Based on the latest market data, the cost of a used wheel loader can vary widely depending on the model, age, condition, and hours of use. Here's a summary of the current market values for used wheel loaders:
General Price Range
Compact Wheel Loaders: These smaller machines can range from a few thousand dollars to around $50,000.
Medium Wheel Loaders: Prices typically range from $20,000 to $100,000.
Large Wheel Loaders: High-capacity models can cost anywhere from $100,000 to over $1 million.
Specific Models and Prices
Volvo L50F Wheel Loader:
Prices range from $37,500 to $44,111 based on listings from MachineryTrader and TractorHouse.
A 2012 model with 9,270 hours is listed for CAD $60,000.
Komatsu WA475-10:
A 2023 model with 1,639 hours is listed for $567,500.
Hitachi ZW370-6:
A 2020 model with 10,773 hours is listed for $129,000.
Factors Affecting Used Wheel Loader Prices
1.Age and Hours of Use: Machines with fewer hours and more recent manufacture years tend to command higher prices.
2.Condition: Well-maintained units with complete service records are more valuable.
3.Attachments and Options: Additional features or attachments can increase the value of the loader.
4.Market Demand: Local market conditions and demand for specific models can influence prices.
Where to Find Used Wheel Loaders
MachineryTrader.com: Offers a wide range of used wheel loaders with detailed listings.
TractorHouse.com: Provides up-to-date pricing and listings for various models.
IronPlanet: Features online auctions with IronClad Assurance for quality assurance.
Alibaba.com: Lists used wheel loaders from various manufacturers, often with competitive prices.
For the most accurate and up-to-date information, it is recommended to check these platforms directly.
what is the weight of a daewoo 400 wheel loader
The operating weight of a Daewoo MEGA 400 wheel loader can vary slightly depending on the specific model and configuration. Here are some key details:
Daewoo MEGA 400-V:
Operating Weight: 22,610 kg (49,846 lbs)
Bucket Capacity: 3.9 to 4.7 m³ (5.1 to 6.2 cu.yd)
Daewoo MEGA 400-III PLUS:
Operating Weight: 21,950 kg (48,391 lbs)
Bucket Capacity: 3.9 m³
These figures provide a good indication of the size and capacity of the Daewoo MEGA 400 series wheel loaders.
what is wheel loader backhoe
A wheel loader backhoe is a versatile piece of heavy equipment that combines the functionality of a wheel loader and a backhoe in one machine. Here's a detailed overview of what a wheel loader backhoe is, its key features, and common applications:
Definition
A wheel loader backhoe is a machine designed for both loading and excavating tasks. It features a front-mounted bucket for loading and moving materials, and a rear-mounted backhoe for digging and trenching. This dual functionality makes it highly versatile and efficient for a variety of tasks.
Key Features
1.Front-Mounted Bucket:
Used for loading and moving materials such as soil, gravel, sand, and debris.
Available in various sizes and shapes to suit different tasks.
2.Rear-Mounted Backhoe:
Equipped with an articulated arm and a small bucket for digging and trenching.
Ideal for excavation tasks, including digging foundations and utility trenches.
3.Versatility:
Can switch between loading and digging tasks without needing to change machines.
Suitable for a wide range of applications, from construction and landscaping to utility work.
4.Compact Design:
Many models feature a compact design, making them suitable for tight spaces and urban environments.
5.Attachments:
Can be fitted with various attachments to enhance functionality, such as hydraulic breakers, augers, and grapples.
Applications
Construction: Used for digging foundations, trenching for utilities, and loading materials.
Landscaping: Ideal for tasks like digging ponds, planting trees, and clearing grounds.
Roadwork and Maintenance: Useful for repairing roads, installing pipes, and removing debris.
Agriculture: Used for tasks like digging irrigation ditches and leveling land.
Advantages
Versatility: Combines the functions of a loader and a backhoe in one machine.
Cost-Effective: Reduces the need for multiple machines, saving on equipment and maintenance costs.
Compact and Maneuverable: Suitable for tight spaces and urban environments.
Ease of Operation: User-friendly controls and advanced technology make it easy to operate.
Comparison with Other Equipment
Wheel Loaders: Primarily designed for loading and moving materials, with high bucket capacities and speed.
Backhoe Loaders: Offer more versatility with both digging and loading capabilities, but are generally slower and less maneuverable than wheel loaders.
In summary, a wheel loader backhoe is a highly versatile machine that combines the functionality of a wheel loader and a backhoe. It is ideal for tasks that require both loading and excavation capabilities, making it a valuable asset in construction, landscaping, and utility work.
what is wheel loader break out force
Breakout Force is the maximum upward force exerted by a wheel loader's bucket to dislodge or break loose a pile of material. It is a critical measure of the machine's power and its ability to handle tough materials effectively.
Key Factors Influencing Breakout Force
1.Hydraulic System:
Hydraulic Pressure: Higher hydraulic pressure translates to greater force generation.
Flow Rate: Adequate flow rate ensures sufficient hydraulic fluid to power the cylinders quickly and efficiently.
Cylinder Size: Larger cylinders have greater potential for generating higher forces.
2.Mechanical Advantage:
The bucket's design, including its curvature, leverage points, and the geometry of the linkage system, amplifies the hydraulic force.
3.Tire Traction:
Adequate tire traction is essential to anchor the machine and prevent slippage during the breakout process.
4.Bucket Design:
The shape, size, and angle of the cutting edge of the bucket significantly impact breakout performance.
5.Material Properties:
Denser materials and those with high cohesion or internal friction (like clay or compacted soil) require greater force to dislodge.
6.Operating Conditions:
Soft or uneven ground can reduce tire traction, hindering breakout force.
Practical Implications of Breakout Force
Increased Productivity: Higher breakout force enables faster material handling, increasing productivity in applications like loading and stockpiling.
Versatility: A machine with strong breakout force can handle a wider range of materials, from light aggregates to dense rock.
Reduced Cycle Times: Efficient breakout translates to quicker loading cycles, improving overall operational efficiency.
Reduced Wear and Tear: Sufficient breakout force minimizes the risk of overloading the machine or damaging the bucket, reducing maintenance costs.
Examples of Breakout Force in Different Models
Caterpillar 995 Wheel Loader:
Breakout Force: 1123 kN (252,495 lbf).
Hitachi ZW140-6 Wheel Loader:
Breakout Force: 106 kN (23,850 lbf).
Hitachi ZW370-6 Wheel Loader:
Breakout Force: 195-232 kN (43,838-52,156 lbf).
Optimizing Breakout Force
Proper Machine Selection: Choose a wheel loader with the appropriate size and specifications for the intended application.
Regular Maintenance: Ensure proper maintenance of the hydraulic system, including regular fluid changes and filter replacements.
Tire Maintenance: Maintain proper tire inflation and tread depth for optimal traction.
Operator Training: Train operators on proper operating techniques to maximize breakout force and minimize wear and tear.
Conclusion
Breakout force is a critical parameter that significantly impacts the performance and productivity of wheel loaders. Understanding the factors that influence breakout force, optimizing machine design and operation, and leveraging advanced technologies will continue to drive advancements in material handling efficiency and productivity across various industries.
what is wheel loader breakout force
The breakout force on a wheel loader is the maximum upward force exerted by the loader's bucket to dislodge or break loose a pile of material. This force is a measure of the machine's power and its ability to handle tough materials effectively.
Factors Influencing Breakout Force
Hydraulic System:
Hydraulic Pressure: Higher hydraulic pressure translates to greater force generation.
Flow Rate: Adequate flow rate ensures sufficient hydraulic fluid to power the cylinders quickly and efficiently.
Cylinder Size: Larger cylinders have greater potential for generating higher forces.
Mechanical Advantage:
The bucket's design, including its curvature, leverage points, and the geometry of the linkage system, amplifies the hydraulic force.
Tire Traction:
Adequate tire traction is essential to anchor the machine, preventing slippage during the breakout process.
Bucket Design:
The shape, size, and angle of the bucket's cutting edge significantly impact breakout performance.
Material Properties:
Denser materials require greater force to dislodge. Cohesion and friction of the material also affect resistance.
Operating Conditions:
Soft or uneven ground can reduce tire traction, hindering breakout force. Extreme temperatures can affect hydraulic fluid viscosity.
Significance of Breakout Force
Increased Productivity: Higher breakout force enables faster material handling, increasing productivity in applications like loading and stockpiling.
Reduced Cycle Times: Efficient breakout translates to quicker loading cycles, improving overall operational efficiency.
Reduced Wear and Tear: Sufficient breakout force minimizes the risk of overloading the machine or damaging the bucket, reducing maintenance costs.
Example Specifications
Hitachi ZW140-6:
Breakout Force: 23,850 lbf (106 kN).
Hitachi ZW370-6:
Breakout Force: 43,838 lbf - 52,156 lbf (195 kN - 232 kN).
XCMG XC948:
Max Breakout Force: 130 kN.
Optimizing Breakout Force
Proper Machine Selection: Choose a wheel loader with the appropriate size and specifications for the intended application.
Regular Maintenance: Ensure proper maintenance of the hydraulic system, including regular fluid changes and filter replacements.
Tire Maintenance: Maintain proper tire inflation and tread depth for optimal traction.
Operator Training: Train operators on proper operating techniques to maximize breakout force and minimize wear and tear.
In summary, breakout force is a critical parameter that significantly impacts the performance and productivity of wheel loaders. Understanding the factors that influence breakout force and optimizing machine design and operation can enhance material handling efficiency and productivity across various industries.
what is wheel loader cost
The cost of a wheel loader can vary widely depending on the model, age, condition, and hours of use. Here is a summary of the current market values for used wheel loaders based on recent listings:
Price Range for Used Wheel Loaders
Compact Wheel Loaders: These smaller machines can range from a few thousand dollars to around $50,000.
Medium Wheel Loaders: Prices typically range from $20,000 to $100,000.
Large Wheel Loaders: High-capacity models can cost anywhere from $100,000 to over $1 million.
Specific Listings
Caterpillar 966H:
Year of manufacture: 2021
Mileage: 35 - 5,000 km
Running hours: 480 - 1,200 m/h
Price: €13,000 - €21,000.
SDLG LG956:
Year of manufacture: 2024
Mileage: 200 - 300 km
Running hours: 200 - 500 m/h
Price: €14,000 - €22,000.
Komatsu WA380:
Year of manufacture: 2020
Mileage: 2,400 - 3,000 km
Running hours: 1,000 - 1,300 m/h
Price: €4,100 - €75,000.
Komatsu WA470:
Year of manufacture: 2018
Mileage: 1,100 - 4,000 km
Running hours: 1,100 - 3,500 m/h
Price: €19,000 - €95,000.
XCMG ZL50:
Year of manufacture: 2024
Mileage: 41 - 53 km
Running hours: 52 - 400 m/h
Price: €14,000 - €75,000.
Volvo L120:
Year of manufacture: 2019
Running hours: 3,800 - 15,000 m/h
Price: €30,000 - €120,000.
Volvo L150:
Year of manufacture: 2017
Running hours: 12,000 - 13,000 m/h
Price: €93,000 - €110,000.
Volvo L90:
Year of manufacture: 2025
Running hours: 1 m/h
Price: €210,000.
Volvo L180:
Year of manufacture: 2013
Running hours: 12,000 - 18,000 m/h
Price: €50,000 - €80,000.
Factors Affecting Used Wheel Loader Prices
Age and Hours of Use: Machines with fewer hours and more recent manufacture years tend to command higher prices.
Condition: Well-maintained units with complete service records are more valuable.
Attachments and Options: Additional features or attachments can increase the value of the loader.
Market Demand: Local market conditions and demand for specific models can influence prices.
Where to Find Used Wheel Loaders
MachineryTrader.com: Offers a wide range of used wheel loaders with detailed listings.
MachineryLine.info: Provides up-to-date pricing and listings for various models.
Alibaba.com: Lists used wheel loaders from various manufacturers, often with competitive prices.
For the most accurate and up-to-date information, it is recommended to check these platforms directly.
what is wheel loader parts
A wheel loader is composed of several key components, each playing a crucial role in its operation and functionality. Here's a detailed breakdown of the main parts of a wheel loader:
1. Engine
Function: Provides power and is the core power source of the loader, typically a diesel engine.
Features: High-horsepower engines ensure sufficient power output for heavy-load operations.
2. Transmission
Function: Transfers the engine's power to the wheels and controls the vehicle's driving speed and torque output.
Features: Automatic or semi-automatic transmissions are commonly used for optimal power distribution under different working conditions.
3. Drive Axle
Function: Connects the wheels with the transmission and transmits power to the wheels.
Features: Designed to handle heavy loads, often including differential locks and limited-slip functions for improved traction.
4. Hydraulic System
Function: Controls the movement of the bucket, boom, and other parts.
Key Components:
Hydraulic Pump: Generates hydraulic oil pressure.
Hydraulic Cylinder: Drives the rise, fall, tilt, and other movements of the boom and bucket.
Hydraulic Valves: Control the flow of hydraulic oil.
Features: High-pressure hydraulic systems ensure precise and efficient operation.
5. Bucket
Function: Core working device for loading, carrying, and unloading materials.
Features: Available in various types, including standard, side-dumping, and rock buckets.
6. Boom
Function: Connects the bucket to the vehicle body and performs lifting and pressing operations through the hydraulic system.
Features: Typically a two-stage design for sufficient lifting height and arm span.
7. Cab
Function: Provides a comfortable and safe working environment for the operator.
Features: Equipped with control devices, air conditioning, seat shock absorption, and wide field of vision.
8. Frame
Function: Provides structural support for the wheel loader.
Features: Made of high-strength steel, with good torsion resistance.
9. Wheels and Tires
Function: Support the vehicle's weight and enable travel on various terrains.
Features: Wide pneumatic tires with various options based on operating environment.
10. Braking System
Function: Provides braking function for safe parking and deceleration under load.
Features: Hydraulic or pneumatic braking systems, including service and parking brakes.
11. Steering System
Function: Controls the direction of the loader for flexible movement.
Features: Articulated steering for flexibility in narrow spaces.
12. Electrical System
Function: Provides power for lighting, instrumentation, and electronic control.
Key Components: Battery, generator, controller, lights, and instrument panel.
13. Cooling System
Function: Dissipates heat for the engine and hydraulic system.
Components: Cooling fan, water tank, and hydraulic oil radiator.
14. Attachments
Function: Provides multi-functional uses, such as excavation, compaction, and snow removal.
Common Attachments: Forks, grabs, snow removal shovels, and breaker hammers.
These components work together to enable the wheel loader to perform efficiently under various working conditions, making it a versatile and powerful machine for material handling, loading, and transportation.
what is wheel loader scales
Definition:
A wheel loader scale, also known as an onboard weighing system, is a device installed on a wheel loader to accurately measure the weight of materials being loaded or carried. These scales use advanced technology to provide real-time weight measurements, ensuring precise material handling and efficient operations.
How Wheel Loader Scales Work
Real-Time Weighing: Wheel loader scales measure the weight of the material in the bucket during the lifting process, eliminating the need for separate weighing.
Integration with Loaders: These scales integrate into the loader's hydraulic system, using sensors to gauge pressure and convert it into weight readings.
Display and Data Recording: Weight data is displayed on a monitor inside the loader's cabin and can be recorded for inventory management, billing, or compliance reporting.
Applications
Construction: Ensures trucks are optimally loaded for transporting materials, improving efficiency and reducing overloading.
Mining: Measures the output of extracted materials, aiding in inventory management and production planning.
Agriculture: Weighs crop yields and inputs like fertilizers, optimizing farming processes.
Waste Management: Weighs waste materials during collection and disposal, ensuring compliance with regulations.
Benefits
Increased Efficiency: Reduces waiting times and congestion, enhancing overall productivity.
Safety and Compliance: Prevents overloading of vehicles, promoting road safety and compliance with weight regulations.
Cost Savings: Minimizes material wastage and optimizes resource utilization.
Data Management: Provides accurate weight data for real-time inventory management and billing.
Types of Wheel Loader Scales
Hydraulic Pressure Based: Measures hydraulic pressure in the loader's lift system.
Load Cell Based: Uses load cells placed at different points to measure weight.
Bucket Sensor Based: Sensors in the bucket measure weight based on strain or pressure.
Conclusion
Wheel loader scales are essential tools for industries requiring precise material handling. They enhance efficiency, ensure safety, and provide valuable data for management and compliance. Whether in construction, mining, agriculture, or waste management, these scales offer significant benefits for modern operations.
