuit, the meaning of guiding, distance refers to the distance between welding gun and weld bead feature points, illustrates tracking needs of the welding gun to weld seam
Vision sensor in front detect weld bead feature points the meaning of " exploring the way ".
The step 1) specifically includes:
1.1) tool coordinates system T and image coordinate system C are established;Tool coordinates system T is with X-direction movement module 121, Y
Direction of principal axis movement module 122, the direction of motion of Z-direction movement module 123 are as XT、YT、ZTAxle, choose on reference position
Point is established for origin;Image coordinate system C be using at the optical axis center of video camera 21 as origin, using the optical axis of video camera 21 as ZC,
With the image of video camera 21 horizontally and vertically for XC、YCWhat axle was established;
1.2) workpiece 4 to be welded is fixed on the reference position of workbench 11 to (reference position is the subscript of workbench 11
The recommendation workpiece putting position of note, it is to prevent workpiece 4 to be welded from arbitrarily putting, cause error larger, fillet welding can not be detected
The position of seam);According to reference position set guide's distance preset value and welding gun under tool coordinates system T origin coordinates it is default
Value;Workpiece 4 to be welded is in YT15mm is should be less than relative to reference position maximum deviation on direction, in ZTRelative to reference bit on direction
Put maximum deviation and should be less than 12mm;
The step 2) specifically includes:
2.1) cross laser 22 is sent into cross laser line to be irradiated on workpiece 4 to be welded, video camera 21 gathers cross
Laser rays is irradiated to the image on workpiece 4 to be welded, and the image that video camera 21 is gathered is sent to industrial control computer 33 in real time;
2.2) industrial control computer 33 carries out median filter process first to the image received, removes the random of image
Noise;Then carry out binary conversion treatment and obtain the laser stripe line image being radiated on workpiece 4 to be welded, as shown in Figure 5;Reuse
RANSAC algorithms (RANSAC algorithms are existing algorithms, for looking for the algorithm of straight line on image) calculate four laser strip streaklines
Straight line, respectively left side bottom surface streak line L1, right side bottom surface streak line L2, left side elevational streak line L3 and right side facade striped
Line L4;Using right side bottom surface streak line L2 and left side elevational streak line L3 intersection point as left side weld bead feature points P1, left side is obtained
Coordinates of the weld bead feature points P1 under image coordinate system C;With left side bottom surface streak line L1 and right side facade streak line L4 intersection point
As right side weld bead feature points P2, coordinates of the right side weld bead feature points P2 under image coordinate system C is obtained;By left side characteristics of weld seam
The Coordinate Conversion of point P1 and right side weld bead feature points P2 under image coordinate system C is to the coordinate under tool coordinates system T;Left side is welded
Stitch the coordinate of characteristic point P1 and right side weld bead feature points P2 under tool coordinates system T and send PLC 31 to.
2.3) with left side bottom surface streak line L1, right side bottom surface streak line L2, left side elevational streak line L3, right side facade striped
Line L4 straight line calculates the facade of workpiece 4 and Y to be weldedTAngle of the axle under tool coordinates system T, and send PLC 31 to.
The step 3) specifically includes:
3.1) data sampling processing stage concretely comprises the following steps:
Speed of welding (speed of welding and specific welding process requirement of the four-degree-of-freedom robot 1 along welding direction to set
It is relevant) walking, so that welding direction is from left to right as an example, when right side weld bead feature points P2 is appeared on workpiece 4 to be welded for the first time
When, the record coordinate that now coordinates of the right side weld bead feature points P2 under tool coordinates system T measures for the first time for weld seam starting point,
Welding gun is walked according to direction from right to left, continuously reads several right side weld bead feature points, several right side characteristics of weld seam
Point forms the array A1 of right side weld bead feature points;Control welding gun 15 continues along welding direction displacement h1, distance h1Welded for left side
Characteristic point P1 to right side weld bead feature points P2 distance is stitched, when left side weld bead feature points are appeared on workpiece to be welded for the first time,
The record coordinate that now coordinates of the left side weld bead feature points P1 under tool coordinates system T measures for the second time for weld seam starting point, weldering
Rifle is walked according to direction from left to right, continuously reads several left side weld bead feature points, several left side weld bead feature points
Form the array A2 of left side weld bead feature points;By second of the measurement of the coordinate of measurement and weld seam starting point for the first time of weld seam starting point
Coordinate average the actual coordinate for obtaining weld seam starting point under tool coordinates system T, and according to weld seam starting point in instrument
Actual coordinate under coordinate system T carries out origin initialization to tool coordinates system T;Rotated and compiled using the servomotor of mobile module 12
Code device obtains welding gun in YTAnd ZTThe data of amount of movement in both direction, separately constitute array A3 and array A4;According to array
A1, array A2, array A3 and array A4 calculate coordinate of each point under tool coordinates system T on weld seam straight line, composition array A5;Root
Weld seam straight line is calculated respectively in Y according to array A5TAnd ZTSlope and intercept on direction;With weld seam straight line respectively in YTAnd ZTDirection
On slope and guide's distance preset value, calculate the actual value of current guide's distance in real time;According to weld seam straight line respectively in YT
And ZTIntercept, welding gun 15 on the direction actual value of the preset value of origin coordinates and current guide's distance under tool coordinates system T
The actual value of the changing coordinates under tool coordinates system T of welding gun 15 is calculated in real time;
3.2) welding gun is automatically positioned concretely comprising the following steps for weld seam starting point:
During welding gun is automatically positioned, four-degree-of-freedom robot 1 is walked along welding direction with the speed of welding set, if
Determine position threshold (relevant with the Minimum sliding distance of four-degree-of-freedom robot), constantly ask for weld seam starting point in tool coordinates system
The distance between the changing coordinates of actual coordinate and welding gun 15 under tool coordinates system T under T, when its distance value is less than or equal to position
Threshold value is put, then judges that welding gun 15 reaches weld seam starting point, now welding gun is automatically positioned weld seam starting point location and terminated, and starts to weld
Stitch from motion tracking.
3.3) what welding gun automatic tracking welding stitched concretely comprises the following steps:
During welding gun automatic tracking welding seam, the point in array A5 on first weld seam straight line is first set in tool coordinates system
Coordinate under T is first aim value, is controlled in PLC 31 with pid algorithm output pulsed quantity by motor servo driver 32
Four-degree-of-freedom robot 1 makes changing coordinates of the welding gun 15 under tool coordinates system T reach first aim value;Reach first mesh
After scale value, then coordinate of the point under tool coordinates system T in group A5 that fetches on next weld seam straight line is as second target value;
Above-mentioned steps are repeated in, are terminated when vision sensor 2 can not obtain weld image information from motion tracking process, welding gun 15 is certainly
It is dynamic to return to origin under tool coordinates system T.
3.4) angle of welding gun Self Adaptive Control concretely comprises the following steps:
During welding gun automatic tracking welding seam, PLC 31 is according to the facade of workpiece 4 to be welded and YTAxle is under tool coordinates system T
Angle calcu-lation output pulsed quantity, y-axis stepper motor 13 is controlled by motor servo driver 32, realizes the angle of Butt welding gun 15
Self Adaptive Control, welding gun is set to significantly improve welding effect perpendicular to bead direction.
The installation of Weld Seam Tracking Control device of the utility model based on cross laser and application method are:
Operating personnel switch on power starter, get out bottom surface and the facade of workpiece 4 to be welded, and be placed in workbench
Reference position on 11 so that two laser stripes of Cross hair laser device 22 can form two groups of intersecting straight lines and quilt on weldment
Video camera 21 is gathered, then the bottom surface of workpiece 4 to be welded and facade are fastened by fastener.
The initialization process parameter of operating personnel's operation touch-screen 34 and starter, device will be completed to know by video camera 21
Other weld seam, the image formed on workpiece 4 to be welded is irradiated to camera acquisition laser rays by industrial control computer 33 and is carried out
Reason, sends result to PLC 31;Control four-degree-of-freedom robot 1 to move by PLC 31 and complete data sampling processing rank
Section, welding gun are automatically positioned weld seam starting point, welding gun automatic tracking welding seam, angle of welding gun Self Adaptive Control.
Terminate when vision sensor 2 can not obtain weld image information from motion tracking process, welding gun 15 automatically returns to four
Origin position under degree of freedom robot tool coordinates system T.
The weld joint tracking object of the application is angle welding, including straight line angle welding and becomes angle welding (curve, broken line).
The utility model vision sensor 2 will meet claimed below when mounted:The laser that Cross hair laser device 22 is sent
Two laser stripes as shown in Figure 4 can be formed on workpiece 4 to be welded, it is desirable to which two laser rays mutually surrender P1 and P2 with angle welding
The two weld bead feature points.Video camera 21 can photograph image as shown in Figure 5 when laser stripe is shot, it is desirable to take pictures
Angle can go out four laser strip streakline straight lines and two weld bead feature points by discernable by eye on image.
The utility model does not address part and is applied to prior art.
Claims (2)
1. a kind of Weld Seam Tracking Control device based on cross laser, it is characterised in that the device includes four-degree-of-freedom machine
People, vision sensor and Integral control cabinet;
The four-degree-of-freedom robot includes workbench, mobile module, y-axis stepper motor, welding gun and passed for fixing vision
The support of sensor and welding gun;The mobile module is three and moved linearly mould by the ball screw type of AC servo machinery driving
Group, including X-direction movement module, Y direction movement module and Z-direction movement module;The Y direction movement module is consolidated
It is scheduled on the X-axis slide unit of X-direction movement module, and, Y direction movement module and X-axis side vertical with X-direction movement module
The plane formed to mobile module is parallel with workbench;The Z-direction movement module is fixed on Y direction movement module
Y-axis slide unit on, it is and parallel with the method direction of workbench;The y-axis stepper motor is fixed on the Z of Z-direction movement module
On axle slide unit, and the rotating shaft of y-axis stepper motor is parallel with the direction of motion of Y direction movement module;Above the workbench
There are the mark and fastener for putting workpiece reference position to be welded;
The vision sensor includes video camera and cross laser;The cross laser rays that the cross laser is sent
It is radiated on workpiece to be welded and is shot by the video camera;
The Integral control cabinet includes PLC, motor servo driver, industrial control computer and touch-screen;The PLC leads to
Cross to four motor servo drivers and control X-direction movement module, Y direction movement module, Z-direction movement module respectively
And y-axis stepper motor;The PLC is communicated using RS232 communication modules by HOSTLINK agreements with touch-screen;It is described
PLC is communicated using RS232 communication modules by MODBUS agreements and industrial control computer;The Industry Control calculates
Machine is connected with the video camera of vision sensor.
2. the Weld Seam Tracking Control device according to claim 1 based on cross laser, it is characterised in that the PLC
For model Omron CP1H PLC;The motor servo driver is model Panasonic A5 motor servo driver.
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Cited By (4)
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CN107414253A (en) * | 2017-08-21 | 2017-12-01 | 河北工业大学 | Weld Seam Tracking Control device and control method based on cross laser |
CN109514137A (en) * | 2018-12-07 | 2019-03-26 | 北京博清科技有限公司 | Solder joint Automatic Alignment System and method |
CN111360370A (en) * | 2020-03-02 | 2020-07-03 | 中船第九设计研究院工程有限公司 | Welding robot welding seam positioning method for processing shipyard parts |
CN113385779A (en) * | 2021-07-05 | 2021-09-14 | 湘潭大学 | Large-break-angle welding seam tracking and obstacle prediction system based on binocular four-line vision sensing |
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CN107414253A (en) * | 2017-08-21 | 2017-12-01 | 河北工业大学 | Weld Seam Tracking Control device and control method based on cross laser |
CN109514137A (en) * | 2018-12-07 | 2019-03-26 | 北京博清科技有限公司 | Solder joint Automatic Alignment System and method |
CN109514137B (en) * | 2018-12-07 | 2020-04-10 | 北京博清科技有限公司 | Automatic welding spot alignment system and method |
CN111360370A (en) * | 2020-03-02 | 2020-07-03 | 中船第九设计研究院工程有限公司 | Welding robot welding seam positioning method for processing shipyard parts |
CN113385779A (en) * | 2021-07-05 | 2021-09-14 | 湘潭大学 | Large-break-angle welding seam tracking and obstacle prediction system based on binocular four-line vision sensing |
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