The EL3000 shearer has been developed for medium to high seams to meet the requirements of the most demanding longwall installations in the world. World-class performance has demonstrated the practical capabilities of this machine. The EL3000 provides a production capacity of over 5000 tonnes per hour (5,511 tons per hour), featuring heavy-duty, high mass for maximum stability and reliability in the most demanding applications.
Seam Range | 2.5-5.6 m @ 50 Hz (98-220 in @ 60 Hz) |
Haulage Power | 2 × 150 kW @ 50 Hz (2 × 240 hp @ 60 Hz) |
Cutting Power | 2 × 620 kW @ 50 Hz (2 × 998 hp @ 60 Hz), 2 × 750 kW @ 50 Hz (2 × 1,207 hp @ 60 Hz), 2 × 860 kW @ 50 Hz (2 × 1,380 hp @ 60 Hz) |
Seam Range | 2.5-5.6 m @ 50 Hz (98-220 in @ 60 Hz) |
Haulage Power | 2 × 150 kW @ 50 Hz (2 × 240 hp @ 60 Hz) |
Cutting Power | 2 × 620 kW @ 50 Hz (2 × 998 hp @ 60 Hz), 2 × 750 kW @ 50 Hz (2 × 1,207 hp @ 60 Hz), 2 × 860 kW @ 50 Hz (2 × 1,380 hp @ 60 Hz) |
Coal Sizer | — |
Haulage Pull | Up to 1079 kN @ 50 Hz (Up to 110 tons @ 60 Hz) |
Pump Motor | — |
Typical Machine Length | — |
Installed Power | — |
Haulage System | AC inverter drive |
Machine Weight - Approximate | — |
Applicable Minimum Pan Width | — |
Haulage Speed | Up to 30.11 m/min @ 50 Hz (Up to 98.8 ft/min @ 60 Hz) |
Operating Voltage | 3300V @ 50 Hz, 4160V @ 60 Hz |
Haulage Power | 2 × 150 kW @ 50 Hz (2 × 240 hp @ 60 Hz) |
Maximum Installed Power | 2295 kW @ 50 Hz (3,680 hp @ 60 Hz) |
Maximum Cutting Power | 2 × 860 kW @ 50 Hz (2 × 1,380 hp @ 60 Hz) |
Machine @ 50 Hz - Haulage Speed | Up to 30.11 m/min |
Machine @ 50 Hz - Cutting Drum Speed: RA860 | 32.8, 37.4 and 45.2 rpm |
Machine @ 60 Hz - Haulage Speed | Up to 98.8 ft/min |
Machine @ 50 Hz - Operating Voltage | 3,300V |
Machine @ 60 Hz - Cutting Drum Speed: RA860 | 37, 42 and 51.6 rpm |
Machine @ 50 Hz - Haulage System | AC inverter drive |
Machine @ 50 Hz - Typical Machine Length (drum centers) | 15 200 mm |
Machine @ 50 Hz - Coal Sizer | 200 kW |
Machine @ 60 Hz - Cutting Drum Diameter: RA750 | Up to 106 in |
Machine @ 60 Hz - Coal Sizer | 270 hp |
Machine @ 50 Hz - Installed Power | Up to 2295 kW |
Machine @ 60 Hz - Typical Machine Length (drum centers) | 49.9 ft |
Machine @ 60 Hz - Haulage Pull | Up to 110 tons |
Machine @ 50 Hz - Haulage Pull | Up to 1079 kN |
Machine @ 60 Hz - Haulage System | AC inverter drive |
Machine @ 60 Hz - Operating Voltage | 4,160V |
Machine @ 60 Hz - Installed Power | Up to 3,680 hp |
Machine @ 50 Hz - Machine Weight (approximate) | 105 tonnes |
Machine @ 60 Hz - Cutting Drum Speed: RA750 | 39.4, 44.9 and 54.3 rpm |
Machine @ 50 Hz - Body Height | 685 mm |
Machine @ 60 Hz - Machine Weight (approximate) | 116 tons |
Machine @ 60 Hz - Minimum Pan Width | 44.6 in |
Machine @ 60 Hz - Seam Range | 98-220 in |
Machine @ 50 Hz - Cutting Drum Diameter: RA860 | Up to 3200 mm |
Machine @ 50 Hz - Cutting Drum Diameter: RA750 | Up to 2700 mm |
Machine @ 50 Hz - Seam Range | 2.5-5.6 m |
Machine @ 50 Hz - Cutting Drum Speed: RA750 | 30.8, 35 and 43 rpm |
Machine @ 50 Hz - Pump Motor | 75 kW |
Machine @ 60 Hz - Cutting Drum Diameter: RA860 | Up to 126 in |
Machine @ 50 Hz - Minimum Pan Width | 1132 mm |
Machine @ 60 Hz - Pump Motor | 100 hp |
Body Thickness | — |
Body Thickness | — |
Your shearer is the most critical part of your longwall production process. That's why high-performance longwall operations demand shearers that deliver the highest productivity, availability and reliability. Cat shearers were always designed to meet these demands. But Caterpillar has taken them to the next level.
To do this, we invested heavily in refining our successful range of shearers. We started by reviewing and analyzing all more recent shearer installations and setting goals to improve productivity, availability and reliability. This was not a re‑design, but an evolution – keeping the best tried-and‑tested features of the existing design while using the latest findings from science and technology to improve features and add new ones.
With high-powered ranging arms and haulage units, Cat shearers cut and load up to 5000 tonnes (5,500 tons) per hour and more, depending on mining conditions. The unique, one-piece mainframe design offers maximum structural integrity and service life. The mainframe is available as a split unit in the event of transportation limitations. Featuring the superior Jumbotrack shearer haulage system, the shearer also offers advanced integrated automation and communication options.
The unique mainframe of the Cat shearer is one of its key features. The fabricated structure of the mainframe with cast ranging-arm hinge points results in an extremely robust design not only to meet the toughest mining conditions and ensure reliability and long service life, but also to handle even higher cutting and haulage forces in the future. The mainframe of the EL3000 is designed to allow retrofit of 1200 kW (1,930 hp) ranging arms and 200 kW (320 hp) haulage units. A split mainframe is available in case of transportation limitations.
The patent-pending Trapping Shoe Ix continues the Caterpillar principle of designing products with separate structural and wear parts to allow quick and easy replacement of surfaces subject to wear. The new design cuts the weight that has to be handled during replacement from more than 500 kg to less than 50 kg per insert, and cuts the time required for exchange to a fraction of the previous time. Because the weight handled is so much lower, changeout can take place anywhere along the face – previously this work had to be done at the gate ends, where heavy lifting equipment was available.
The inserts have the same wear area as conventional shoes and are articulated. This – combined with the fact that the shoe does not have to exert as much pressure, resulting in a lower point load – means less wear. Field tests of the Trapping Shoe Ix showed its service life to be 50 percent longer than conventional trapping shoes.
The safety factor for the ranging arm has been further increased. Gear rating, bearing life and redundancy have also been increased, leading to longer overhaul intervals based on typical usage.
Cat shearers can be supplied with an optional rugged coal sizer, currently with up to 200 kW (320 hp) of installed power for maximum productivity in high seams or difficult mining conditions. The coal sizer can be ordered separately for installation during rebuild or overhaul.
The power pack has been re-engineered to provide increased functionality, optimized performance and better access to filtration units via simplified layout. Both of the following units are modular, with drawer units providing easy access and upgrade.
Downtime is extremely expensive for operators – costs continue to add up while nothing is produced. This is why Caterpillar ensures that our superbly engineered shearers are up to the job. That's why each shearer design – which is optimized for maximum availability – is subjected to rigorous in-house testing to ensure that there are no unpleasant surprises when units are in service. Shearer production quality assurance falls into three main categories: lubrication verification, endurance block load testing and production load testing.
Ranging arms and haulage units are subjected to an intense test regime to establish the optimum oil-level requirements to suit all mining conditions. The units are mounted on purpose-designed test rigs that are positioned to simulate the gradient of the underground seam. A suite of tests is performed with a range of different gradients and arm positions to represent even the most severe mining conditions. The units are operated until stable temperatures are achieved at all gradients. This establishes the minimum, maximum and optimum oil quantities for all conditions.
This test applies loads far in excess of those encountered during normal mining operations, ensuring that the shearer can operate reliably at the installed power ratings. Ranging arms or haulage units are mounted on purpose-designed test rigs in a back-to-back configuration driven by a suitable test motor. The endurance block load test imposes loads from 100% to 175% to ensure that the ranging arm design meets the requirements of the most demanding applications. Input torque, losses and output torque are monitored during the test, as are bearing, gear and shaft temperatures. Vibration is monitored by dedicated sensors. Oil samples are collected at intervals for analysis, as the presence of metal in the oil can indicate excessive component wear. On completion of the endurance test, units are dismantled for a full internal and external inspection to verify that the design is fit for purpose.
After successful endurance block load testing, the same test rigs are used to carry out production load testing of all ranging arms and haulage units. The test gradually increases the load up to full load. All temperatures and vibration points are monitored during the test, and oil samples are again collected for analysis.
This extensive range of tests ensures the highest possible availability of shearers in service and maximum return on investment for your longwall installation. Nothing is left to chance in ensuring that our shearers are unsurpassed in reliability.
Caterpillar has developed a state-of-the-art distributed automation system for the control, monitoring and protection of the shearer. Its modular design allows it to be configured to meet individual control needs, from basic monitoring and protection to advanced automation and data transmission. The PMC™ Evo-S control system with state-of-the-art Ethernet communication and backup functionality allows the shearer to be operated even if the overall control system is not functioning. In 2002, State-Based Automation was invented and launched. Using this technology, Caterpillar now offers a comprehensive range of automation products.
With extensive computer power installed and simple upgrade to new features, Cat shearer automation is fit for the future. Components connect into the network rather than directly to a central computer, simplifying installation, wiring, maintenance and troubleshooting. The shearer is equipped with a state-of-the-art industry PC in a flame-proof housing with plenty of computing power, allowing flexibility to upgrade to future features such as condition monitoring.
A Programmable Logic Controller (PLC) takes care of basic machine control tasks, ensuring that coal is mined. Unlike competitor systems, the modularity of the longwall system and control allow the longwall to operate in “fault-tolerant” mode, even when there is a problem with the overall automation system. In other words, integrated automation does not prevent control via individual PLCs in order to keep production up and running.
The shearer control system uses a state-of-the-art Ethernet bus, resulting in a drastic reduction in wiring and a huge increase in flexibility. There are no interfacing problems, as equipment connected to the network only needs to be able to communicate via Internet Protocol. Commissioning, maintenance, upgrades and troubleshooting are much easier and faster, and equipment is self-configuring. The few cables that are used are standard Ethernet cables rather than application-specific cables – cutting costs and simplifying spare parts inventories.
Flameproof housings are no longer required, simplifying installation and speeding up maintenance. New modules are based on standardized CIOS™ modules (configurable input output system), resulting in a plug and play approach to upgrades. No reprogramming is necessary.
Remote control and diagnosis are also possible for all components. And because of the Ethernet-based approach, the failure of one component does not impact the whole system.
More components designed to be intrinsically safe means simpler installation and speedier maintenance. New modules are based on standardized CIOS™ modules, resulting in a plug and play approach to upgrades. Changes to the system only require commissioning changes – such as mounting and connection of sensors. No replacement of control software is required. Remote control and diagnosis are also possible for all components. And because of the Ethernet-based approach, the failure of one component does not impact the whole system. This not only supports the unique “fault- tolerant” mode, which allows the longwall to continue to operate when there is a problem with the overall automation system, but also, through systematic isolation, allows faulty units to be identified while production continues.
Visualization not only provides a graphical representation of current operating conditions, but can also display historical conditions and a graphic display of trends. An automated longwall is a highly complex system with many interacting components generating time-variant data. Visualization gives operators a better understanding of the overall system, allowing them to further optimize operations. VLongwall provides a system overview and access to the dedicated visualization modules VShield, VDrive, VPlow and VShearer. It also gives access to VTrend for trend analysis and VGraph3D for waterfall plots of the entire longwall.
PMC™ Evo-S brings state-of-the art processor performance underground. Designed by the market leader in shearer automation, the advanced Cat automation package allows improved utilization of manpower in a safe environment; with increased yield from any given seam section, faster haulage speeds, improved face management and increased life of all longwall equipment, including AFC and shields.
Modularity is a key feature of the Cat shearer. It results in independent major units, each driven by its own dedicated electric motor and housed within or attached to a robust mainframe unique to the Cat range. Control systems are also modular.
This modular design offers maximum availability – through “fault-tolerant” mode operation – and the flexibility to meet even the most demanding customer requirements by upgrading components such as the ranging arm.
The EL3000 shearer has been developed for medium to high seams to meet the requirements of the most demanding longwall installations in the world. World-class performance has demonstrated the practical capabilities of this machine. The EL3000 shearer mines seams of up to 5.50 m (216 in).
It offers 2 × 860 kW (1,150 hp) of cutting power combined with haulage motors of up to 2 × 150 kW (201 hp), with a 75 kW (100 hp) pump motor to provide a total installed power in excess of 2000 kW (2,681 hp) and a production capacity of over 5000 tonnes per hour (5,511 tons per hour). Some of the highest-producing longwall installations in the USA and Australia utilize Cat shearers.
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