Mobile Garbage Compressor is a machine specifically designed to compress and compact various types of waste materials into smaller, more manageable sizes. This process significantly reduces the volume of waste, making it easier and more cost-effective to handle, store, and transport. Waste compactors are commonly used in industries that generate large amounts of waste, such as retail, manufacturing, hospitality, and healthcare.
Product Advantage
The primary function of a Mobile Garbage Compressor is to apply mechanical pressure to compress waste materials. The machine typically consists of a large metal chamber where waste is loaded, and a powerful hydraulic or mechanical ram that pushes the waste, compressing it into dense blocks or bales. These compacted bales are then easier to stack, store, and transport, which helps businesses save on disposal costs and improve overall waste management efficiency.
Mobile Garbage Compressor come in various types and sizes to cater to different waste management needs. Some compactors are designed for general waste, while others are specialised for specific materials such as cardboard, plastic, or polystyrene. The choice of compactor depends on the type and volume of waste a business generates, as well as the available space and budget for waste management equipment.
By investing in a Mobile Garbage Compressor, businesses can achieve several benefits, including reduced waste disposal costs, decreased environmental impact, and improved operational efficiency. Additionally, using a Mobile Garbage Compressor can help businesses comply with waste management regulations and contribute to their sustainability goals.
Technical Parameters
Performance Parameters | |
Compression | Horizontal |
Waste bin volume (m³) | 6m³,9m³,12m³ ,15m³ ,18m³,Custom sizes |
Hook centre height (mm) | 1570 |
Density of compressed rubbish block(kg/m³) | 750kg/m³ |
Compression cycle time (s) | 45s |
Max. lifting force of tipping bucket | 1t,1.5t,2t,2.5t,2.5t |
Tipping bucket volume (m³) | 1.5m³,2.5m³,3.2m³,4.1m³,4.1m³ |
Rated power of motor(kW) | 5KW,5.5KW,7.5KW |
Machine weight (kg) | 4800kg,5500kg,6080kg,6580kg, |
Power supply | Local working voltage |
Operation mode | Automatic + manual |
Size | 6m³: 4180 * 2440 * 2600 (mm); Tipping bucket falling height 2410mm. 9m³: 5080 * 2440 * 2600 (mm); Tipping bucket falling height 2410mm. 12m³ :4180 * 5280 * 2600 (mm); Tipping bucket falling height 2410mm. |
How Does a Waste Compactor Work?
Whether handling general waste, recyclables, or specific materials, the Mobile Garbage Compressor provides an efficient and practical solution for managing large volumes of waste. It significantly reduces waste volume through compression, thereby optimizing storage and transportation efficiency, lowering operating costs, and improving the sustainability of overall waste management.
I. Waste Loading: Flexible Adaptation to Different Operating Scenarios
Waste is first fed into the compactor's compression chamber. This process can be completed manually or automatically, depending on the equipment type and operating environment.
Horizontal Mobile Garbage Compressors are commonly found in large industrial plants or waste transfer stations. They are often integrated with conveyor belt systems to achieve continuous automated feeding, significantly increasing processing capacity.
Furthermore, modern intelligent compactors are equipped with sensors that automatically identify material types and adjust compression parameters, ensuring both safety and efficiency.
II. Compressor Start-up: Hydraulic Drive as the Core Power System
Once the waste fills the set capacity, the compaction process starts automatically or manually. Most high-performance Mobile Garbage Compressors use a hydraulic system as the core driving force, while a few smaller devices use a mechanical linkage structure.
The hydraulic system, composed of a motor, oil pump, control valves, and hydraulic cylinders, can generate pressures of up to tens of tons, forcefully compressing loose waste.
The hydraulic ram (compressor head) advances forward under control system commands, pushing the waste against a fixed end wall or a pre-placed container. The pressure is adjustable during the process to accommodate the compression needs of different materials such as paper, plastic, and metal.
The key to this stage lies in balancing pressure stability and energy consumption. An advanced closed-loop control system can adjust output power through real-time feedback to achieve energy-efficient operation.
III. High-Efficiency Compaction: Achieving Minimum Volume and Optimized Density
With continuous pressure, the originally loose waste is compressed to 1/5 or even less of its original volume.
The compression chamber is designed with guide vanes and limiting structures to ensure uniform material distribution and prevent damage caused by uneven loading.
For special materials, some high-end models are equipped with a heating auxiliary function to soften the material before compression, further improving density.
This process not only saves space but also reduces subsequent transportation frequency and carbon emissions, making it a crucial link in building a green logistics chain.
IV. Compacted Material Discharge and Packaging: Facilitating Transfer and Resource Utilization
After compression, the compacted blocks need to be removed from the main unit for storage or transportation. Different models employ different discharge methods:
Mobile Garbage Compressors typically push the compressed waste into detachable containers or dedicated transfer boxes, which are then transported away by forklifts or lifting equipment when fully loaded.
V. Operation and Maintenance Support and Intelligent Management: Key to Extending Lifespan and Improving Efficiency
To ensure long-term stable operation, waste compactors must undergo regular maintenance and status monitoring:
Daily inspection items include hydraulic oil level and cleanliness, seal wear, electrical wiring safety, and the presence of foreign objects in the compression chamber.
Preventative maintenance plans effectively prevent sudden failures and reduce downtime, which is especially crucial in high-load operating environments.
We are a professional manufacturer of sanitation machinery, providing customers with ex-factory prices and on-demand customization services. You can contact us via WhatsApp or email.
Mobile Garbage Compressor is a machine specifically designed to compress and compact various types of waste materials into smaller, more manageable sizes. This process significantly reduces the volume of waste, making it easier and more cost-effective to handle, store, and transport. Waste compactors are commonly used in industries that generate large amounts of waste, such as retail, manufacturing, hospitality, and healthcare.
Product Advantage
The primary function of a Mobile Garbage Compressor is to apply mechanical pressure to compress waste materials. The machine typically consists of a large metal chamber where waste is loaded, and a powerful hydraulic or mechanical ram that pushes the waste, compressing it into dense blocks or bales. These compacted bales are then easier to stack, store, and transport, which helps businesses save on disposal costs and improve overall waste management efficiency.
Mobile Garbage Compressor come in various types and sizes to cater to different waste management needs. Some compactors are designed for general waste, while others are specialised for specific materials such as cardboard, plastic, or polystyrene. The choice of compactor depends on the type and volume of waste a business generates, as well as the available space and budget for waste management equipment.
By investing in a Mobile Garbage Compressor, businesses can achieve several benefits, including reduced waste disposal costs, decreased environmental impact, and improved operational efficiency. Additionally, using a Mobile Garbage Compressor can help businesses comply with waste management regulations and contribute to their sustainability goals.
Technical Parameters
Performance Parameters | |
Compression | Horizontal |
Waste bin volume (m³) | 6m³,9m³,12m³ ,15m³ ,18m³,Custom sizes |
Hook centre height (mm) | 1570 |
Density of compressed rubbish block(kg/m³) | 750kg/m³ |
Compression cycle time (s) | 45s |
Max. lifting force of tipping bucket | 1t,1.5t,2t,2.5t,2.5t |
Tipping bucket volume (m³) | 1.5m³,2.5m³,3.2m³,4.1m³,4.1m³ |
Rated power of motor(kW) | 5KW,5.5KW,7.5KW |
Machine weight (kg) | 4800kg,5500kg,6080kg,6580kg, |
Power supply | Local working voltage |
Operation mode | Automatic + manual |
Size | 6m³: 4180 * 2440 * 2600 (mm); Tipping bucket falling height 2410mm. 9m³: 5080 * 2440 * 2600 (mm); Tipping bucket falling height 2410mm. 12m³ :4180 * 5280 * 2600 (mm); Tipping bucket falling height 2410mm. |
How Does a Waste Compactor Work?
Whether handling general waste, recyclables, or specific materials, the Mobile Garbage Compressor provides an efficient and practical solution for managing large volumes of waste. It significantly reduces waste volume through compression, thereby optimizing storage and transportation efficiency, lowering operating costs, and improving the sustainability of overall waste management.
I. Waste Loading: Flexible Adaptation to Different Operating Scenarios
Waste is first fed into the compactor's compression chamber. This process can be completed manually or automatically, depending on the equipment type and operating environment.
Horizontal Mobile Garbage Compressors are commonly found in large industrial plants or waste transfer stations. They are often integrated with conveyor belt systems to achieve continuous automated feeding, significantly increasing processing capacity.
Furthermore, modern intelligent compactors are equipped with sensors that automatically identify material types and adjust compression parameters, ensuring both safety and efficiency.
II. Compressor Start-up: Hydraulic Drive as the Core Power System
Once the waste fills the set capacity, the compaction process starts automatically or manually. Most high-performance Mobile Garbage Compressors use a hydraulic system as the core driving force, while a few smaller devices use a mechanical linkage structure.
The hydraulic system, composed of a motor, oil pump, control valves, and hydraulic cylinders, can generate pressures of up to tens of tons, forcefully compressing loose waste.
The hydraulic ram (compressor head) advances forward under control system commands, pushing the waste against a fixed end wall or a pre-placed container. The pressure is adjustable during the process to accommodate the compression needs of different materials such as paper, plastic, and metal.
The key to this stage lies in balancing pressure stability and energy consumption. An advanced closed-loop control system can adjust output power through real-time feedback to achieve energy-efficient operation.
III. High-Efficiency Compaction: Achieving Minimum Volume and Optimized Density
With continuous pressure, the originally loose waste is compressed to 1/5 or even less of its original volume.
The compression chamber is designed with guide vanes and limiting structures to ensure uniform material distribution and prevent damage caused by uneven loading.
For special materials, some high-end models are equipped with a heating auxiliary function to soften the material before compression, further improving density.
This process not only saves space but also reduces subsequent transportation frequency and carbon emissions, making it a crucial link in building a green logistics chain.
IV. Compacted Material Discharge and Packaging: Facilitating Transfer and Resource Utilization
After compression, the compacted blocks need to be removed from the main unit for storage or transportation. Different models employ different discharge methods:
Mobile Garbage Compressors typically push the compressed waste into detachable containers or dedicated transfer boxes, which are then transported away by forklifts or lifting equipment when fully loaded.
V. Operation and Maintenance Support and Intelligent Management: Key to Extending Lifespan and Improving Efficiency
To ensure long-term stable operation, waste compactors must undergo regular maintenance and status monitoring:
Daily inspection items include hydraulic oil level and cleanliness, seal wear, electrical wiring safety, and the presence of foreign objects in the compression chamber.
Preventative maintenance plans effectively prevent sudden failures and reduce downtime, which is especially crucial in high-load operating environments.
We are a professional manufacturer of sanitation machinery, providing customers with ex-factory prices and on-demand customization services. You can contact us via WhatsApp or email.
