Case 580LE 4WD, 1999 Technical Specifications
| SideShift or CenterMount | SS |
| SAE dig depth (mm) | 4360 |
| Reach @ ground level (mm) | 5440 |
| Loading height (mm) | 3390 |
| Bucket width, min-max (mm) | 300-900 |
| Bucket breakout (kgf) | 4975 |
| Dipper breakout (kgf) | 3195 |
| Slew System | Twin ram |
| Loader Bucket Capacity (m3) | 1 |
| Dump height (mm) | 2960 |
| Bucket width (mm) | 2360 |
| Bucket breakout (kgf) | 4670 |
| Engine Make & Model | Case4-390 |
| Engine power (kW@rpm) | 54@2200 |
| Engine displacement (lit) | 3.9 |
| Number of cylinders | 4 |
| Pump type | Gear |
| Pump flow (lit/min) | 108 |
| Relief valve pressure (bar) | 210 |
| Transmission type | P’Shuttle, TC |
| Drive | 4WD |
| Speeds, FR | 44 |
| Maximum speed (km/h) | 34.5 |
| Ride control (Std/Opt/NA) | — |
| Travel length (mm) | 5640 |
| Travel height (mm) | 3340 |
| Width (mm) | 2360 |
| Turn circle radius without brakes (mm) | 10220 |
| Operating weight (kg) | 7420 |
| Model | 580LE 4WD |
Overview
The Case 580LE 4WD is a versatile and powerful backhoe loader with an array of features and specifications that make it useful for a variety of applications. However, like any piece of heavy equipment, the 580LE has both its advantages and disadvantages. In this article, we will analyze the key features and specifications of the 580LE 4WD and assess both the benefits and drawbacks of this powerful machine.
Sideshift or Centermount
The first specification to consider is the sideshift or centermount feature of the 580LE 4WD. This feature allows the operator to shift the backhoe from side to side, making it easier to line up with the digging site. The sideshift feature is a popular choice for operators who need to dig in tight spaces or work in areas with limited access.
Advantages:
– Allows for increased precision when digging in tight spaces
– Improves operator ergonomics by reducing the need for frequent repositioning
– Increases efficiency by reducing the need to move the machine to find the ideal digging position
Disadvantages:
– Increases the complexity of the machine, which can lead to maintenance issues
– Adds an additional feature that can be difficult for inexperienced operators to use effectively
– Adds cost to the machine that may not be necessary for all applications
Example: A construction crew is digging a trench along a busy city street. They need to be precise with their digging to avoid damaging underground utilities and minimize the amount of time the street is closed. Using the sideshift feature on the 580LE backhoe, the operator is able to make small adjustments to the digging angle and avoid damaging any underground utilities.
SAE Dig Depth (mm)
The SAE dig depth is a specification that refers to the distance from the surface to the maximum depth the backhoe can dig. In the case of the 580LE 4WD, this distance is 4360mm.
Advantages:
– Provides a deep digging capability that is useful for a wide range of applications, including foundation excavation and utility installation
– Increases efficiency and productivity by reducing the need for multiple passes or additional digging equipment
– Can save time and money by reducing the need for manual digging
Disadvantages:
– The deeper the dig depth, the higher the risk of underground utility damage
– Inexperienced operators may struggle to manage and control the bucket at maximum digging depth, leading to safety issues
– Deep digging can disturb the soil structure and lead to soil instability in certain environments
Example: A landscaping crew is installing a large water feature in a yard with uneven terrain. Using the 580LE’s dig depth, they are able to excavate a deep enough hole to accommodate the water feature and create a stable foundation.
Reach @ Ground Level (mm)
The reach at ground level specification refers to the distance from the center of the machine to the outer edge of the digging equipment when the machine is on a flat surface. In the case of the 580LE 4WD, this distance is 5440mm.
Advantages:
– Provides a wide digging area that allows for increased productivity
– Reduces the need to reposition the machine frequently, which saves time and money
– The wide reach makes it easier to dig trenches or holes near walls or other obstructions
Disadvantages:
– The wide reach can make the machine more difficult to maneuver in cramped spaces
– Increases the risk of hitting underground utilities or other obstructions
– Can be more challenging for inexperienced operators to control effectively
Example: A contractor is installing new irrigation lines in a large park. Using the 580LE’s reach, they are able to dig trenches efficiently and avoid damaging any of the park’s existing features.
Loading Height (mm)
The loading height specification refers to the maximum height the machine can lift loads to. In the case of the 580LE 4WD, this height is 3390mm.
Advantages:
– Increases the range of materials and equipment the machine can transport
– Reduces the need for additional equipment, such as cranes or loaders, to load and unload materials
– Can improve safety by reducing the need for manual lifting
Disadvantages:
– Higher loading height can increase the risk of tipping or rollovers
– Can make the machine more difficult to control, especially in windy conditions
– May not be necessary for all applications, adding unnecessary cost to the machine
Example: A construction crew is building a new office complex and needs to transport large amounts of building materials to the site. With a loading height of 3390mm, the 580LE backhoe loader is able to efficiently load and unload materials without the need for additional equipment.
Bucket Width, Min-Max (mm)
The bucket width specification refers to the distance between the outer edges of the bucket when it is fully extended. In the case of the 580LE 4WD, this distance ranges from 300mm to 900mm.
Advantages:
– Provides a range of bucket sizes to accommodate a wide range of applications
– Allows for increased precision and accuracy when digging in tight spaces or around obstacles
– Reduces the need for multiple machines or attachments, saving time and money
Disadvantages:
– Multiple bucket sizes can increase the complexity of the machine and lead to maintenance issues
– Can be difficult for inexperienced operators to choose the appropriate bucket size for a given task
– Multiple bucket sizes can add cost to the machine that may not be necessary for all applications
Example: A road repair crew needs to remove a section of asphalt in a busy intersection. Using the 580LE’s smallest bucket width, they are able to precisely remove the necessary section of asphalt without damaging surrounding areas or underground utilities.
Bucket Breakout (kgf)
The bucket breakout specification refers to the amount of force that the bucket can exert when digging. In the case of the 580LE 4WD, the bucket breakout force is 4975kgf.
Advantages:
– Provides a powerful digging capability that can easily break through hard surfaces, such as asphalt or concrete
– Increases productivity by reducing the time required to dig a given volume of material
– Can save time and money by reducing the need for manual digging
Disadvantages:
– The high breakout force can increase the risk of damaging underground utilities or other obstructions
– Inexperienced operators may struggle to control the bucket effectively, leading to safety issues
– High breakout forces can increase wear and tear on the machine, leading to maintenance issues
Example: A crew is installing new fencing around an industrial facility. Using the 580LE’s bucket breakout force, they are able to dig holes for the fence posts quickly and efficiently, even through tough soil and rocky ground.
Dipper Breakout (kgf)
The dipper breakout specification refers to the amount of force that the dipper (the arm that connects the backhoe to the bucket) can exert when digging. In the case of the 580LE 4WD, the dipper breakout force is 3195kgf.
Advantages:
– Provides a powerful digging capability that can easily break through hard surfaces, such as asphalt or concrete
– Increases productivity by reducing the time required to dig a given volume of material
– Can save time and money by reducing the need for manual digging
Disadvantages:
– The high breakout force can increase the risk of damaging underground utilities or other obstructions
– Inexperienced operators may struggle to control the dipper effectively, leading to safety issues
– High breakout forces can increase wear and tear on the machine, leading
