Robot Intelligent Welding System

The Definiation of Smart Welding

Cutting-edge technology is used in smart welding, which improves quality, accuracy, and efficiency by fusing old-fashioned techniques with cutting-edge tools. By combining sensors, automation, real-time monitoring, and data analytics, this creative method enhances control and supervision and enables in-the-moment modifications and improvements.


Through continuous data collection, sensors and monitoring systems in smart welding allow automated systems to precisely adjust for peak performance. This synergy reduces human error, increases consistency, and elevates weld quality.

QJAR Intelligent Welding Process

The system is based on the offline programming method driven by the model + expert library, and realizes the automatic generation of positioning paths without teaching.Through the independently developed welding expert software, it can also
realize multiple functions such as multi-layer and multi-pass, continuous welding, fillet welding, automatic positioning, weld tracking, breakpoint recovery, collision detection, etc. It can flexibly handle workpiece deformation and adapt to complex Changeable application environment, efficiently complete the processing tasks of small batches of non-standard parts.

QJAR Intelligent Welding Restrictions

Meet the requirements for intelligent welding

Welding Robot Restrictions Diagram

Two Direction of smart welding

1. Intelligent trajectory planning based on drawing import
Smart Welding
2. Line scanning post-welding based on graphic modeling comparison

Two Direction of smart welding

Full module integration, providing overall solution

Smart Welding Diagram

Two Direction of smart welding

Two Direction Smart Welding

QJAR Plan Layout and Scope of Supply

Smart welding layout

Seven-axis plan layout

Welding robot configuration

Welding Robot Configuration
Welding Robot Configuration 2

Welding robot configuration

Welding robot configuration

Critical pulse

  • Lowspatterand low heat input, suitable for high- speed welding of medium and thick plates
  • Compared with standard pulse walking speed, it can be increased by 1.2~1.5 times
  • Thearcis more concentrated, the penetrating power is stronger, and the penetration depth is deeper
  • Wide voltage matching range, good welding adaptability, simple operation

Welding machine selection and functional advantages

Welding Machine Information

Welding machine selection and functional advantages

Welding Machine Selection

Intelligent trajectory planning product composition

Intelligent welding hardware

Intelligient Welding Hardware

Communication connection

Smart welding layout

Seven-axis plan layout

Welding Robot Seven-axis upside-down plan diagram

Seven-axis upside-down layout

Welding Robot Seven-axis upside-down plan diagram

Eight-axis layout

Welding Robot eight-axis plan diagram

Intelligent welding configuration sheet

1

Robot body

QJR6-1400H intelligent welding version, QJR6-2000H intelligent welding version

Include

2

Welding machine and wire feeding system

Aotai NBC500RP Plus, Megmeet Dex2 500MPR

 

Include

 

3

Water cooled welding gun

Daily consumption ARH11501W, standard length 294.7, +100L, +200L, +300L

 

Include

 

4

Intelligent welding system

Laser, industrial computer and other control systems

 

Include

5

External axis control

3+2 expansion axis

 

6

 

Gun clearance station

Three-in-one, (gun cleaning, cutting, oiling)

Optional

7

Operation desk/control cabinet

Including mouse, keyboard, monitor, installation of industrial computer and switch

No

8

Ground rails and slides L-shaped

inverted beam

Formal 500kg load floor rail, upside down 2T floor rail. The sliding table carries the robot, control cabinet, welding machine, and vat of welding wire.

No

9

Tire frame/ platform

Workpiece support

No

Intelligent Welding Robot Configuration Sheet Example Image
Intelligent Welding Robot Configuration Sheet Example Image 2

Intelligent welding process features

Digital twin

  1. Use digital twin technology to build a twin welding workstation in the
  2. 3D model data analysis, automatic calibration of welds or extraction of drawing process information
  3. Automatically generate inevitable path obstacle avoidance program

Parametric modeling

For commonly used structural software, built-in parametric model function

Complex structures still require 3D models

In graphics processing, the column and corbels models of the three- dimensional drawing cannot be separated. When imported into the offline software, you can only keep the corbels and delete the columns.

Paramagtic

Welding process expert library

  • Standard structure technology expert library
  • Custom welding process library

Welding application cases

Case site

Intelligent welding application cases</h2

Weld Status

Weld Status

H-shaped structural stiffener welding
H-shaped structural stiffener welding
Tower corner welding
H-shaped structural stiffener welding
Transformer tank
H-shaped structural stiffener welding
Corbel welding
H-shaped structural stiffener welding

QJAR Intelligent Development Plan

QJAR Welding Robot Development Plan 1

Stage 1

Model development
Stability

Welding Robot Development Plan 2

Stage 2

Welding software development
Platformization

Stage 3

Visual guidance
Industry customization

Welding Robot Development Plan 4

Stage 4

Production adaptive
Digitizing