Smart Robot Vacuum Lifter Machine
Robot vacuum lifter is advanced industrial equipment that combines robotic technology and vacuum suction cup technology to provide a powerful tool for industrial automation. The following is a detailed explanation of smart vacuum lift equipment.
Suction cups machine, also known as vacuum spreader, its working principle is mainly based on vacuum pump. When the suction cup comes into contact with the surface of the object, the air in the suction cup is sucked away, creating a pressure difference between the inside and outside, so that the suction cup is firmly attached to the object. This adsorption force can easily transport and fix various objects, especially in the field of industrial automation, playing an indispensable role.
Compared with traditional vacuum suction cups, robot vacuum lifters have more advantages. First of all, it can be combined with a pneumatic system to generate positive and negative pressure, which allows it to maintain efficient adsorption capacity in various environments. Secondly, because it combines the flexibility of robots, it can work in various complex and irregular environments, greatly improving production efficiency and work convenience.
Robot vacuum suction cups are mainly divided into rubber suction cups and sponge suction cups. Rubber suction cups are mainly used for smooth and airtight materials. The suction cups fit well with the surface of the material. The sponge suction cup, with its special material, can fit the material well on uneven surfaces, thereby sticking to the material more firmly. The vacuum pump of the sponge system will be more powerful. The main principle is that the suction speed needs to be greater than the deflation speed caused by uneven surfaces, so that it can be used safely.
Technical Data
Model |
DXGL-LD 300 |
DXGL-LD 400 |
DXGL-LD 500 |
DXGL-LD 600 |
DXGL-LD 800 |
Capacity(kg) |
300 |
400 |
500 |
600 |
800 |
Manual rotation |
360° |
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Max lifting height(mm) |
3500 |
3500 |
3500 |
3500 |
5000 |
Operation method |
walking style |
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Battery(V/A) |
2*12/100 |
2*12/120 |
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Charger(V/A) |
24/12 |
24/15 |
24/15 |
24/15 |
24/18 |
walk motor(V/W) |
24/1200 |
24/1200 |
24/1500 |
24/1500 |
24/1500 |
Lift motor(V/W) |
24/2000 |
24/2000 |
24/2200 |
24/2200 |
24/2200 |
Width(mm) |
840 |
840 |
840 |
840 |
840 |
Length(mm) |
2560 |
2560 |
2660 |
2660 |
2800 |
Front wheel size/quantity(mm) |
400*80/1 |
400*80/1 |
400*90/1 |
400*90/1 |
400*90/2 |
Rear wheel size/quantity(mm) |
250*80 |
250*80 |
300*100 |
300*100 |
300*100 |
Suction cup size/quantity(mm) |
300 / 4 |
300 / 4 |
300 / 6 |
300 / 6 |
300 / 8 |
Application
In sunny Greece, Dimitris, a visionary entrepreneur, runs a large-scale glass factory. The glass products produced by this factory are of exquisite craftsmanship and high quality, and are deeply loved by customers at home and abroad. However, as market competition intensified and order volume continued to grow, Dimitris realized that traditional handling methods could no longer meet the needs for efficient and precise production. Therefore, he decided to introduce a robot vacuum lifter to improve the automation level and efficiency of the production line.
The robot-style vacuum cupper Dimitris chose has excellent stability and adsorption power. It is equipped with an advanced control system and sensors that can accurately identify glass products of different shapes and sizes, and automatically adjust the position and strength of the suction cup to ensure accurate handling every time.
In the glass factory, this robot-style vacuum suction cup shows amazing work efficiency. It can work 24 hours a day and complete the task of transporting glass products accurately and quickly. Compared with traditional manual handling, it not only greatly improves production efficiency, but also significantly reduces the breakage rate and labor costs during the handling process.
Dimitris is very satisfied with this robot vacuum cupper. He said: "Since the introduction of this robot suctioncup, our production line has become more efficient and stable. Not only can it handle glass products accurately and quickly, it also greatly reduces the labor intensity of employees and improves overall production efficiency."
In addition, this robot-style vacuum suction cup also has intelligent management functions. By connecting to the factory's production management system, it can provide real-time feedback on handling data and production progress, helping Dimitris better understand the production situation and make more scientific and reasonable production decisions.
In short, Dimitris successfully improved the production efficiency and product quality of the glass factory by introducing a robot-style vacuum suction cup, injecting new vitality into the company's sustainable development. This successful case not only demonstrates the huge potential of robotic vacuum suction cups in the field of industrial automation, but also provides useful reference and inspiration for other companies.