(L×W@ working distance)
((L×W@ working distance)
Options
| Product model | SX400 | SX600 | SX800 | SX1000 | SX2000 | |
|
|
|
|
|
|
||
| Factory calibration distance (mm) | 500 | 1200 | 2300 | 2900 | 3300 | |
|
Near FOV (mm) (L×W@ working distance) |
420×330@400 | 680×440@1000 | 1650×900@1900 | 2030×1150@2500 | 2110×1380@3200 | |
|
far FOV (mm) ((L×W@ working distance) |
630×505@600 | 830×610@1400 | 2250×1250@2700 | 2680×1520@3300 | 2270×1470@3400 | |
|
XY resolution (mm) |
0.33-0.50 | 0.38-0.45 |
0.9-1.18 |
1.12-1.47 | 1.13-1.20 | |
| Z-direction accuracy (mm) | 0.03 | 0.059 |
0.2 |
0.32 | 0.27 | |
| Imaging speed (s) | 1.2 | 1.6 | 1.6 | 1.6 | 1.9 | |
| Dimension (mm) | 160×150×91 | 430×190×80 | 650×190×80 |
650×190×80 |
600×218×128 | |
| Weight (kg) | 1.8 | 4 | 5 | 5 | 8.2 | |
| Nominal voltage | DC24V | DC24V | DC24V | DC24V | AC220V | |
| Nominal power (W) | 20 | 30 | 30 | 30 | 110 | |
|
Options |
Power cable | Special power cord RB type, DC24V power module (ndr-240-24) | Special power cord HK type | |||
| Calibration board | GP290 | GP290 | GP400 | GP400 | GP520 | |
| Data cable | Special data cable (m12-cd8, m12-cd15, m12-cd20) | |||||
| Protection board | DG400 | DG600 | DG800 | DG1000 | DG2000 | |
| Anti ambient light | Adapt to ambient light intensity within 4500lux | |||||
| protect | IP65, optional camera cover, anti arc splash or anti ash, non scrubbing lens | |||||
| Vibration | Meet the requirements of IEC 60068-2-6 | |||||
| to attack | Meet the requirements of IEC 60068 - 2-27 | |||||
| working temperature | -10~50℃ (optional thermal insulation protective clothing can work at higher temperature) | |||||
| remarks | Structured light 3D cameras support multiple exposure, reflection suppression and CUDA acceleration (GPU optional) | |||||
| The measurement standard of Z-direction accuracy is VDI / VDE 2634 | ||||||
| The factory default double target setting accuracy is 0.08pixel | ||||||
It is necessary to visually locate the position of the plate on the conveyor belt, and cooperate with the robot to realize the plate grabbing and placing it in the material frame.
It is composed of 3D vision system, automatic control unit, gripper system, robot and base, material frame positioning unit and other core equipment, which perfectly realizes the robot's sorting of scattered and stacked bars in the deformed material frame, and meets the requirements of the bar intermediate frequency furnace/heating Loading the furnace material frame.
Crankshafts and connecting rods are important parts and components of automobiles. There are many types and heavy, and they have to go through many complicated procedures before leaving the warehouse. The traditional automatic loading and unloading solution requires at least one robot for loading and unloading, and it is impossible to accurately identify scattered and stacked connecting rods. The automatic loading and unloading solution of crankshaft and connecting rod flaw detection provided by Entropy Technology enables robots to automatically complete the random loading and unloading and palletizing operations of multi-category crankshafts and connecting rods.
If you have any questions, we are at your service
