The present disclosure relates mining shovels, and specifically to housing configurations for electrical components of mining shovels.
Existing electric mining shovels may have a main drive transformer configured to convert a high voltage input to a relatively lower voltage output to be supplied to the main motion drives of the shovel. Electric mining shovels may also have an auxiliary transformer that is used to convert a high voltage input to a relatively lower output voltage for use on multiple secondary applications.
The main drive transformer and the auxiliary transformer are typically positioned on the deck of the shovel in vented cabinets. Other electrical components, such as loadbreak switches (e.g., VERSARUPTER switches) for the main and auxiliary transformers, vacuum contactors for the main transformer, current transformers, potential transformers, fuses, lightning arrestors, power monitoring hardware, arc flash sensors, and anti-condensation heaters, are typically housed in a separate medium voltage (“MV”) switchgear cabinet.
The transformers and the components in the MV switchgear cabinet are all independently wired together in the field when the mining shovel is erected. This requires time, expense, and additional logistical planning. In addition, because service clearance is required around both transformers and the MV switchgear cabinet, a significant amount of deck space is required. Furthermore, if one of these components fails in service, the entire unit is typically replaced, which requires substantial disassembly to gain access to the particular component. Finally, the electrical components in the MV switchgear cabinet, the main transformer, and the auxiliary transformer each require anti-condensation heaters and cooling means, resulting in duplication of components.
The disclosure provides, in one aspect, a mobile mining machine including a base with a deck and a counterweight box, a hoist drum supported on the deck, a motor drivably coupled to the hoist drum, a main transformer configured to supply power to the motor, an auxiliary transformer, and an electrical room coupled to the base. The main transformer and the auxiliary transformer are enclosed within the electrical room.
The disclosure provides, in another aspect, a mobile mining machine including a base with a deck and a counterweight box, a main housing coupled to the deck, an electrical room including a plurality of walls and a roof, a transformer positioned inside the electrical room, and a loadbreak switch associated with the transformer and positioned inside the electrical room.
The disclosure provides, in another aspect, an electrical room for a mobile mining machine. The electrical room includes a plurality of side walls, a roof interconnected with the plurality of side walls, a main transformer disposed within the electrical room and configured to supply power to a first plurality of external loads, an auxiliary transformer disposed within the electrical room and configured to supply power to a second plurality of external loads, and a plurality of loadbreak switches disposed within the electrical room. The electrical room contains a plurality of unguarded electrical connections.
Other aspects of the disclosure will become apparent by consideration of the detailed description and accompanying drawings.
Before any embodiments of the disclosure are explained in detail, it is to be understood that the disclosure is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the following drawings. The disclosure is capable of other embodiments and of being practiced or of being carried out in various ways.
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In the illustrated embodiment, the electrical room or medium voltage (“MV”) room 100 is located on the counterweight box 44, adjacent a rear wall 56 of the main housing 38. In some embodiments, the MV room 100 is welded to the counterweight box 44. Alternatively, the MV room 100 may be bolted to the counterweight box 44, or fastened to the counterweight box 44 in a variety of other ways. In other embodiments, the MV room 100 may be positioned elsewhere on the deck 42.
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In the illustrated embodiment, the roof 110 includes a removable panel section 113 (
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The main transformer 112 may supply electric power to the hoist motors 74, 78, the swing motors 80, 82, and/or the propel motors for the tracks 34. The auxiliary transformer 114 may supply electric power to various systems and components of the mining shovel 10, such as the compressor 70, air filtration assembly 66, motor blowers, house heaters, welders, lights, controls, and the like.
The main transformer 112 is configured to convert a first high voltage input (e.g., between about 3000 Volts (V) and about 22,000 V at between about 1 Mega Volt-Amp (MVA) and about 4 MVA in some embodiments) to a relatively lower voltage output (e.g., between about 480 V and about 690 V in some embodiments) to be supplied to the motors 74, 78, 80, 82. The auxiliary transformer 114 is configured to convert a second high voltage input (e.g., between about 3000 V and about 22,000 V at between about 200 Kilo Volt-Amps (KVA) and about 500 KVA) to a relatively lower output voltage (e.g., about 460 V, 415 V, 380 V, 240 V, 220 V, 208 V, or less, or between about 120 V and about 460 V) for use on multiple secondary applications. The high voltage inputs and the lower voltage outputs are AC voltages in the illustrated embodiment, with a frequency of 50 hertz in some embodiments, or 60 hertz in other embodiments. In some embodiments, the first high voltage input and the second high voltage input may be the same.
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Because the medium voltage components are consolidated, the MV room 100 can advantageously be preassembled as a module in a factory environment. The illustrated MV room 100 includes lifting brackets 146 or other lifting provisions to facilitate moving the MV room 100 as a unit into position on the main body 14 of the shovel 10 during assembly (e.g., using a crane or hoist). In addition, the MV room 100 advantageously simplifies wiring (e.g., external bus bars and wiring between cabinets can be eliminated), and wiring in the field during assembly of the shovel 10 is minimized. This results in substantial time and cost savings. In addition, the MV room 100 is relatively compact, allowing the size of the main housing 38 to be reduced. For example, the main housing 38 of the shovel 10 may be at least twenty percent smaller than that of a typical comparable electric shovel. In some embodiments, the main housing 38 of the shovel 10 may be at least thirty percent smaller than that of a typical comparable electric shovel. This too results in substantial cost savings.
The illustrated MV room 100 has two access doors 120, 122 (
For example, in some embodiments, an interlock key may be provided in a substation that supplies the high voltage power to the shovel 10. The key is retrievable only when the high voltage power to the shovel 10 is shut off at the substation. An operator can then bring the key to the MV room 100 and insert it into the interlock 150 on one of the access doors 120, 122 to permit entry through the access doors 120, 122.
In some embodiments, an emergency escape override 154 may be provided on the inner side of one or both of the access doors 120, 122 (
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Thus, the disclosure provides, in one aspect, a mining shovel that includes a main transformer 112, an auxiliary transformer 114, and medium voltage switchgear all located in a combined MV room 100. By consolidating all medium voltage components into one room, the MV room 100 can thus be preassembled as a module. Wiring is simplified (e.g., external bus bars and wiring between cabinets can be eliminated), deck space is opened up, and the need for individual housings over the MV components is eliminated. The combined MV room 100 can also offer consolidation of duplicate components such as cabinet heaters, thermostats and arc flash sensors.
The MV room 100 may further provide improved safety because all components are contained within a room that has controlled access through KIRK key interlock, compared with bolt-on panels. Because all wiring inside of the MV room 100 may be isolated with a KIRK key type lock that assures the room has no power when entering, the safety of the room is improved over current transformer cabinets, which could simply be unbolted for access.
In addition, because access to the MV room 100 is controlled, the transformers 112, 114 and the other medium voltage components positioned inside the MV room 100 can be connected with unguarded electrical connections. That is, the electrical connections are not encased in insulators, enclosed in separate cabinets, or the like. As such servicing and maintaining the medium voltage components is simplified.
The consolidated MV room 100 may also be thermostatically controlled with the use of a heater 137, exhaust fans 140 and intake fans 141, which maintain appropriate room and component temperatures. The MV room 100 may have a removable roof panel 113 which can allow easy access to replace major items such as the main or auxiliary transformer 112, 114 without disrupting any components inside the main housing 38.
The MV room 100 may also allow direct integration of disconnect and power distribution for 208-460V breaker panels or panelboards 138 by directly attaching them to the front wall 102 of the room 100. This eliminates additional fuses or breakers due to the immediate proximity of the panelboards 138 to the auxiliary transformer 114. The panelboards 138 may also be pre-wired in the factory directly to the auxiliary transformer 114, eliminating some field wiring.
Another benefit of the disclosed MV room 100 is removing some electrical components from inside the main housing 38 to outside the main housing 38. This reduces the temperature inside the main housing 38, thereby increasing the reliability of all equipment operating in the main housing 38, particularly in hot climates. The main housing 38 may also be made significantly shorter, since it does not need to accommodate the MV components.
Although the disclosure has been described in detail with reference to certain preferred embodiments, variations and modifications exist within the scope and spirit of one or more independent aspects of the disclosure as described.
Various features of the disclosure are set forth in the following claims.
This application claims priority to co-pending U.S. Provisional Patent Application No. 62/660,660 filed Apr. 20, 2018, the entire content of which is incorporated herein by reference.
Number | Date | Country | |
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62660660 | Apr 2018 | US |