Technical details of Vacuum Glass Lifter Robot (VGL 400, VGL 600, VGL 800)

Keyword:Vacuum Glass Lifter Robot   Time:2021-5-11 22:12:22

Main Specifications and components of Vacuum Glass Lifter Robot (VGL 400)

Standard Installation Robot         Model No. VGL400                   

Main Specifications of Vacuum Glass Lifter Robot:

  1. Maximum load: 400kg while the second ram back to end, 250kg while the second ram full extended

  2. Maximum lifting height: 3500mm from ground to the centre of the suction frame

  3. Moving: automatically moving, speed control by manual roller sensibly

  4. Lifting control: with hydraulic ram, controlled by manual mechanism valve sensibly

  5. Extension control: with hydraulic ram, controlled by manual mechanism valve sensibly, maximum extension distance 650mm, maximum extension distance from the front wheel to the suction pads was 1350mm( the ram in parallel with ground)

  6. Tilting control: with hydraulic ram, controlled by manual mechanism valve sensibly, the maximum tilting degree near to 130 degree

  7. Rotation control: By manual, with a spring lock for positioning, the maximum rotation was 270 degree

  8. Side moving: with hydraulic ram, controlled by manual mechanism valve sensibly, 75mm for both sides, totally 150mm

  9. Side turning: By manual, with a spring lock for positioning, the maximum rotation was 180 degree, 90 degree for both sides

  10. Self weight: about 850kg with counterweight, 530kg without counterweight

  11. Power: DC 24V

  12. Driven unit: the rear wheels driven with DC motor worked as driven unit as well as for turning

  13. Wheels: 300mm*150mm *2 solid tyre in front, single wheel of 250mm in rear

  14. Driven unit power: DC 24V brush-less motor, 1.2KW

  15. Hydraulic station power:1.2KW

  16. Battery:12V,55A*4

  17. Maximum working period: about 20 Hours

  18. Dimensions: pls see the drawing

  19. Charging power:110-220V

  20. Charging time: about 5 hours

  21. Vacuum system: Dual pump and dual system

  22. the suction frame sized of 1800mm(L) and 800mm(W)

Main components in each vacuum system of Vacuum Glass Lifter Robot:

  1. Vacuum Pump: CV-35, DC 24V, maximum vacuum flow 35L/minute, maximum vacuum pressure  -85kpa

  2. 6 of suction pads of dia.290 mm, made of aluminum with high-flexible sealing ring glued, the suction pads were designed with buffer spring, mounted on the cross beam with retainer

  3. The safety tank was designed independently, and a Non-return valve mounted safe tank to ensure a long keeping time.

  4. A “Red-Green” vacuum meter mounted in front of device.

  5. A Digital vacuum switch to detect the vacuum level, the switch control the vacuum starting/stopping point for power save, the preset parameter of switch was starting at -60kpa, pausing at -70kpa.

  6. A  of 3/2 way hand switch slide valve in each vacuum system that used for manual controlling  the “Suction-Release”

  7. The Red-green vacuum meter mount in front of the operator to make sure the vacuum system status in sight

  8. The device has an integrated warning unit EW0 with acoustic signal. if the vacuum drops below 60% a howler starts.

  9. Red-Green light mounted on electric box for showing device working status, red for alarm, and green for power through, in case the power failure or vacuum level drops down below the required level 60%, the warning system will start automatically with sound and light.

The lifter was designed for transportation or handling the materials at:
   Max.carrying capacity: 400kg at vertical (60% vacuum level)    

Loading graph of Vacuum Glass Lifter Robot (VGL 400)

Loading graph of Vacuum Glass Lifter Robot (VGL 400).png


Main Specifications and components of Vacuum Glass Lifter Robot (VGL 600)

Standard Installation Robot         Model No. VGL600                   

Main Specifications of Vacuum Glass Lifter Robot:

  1. Maximum load: 600kg while the second ram back to end, 250kg while the second ram full extended

  2. Maximum lifting height: 3500mm from ground to the centre of the suction frame

  3. Moving: automatically moving, speed control by manual roller sensibly

  4. Lifting control: with hydraulic ram, controlled by manual mechanism valve sensibly

  5. Extension control: with hydraulic ram, controlled by manual mechanism valve sensibly, maximum extension distance 650mm, maximum extension distance from the front wheel to the suction pads was 1350mm( the ram in parallel with ground)

  6. Tilting control: with hydraulic ram, controlled by manual mechanism valve sensibly, the maximum tilting degree near to 130 degree

  7. Rotation control: By manual, with a spring lock for positioning, the maximum rotation was 270 degree

  8. Side moving: with hydraulic ram, controlled by manual mechanism valve sensibly, 75mm for both sides, totally 150mm

  9. Side turning: By manual, with a spring lock for positioning, the maximum rotation was 180 degree, 90 degree for both sides

  10. Self weight: about 850kg with counterweight, 530kg without counterweight

  11. Power: DC 24V

  12. Driven unit: the rear wheels driven with DC motor worked as driven unit as well as for  turning

  13. Wheels: 300mm*150mm *2 solid tyre in front, single wheel of 250mm in rear

  14. Driven unit power: DC 24V brush-less motor, 1.2KW

  15. Hydraulic station power:1.2KW

  16. Battery: 12V,55A*4

  17. Maximum working period: about 20 Hours

  18. Dimensions: pls see the drawing

  19. Charging power:110-220V

  20. Charging time: about 5 hours

  21. Vacuum system: Dual pump and dual system

  22. The suction frame sized of 1800mm(L) and 800mm(W)

Main components in each vacuum system:

  1. Vacuum Pump: CV-35, DC 24V, maximum vacuum flow 35L/minute, maximum vacuum pressure  -85kpa

  2. 6  of suction pads of dia.300 mm, made of aluminum with high-flexible sealing ring glued, the suction pads were designed with buffer spring, mounted on the cross beam with retainer

  3. The safety tank was designed independently, and a Non-return valve mounted safe tank to ensure a long keeping time.

  4. A  “Red-Green” vacuum meter mounted in front of device.

  5. A  Digital vacuum switch to detect the vacuum level, the switch control the vacuum starting/stopping point for power save, the preset parameter of switch was starting at -60kpa, pausing at -70kpa.

  6. A  of 3/2 way hand switch slide valve in each vacuum system that used for manual controlling the “Suction-Release”

  7. The vacuum meter mount in front of the operator to make sure the vacuum system status in sight

The Vacuum Glass Lifter Robot(Glass Robot) was designed for transportation or handling the materials at:
 Max.carrying capacity: 600kg at vertical (60% vacuum level)

Loading graph of Vacuum Glass Lifter Robot (VGL 600)

Loading graph of Vacuum Glass Lifter Robot (VGL 600).png

Main Specifications and components of Vacuum Glass Lifter Robot (VGL 800)

Standard Installation Robot         Model No. VGL800               

Main Specifications of Vacuum Glass Lifter Robot:

1. Maximum load: 800kg while the second ram back to end, 500kg while the second ram extended

2. Maximum lifting height: 3600mm from ground to the centre of the suction frame

3. Moving: automatically moving, speed control by manual roller sensibly

4. Lifting control: with hydraulic ram, controlled by sensible speed roller

5. extension control: with hydraulic ram, controlled by controlled by sensible speed roller maximum extension distance 800mm, maximum extension distance from the front wheel to the suction pads was 1630mm( the ram in parallel with ground)

6. tilting control: with hydraulic ram, controlled by sensible speed roller, the maximum tilting degree near to 130 degree

7. rotation control: with rotated hydraulic motor, controlled by sensible speed roller, the maximum rotation was 180 degree, 90 degree at both sides

8. Side moving: with hydraulic ram, controlled by sensible speed roller, 75mm for both sides, totally 150mm

9. side turning: with hydraulic ram, controlled by sensible speed roller, about 22.5 degree for both sides

10. self weight: about 1250kg with counterweight, 850kg without counterweight

11. Power: DC 24V

12. Driven unit: the front wheels driven with mechanical differential worked as driven unit, rear wheels worked for turning

13. Wheels: 450mm*200mm *2 PU filled solid wheels in front, dual of 400mm solid wheels in rear

14. Driven unit power: DC 24V, 2.2 KW

15. Hydraulic station power: 1.2KW

16. Battery: 12V,150A*2

17. Maximum working period: about 20 Hours

18. Minimum Dimensions: 2200*920*1700mm

19. Charging power:110-220V

20. Charging time: about 5 hours

21. Vacuum system: Dual pump and dual system with 6 round suction pads, pad diameter 400mm

22. Over-load sensor: the sensor will detect the loads weight, once overloads detected, the extension and lifting function will be limited by electric lock.

 Main components in vacuum system:

1. Vacuum Pump: CV-35, DC 24V, maximum vacuum flow 35L/minute, maximum vacuum pressure  -85kpa

2. 6 of suction pads of dia.400mm, the suction pads were designed with buffer spring, mounted on the cross beam with retainer

3. The safety tank was designed independently, and a Non-return valve mounted safe tank to ensure a long keeping time.

4. A “Red-Green” vacuum meter mounted in front of device.

5. A Digital vacuum switch to detect the vacuum level, the switch control the vacuum starting/stopping point for power save, the preset parameter of switch was starting at -60kpa, pausing at -70kpa.

6. A 3/2 way hand switch slide valve in each vacuum system that used for manual controlling the “Suction-Release”

7. The Red-green vacuum meter mount in front of the operator to make sure the vacuum system status in sight

8. The device has an integrated warning unit EW0 with acoustic signal. If the vacuum drops below 60% a howler starts.

9. Red-Green light mounted on electric box for showing device working status, red for alarm, and green for power through, in case the power failure or vacuum level drops down below the required level 60%, the warning system will start automatically with sound and light.

The lifter was designed for transportation or handling the materials at:
   Max.carrying capacity: 800kg at vertical (60% vacuum level)


Loading graph of Vacuum Glass Lifter Robot (VGL 800)

Vacuum Glass Lifter Robot 800-5.png


Site photos of Vacuum Glass Lifter Robot

Vacuum glass lifter robot.jpg

Lifter robot (left400KG, right600KG)6.jpg

Lifter robot (left400KG, right600KG)1.jpg

Vacuum Glass Lifter robot (left400KG, right600KG)2.jpg

Vacuum Glass Lifter robot (left400KG, right600KG)3.jpg

Vacuum Glass Lifter robot (left400KG, right600KG)7.jpg

Video of Vacuum Glass Lifter Robot
https://youtu.be/6P7yyMNBJAk 
https://youtu.be/9C_fNEIhfQw
https://youtu.be/-a2PJ_i4KTI
https://youtu.be/TbkoPyaTAzA
https://youtu.be/eQviUl9SRys