Niche Machines for Narrow-Vein Mining
While the world’s major mines focus on bulk extraction, narrow-vein deposits demand a
different approach—and different equipment. E&MJ looks at some of the possibilities.
By Simon Walker, European Editor
The discovery of massive sulphide deposits, and gold plays such as the AJ near Juneau in Alaska—where block caving was invented—changed all that, with new stoping methods being developed to extract them. Throughout the 20 th century the focus tightened increasingly on higher-ton-nage, lower-grade deposits as economies of scale in mining and processing broadened the viability range for orebodies. Add to that the realization that the epithermal vein systems that had been worked in the past were merely a near-surface expression of larger bulk resources below, and it is easy to see why the emphasis shifted away from narrow-vein opportunities.
Nonetheless, smaller mines worldwide continued to run on a more selective basis, with the major manufacturers keeping them supplied with equipment that was suitable for their constricted mine infra-structure. Looking back to the late 1980s, Tamrock, Secoma, Atlas Copco and several other suppliers all had drill rigs that were designed specifically for small-scale development; Tamrock’s MiniMatic and Secoma’s Quasar were two examples of single-boom jumbos targeted at the small-mine market.
In addition, the introduction of rubber-tired jumbos to replace hand-held develop-ment drifters forced a re-think in terms of mucking technology. Tires and rails do not really mix in development headings, so small-capacity LHDs supplanted rail-mounted Eimco loaders and wagons.
The shift from pneumatic to hydraulic drilling also brought changes to the narrow-vein mining market, in that compressed-air ranges became less important within the mine infrastructure. Conversely, having more diesel-powered equipment in the close confines of a vein-mining system brought new ventilation challenges, while few nar-row-vein mines today rely solely on shaft access; diesel vehicles need ramp access, as well as underground service facilities.
The high gold price in recent years has led to a resurgence in interest in small, lim-ited-resource deposits that can be mined profitably using narrow-vein techniques. Lake Shore Gold’s Bell Creek mine, near Timmins, Ontario (Reviewed in the February edition of E&MJ, pp.28–34), is one such, with a tightly constrained ore zone that demands both small development equip-ment and close sub-level spacing for long-hole stope drilling. A 2-yd3 LHD takes bro-ken rock from the development ends and stopes to the transfer point on the main ramp, from where it is handled by larger loaders and mine trucks. And, even though the orebody appears to widen as it gets deeper, it is unlikely to warrant the use of much larger-scale equipment—apart from ramp haulage—for the foreseeable future.
Production Rigs for
Tight Spaces
According to the company’s global product
manager, John Nielson, Boart Longyear’s
StopeMaster and StopeMate rigs are ideal
for the tight and narrow spaces typically
seen in underground mining operations. As
a result, the company is seeing the demand for these rigs increase as operations move
underground. Each is specifically designed
for underground applications, Nielson
added, allowing for better access, mobility,
flexibility and productivity in tight spaces.
Boart Longyear notes that safety is one of its key concerns, with the StopeMaster and StopeMate rigs having been developed with heavy-duty hydraulic hoses to protect the driller from hose rupture, and guarding for protection from moving parts. Removing the operator from the immediate drilling area, the rigs can be controlled remotely from up to 25 m away. They also come equipped with emergency stop circuits to cut the power to the drill in the event of an incident.
Both the StopeMaster and the Stope-Mate are equipped with a pneumatic top-hammer production drill that features 360° rotation for greater flexibility, together with a rotating/pivoting traverse. This configura-tion ensures precision drilling in both par-allel and straight applications, and accu-rate operator control in drop-raise, cable-bolting, fan-drilling, ring-drilling and paral-lel-drilling applications, the company says.
Both rigs are skid-steer, mounted on four solid-tired wheels, with a four-wheel independent drive and braking system. With 30% gradeability, they can be used in quite steep applications. In use, both can also be operated in a minimum back height of 2.44 m (96 in.), while the StopeMate is small enough to fit through a 1.27 x 1.9-m (50 x 75-in.) opening.
Designed for bulk mining, the Stope-Master is capable of drilling 64- to 106-mm holes measuring up to 35 m deep while the smaller, more compact StopeMate can fit into a lift cage and drill 51- to 76-mm diameter holes at depths of 12–15 m. Both drills are offered in standard and HX ver-sions. The StopeMate HX features an added hydraulic positioner, and the StopeMaster HX features the same positioner as well as a self-propelled diesel option. The self-pro-pelled version can disengage gears in order to facilitate towing where required.
Compact Machines for
Narrow and Low Stopes
In January, Sandvik Mining announced an
order for 83 machines for Royal Bafokeng
Platinum’s new Styldrift mine in South
Africa. Scheduled for delivery during 2014,
the equipment consists mainly of low-profile
DD210-L drill rigs, LH208 LHDs, and the
mechanized low-profile roofbolter, the
DS210L-M. The company notes that the de-velopment contractor is also using DD210L
drill rigs for this stage of the project.
The DD210L is a single-boom jumbo designed to work in stopes as low as 1.6 m. Despite having a carrier height of just 1.3 m, it is easy to operate and main-tain as well as having a large boom cover-age, Sandvik says. An HLX5 hydraulic drill handles hole sizes from 43 to 64 mm (1 11 ⁄16–2½ in.)
Meanwhile, the Sandvik DD210-V is a compact narrow-vein single-boom electro-hydraulic drill rig designed for drilling in sections as narrow as 3.2 m (10 ft. 6 in.). It can be used for development, bolting and/or production drilling. Just 1.2 m wide and 1.85 m high with the canopy down for transport, it has a multi-purpose boom that give up to 27 m 2 of face coverage. A dou-ble rotation device allows the operator to position the drill feed vertically on both sides and close to the side walls.
For production drilling in small drifts, Sandvik offers its DL210 rig. Compact and flexible, this is suitable for various drilling applications, the company notes, being capable of drilling 51- to 64-mm (2- to 2½-in.) holes up to 20 m long. Its sister machine, the DL230, extends this range to 23 m (75 ft), being equipped with a boom that can drill parallel up- or down-holes and has a cable remote-control system for greater operator safety.
When it comes to loading out from nar-row spaces, Sandvik’s smallest diesel-engined LHD is the 0.7-yd 3 -capacity (1-mt-payload) LH201. Powered by a 33 kW (45 hp) Deutz engine, the machine has hydrostatic four-wheel drive. Its 3.65 mt operating weight means it is simpler to take underground than larger machines, while its length (4.6 m) and width (1.1 m) allow access to very narrow stopes and drifts.
Also suitable for narrow-vein applica-tions, the slightly larger LH203 has the best payload-to-own weight ratio in its class, Sandvik claims. With bucket options of between 2 and 2.3 yd 3, and up to 3.5 mt payload, the machine’s unique bucket-filling system means that it has an excellent bucket fill factor, Sandvik adds, while its low weight helps increase tire life and cut fuel consumption.
Sandvik designed the skid-steer DS110L bolting rig for operation in stope heights as low as 1.1 m.
Transferring Demolition
Technology
The Swedish manufacturer of compact
demolition equipment, Brokk, recently
introduced its new model 100 as the suc-cessor to one of its most widely used
machines. Although designed for use in
construction demolition where access
space is restricted, the machine can also
be adapted for use in narrow-vein mining
underground, the company said.
Weighing just 990 kg (2,200 lb) and capable of fitting through a 780-mm (31-in.)-wide opening, the Brokk 100 has a boom that can be equipped with a range of accessories. While its standard tool in demolition mode is a hydraulic breaker, such as Atlas Copco’s 55-kg SB152, it can also carry a rock drill or a bucket for mucking out headings. The maximum weight attachment is 150 kg (330 lb), according to Brokk—light in terms of other drilling or mucking systems, but still effective in sit-uations where narrow headings are needed to minimize dilution. There is also the potential for using a breaker, not only for scaling, but also for selective mining, espe-cially where high-grade ore is held in very narrow zones.
Brokk notes that although the 100 has good reach and power, it folds into a sur-prisingly compact package, and can be transported in a small truck or trailer. It is also small enough to fit into most mine cages, with only a power supply needed for it to be put to work. Brokk’s range now encompasses eight models, all of which are crawler-mounted, have a three-section articulated boom and are remote controlled for operator safety.
Specialized LHDs
The German company, Hermann Paus
Maschinenfabrik, reports that it can pro-vide individual solutions developed specif-ically for the demands of mining, with its
PFL series of LHDs having been used suc-cessfully in operations worldwide for many
years. The range includes small LHDs for
narrow-vein operations, which are also
designed for use at high altitudes.
The smaller and narrower the gallery, the smaller a machine needs to be in order to stay maneuverable, Paus said, although there still has to be enough room for com-ponents and, of course, the operator. The company added that it takes a lot of expe-rience to address these challenges without making too many compromises. Since there are standards to follow (which may be different for different markets), such as safety and a minimum space for the oper-ator, or exhaust gases that require after-treatment and produce additional heat, this becomes even more complicated.
However, with its PFL 8, Paus copes with all of these issues. With a 1.5-mt pay-load using a 0.8-m 3 bucket, the PFL 8 is one of the smallest underground loaders worldwide, although it is built strong enough to withstand tough conditions with poor roadway conditions. Paus points out that even though it is small in size, its 40-kW Deutz diesel engine gives enough power to perform properly, with a maxi-mum tramming speed of 11 km/h.
Paus is going to launch an electric-pow-ered LHD for narrow-vein mining at the bauma 2013 trade fair in April—the PFL 12e. The company’s general manager, Franz-Josef Paus, pointed out to E&MJ that electric LHDs will become increasing-ly common in narrow-vein operations, since they offer a number of advantages over diesel engines. Ventilation requirements is one factor, with electric LHDs being a real alternative where the tramming distance is less than 200 m. In addition, he said, maintenance costs are up to 20% lower than for diesel-powered LHDs, with electric LHDs being more cost-efficient in life-cycle terms than their diesel counterparts.
The 40-kW, hydrostatic-drive PFL 12e is equipped with a 120-m-capacity cable drum. With a 1.2-m3 bucket capacity, its payload is 2 mt, while it has a maximum tram speed of 12 km/h.
Paus states that both of these machines are maneuverable and compact, but with good operator comfort. All the controls are arranged clearly and are within close reach of the operator’s seat. Control is via two joy-sticks: one for the driving direction and gear shifting, and the other for the boom hydraulics. Both air- and water-cooled Tier 3-complaint engines are available, as are different bucket types, including a side-dump bucket, with optional quick-coupling hydraulics that allow various attachments to be interchanged in minutes.
While the PFL 8 is one of the smallest LHDs available today, it is built to withstand the rigors of narrow-vein operations.
Canadian-designed Drills
and LHDs
Within its product range, Ontario-based
Mining Technologies International (MTI)
supplies development and production jum-bos, LHDs and mine trucks that are suit-able for use in narrow-vein operations.
The company’s eight-model LHD range includes four diesel-engined machines that have capacities of less than 2.5 yd3 (1.9 m 3), equivalent to payloads of between 700 kg and 3.6 mt. The LT-70 is the small-est, with a 0.5-yd 3 bucket and a hydrostatic powertrain. MTI claims that the operator cab fitted to the LT-70 is the largest in this class of machine, while the long wheelbase gives better stability in rough underfoot conditions.
The company’s other small LHDs include the LT-210, LT-270 and LT-350, which carry 1–1.25-yd3, 1.5-yd 3 and 2.5-yd3 buckets respectively, with pay-loads of 2 mt, 2.7 mt and 3.6 mt. All of these feature a mechanical powertrain.
In terms of longer-distance haulage, MTI also has an eight-model mine truck portfo-lio, of which the DT-704 and DT-1604 would be best equipped for working in con-strained areas. The DT-704 has a 6.3-mt payload in a 3.3-m3(4.3-yd 3 ) body, while the larger DT-1604 carries 14.5 mt and has an 8-m 3(10.5-yd 3) body. The company can also supply low-profile and ejector-type dump bodies for use in restricted-height applications. All of its mine trucks are four-wheel-drive, with an all-mechanical power-train and load-sensing hydraulics.
Turning to drills, MTI’s Vein Runner II single-boom hydraulic rig is designed for drilling vertical, horizontal and angled holes in underground production headings. Equipped with a single hydraulic percussion drifter, it can be used to drill headings up to 5.5 x 5.1 m in size (18 ft by 16 ft 9 in.). Both Cummins and Deutz engines are available for moving the rig, which has a 107-m (250 ft)-capacity cable reel for the drilling power supply.
With an overall length of 10.7 m (35 ft 3 in.), the Vein Runner has an inside turning radius of 3.1 m (10 ft). Two boom options are available, giving different face-coverage possibilities, as well as three different feed lengths. The company uses Montabert hydraulic drifters on its machines.
Introduced in 2011, Atlas Copco’s Boomer M1 L drill rig is designed for use in low- to-medium-height operations. Its articulated carrier simplifies tramming in narrow headingsA
“To meet this need for small size equip-ment, Atlas Copco has a range of face drilling, long-hole drilling, bolting and loading and haulage equipment suitable for both types of orebody,” Bray said. “For the vertical type, some of the key machines are the Boomer T1 D face drill and Scooptram ST2 G loader, while for horizon-tal-type ore bodies, key machines include the Boomer M1 L, Scooptram ST7 LP loader and Minetruck MT2010 LP truck.”
The company launched the Boomer T1 D in 2010 as a replacement for the Boomer 104, which had been in produc-tion since the 1990s. Key features upgrad-ed on the T1 D included a stronger frame with a lower center of gravity, a more powerful engine, an improved boom-suspen-sion system to reduce stress on the machine, a more ergonomic operator’s cab and improved serviceability.
The single boom is designed to carry Atlas Copco’s COP 1638, COP 1838 or COP 2238 hydraulic rock drills, with a hydrauli-cally controlled drilling system that incorpo-rates the company’s Rotation Pressure Controlled Feed (RPCF) anti-jamming func-tion. The on-board compressor supplies 11.7 liter/s (25 cfm) at 7 bar (100 psi).
The Boomer M1 L, meanwhile, also car-ries either the COP 1638 or COP 1838 drills, but can operate in a minimum tram-ming height of 2.2 m (7 ft 3 in.). The machine uses the same compressor as the Boomer T1 D, with both rigs using hydro-static steering and transmission systems.
Asked how the technologies used have developed—given that narrow-vein opera-tions are often run by companies with less-extensive capital budgets—Bray noted that recent developments have focused on increasing productivity through the mecha-nization of equipment functions, and on improving the ruggedness of machines to meet the often challenging conditions encountered in narrow-vein mines. “What is important to remember, is that the capi-tal cost of equipment is only one aspect of the total cost of ownership for a machine. Mines often forget to look beyond the pur-chase price, and may overlook equipment alternatives that could greatly benefit their operation,” he said.
Looking ahead, Bray suggested that technologies transferred from tunneling, such as electronic drill plans coupled with semi/full automation, have great potential to improve efficiencies and reduce wastage in narrow-vein mining. These systems can help reduce overbreak, the drill meters needed and the amount of explosives required, give improved fragmentation that simplifies loading and haulage, and gener-ally cut drilling and mucking costs, he said.
Where loading and hauling is con-cerned, there is great potential to make use of intelligent vehicle-operating systems that can cut fuel and tire consumption and increase productivity, with automation, object detection and steering assistance being just some of the areas that could benefit narrow vein and other mining oper-ations, he added.