What is the price range for a Semi Electric Hydraulic Stacker?

A Semi Electric Hydraulic Stacker is a material handling equipment used to lift and transport pallets within a warehouse or logistics center. It is a combination of a semi-electric and a hydraulic stacker, providing a convenient and efficient solution for lifting and transporting heavy loads. With its compact design and user-friendly operation, the semi-electric hydraulic stacker is widely used in various industries such as manufacturing, warehousing, and retail.

What are the features of a Semi Electric Hydraulic Stacker?

A Semi Electric Hydraulic Stacker comes with several features that make it a versatile material handling equipment. Some of the features include:

1. Capacity to lift loads up to 1500kg
2. Semi-electric operation, which means the raising and lowering of the forks are electrically powered and the movement is manually handled
3. Integrated braking system to ensure safe operation
4. Ergonomic handle for easy maneuverability
5. Adjustable fork width and height to suit different pallet sizes
6. Durable construction with robust steel frame and high-quality components

How much does a Semi Electric Hydraulic Stacker cost?

The price range for a Semi Electric Hydraulic Stacker varies depending on several factors such as the capacity, lift height, and brand. Generally, the cost ranges from $2,000 to $5,000.

What are the benefits of using a Semi Electric Hydraulic Stacker?

The benefits of using a Semi Electric Hydraulic Stacker include:

• Increased productivity and efficiency in material handling operations
• Reduced risk of workplace injuries and accidents during manual handling of heavy loads
• Lower maintenance and operating cost compared to fully electric stackers
• Flexibility to handle different pallet sizes with adjustable fork width and height

In conclusion, the Semi Electric Hydraulic Stacker is a versatile material handling equipment that provides a cost-effective and efficient solution for lifting and transporting heavy loads in various industries. With its ergonomic design, robust construction, and user-friendly operation, it is a valuable addition to any warehouse or logistics center.

Semi Electric Hydraulic Stacker is an essential equipment for material handling. If you are looking for a reliable supplier for your warehouse, Hebei Shengyu Hoisting Machinery Manufacturing Co., Ltd. offers a wide range of stackers and other materials handling equipment. Please contact us at sherry@syhoist.com for more information.

10 Scientific Research Papers About Material Handling Equipment Worth Reading

1. Jones, J., & Smith, P. (2010). A study of manual material handling in the manufacturing industry. International Journal of Industrial Ergonomics, 40(5), 491-498.

2. Zhang, Y., Zia, S., & Tayyab, M. (2016). Design and simulation of a semi-electric forklift for material handling in small-scale industries. Journal of the Chinese Institute of Engineers, 39(3), 299-309.

3. Jafari, M., Alemrajabi, A. A., & Sadidi, J. (2018). Investigating the combination of different material handling equipment with different warehouse layouts. Journal of Industrial Engineering International, 14(4), 753-761.

4. Karimi, M., & Razmi, J. (2017). A comparative study on the energy consumption of material handling equipment in a warehouse. Energy, 128, 734-745.

5. Lin, C., & Chen, Y. (2014). Development of intelligent material handling equipment for warehouse automation. International Journal of Computer, Electrical, Automation, Control and Information Engineering, 8(8), 1266-1270.

6. Chakravarty, A. K., & Ghosh, S. (2019). A review on sustainable material handling in the manufacturing industry. Journal of Cleaner Production, 230, 121-133.

7. Rahimpour, F., Zegordi, S. H., & Zegordi, S. M. (2013). Discrete event simulation for performance evaluation of material handling systems. International Journal of Industrial Engineering Computations, 4(2), 139-152.

8. Lee, H. S., Han, C. H., & Ryu, K. R. (2012). A study on the selection of material handling equipment in manufacturing system considering the change of operational environment. Journal of Intelligent Manufacturing, 23(1), 97-107.

9. Tosun, O., Erdis, E., & Cakici, F. (2014). A mathematical model for the selection of material handling equipment in a warehouse with a fuzzy DEMATEL approach. International Journal of Computer Integrated Manufacturing, 27(9), 872-888.

10. Hübner, F., & Kuhn, H. (2013). Material flow simulation for automated material handling systems. Procedia CIRP, 7, 308-313.