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E08

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E08

  • EPAL Euro Pallet Available for EPAL Euro pallet handling.
  • Narrow Aisle The minimum width of the pallet handling aisle is 1700mm.
  • High-level Safety 360° obstacle avoidance detection, cargo detection, etc.
  • Equipment Docking Multi-equipment types of docking support, such as lift, elevator, mechanical arm, floor roller, etc.

Project
Specifications
E08-( DM Code Version)
E08-SLAM(SLAM + DM Code Version)
Basic Parameters
Size(mm)
1399x1102x272.5
1399x1102x272.5
Rated Load (kg)
800
800
Self-Weight (kg)
330
330
Rotation Diameter (mm)
1620
1620
Fork Height (mm)
90
90
Fork Stretch Out Max Limit (mm)
1400
1400
Fork Max Lifting Height (mm)
≤330
≤330
Display Screen
5 inches
5 inches
Telecommunication Modes
Default WIFl version: Support dual-band 2.4G/5G, IEEE802.11/g/n
(-5G version support 5G communication)
Default WIFl version: Support dual-band 2.4G/5G, IEEE802.11/g/n
(-5G version support 5G comunication)
Safety Protection
Obstacle Avoidance Protection
Front laser sensors * Rear Laser sensors,
360° obstacle avoidance detection
Front laser sensors * Rear Laser sensors,
360° obstacle avoidance detection
Three-dimensional Protection
Forward-facing stereo camera visual obstacle avoidance
Forward-facing stereo camera visual obstacle avoidance
Detection Distance of Front Laser
≤3m
≤3m
Mechanical Protection
An emergency stop button and reset button.
A protection strip around the whole vehicle body
An emergency stop button and reset button.
A protection strip around the whole vehicle body
Caution Function
with voice and photoelectric alarm functions
with voice and photoelectric alarm functions
Fork Protection
The detection distance of the photoelectric sensor is less than 80mm
The detection distance of the photoelectric sensor is less than 80mm
Navigation Mode
SLAM + DM code Dual Navigation
SLAM + DM code Dual Navigation
Max speed
1.5m/s (Zero Loaded) / 1.2m/s (Fully Loaded)
1.5m/s (Zero Loaded) / 1.2m/s (Fully Loaded)
Robot Stop Accuracy
±10mm /±1°
±10mm /±1°
Movement Mode
two-wheel differential
two-wheel differential
Maximum Robot Ground Adaptability
40mm(Gap)/3.3°(Slope)/15mm(Stair-step)
40mm(Gap)/3.3°(Slope)/15mm(Stair-step)
Lithium Battery
Performance
Maximum Fork Ground Adaptability
10mm(Gap)/1.9°(Slope)/5mm(Stair-step)
10mm(Gap)/1.9°(Slope)/5mm(Stair-step)
Rated Voltage/Capacity
51.2V/30AH
51.2V/30AH
Battery Life
The times of full charging: 2000 times
(The battery capacity is guaranteed to be more than 70% of the new battery)
The times of full charging: 2000 times
(The battery capacity is guaranteed to be more than 70% of the new battery)
Battery Endurance/Charging Time
≥8H/≤2H
≥8H/≤2H
Links to application examples

Pallet size adaptation

Specifications
Parameters
Types
Inner Width of
Slots W1(mm)
W1≤160
Outer Width of Slots W2(mm)
W2≥600
Inner Pallet
Height H(mm)
95≤H≤130
Pallet Length
L(mm)
≤1400(DM Code Version)
≤1300 (SLAM Version)



Tuskrobots

As China E08 manufacturers and E08 factory, Tuskrobots is committed to empowering intelligent logistics in smart factories, making handling simpler and more efficient.It has launched a globally unique and innovative intelligent robot product that is highly adaptable to international standard pallets for conveying and picking. Tuskrobots always insists on serving customers and pursuing customer value, sparing no effort to improve project delivery and after-sales service capability. We adhere to the customer-oriented concept with real actions, and we also continuously improve ourselves with customer feedback. To match customer usage scenarios and customer requirements, there are a variety of service products of Tuskrobots products and systems for customization or selection in the after-sales stage. Choose the service plan that suits you, we will provide service of high quality.

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    R&D Patents

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    R&D and Technical
    Staff

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    Market Growth Rate

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    Global Network
    Coverage

China Source Factory

  • Foshan

  • Foshan

  • Foshan

  • Beijing

  • Hangzhou

  • Shanghai office

  • Shanghai

  • Shanghai

  • Chengdu

  • Chengdu

  • Chengdu

  • Chongqing

Certificate of Merit

The company has received a number of patent qualifications and honorary awards.

From The Blog

Provide you with the latest enterprise and industry news.

Industry Knowledge Extension

Provide you with the latest Industry knowledge about E08.

What is an Industrial Handling Robot

An Industrial Handling Robot is a type of robot used in manufacturing and industrial settings for material handling, assembly, and other repetitive tasks. These robots are typically designed to manipulate and move objects with high precision and speed, which can increase efficiency and reduce the risk of human error or injury.

Industrial handling robots can take on a variety of forms, including articulated arms, gantry robots, and cartesian robots. They are often equipped with various sensors and tools, such as grippers, suction cups, or electromagnetic clamps, to enable them to pick up and move objects of different shapes, sizes, and materials.

These robots are commonly used in industries such as automotive, electronics, and pharmaceuticals, where they help to streamline manufacturing processes and improve productivity. They can also be programmed to perform a range of tasks, from simple pick-and-place operations to more complex assembly and welding tasks, making them highly versatile and adaptable to different manufacturing needs.

The Benefits of Industrial Handling Robots for Small and Medium-Sized Businesses

Industrial handling robots have traditionally been associated with large manufacturing operations due to their high costs and complexity. However, advances in technology and increasing competition have made these robots more accessible to small and medium-sized businesses. Here are some of the benefits of industrial handling robots for small and medium-sized businesses:

1. Increased Efficiency: Industrial handling robots are designed to perform repetitive tasks with high speed and accuracy, which can significantly increase production efficiency. This can be especially beneficial for small and medium-sized businesses that need to optimize their processes to stay competitive.

2. Improved Quality Control: Industrial handling robots can be programmed to perform tasks with consistent precision, reducing the likelihood of errors or defects in the manufacturing process. This can help to improve overall quality control and reduce waste.

3. Flexibility: Unlike traditional assembly line machines, industrial handling robots can be programmed to perform a variety of tasks, making them highly adaptable to changing production needs. This can be especially beneficial for small and medium-sized businesses that need to be able to quickly switch between different products or production runs.

4. Cost Savings: While the upfront cost of industrial handling robots can be high, they can ultimately save businesses money in the long run by reducing labor costs and increasing production efficiency. Additionally, some robots are designed to be modular, meaning that they can be easily reconfigured or repurposed as production needs change, reducing the need for additional capital expenditures.

5. Workplace Safety: Industrial handling robots can help to reduce the risk of workplace injuries by taking on dangerous or repetitive tasks, freeing up employees to focus on higher-level tasks that require human decision-making and dexterity.

In summary, industrial handling robots can offer numerous benefits to small and medium-sized businesses, including increased efficiency, improved quality control, flexibility, cost savings, and workplace safety. As these robots become more accessible and affordable, more businesses are likely to adopt them to stay competitive and meet the demands of a rapidly evolving market.

The Environmental Impact of Industrial Handling AGV in Manufacturing and Warehousing

Automated Guided Vehicles (AGVs) are becoming increasingly popular in manufacturing and warehousing operations as a way to streamline material handling and transportation. However, it's important to consider the environmental impact of these machines. Here are some key factors to consider:

1. Energy Consumption: AGVs typically run on rechargeable batteries or electricity, and the amount of energy consumed can vary depending on the size and capabilities of the vehicle. However, compared to traditional material handling equipment such as forklifts, AGVs are generally more energy-efficient and produce fewer emissions.

2. Emissions: While AGVs are generally considered to be a cleaner alternative to traditional material handling equipment, they still produce some emissions, particularly if they are powered by non-renewable sources of energy. However, the emissions produced by AGVs are typically much lower than those produced by internal combustion engine-powered equipment.

3. Material Usage: AGVs can help reduce the amount of material waste generated in manufacturing and warehousing operations by providing precise and controlled transportation of materials. Additionally, some AGVs are designed to be modular, meaning that they can be easily reconfigured or repurposed as production needs change, reducing the need for additional capital expenditures.

4. Noise Pollution: AGVs are generally quieter than traditional material handling equipment, which can help to reduce noise pollution in the workplace. This can be especially beneficial in environments where workers need to communicate with each other or where noise levels need to be kept to a minimum.

5. Maintenance and Disposal: Like any piece of machinery, AGVs require regular maintenance to keep them running efficiently. However, the maintenance requirements of AGVs are typically lower than those of traditional material handling equipment, which can help to reduce the amount of waste generated by maintenance activities. Additionally, AGVs are generally designed to be recycled or repurposed at the end of their useful life, which can help to reduce their environmental impact.

Overall, AGVs can offer significant environmental benefits compared to traditional material handling equipment, particularly in terms of energy consumption and emissions. While there are still some environmental impacts associated with AGVs, these can be mitigated through careful planning and design, and by using renewable sources of energy to power the vehicles. As more companies look for ways to reduce their environmental impact, AGVs are likely to play an increasingly important role in the future of material handling and transportation. Overcoming Labor Shortages with Latent AGV in Manufacturing

Labor shortages are a major concern for many manufacturers, particularly those in industries that require skilled workers. However, latent AGV (Automated Guided Vehicle) technology can help to overcome these challenges by providing a more efficient and reliable alternative to human labor. Here are some ways that latent AGVs can help manufacturers overcome labor shortages:

1. Increased Efficiency: Latent AGVs can operate around the clock without the need for breaks or rest, allowing manufacturers to increase production output without requiring additional labor. Additionally, AGVs can be programmed to optimize their routes and avoid congestion, further increasing efficiency and reducing the need for human intervention.

2. Reduced Dependence on Skilled Labor: Many manufacturing processes require skilled labor, which can be difficult to find in times of labor shortages. Latent AGVs can be used to automate these processes, reducing the need for skilled labor and freeing up workers to focus on higher-level tasks that require human decision-making and creativity.

3. Improved Safety: Some manufacturing processes are inherently dangerous or involve heavy lifting, which can put workers at risk of injury. By using AGVs to automate these tasks, manufacturers can reduce the risk of workplace injuries and create a safer working environment for their employees.

4. Cost Savings: While the upfront cost of AGVs can be high, they can ultimately save manufacturers money in the long run by reducing labor costs and increasing production efficiency. Additionally, some AGVs are designed to be modular, meaning that they can be easily reconfigured or repurposed as production needs change, reducing the need for additional capital expenditures.

5. Increased Flexibility: Latent AGVs can be programmed to perform a wide range of tasks, making them highly adaptable to changing production needs. This can be especially beneficial in times of labor shortages when manufacturers need to be able to quickly switch between different products or production runs.

In summary, latent AGV technology can help manufacturers overcome labor shortages by increasing efficiency, reducing dependence on skilled labor, improving safety, saving costs, and increasing flexibility. As manufacturers face an increasingly competitive landscape, the use of AGVs is likely to become more widespread as a way to remain competitive and meet the demands of an ever-changing market.

Unlocking The Full Potential Of Every Warehouse And Factory

  1. Marketing Department Email

    marketing @tuskrobots.com

  2. Human Resources Email

    hr @tuskrobots.com

  3. Product & Solution Enquiries

    info @tuskrobots.com

  4. Inquiry

    +86-400-8808-310