CN218109668U - Intelligent welding and cutting robot engineering platform truck - Google Patents

Abstract

The application relates to an intelligent welding and cutting robot engineering platform vehicle which comprises a mobile platform, wherein a welding robot, a grabbing robot and a control system are arranged on the mobile platform; the welding robot is used for welding the workpiece and the embedded part; a workpiece clamping mechanism, a CCD camera detection mechanism and a metal detector are arranged on the grabbing robot; and the control system is used for controlling the actions of the moving platform, the welding robot and the grabbing robot. This application removes the position of each built-in fitting through moving platform, whether detect the built-in fitting through the metal detection instrument that snatchs on the robot and leak and bury, detect the position of built-in fitting through the CCD camera, installation angle, shape etc., and send into the position of built-in fitting through work piece fixture centre gripping work piece, weld work piece and built-in fitting through welding robot, detect the butt weld through CCD camera detection mechanism again after the welding, the automatic weld of work piece and built-in fitting has been realized, detect, welded efficiency and precision have been improved.

Description

Intelligent welding and cutting robot engineering platform truck

Technical Field

The application relates to the technical field of welding, in particular to an intelligent welding and cutting robot engineering platform truck.

Background

The curtain wall is a light wall with decorative effect commonly used by modern large and high-rise buildings, and various strong, light and beautiful building materials are utilized to replace the traditional external wall construction method combining masonry with window walls, so that the whole building is beautiful, and the using function is sound and safe; the installation of the building curtain wall is generally realized by welding the adapter plate on the embedded part and fixing the adapter plate and the keel of the curtain wall, and the firmness and the accuracy of the welding of the adapter plate and the embedded part determine the firmness and the accuracy of the installation of the keel.

In view of the above related technologies, the inventor believes that welding operations between an embedded part and an adapter plate are performed manually at present, which is low in welding efficiency and welding accuracy.

SUMMERY OF THE UTILITY MODEL

In order to improve welding efficiency and the precision of built-in fitting and keysets, this application provides an intelligence welding and cutting robot engineering platform car.

The application provides an intelligence welding and cutting robot engineering platform truck adopts following technical scheme:

an intelligent welding and cutting robot engineering platform vehicle comprises a mobile platform, wherein a welding robot, a grabbing robot and a control system are arranged on the mobile platform; the welding robot is used for welding the workpiece and the embedded part; the grabbing robot is provided with a workpiece clamping mechanism, a CCD camera detection mechanism and a metal detector, wherein the workpiece clamping mechanism is used for clamping a workpiece, the metal detector is used for detecting an embedded part, and the CCD camera detection mechanism is used for detecting the position of the embedded part; and the control system is used for controlling the actions of the moving platform, the welding robot and the grabbing robot.

Through the technical scheme, the mobile platform moves to the position of each embedded part, whether the embedded parts are missed to be embedded is detected through the metal detector on the grabbing robot, the position, the installation angle, the shape and the like of the embedded parts are detected through the CCD camera, the workpiece is clamped by the workpiece clamping mechanism and is sent into the position of the embedded parts, the workpiece and the embedded parts are welded through the welding robot, and the welding seams are detected through the CCD camera detection mechanism after welding, so that the automatic welding and detection of the workpiece and the embedded parts are realized, and the welding efficiency and precision are improved.

Optionally, a cutting robot is further disposed on the moving platform, and the cutting robot is used for cutting the workpiece and the embedded part.

Through the technical scheme, by arranging the cutting robot, when the installation angle and the like of the embedded part have deviation, the workpiece can be cut through the cutting robot, so that the workpiece is matched with the embedded part, and the accuracy of the position of the welded workpiece is ensured.

Optionally, the cutting robot adopts laser cutting, and a laser generator is further arranged on the moving platform and connected with the cutting robot.

Through above-mentioned technical scheme, adopt laser generator to be connected with cutting robot, can realize laser cutting, cut of high quality, efficient.

Optionally, the grabbing robot comprises a six-axis robot, a mounting plate is arranged on a tail end executing mechanism of the six-axis robot, an electric clamping jaw is arranged on the upper portion of the mounting plate, and a CCD camera detection mechanism and a metal detector are arranged at the lower end of the mounting plate.

Through above-mentioned technical scheme, six robots are adopted to the snatching robot, and it is big to snatch the area, and is efficient, simultaneously through adopting the mounting means of upper and lower extreme with electric clamping jaw and detection mechanism for electric clamping jaw and detection mechanism noninterference.

Optionally, a laser seam tracking sensor is arranged on the welding robot.

Through above-mentioned technical scheme, through setting up laser welding seam tracking sensor, welding robot can transversely sweep the workpiece surface fast and obtain the profile information of welding seam cross-section with the laser spot, and the guide robot accomplishes the welding automatically, has improved welded efficiency and welded quality.

Optionally, a workpiece receiving basket for receiving a workpiece is further disposed on the moving platform.

Through above-mentioned technical scheme, accomodate the basket through setting up the work piece on moving platform, can carry the work piece through moving platform and weld, its degree of automation is high.

Optionally, a welding gun cleaning device is further disposed on the moving platform.

Through above-mentioned technical scheme, spout the cleaning oil to welder through welder belt cleaning device, the cleaning oil reaches the internal surface of welder nozzle, ensures that welding slag and nozzle can not take place the adhesion of dying.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the method comprises the steps that a mobile platform moves to the position of each embedded part, a metal detector on a grabbing robot is used for detecting whether the embedded parts are missed to be embedded or not, a CCD camera is used for detecting the position, the installation angle, the shape and the like of the embedded parts, a workpiece is clamped by a workpiece clamping mechanism and is sent to the position of the embedded parts, the workpiece and the embedded parts are welded through a welding robot, and the welding seams are detected through the CCD camera detection mechanism after welding, so that the automatic welding and detection of the workpiece and the embedded parts are realized, and the welding efficiency and the welding precision are improved;

2. through setting up cutting robot, when built-in fitting installation angle etc. have the deviation, can cut the work piece through cutting robot for the work piece carries out the adaptation with the built-in fitting, has guaranteed the accuracy nature of the position of welded work piece.

3. The grabbing robot adopts a six-axis robot, the grabbing area is large, the efficiency is high, and meanwhile, the electric clamping jaw and the detection mechanism are not interfered in a mode of installing the electric clamping jaw and the detection mechanism at the upper end and the lower end.

Drawings

Fig. 1 is a schematic structural view of the connection between an embedded part and a workpiece in the embodiment of the present application.

Fig. 2 is a schematic structural diagram of an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a bottom of a mobile platform according to an embodiment of the present application.

Fig. 4 is a schematic structural view of the grasping robot of the present application.

Fig. 5 is a schematic structural diagram of an end effector of the grasping robot according to the present application.

Fig. 6 is a schematic structural view of the connection between the embedded part and the workpiece in embodiment 2 of the present application.

Reference sign specification, 1, welding robot; 2. a grabbing robot; 3. a cutting robot; 4. externally hanging a gas cylinder; 5. a laser generator; 6. a mobile platform; 7. a control box; 8. a work receiving basket; 9. a welding gun cleaning device; 10. a laser weld tracking sensor; 11. embedding parts; 12. a workpiece; 201. a six-axis robot; 202. mounting a plate; 203. an electric clamping jaw; 204. a CCD camera detection mechanism; 205. a metal detector; 601. a servo motor; 602. and (4) driving the wheels.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

Referring to fig. 1, the embodiment of the application discloses an intelligent welding and cutting robot engineering platform vehicle, which is used for welding a workpiece 12 on an embedded part 11.

Example 1:

referring to fig. 2 and 3, the embodiment discloses an intelligent welding and cutting robot engineering platform truck, which comprises a moving platform 6, wherein a welding robot 1, a grabbing robot 2, a control box 7, an externally-hung gas cylinder 4, a welding gun cleaning device 9 and a workpiece accommodating basket 8 are arranged on the moving platform 6.

The bottom of the mobile platform 6 is provided with a servo motor 601 and a driving wheel 602, and the servo motor 601 drives the driving wheel 602 to rotate so as to drive the mobile platform 6 to move. The bottom of the mobile platform 6 can also adopt a crawler-type structure, which is convenient for the mobile platform 6 to move on the construction site.

The welding robot 1 is connected with an externally hung gas cylinder 4 and used for welding a workpiece 12 and an embedded part 11, and a laser welding seam tracking sensor 10 is arranged on the welding robot 1. Light, machine, electricity, embedded software and image processing technique in an organic whole, the structure is exquisite, and the integrated level is high, can anti arc light interference, anti welding splash, intelligent recognition welding seam, through the industrial computer configuration welding seam, can show the welding seam position in real time, can improve the welded quality through welding robot 1 and laser welding seam tracking sensor 10.

And a control circuit is arranged in the control box 7 and used for controlling the movement of the moving platform 6, the welding robot 1 and the grabbing robot 1. The workpiece accommodating basket 8 is hung on one side of the movable platform 6 in an external hanging mode, and a workpiece 12 to be welded is placed in the workpiece accommodating basket 8.

In this embodiment, welder belt cleaning device 9 adopts multi-functional automatic clear rifle ware for welding robot 1 automatic clearance welder's welding slag when welding, in order to reach protection welder spray tube, electrically conductive mouth, extension welder's life practices thrift the consumptive material cost, keeps good welding quality, improves welding efficiency's purpose.

Referring to fig. 4 and 5, the grasping robot 2 includes a six-axis robot 201, an attachment plate 202 is provided on a tip end actuator of the six-axis robot 201, an electric gripper 203 is provided on an upper portion of the attachment plate 202, the electric gripper 203 is used to grip the workpiece 12, and a CCD camera detection mechanism 204 and a metal detector 205 are provided on a lower end of the attachment plate 202. The metal detector 205 is used for detecting the embedded part 11, and if the metal detector 205 detects that the CCD camera detection mechanism 204 is used for detecting the position of the embedded part 11.

The kind of intelligence welding and cutting robot engineering flatcar of this embodiment, its working process is as follows:

(1) Firstly, send into engineering platform truck and wait the floor of welding, engineering platform truck carries out initial position's location through control system, specifically is:

1.1, the manual remote control mobile platform 6 guides a worker to accurately stop the mobile platform 6 in an initial positioning area according to the input construction coordinate data of the embedded part 11;

1.2, after the mobile platform 6 is stopped stably, the control system and the remote monitoring equipment complete self-calibration of the coordinates of the engineering platform vehicle through remote data communication, and differential compensation data of the coordinates or corrected coordinate data are respectively transmitted to the grabbing robot 2 and the welding robot 1 through internal data channels;

1.3, moving platform 6 gets into the floor through the elevator, every former work coordinate point is the coordinate reference point of next target operating point, carry out position alignment to it outside the building through the total powerstation, before the alignment, move moving platform 6 to the first benchmark welding point floor inboard of floor, moving platform 6's gesture is as far as possible horizontal, the arm that will snatch robot 2 moves to preset the point, carry out the initial positioning through CCD camera detection mechanism 204, after the location is accomplished, transfer the total powerstation and observe and control, correct the arm of snatching robot 2, the correction parameter includes the level, left and right sides position, fore-and-aft distance.

(2) The grabbing robot 2 acts to detect the position of the embedded part 11, firstly, whether the embedded part 11 exists is detected through the metal detector 205, if not, a signal is sent to manual intervention, if so, the coordinate data of the embedded part 11 is compared with the set coordinate value, and two control instructions of passing or failing are made;

(3) If the situation is judged to be in the unqualified state, the control system records the position information of the unqualified embedded part 11, sends a warning, is manually handled, moves the engineering platform truck to the next station, executes the steps (2) to (3), and sends the information to the grabbing robot 2 and the welding robot 1 to perform the next action if the situation is judged to be in the qualified state;

(4) The grabbing robot 2 grabs the workpiece 12 and sends the workpiece 12 to the position of the embedded part 11, and the welding robot 1 welds the workpiece 12 and the embedded part 11;

(5) After welding, detecting the welding line through a CCD camera detection mechanism on the grabbing robot 2, if the welding line is qualified, carrying out the next step, if the welding line is unqualified, manually carrying out parameter correction, and then carrying out welding operation again;

(6) The welding robot 1 and the grabbing robot 2 return to the original point, the moving platform 6 moves to the next station, and the step (2) to the step (5) are continuously executed.

Example 2:

referring to fig. 2, the rest of the present embodiment is the same as embodiment 1, except that in the present embodiment, a cutting robot 3 is added on a moving platform 6, the cutting robot 3 uses laser to cut, and a laser generator 5 is arranged on the moving platform 6 and connected with the cutting robot 3.

Referring to fig. 6, when the position of the embedded part 11 is deviated, the position angle of the embedded part 11 in fig. 6 is deviated from the position angle of the embedded part 11 in fig. 1, and at this time, if one end of the workpiece 12 is directly abutted against the embedded part 11 and then welded, the welded workpiece 12 is also inclined, and the deviation is deviated from the predetermined position angle, so that when the other end of the workpiece 12 is subsequently installed, the deviation is caused, and the progress is not high, and the installation is difficult.

Referring to fig. 2 and 3, when the position and the angle of the embedded part 11 deviate, the CCD camera detection mechanism 204 on the grabbing robot 2 detects the embedded part 11 to obtain the deviation of the position and the angle of the embedded part 11, then the workpiece is grabbed by the electric clamping jaw 203 on the grabbing robot 2, the workpiece is sent to the position of the cutting robot 3 to be cut, the workpiece 11 is cut into an inclined plane, then the grabbed robot 2 enables the cut surface of the cut workpiece 12 to abut against the embedded part 11, and then the welding robot 1 carries out welding, so that the end, away from the embedded part 11, of the workpiece 12 after welding is kept consistent with the set position, and subsequent installation is facilitated.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides an intelligence welding and cutting robot engineering platform truck which characterized in that: the welding robot comprises a moving platform (6), wherein a welding robot (1), a grabbing robot (2) and a control system are arranged on the moving platform (6); the welding robot (1) is used for welding a workpiece (12) and an embedded part (11); a workpiece clamping mechanism, a CCD camera detection mechanism (204) and a metal detector (205) are arranged on the grabbing robot (2), wherein the workpiece clamping mechanism is used for clamping a workpiece, the metal detector (205) is used for detecting the embedded part (11), and the CCD camera detection mechanism (204) is used for detecting the position of the embedded part (11); the control system is used for controlling the actions of the moving platform (6), the welding robot (1) and the grabbing robot (2).

2. The intelligent welding-cutting robotic engineering platform truck of claim 1, wherein: and a cutting robot (3) is further arranged on the moving platform (6), and the cutting robot (3) is used for cutting the workpiece (12) and the embedded part (11).

3. The intelligent welding-cutting robot engineering platform truck of claim 2, characterized in that: the cutting robot (3) adopts laser cutting, and the moving platform (6) is further provided with a laser generator (5) connected with the cutting robot (3).

4. The intelligent welding-cutting robot engineering platform truck of claim 1, characterized in that: the grabbing robot comprises a six-axis robot (201), a mounting plate (202) is arranged on a tail end executing mechanism of the six-axis robot (201), an electric clamping jaw (203) is arranged on the upper portion of the mounting plate (202), and a CCD camera detection mechanism (204) and a metal detector (205) are arranged at the lower end of the mounting plate (202).

5. The intelligent welding-cutting robot engineering platform truck of claim 1, characterized in that: the welding robot (1) is provided with a laser welding seam tracking sensor (10).

6. The intelligent welding-cutting robot engineering platform truck of claim 1, characterized in that: the moving platform (6) is also provided with a workpiece accommodating basket (8) for placing a workpiece (12).

7. The intelligent welding-cutting robotic engineering platform truck of claim 1, wherein: and a welding gun cleaning device (9) is also arranged on the moving platform (6).

Images