Case 580SM 4WD RC Ext*, 2004 Technical Specifications
| SideShift or CenterMount | SS |
| SAE dig depth (mm) | 5420 |
| Reach @ ground level (mm) | 6530 |
| Loading height (mm) | 4190 |
| Bucket width, min-max (mm) | 300-900 |
| Bucket breakout (kgf) | 5720 |
| Dipper breakout (kgf) | 3305 |
| Slew System | Twin ram |
| Loader Bucket Capacity (m3) | 1 |
| Dump height (mm) | 2780 |
| Bucket width (mm) | 2360 |
| Bucket breakout (kgf) | 4820 |
| Engine Make & Model | Case4T-390 |
| Engine power (kW@rpm) | 66@2200 |
| Engine displacement (lit) | 3.9 |
| Number of cylinders | 4 |
| Pump type | Gear |
| Pump flow (lit/min) | 144 |
| 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) | Std |
| Travel length (mm) | 5580 |
| Travel height (mm) | 3420 |
| Width (mm) | 2360 |
| Turn circle radius without brakes (mm) | 3980 |
| Operating weight (kg) | 7420 |
| Model | 580SM 4WD RC Ext* |
Introduction
The Case 580SM 4WD RC Ext* is a heavy-duty construction equipment that is designed to handle tough jobs in the most challenging terrains. It is a versatile machine that comes with a range of features and specifications that make it suitable for digging, and loading and carrying materials. In this article, we will analyze the advantages and disadvantages of the relevant features and specifications of the Case 580SM 4WD RC Ext*.
Advantages of SideShift or CenterMount
The Case 580SM 4WD RC Ext* comes with SideShift or CenterMount option, which allows for easy maneuverability. The SideShift option is suitable for working in confined spaces, while the CenterMount option is ideal for working on uneven terrains. This feature provides the operator with enhanced productivity, safety, and comfort.
For example, a construction company working on a project in a densely populated area can benefit from the SideShift option. The compact design of the machine allows for easy navigation through narrow streets and tight spaces, avoiding potential accidents and reducing the risk of property damage.
On the other hand, for a construction project located in rough terrains, the CenterMount option can be advantageous. The machine’s stability is enhanced, allowing for safe and reliable transportation of heavy materials. Additionally, it reduces the risk of machine failure due to harsh environments, thereby improving the longevity of the equipment.
Disadvantages of SideShift or CenterMount
The SideShift or CenterMount options of the Case 580SM 4WD RC Ext* can result in decreased stability when working on uneven terrains. The machine may tip over, especially when the weight of the load is not adequately balanced. This can lead to accidents, injuries, and property damage.
Moreover, the SideShift or CenterMount options may increase the overall cost of the machine. The additional features may require maintenance, repair, and replacement, which can add up to the overall cost of ownership.
Advantages of SAE dig depth
The SAE dig depth of the Case 580SM 4WD RC Ext* is 5420 mm, which is suitable for digging deep trenches, foundations, and other excavation related tasks. This feature allows for efficient and precise digging, resulting in accurate shaping of the excavation while minimizing the possibility of overdigging or hitting underground utilities.
The SAE dig depth can be beneficial for a construction company working on a project that requires the excavation of deep foundations or trenches. The enhanced precision and accuracy provided by the SAE dig depth can result in a safer and more productive job environment.
Disadvantages of SAE dig depth
The SAE dig depth of the Case 580SM 4WD RC Ext* may require advanced training to operate effectively. The deep excavation can be dangerous, and the operator must be adequately trained to ensure safe operation of the machine.
Moreover, the SAE dig depth may not be useful for projects that require shallow excavation. The machine’s ability to dig deep trenches may not be necessary in some situations, which can result in decreased efficiency and increased fuel consumption.
Advantages of Reach @ ground level
The Case 580SM 4WD RC Ext* has a reach of 6530 mm at ground level, which is suitable for loading and unloading materials from a truck, accessing elevated areas, and reaching over obstacles. The reach allows for better accessibility in areas with tight spaces and obstacles.
For example, a construction company working on a project where the material storage area is located in a tight space can benefit from the reach of the Case 580SM 4WD RC Ext*. The machine’s extended arm allows for easy access to the storage space, reducing the time and effort required for manual labor.
Disadvantages of Reach @ ground level
The reach of the Case 580SM 4WD RC Ext* can pose a safety risk when not operated properly. The extended reach can destabilize the machine, especially when loading or unloading materials from a truck. It can lead to accidents, injuries, and property damage.
Additionally, the reach may not be necessary for projects that require minimal loading and unloading activities. The additional cost of the extended arm may not be justified for projects with lower loading and unloading requirements.
Advantages of Loading height
The loading height of the Case 580SM 4WD RC Ext* is 4190 mm, which is suitable for loading and unloading materials from a truck or a container. The height allows for efficient and safe loading and unloading of materials without the need for additional equipment.
For example, a construction company working on a project that requires frequent loading and unloading of materials can benefit from the loading height of the Case 580SM 4WD RC Ext*. The machine’s ability to reach higher heights reduces the need for additional machinery, reducing the overall cost of the project.
Disadvantages of Loading height
The loading height of the Case 580SM 4WD RC Ext* can pose a safety risk when not operated properly. The high loading height can destabilize the machine, especially when carrying heavy loads. It can lead to accidents, injuries, and property damage.
Moreover, the loading height may not be necessary for projects that require minimal loading and unloading activities. The additional cost of the high loading height may not be justified for projects with lower loading and unloading requirements.
Advantages of Bucket width, min-max
The bucket width of the Case 580SM 4WD RC Ext* ranges from 300-900 mm, which is suitable for various excavation tasks. The adjustable bucket width allows for easy customization of the machine, depending on the project requirements.
The bucket width can be beneficial for a construction company working on a project that requires excavation of different trench sizes. The adjustable bucket width allows for efficient and precise excavation, resulting in accurate shaping of the excavation while minimizing the possibility of overdigging.
Disadvantages of Bucket width, min-max
The bucket width of the Case 580SM 4WD RC Ext* may require additional maintenance, repair, and replacement, which can add up to the overall cost of ownership. The adjustable bucket width may result in additional wear and tear, reducing the machine’s longevity.
Additionally, the bucket width may not be necessary for projects that require a standard excavation size. The additional cost of the adjustable bucket width may not be justified for projects with consistent excavation requirements.
Advantages of Bucket and Dipper breakout
The bucket and dipper breakout of the Case 580SM 4WD RC Ext* are 5720 kgf and 3305 kgf, respectively. These features allow for efficient excavation of materials that require higher digging force.
For example, a construction company working on a project that requires excavation of hard soil or rocks can benefit from the bucket and dipper breakout of the Case 580SM 4WD RC Ext*. The enhanced digging force allows for efficient excavation of challenging materials, resulting in faster completion of the project.
Disadvantages of Bucket and Dipper breakout
The bucket and dipper breakout of the Case 580SM 4WD RC Ext* may require advanced training to operate effectively. The increased digging force can be dangerous, and the operator must be adequately trained to ensure the safe operation of the machine.
Moreover, the bucket and dipper breakout may not be necessary for projects that require minimal excavation of challenging materials. The additional cost of the enhanced digging force may not be justified for
