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Chapter 3Excavating and Lifting
Part 2
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3-4 DRAGLINES
• Operation and Employment• Production Estimating• Job Management
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Operation and Employment• The dragline is a very versatile machine that
has the longest reach for digging and dumping of any member of the crane-shovel family.
• It can dig from above machine level to significant depths in soft to medium-hard material. The components of a dragline are shown in Figure 3-10.
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FIGURE 3-10: Components of a dragline.
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3-4 DRAGLINES• Bucket teeth and weight produce digging
action as the drag cable pulls the bucket across the ground surface.
• Digging is also controlled by the position at which the drag chain is attached to the bucket (Figure 3-11).
• The higher the point of attachment, the greater the angle at which the bucket enters the soil.
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FIGURE 3-11: Dragline bucket.
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3-4 DRAGLINES• During hoisting and swinging, material is
retained in the bucket by tension on the dump cable.
• When tension on the drag cable is released, tension is removed from the dump cable, allowing the bucket to dump.
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3-4 DRAGLINES• Buckets are available in a wide range of sizes
and weights, solid and perforated. • Also available are archless buckets which
eliminate the front cross-member connecting the bucket sides to provide easier flow of material into and out of the bucket.
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3-4 DRAGLINES• While the dragline is a very versatile
excavator, it does not have the positive digging action or lateral control of the shovel.
• Hence the bucket may bounce or move sideways during hard digging.
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3-4 DRAGLINES• Also, more spillage must be expected in
loading operations than would occur with a shovel.
• While a skilled dragline operator can overcome many of these limitations, the size of haul units used for dragline loading should be greater than that of those used with a similar-size shovel.
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3-4 DRAGLINES• The maximum bucket size to be used on a
dragline depends on machine power, boom length, and material weight.
• Therefore, use the dragline capacity chart provided by the manufacturer instead of the machine's lifting capacity chart to determine maximum allowable bucket size.
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Production Estimating• The Association of Equipment Manufacturers
[formerly the Construction Industry Manufacturers Association (CIMA)], through its PCSA Bureau, has made studies of cable-operated dragline operations and has developed production tables that are widely used by the construction industry.
• Tables 3-7 to 3-9 are based on PCSA data. Note, however, that these tables are applicable only to diesel-powered, cable-operated draglines.
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3-4 DRAGLINES• To estimate dragline production using the
tables, – determine the ideal output of the dragline for the
machine size and material (Table 3-7), – then adjust this figure by multiplying it by a swing-
depth factor (Table 3-9) and a job efficiency factor, as shown in Equation 3-3.• Expected production = Ideal output × Swing-depth factor
× Efficiency (3-3)
– Notice the conditions applicable to Table 3-7 given in the footnote..
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3-4 DRAGLINES • To use Table 3-9 it is first necessary to
determine the optimum depth of cut for the machine and material involved from Table 3-8. Next, divide the actual depth of cut by the optimum depth and express the result as a percentage.
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3-4 DRAGLINES• The appropriate swing-depth factor is then
obtained from Table 3-9, interpolating as necessary.
• The method of calculating expected hourly production is illustrated in Example 3-4.
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EXAMPLE 3-4
Determine the expected dragline production in loose cubic yards (LCM) per hour based on the following information.
Dragline size = 2 cu yd (1.53 m3)
Swing angle = 120o
Average depth of cut = 7.9 ft (2.4 m)
Material = common earth
Job efficiency = 50 min/h
Soil swell = 25%
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EXAMPLE 3-4
Solution
Ideal output =230 BCY/h (176 BCM/h)(Table 3-7)
Optimum depth of cut = 9.9 ft (3.0 m) (Table 3-8)
Actual depth/optimum depth = 7.9/9.9 × 100
= 80%
[= 2.4/3.0 × 100
= 80%]
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EXAMPLE 3-4
Swing-depth factor=0.90 (Table 3-9)
Efficiency factor =50/60 = 0.833
Volume change factor = 1 + 0.25 = 1.25
Estimated production = 230 × 0.90 × 0.833
×1.25 = 216 LCY/h
[= 176 × 0.90 × 0.833
×1.25 = 165 LCM/h]
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Job Management
• Trial operations may be necessary to select the boom length, boom angle, bucket size and weight, and the attachment position of the drag chain that yield maximum production.
• As in shovel operation, maximum production is obtained with a minimum swing angle.
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Job Management
• In general, the lightest bucket capable of satisfactory digging should be used, since this increases the allowable bucket size and reduces cycle time.
• It has been found that the most efficient digging area is located within 15° forward and back of a vertical line through the boom point, as illustrated in Figure 3-12.
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Job Management
• Special bucket hitches are available which shorten the drag distance necessary to obtain a full bucket load.
• Deep cuts should be excavated in layers whose thickness is as close to the optimum depth of cut as possible.
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FIGURE 3-12: Most efficient digging area for a dragline
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3-5 CLAMSHELLS
• Operation and Employment• Production Estimating• Job Management
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3-5 CLAMSHELLSOperation and Employment• When the crane-shovel is equipped with a
crane boom and clamshell bucket, it becomes an excavator known as a clamshell.
• The clamshell is capable of excavating to great depths but lacks the positive digging action and precise lateral control of the shovel and backhoe.
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3-5 CLAMSHELLS• Clamshells are commonly used for :
– excavating vertical shafts and footings, – unloading bulk materials from rail cars and ships,
and – moving bulk material from stockpiles to bins,
hoppers, or haul units.
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3-5 CLAMSHELLS• The components of a cable-operated
clamshell are identified in Figure 3-14. Clamshell attachments are also available for the hydraulic excavator.
• A clamshell bucket is illustrated in Figure 3-14.
• Notice that the bucket halves are forced together by the action of the closing line against the sheaves.
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FIGURE 3-13: Components of a Clamshell
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FIGURE 3-14: Clamshell bucket
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3-5 CLAMSHELLS• When the closing line is released, the
counterweights cause the bucket halves to open as the bucket is held by the holding line.
• Bucket penetration depends on bucket weight assisted by the bucket teeth.
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3-5 CLAMSHELLS• Therefore, buckets are available in light,
medium, and heavy weights, with and without teeth. – Heavy buckets are suitable for digging medium
soils. – Medium buckets are used for general-purpose
work, including the excavation of loose soils. – Light buckets are used for handling bulk
materials such as sand and gravel.
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3-5 CLAMSHELLS• The orange peel bucket illustrated in Figure
3-15 is principally utilized for underwater excavation and for rock placement.
• Because of its circular shape, it is also well suited to excavating piers and shafts.
• It operates on the same principle as does the clamshell.
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FIGURE 3-15: Orange peel bucket.(Courtesy of ESCO Corporation)
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3-5 CLAMSHELLS
Production Estimating• No standard production tables are available
for the clamshell. • Thus production estimation should be based
on the use of Equation 2-1. • The procedure is illustrated in Example 3-5.
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EXAMPLE 3-5
• Estimate the production in loose cubic yards per hour for a medium-weight clamshell excavating loose earth. Heaped bucket capacity is 1 cu yd (0.75 m3). The soil is common earth with a bucket fill factor of 0.95. Estimated cycle time is 40 s. Job efficiency is estimated at 50 min/h.
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EXAMPLE 3-5
Solution
Production = 3600/40 × 1 × 0.95 × 60/50
= 71 LCY/h
B = 3600/40 × 0.75 × 0.95 × 60/50 = 53 LCM/h
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Job Management
• The maximum allowable load (bucket weight plus soil weight) on a clamshell should be obtained from the manufacturer's clamshell loading chart for continuous operation.
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Job Management
• If a clamshell loading chart is not available, limit the load to 80% of the safe lifting capacity given by the crane capacity chart for rubber- tired equipment or 90% for crawler-mounted equipment.
• Since the machine load includes the weight of the bucket as well as its load, use of the lightest bucket capable of digging the material will enable a larger bucket to be used and will usually increase production.
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Job Management
• Tests may be necessary to determine the size of bucket that yields maximum production in a particular situation.
• Cycle time is reduced by organizing the job so that the dumping radius 3-6 Trenching and Trenchless Technology 65 is the same as the digging radius.
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Job Management
• Keep the machine level to avoid swinging uphill or downhill.
• Nonlevel swinging is hard on the machine and usually increases cycle time.
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3-6 TRENCHING AND TRENCHLESS TECHNOLOGY
• Trenching Machines and Plows• Trenchless Technology• Repair and Rehabilitation of Pipelines
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3-6 TRENCHING AND TRENCHLESS TECHNOLOGY
• The use of backhoes and other excavators for digging trenches was discussed earlier in this chapter.
• In addition, there is a growing demand for methods of installing utility systems below the ground with minimum open excavation.
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3-6 TRENCHING AND TRENCHLESS TECHNOLOGY
• Some methods available for achieving this objective include specialized trenching machines and plows as well as trenchless technology (also called trenchless excavation).
• Safety considerations in trenching operations are discussed in Section 10-6.
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3-6 TRENCHING AND TRENCHLESS TECHNOLOGY
Trenching Machines and Plows• Some of the types of trenching machines
available include chain trenchers, ladder trenchers, and bucket wheel trenchers.
• Figure 3-14 shows a large chain trencher capable of digging 14 to 36 in. (356-914 mm) wide vertical sided trenches to a depth of 10 ft (3.1 m).
• Ladder trenchers are similar to chain trenchers but are larger.
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FIGURE 3-16: Chain trencher.(Courtesy of Vermeer Manufacturing Co.)
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FIGURE 3-16: Chain trencher.(©Vermeer Manufacturing Company, All Rights Reserved.)
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3-6 TRENCHING AND TRENCHLESS TECHNOLOGY
• They are capable of digging trenches up to 10 ft (3.1 m) wide and 25 ft (7.6 m) deep.
• Bucket wheel trenchers use a revolving bucket wheel to cut a trench up to 5 ft (1.5 m) wide and 9 ft (2.7 m) deep.
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3-6 TRENCHING AND TRENCHLESS TECHNOLOGY
• Plows can be used to cut a narrow trench and simultaneously insert a small diameter cable or pipeline in most soils.
• Vibratory plows such as those shown in Figure 3-17 deliver a more powerful cutting action than static plows and can be used to insert utility lines in hard soil or soft rock.
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FIGURE 3-17: Hydrostatic vibratory plow.(Courtesy of Vermeer Manufacturing Company, All Rights Reserved)
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Trenchless Technology
• While a number of different techniques are used in trenchless technology, the principal categories include pipe jacking, horizontal earth boring, and microtunneling.
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Trenchless Technology
• The process of pipe jacking (Figure 3-18) involves forcing pipe horizontally through the soil.
• Working from a vertical shaft, a section of pipe is carefully aligned and advanced through the soil by hydraulic jacks braced against the shaft sides.
• As the pipe advances, spoil is removed through the inside of the pipe.
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FIGURE 3-18: Installing a utility line by pipe jacking
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Trenchless Technology
• After the pipe section has advanced far enough, the hydraulic rams are retracted and another section of pipe is placed into position for installation.
• The process often requires workers to enter the pipe during the pipe jacking operation.
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Trenchless Technology
• In horizontal earth boring a horizontal hole is created mechanically or hydraulically with the pipe to be installed serving as the casing for the hole.
• Some of the many installation methods used include auger boring, rod pushing (thrust boring), rotational compaction boring, impact piercing, horizontal directional drilling, and fluid boring.
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Trenchless Technology
• A track-mounted thrust boring machine with percussive hammer action is shown in Figure 3-19.
• Many of these techniques utilize lasers and television cameras for hole alignment and boring control.
• A number of types of detectors are available to locate the drill head and ensure that the desired alignment and depth are being maintained.
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FIGURE 3-19: Grundodrill & Thrust boring machine with percussive action.
(Courtesy of TT Technologies, Inc.)
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Trenchless Technology
• The use of a pneumatic piercing tool to create a borehole for a utility line is illustrated in Figure 3-20.
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FIGURE 3-20: Installing a utility line by horizontal earth boring.
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Trenchless Technology
• After the bore has been completed, several methods are available to place pipe into the borehole. – In one method, pipe is pulled through the bore
using the tool's air hose or a steel cable pulled by the air hose.
– Another method uses the piercing tool to push the pipe through the borehole.
– A third method uses a pipe pulling adapter attached to the piercing tool to advance the pipe at the same time as the piercing tool advances the bore.
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Trenchless Technology
• Microtunneling or utility tunneling is similar to the conventional tunneling described in Section 8-1 except for the tunnel size and use.
• Since the tunnels are used for utility systems rather than for vehicle passage, they are normally smaller than road or rail tunnels.
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Trenchless Technology
• They differ from other trenchless methods in their use of a conventional tunnel liner instead of using the pipe itself as a liner.
• Small moles (see Section 8-1) are frequently used in creating such tunnels.
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Repair and Rehabilitation of Pipelines
• The repair and rehabilitation of existing pipelines without excavation is another form of trenchless technology.
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Repair and Rehabilitation of Pipelines
• While a number of methods exist, most involve the relining of the existing pipeline or the bursting of the existing pipe while inserting a new pipe.
• The relining of a pipeline is accomplished by pulling a new plastic pipe into the existing pipe or by inserting a liner into the existing pipe.
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Repair and Rehabilitation of Pipelines
• When a new pipe is used to reline the pipe, the resulting pipe must be slightly smaller than the original pipe.
• Another relining technique involves pulling a folded liner into the existing pipe, expanding the liner, treating the liner with an epoxy, and curing it in place.
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Repair and Rehabilitation of Pipelines
• Pipe bursting (Figure 3-21) uses a high-powered hydraulic or pneumatic piercing tool equipped with a special bursting head to shatter the existing pipe and enlarge the opening.
• A new, often larger, pipe is then pulled into the opening by the piercing head.
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FIGURE 3-21: Schematic of pneumatic pipe bursting method.
(Courtesy of Earth Tool Company LLC)
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FIGURE 3-21: Schematic of pipe bursting.(Courtesy of Vermeer Manufacturing Co.)