In this file you will find Machineries and Maintenance question Patterns. If any need you will be welcomed to read or download it. Thank you.

1. What is mining?
Answer: Mining is the extraction of valuable minerals or other geological materials from the
Earth, usually from an ore body, lode, vein, seam, reef or placer deposit. These deposits form
a mineralized package that is of economic interest to the miner.
What are the types of mining?
Answer: There are four main mining methods: underground, open surface (pit), placer, and in-
situ mg.
Underground mines are more expensive and are often used to reach deeper deposits.
Surface mines are typically used for more shallow and less valuable deposits.
Placer mining is used to sift out valuable metals from sediments in river channels, beach sands,
or other environments.
In-situ mining, which is primarily used in mining uranium, involves dissolving the mineral
resource in place then processing it at the surface without moving rock from the ground.
What equipment is used for mining?
Answer: Each segment requires the use of specific equipment, but there are several types of
mining equipment that are used throughout the industry. This equipment includes excavators,
draglines, drills, roof bolters, continuous miners, longwall miners, rock dusters, shuttle cars
and scoops.
Describe excavator.
Answer: Excavator: Miners traditionally used shovels and steam shovels to break and remove
earth, but today’s miners rely on excavators. An excavator is a mobile vehicle that moves on
tracks or with standard wheels. It features a rotating platform, off of which comes a hinged arm
with a bucket or scoop attached to its end for digging.
Describe Drills.
Answer: Miners who extract natural gas and oil commonly rely on drills to reach underground
deposits before piping the resources to the surface. Coal and mineral miners also use drills to
create extensive series of holes, which they then fill with explosive charges to blast away
chunks of earth.
What is roof bolters?
Machineries and Maintenance
Question Patterns

2. Answer: Roof bolters are large, hydraulically-powered machines used to force bolts into roofs.
Miners use roof bolters to support tunnel roofs and prevent underground collapses.
What is shuttle cars and scoops?
Amswer: Coalminers use electric-powered shuttle cars to transport coal from the coal bed to
safer points in the mine. From there, miners can use standard scoops, or haulage vehicles, to
drive their loads completely out of the mine. Miners of all types use haulage vehicles for
various tasks.
Describe draglines.
Answer: Draglines are enormous earth moving machines that miners use to drag away dirt and
expose underlying coal or mineral deposits. Draglines are some of the largest machines on the
planet, and can remove several hundred tons of material in a single pass, according to Kentucky
Coal Education.
What is the continuous miners?
Answer: Continuous miners are machines with massive, rotating arrays of teeth, often made
from tungsten carbide. Subterranean coal miners use the machines to scrape coal from coal
beds. In particularly dangerous situations, workers control robotic continuous miners remotely.
What is rock duster?
Answer: Rock dusters are pressurized pieces of equipment that coal miners use to spray inert
mineral dust over highly flammable coal dust. The inert dust helps prevent accidental fires and
explosions

3. Drilling Equipment
1. Differentiate between Equipment and Instrument.
2. What do you mean by pipe handling systems?
3. What is power swivel?
4. List of components of oil drilling rings with sketch.
5. Define Auger drilling. How deep can an auger drill?
6. What is drill bit?
7. Write the types or drill bit.
8. Define drilling equipment. Advantages of it.
9. What are operation we can perform on drilling equipment?
10. Operation process of power shovel.
1. Differentiate between Equipment and Instrument.
Equipment Instrument
They are a group of devices required to
perform and achieve a certain purpose.
It is a tool used for scientific purposes such
as measuring things.
Example: One need several equipment to
extract DNA
Example: A ruler is a measuring instrument
2. What do you mean by pipe handling systems?
A pipe-handling system that mechanizes the process of lifting and moving stands of drill pipes
and collars from hole-center to programmed coordinates in the racking board. These tools offer
a significant improvement in safety and productivity by eliminating the human derrick man
position and moving floor-hands out of harm’s way.
3. What is power swivel?
Power Swivels are mostly hydraulic motor-driven pipe-rotating machines. They are simple,
compact units supplied with a power supplier of the correct size and horsepower output to
match the swivel, and with either air or electric remote control assemblies. Many Swivel
assemblies are skid or trailer-mounted to form a rugged portable unit

4. 4. List of components of oil drilling rings with sketch.
List of Items
1. Mud tank
2. Shale shakers
3. Suction line
4. mud pump
5. Motor or power source
6. Hose
7. Draw works
8. Standpipe
9. Kelly hose
10. Goose neck
11. Traveling block
12. Drill line
13. Crown block
14. Derrick
15. Racking board
16. Stand of drill pipe
17. Setback (floor)
18. Swivel
19. Kelly drive
20. Rotary table
21. Drill floor
22. Bell nipple
23. Blowout preventer annular type
24. Blowout preventer pipe ram & blind ram
25. Drill string
26. Drill bit
27. Casing head or wellhead
28. Flow line
5. Define Auger drilling. How deep can an auger drill?
An auger is a drilling device, or drill bit, used for making holes in wood or in the ground.[1]
It
usually includes a rotating helical screw blade called a 'flighting' to act as a screw conveyor to
remove the drilled out material. The rotation of the blade causes the material to move out of
the hole being drilled.
Most augers dig about 3 ft. deep, but for deeper holes, ask for an extension rod, usually for no
extra fee. Deeper holes are typically required for footings for decks or other structures attached
to houses located in very cold climates where frost depths exceed 3 ft.

5. 6. What is drill bit?
Drill bits are cutting tools used to remove material to create holes, almost always of circular
cross-section. Drill bits come in many sizes and shapes and can create different kinds of holes
in many different materials. In order to create holes drill bits are usually attached to a drill,
which powers them to cut through the work piece, typically by rotation. The drill will grasp the
upper end of a bit called the shank in the chuck
7. Write the types or drill bit.
I. Carset but
II. Tricone rock roll
III. Button bit
8. Define drilling equipment. Advantages of it.
Drilling equipment is a machine tool which is used to drill the work piece.
Advantages:
 This machine is needed to mark on the end of components of dresses especially for
setting pocket, dart & so on.
 It can make the hole permanently for a long.

9. What are operation we can perform on drilling equipment?
I. Plane drilling operation
II. Core, Step, Boring, Counter boring operation
III. Reaming operation
IV. Countersinking operation
V. Spot facing operation
VI. Tapping operation
VII. Trepanning operation
10. Operation process of power shovel.
Power shovel is construction equipment whose value is to excavate the earth and load it into
the trucks or other hauling equipment waiting nearby. They are capable of excavating all
classes of earth, except the solid rock without prior loosening.
Basic parts and operation of power shovel:
The basic parts of a power shovel consists of the mounting (crawler track or rubber tyred
wheel), cab, boom, dipper stick, dipper and hoist line.

6. Fig: Basic Parts of power shovel
The following job conditions should be looked into while selecting the size of a showel.
i. For large lifts to dump earth from basement into tracks will require long boom of a large
shovel.
ii. For excavating blasted rocks, large size dipper will easily handle bigger sizes.
iii. For excavating hard and tough bed of soil, the dipper of large shovel which can exert
greater downward pressure will be more suitable.
iv. If the project time is such that it needs high hourly output, large shovel should be used.

7. 1. What is drilling?
Ans: Drilling is a cutting process that uses a drill bit to cut a hole of circular cross-section in
solid material.
2. Write the types of drilling.
Ans. Three types of drilling
1. Rotary drilling
2. Percussion drilling
3. Rotary percussion drilling
3. What is rotary drilling?
Ans: Rotary drilling is mostly used to drill big holes in large quarries, open pit mines,
petroleum extraction, and other fields.There are two groups of big rotary drilling: (1) rotary
crushing by high-point loading to the rock from three cones (2) rotary cutting by shear force
from drag bits. The rotary cutting can be also used to drill small boreholes in soft rocks. For
example, rotary drilling is often used to drill small holes down to 25 mm in diameter to
install bolts in coal mines. The rotary crushing is used in medium to hard rocks, and the
rotary cutting in soft rocks.
Fig: Rotary drilling

8. 4. Write down some advantages and disadvantages of percussion drilling.
Ans:
Advantages Disadvantages
- Unlike any other drilling method,
percussion can remove boulders and break
harder formations, effectively and quickly
through most types of earth.
- Percussion drilling can in principle deal
with most ground conditions.
- Can drill hundreds of feet (one well hand-
drilled in China in 1923 was over 4000 feet
deep).
- Can drill further into the water table than
dug wells, even drilling past one water table
to reach another.
- The equipment can be very heavy and
relatively expensive.
- Especially in harder rock the method is
slow (weeks, rather than days).
- When temporary casing has to be used,
the time taken driving and removing it can
significantly increase drilling time.
- Equipment costs are high and the method
is slow (resulting in high cost / drilled
meter).
5. Define percussion drilling.
Ans: Percussion drilling is a manual drilling technique in which a heavy cutting or hammering
bit attached to a rope or cable is lowered in the open hole or inside a temporary casing.
Fig: Percussion drilling

9. 6. What is rotary percussion drilling?
Ans: rotary percussion drilling machine is a variety of blade or roller bits mounted on the
end of a rotating string of rods cut and break the rock
Fig: rotary percussion drilling
7. Give the limitations of rotary drilling.
Ans: 1. The method is not suitable if the soil contains a high percentage of gravel or cobbles,
as they tend to rotate beneath the bit and are not broken up.
2. The natural water content of the material is liable to be increased due to contact with the
drilling fluid.

10. Tools for Drilling shot hole
1. What do you mean by shot hole?
Ans: A drilled hole in which an explosive charge is placed before detonation.
2. What do you mean by short hole drilling?
Ans: As regards safe blasting operations the drilling of the a is probably the most important
factor as it is the initial operation and inaccuracies and issues at this stage can cumulatively
affect the blast.
3. What are the activities prior to commencing shothole drilling operation?
Ans: The activities which are done before drilling Operation are:
 Before drilling operations commence the driller should examine the extraction face
from the bottom to look for geological problems, loose or shattered rock or dangerous
overhangs, and areas of potentially reduced burden.
 At the top of the quarry face the driller should check for ground stability issues,
excessive cracking of the rock, shear planes or other potential rock failures.
 If issues are identified then the Driller must raise these with the appropriate
responsible person such as the Operator, Manager, Explosives Supervisor and
Shotfirer and if necessary the blasting specification should be amended.
 The Driller should thoroughly check their equipment prior to tracking into position,
these checks should include the condition of the drill string and the drill bit/hammer,
the operation of the dust extraction equipment, guarding of moving parts and the
condition of hydraulic hoses.
4. What are the criteria for short hole drilling equipment selection?
Ans: The criteria are
 Required production.
 Terrain.
 Material characteristics.
 Type and size of excavating and hauling equipment.
 Proximity to vibration-sensitive areas.
 Bench or lift height.
5. What are the types of shot hole drilling methods?
Ans: The types are
1. Drill by hand
2. Drill by hand Flushing
3. Flushing with drill rig
4. Percussion with portable hammer
5. Percussion with sonic mass ST
6. Name the tools used for Sonic mass ST shot hole drilling equipment.
Ans: The tools are
 Powerful feed Motor
 Manual drill tube handler
 Side mounted tam control

11.  Side mounted drill control
 Hydraulic cylinder oscillation
 Trap door centralizer
7. Sketch the Sonic mass ST shorthole drilling equipment.
Ans:
8. Name some percussion tools?
Ans: Tools are-
 Air Scribe.
 Needle, Chisel, Piston and Long Reach Scalers.
 Chipping Hammers.
 Rivet Busters.

12.  Foundry Tools.
 Clay Digger.
 Paving Breakers.
 Rock Drills.
9. How percussion with portable hammer works?
Ans: A pneumatic hammer, also known as air hammer or power hammer uses
compressed air to carve or chip away at stone, metal and other materials. ... Pneumatic
hammers are generally attached by a tube or hose to a large tank that pumps up air and thus
making the pistons move.
10. How a seismic tools are used in short hole drilling?
Ans: It is mainly used in offshore. Wireline-conveyed checkshot surveys
traditionally provide the velocity relationship between time and depth to
enable more accurate conversion of seismic images; however, this information
is not available until a section has been drilled. The effectiveness and value of
time/depth measurements is enhanced when provided during drilling
operations, when they can be used to support real-time drilling decisions.
Seismic-while-drilling LWD technology provides real-time checkshot surveys
during drilling with accuracy comparable to wireline methods. This enables
target depths to be updated before they are drilled, reducing uncertainty and
risk through better-informed decisions, which can be valuable in offshore
developments. Seismic-while-drilling LWD technology provides real-time
checkshot surveys during drilling with accuracy comparable to wireline
methods. This enables target depths to be updated before they are drilled,
reducing uncertainty and risk through better-informed decisions, which can
be valuable in offshore developments.
Seismic data are acquired during drillpipe connections, and the acquisition
takes less time than it takes to make a connection such that the service is
normally transparent to the driller and uses no additional rig time.
Connections are also acoustically quiet, with no mud-pumping or BHA
movement.
During a connection, typically 10 shots are fired, each with a 15-second shot
cycle time. It therefore requires two and a half minutes per connection to
acquire one checkshot level. The 10 individual waveforms are stacked together
downhole, thus improving signal to noise ratio (S/N), and a windowed part –
typically 500 ms long centered around the first arrival – is selected to be sent
to surface.
Seismic waveform data are transmitted uphole by mud pulse telemetry when
drilling and mud pumping resume. Depending on bandwidth, a 500 ms
waveform typically takes 20 minutes to be sent uphole. Once at surface, the
break time of the first arrival on the waveform is picked and processed, and
the pre-drill velocity model is updated to produce revised target depth
predictions.

13. Machine for Drilling Blast Hole
1. What is drilling blast hole?
Ans: Drilling blast hole is a technique used in mining whereby a hole is drilled into
the surface of the rock, packed with explosive material and detonated.
2. Where blast hole drilling is used?
Ans: Blast hole drilling is traditionally used wherever the mining company wants to
explore the mineral composition or potential mineral yield of the area demarcated for
their mining interests.
Blast holes are thus a fundamental step in the exploratory mining process, and can be
employed in both surface mining operations and underground mining operations to
varying degrees with varying effects or results.
3. Why blast hole drilling is used?
Ans: Blast hole drilling mainly used to explore the mineral composition. Blasthole
drilling is essentially carried out in order to break up rock and hard minerals in order
to make it easier for the mining crew to get to the resources being mined.
4. Discuss about the typical cycle of blast hole drilling.
Ans: The typical cycle of excavation by blasting is performed in the following steps-
i. Drilling blast holes and loading them with explosives.
ii. Detonating the blast, followed by ventilation to remove blast fumes.
iii. Removal of the blasted rock (mucking).
iv. Scaling crown and walls to remove loosened pieces of rock.
v. Installing initial ground support.
vi. Advancing rail, ventilation, and utilities.
Fig: Typical cycle of blast hole drilling

14. 5. Tell about scaling.
Ans: Scaling is defined as the removal of loose rock from slopes. Where large sections
of rock or large boulders require removal, bolting jumbo can be used. It is used as a
temporary rockfall protection.
6. Write the advantages and disadvantages of blast hole drilling.
Ans: Advantages of blast hole drilling-
i. Potential environmental impact in terms of noise, dust and sensitive receive
are significantly reduced.
ii. Blast would significantly reduce vibration as compared with bored
tunneling.
Disadvantages of blast hole drilling-
i. If the initial drilling is done wrong then the future of the project could end
up being a problem.
ii. Potential hazard associated.
iii. Fragmentation desired
iv. Safety
7. Explain an example of blast hole drilling.
Ans: The example of blast hole drilling is bolting jumbo. It works as multi functions
such as-
i. Drilling
ii. Bolting
iii. Scaling
Drilling: Drilling is a cutting process that uses a drill bit to cut a hole of circular cross-
section in solid materials.
Bolting: Used in tunneling and underground mining, steel rod inserted in a hole drilled
into the roof or walls of a rock formation to provide support to the roof or sides of the
cavity.
Scaling: Scaling is defined as the removal of loose rock from slopes. Where large
sections of rock or large boulders require removal, bolting jumbo can be used. It is used as
a temporary rockfall protection.
8. Give the points about limitation of blast hole drilling.
Ans: Limitations of blast hole drilling-
i. Fragmentation desired
ii. Rock quality/character
iii. Site condition
iv. Safety
v. Equipment /materials

15. 9. Draw the drill hole pattern.
Ans:
Fig: Drill hole patterns
10. Define the dislodging.
Ans: Dislodging refers to the stripping away and removal of loose pieces of rock, which
were not completely released from the rock during the blasting procedure. This working
step is completed by a robust tunnel excavator.

16. Machine for drill blast holes.
Question 1: Sketch the automation drill blast holes in underground mine.
Answer: Patterns for automation drill blast-holes in cross-sections of arched form (a) and
rectangular-vaulted form (b).
Figure: (a) arched form (b) rectangular-vaulted form.
Question 2: Show the major procedure of designing of drill blast holes.
Answer: The procedure of designing of drill blast holes:
 Contouring the areas for placing different blast hole groups in the
excavation cross-section.
 Calculation of the blast-hole coordinates in the zones “1” and “3”
according to the available recommendations.
 Calculation of the blast-hole coordinates in the zone “2” following to the
algorithm outlined below.
 Automatic design of DBW using the calculated coordinates.
Question 3: Show the longhole blast Advantages of long blast hole in drilling with a
small drill rig in large ore bodies.

17. Answer: The longhole blast Advantages of long blast hole in drilling with a small drill rig in
large ore bodies.
 Small unit with dimensions of:
 2.8 m in length and
 1.45 m in width and
 1.32 m in height
 2.55 m boom length
 DTH (down-the-hole hammer technique)
 Accurate drilling
 Limited capital outlay compared to other mechanized units
 Relatively small unit that can be pulled into existing stops
 Cost-effective unit
 Well suited to narrow tabular reef ore bodies
Question 4: Defined the Longhole stoping.
Answer: It can be defined as:
 Blast holes drilled parallel to an advancing tabular ore body stope panel
or face and blasting the reef into a gully for cleaning.
 Long blasthole drilling in a larger or massive ore body in extracting the
ore.
Question 5: Defined the Mobile compressor.
Answer: The mobile compressor is usually parked in a cubby as close to the site as possible to
reduce pressure drops. A cubby should be provided where the compressor will be out of the
way of tramming equipment and therefore protected against possible damage.
Question 6: Show the main components of Blasthole drills.
Answer: The main components of blast drilling machines are as follows:
 Drill bits
 drill rods
 mast assembly
 Feed mechanism
 power transmission system
 undercarriage unit
Drill bit: There are three types of drill bits used in the above type of drilling machine. They are
 Carset but
 Tricone rock roll
 Button bit
Question 7: Define Air Decking.

18. Answer: This is an increasingly popular technique in which an explosive column is combined
with an air chamber in blast holes. This technique helps in controlling the breakage process
through effective distribution of explosive energy and thereby enhancing the breaking power
on the rock.
Question 8: Write major components of Jack Hammer Drill.
Answer: The major components of Jack Hammer Drill.
 Flushing hole
 Water or air tube
 Air tube
 Piston
 Air channel for extra blowing
 Cylinder chamber
 Rocker valve 8.air inlet valve
 Air outlet valve 10.drill steel
 Front cylinder chamber
Question 9: Defined the Wagon Drill.
Answer: Compressed air operated drills mounted on a mobile frame are known as wagon drills.
The frame is usually mounted on typed wheels. They can be pulled by the operator and his
helper to the hole site on level ground. The size of the drill hole varies from 50 to 100 mm for
a depth of 3 to 15m. These drills have a separate compressor unit. Most drills are usually 3 m
long providing a 3 m vertical travel.

19. 1. What is loading equipment? (1)
Answer:
Mechanical shovels or other machines singly or in combination used to load excavated or
stockpiled materials into trucks, mine cars, conveyors, or other transportation or haulage units.
2. Describe the factors are considered in equipment selection. (4)
Answer:
Four groups of factors largely determine the selection of excavating equipment
a) Performance factor: This relates to machine productivity, and includes cycle speed
available force (power), digging range bucket capacity, travel speed and reliability.
b) Design factor: The design factor provides insight into the quality and effectiveness of detail
design, including the sophistication of human-machine interface for operators and maintenance
personnel, the level of technology employed and the kind of control and power available.
c) Support Factor: Sometimes overlooked in machine evaluation, support factors are reflected
in servicing and maintenance. Ease for servicing, special skills involved, parts availability and
manufacturer’s support are important considerations.
d) Cost Factor: Probably the most quantitative (and ultimate) factor, costs are determined by
standard estimating procedures for large mining and construction equipment. If reasonable
assumption as to life interest rate, inflation, fuel and maintenance are made then results should
be meaningful. The customary basis is to use unit costs all computed on an s/hr. and converted
to s/ton (s/ton) or s/yd3 (s/m3 ).
3. Which factors is important in choosing the right size of a shovel or any single –bucket
excavator? (1.5)
Answer:
Practical consideration of the following three factors is important in choosing the right size of
a shovel or any single –bucket excavator:-
I. Time factor
II. Operational factor
III. Bucket fill factor
4. Write down the parameters for choosing bucket capacity. (4)
Answer:
Materials Fill Factor (%)
Loose Material Fill Factor

20. Mixed Moist Aggregates 95-100%
Uniform Aggregates up to 3mm(1/8”) 95-100
3mm - 9mm (1/8”-3/8”) 90-95
12mm-20mm(1/2”-3/4”) 85-90
24mm (1”)and over 85-90
Blasted Rock
Well Blasted 80-95%
Average Blasted 75-90
Poorly Blasted 60-75
Other
Rock Dirt Mixtures 100-120%
Moist Loam 100-110
Soil, Boulders, Roots 80-100
Cemented Materials 85-95
Factors to be Considered
Favorable 20
Average 90
Unfavorable 60
5. Define shovel loader. (1)
Answer:
A loading machine mounted on driven wheels by which it is forced into the loose rock at the
tunnel face is called shovel loader.
6. How many types of shovel loader? (2)
Answer:
There are four basics types of loaders are given below-
1. Cable Shovel
2. Hydraulic Front shovel
3. Backhoe
4. Front End loader
7. Uses of power shovel. (3)
Answer:
Power shovels are used principally for excavation and removal of overburden in open-cut
mining operations, though it may include loading of minerals, such as coal.
Other uses of the power shovel are-
1. Suitable for close range of work.
2. Capable of digging very hard materials.
3. Can remove big sized boulders.
4. To excavate the earth and to load the trucks.
5. It is used in various types of jobs such as digging in gravel banks, clay pits, digging
cuts in road works, road-side berms, etc.
8. Differentiate between hydraulic shovel and wheel loader. (3)
Answer:

21. Hydraulic Shovel Wheel Loader
Digging Large Digging Force Small Digging Force
Loading Higher Dumping Height Small Dumping Clearance
Ground
Condition
Can work on varying ground
conditions
Can not work on soft ground
Operating
cost
Better fuel consumption and lower
maintenance cost
Higher Operating Cost; especially tire
cost
Operator
Comfort
Lower vibration due to digging, swing,
and loading operation is not combined
with travel
Digging and dumping operation requires
traveling; causing vibration
Safety Longer digging reach Necessary to be close to the digging face
9. What are the functions of shovel loader. (2.5)
Answer:
The functions of shovel loader are-
 Leveling is done by spreading soil during reversing of machine
 Digging of soil
 Dumping loaded bucket
 Loading dump truck
 Hauling material
10. Explain the operations of shovel loader. (2)
Answer:
The shovel loader operations-
 hoist - pulling the bucket up through the bank (i.e. the bank of material being dug)
 crowd - moving the dipper handle out or in to control the depth of cut and when
positioning to dump
 swing - rotating the shovel between digging and dumping
 propel - moving the shovel unit to different locations or dig positions
11. Naming the Working cycle of a shovel. (1)
Answer:
 Digging
 Swinging
 Dumping
 Returning
12. Write short note on “backhoe loader”. (2.5)
Answer:

22. The backhoe is the main tool of the backhoe loader. It’s used to dig up hard, compact material
usually earth, or to lift heavy loads, such as a sewer box. It can lift this material and drop it in
a pile to the side of the hole. Basically the backhoe is a big, extremely powerful version. It has
three segments:-
 The boom
 The stick
 The bucket
The backhoe segments are connected by three joints. The backhoe can dig all sorts of holes,
but is especially suited for digging ditches.
13. Make a list of factors which affects shovel excavator. (2)
Answer:
The factors that affecting shovel excavator are:-
 Class of material
 Height of cut
 Angle of swing
 Size of hauling units
 Operator skill
 Physical condition of the shovel
14. Sketch a shovel excavator. (2)
Answer:
The sketch of a shovel excavator is given below:-
Fig: shovel excavator

23. 1. What is loading machine?
A loading machine or loader is a heavy equipment machine used in construction to move
aside or load materials such as asphalt, demolition debris, dirt, snow, feed, gravel, logs,
raw minerals, recycled material, rock, sand, woodchips, etc. into or onto another type of
machinery (such as a dump truck, conveyor belt, feed-hopper, or railroad car).
2. Write down the name of different types of loader?
There are many types of loader, which, depending on design and application, are called by
various names, including
 Bucket loader,
 Front-end loader,
 Hydraulic excavator
 Shovel
 Skip loader
 Wheel loader
3. What are the major components of loader?
The major components included in a loader are the engine (diesel in almost all cases), the
hydraulic components (such as pumps, motors and valves) and the transmission components
(gearbox, axles, wheels/tracks, pumps, motors, etc.). The engine runs both the hydraulics and
the transmission, and these in turn move the front attachment (a bucket, forks, sweeper, etc.)
to manipulate the material which we are handling (sand, gravel, cereal, manure or anything
else) and the wheels or tracks to move the machine around the jobsite.
4. Write about (LHD)?
LHD means Load Haul dumper
 Also known as a scoop tram
 Specialized loading machine manufactured for the underground mining industry.
 LHDs are used in >75 % of u/g mines throughout the world and are suitable for small and
large tunnels, mines, chambers, and stopes.
 It performs loading, hauling and dumping of bulk materials
5.What are the selection criteria of loading machine?

24. It depends upon the following factors:
1. Size of operation
2. Length of haul
3. Height of seam
4. Operating condition
5. Local permissibilities
6. Experience
6.What are the application condition of Bucket Wheel Excavator ?
The machine is nicely applicable in the following conditions.
 Hard & tough wall fragmented blasted rock with no or less boulders having consistency of
uniform ground & bank condition.
 Since it has a wide radius if excavation around 40 to 90m with high & deep cut, the width
of the boom or poses more reserve & create huge amount of space for the mobile equipment.
The slope of the pit is also very stable.
 It can be used for selective & thick seam mining.
 For easy disposal of ore or OB to the considerable distance above or below of it working
level.
 It is very highly efficient excavator for lignite, gift alluvium etc.
7.What is shovel?
A shovel is a equipment which excavates the rock or ore by digging from its operating base
to upwards and dump it either on a dumper or railway wagon or over the spoil dump.
8.The advantages of Shovel-
 It is a highly productive machine & capable to handle all types of ores rocks, ranging
from line to very hard blocky dumps has lower operating cost, higher production &
productivity etc.
 It can also load in various mining conditions has longer life higher ability by & can
also do production by staying in the inclined terrain.

25. 9.Describe Scraper ?
This machine is diesel-operated with pneumatic tyred wheels and has the centre a bowl fitted
with a cutting blade at bottom. The blade is reversible and can be replaced when blunt. Its
working may be compared to that of a lawn power. Scrapers are used in coal mines for
cutting and transporting weathered sandstone as well as coal. The coal excavated by it is
however smaller in size. A scraper may take 5 to 6 minutes for a complete cycle of loading
and unloading if the total up-and –down distance of a trip is nearly 300m. One-way traffic of
loaded and empty scrapers is desirable for good results. One dozer is normally sufficient for
every two scrapers used.
10.Draw a figure of working zones and constraints of loading in surface mine?
Fig: Working zones and constraints of loading in surface mine

26. 1.What is shaft sinking?
Ans: shaft sinking is excavating a vertical or near-vertical tunnel from the top
down, where there is initially no access to the bottom.
2. Discuss the purpose of the Shaft?
Ans: Shafts are required for the following purposes:
● Mining the mineral deposits
● Temporary storage and treatment of sewage
● Bridge and other deep foundations
● Hydraulic lift pits
● Wells
● In conjunction with tunneling system or network for the purpose of lifts, escalators,
stair and ladder-ways, ventilation, conveyance of liquid, carrying pipes and cable in
river crossings, drainage and pumping particularly from sub-aqueous tunnels
3. Brief the preparatory work required for shaft sinking?
Ans: Some preparatory work needed for shaft sinking. These are:
w.r.t. location, orientation (inclination), size, shape, support types and position of shaft
stations.
There are many other facilities that need to be established. The prominent amongst them
Are: The access roads; warehouses; stack yards; shunting yards; provision for power,
potable water, telephone, maintenance facilities, first aid, waste disposal, mine offices,
canteen, lamp room, rest shelter, magazine, hoist room, compressed air, drilling water,
etc. etc.
4. classify shaft sinking methods.
Ans:

27. 5.Illustrate the general arrangement during shaft sinking.
Ans:
6. Write down the segment of sinking methods.

28. Ans: This operation can be divided into three segments:
● Reaching up to the rock head
● Sinking through the rock
● Sinking through the abnormal or difficult ground, if any, using special methods
7. Describe the objective of pre-sink.
Ans: The objective of pre-sinking is to construct sufficient depth of shaft, to permit
the assembly of sinking stage and lashing unit in the shaft bottom. Another requirement is to
open adequate clearance between the shaft bottom and the stage parking position to allow
blasting without damaging the stage or, the more vulnerable lashing unit.
The main difference between collar construction and pre-sinking is that in pre sinking
the curb ring is suspended and lining can be placed some distance above the bottom, so that
sinking and lining can go concurrently.
8. Name the operation of sinking through the rock.
Ans: A sinking cycle consists of the following unit operations:
1. Drilling
2. Blasting
3 Mucking and Hoisting
4. Support or shaft lining
5. Auxiliary operations:
a) Dewatering
b) Ventilation
c) Lighting or illumination
d) Shaft centering
9. Illustrate the Sequence of operations while sinking through
ordinary/normal ground.
Ans:

29. 10. Why special methods of shaft sinking needed?
Ans: In the process of shaft sinking, it becomes necessary to adopt a special
method/technique, if the ground through which shaft is to be sunk is loose or unstable such as
sand, mud, gravel or alluvium, or when excessive amount of water is encountered, which can
not be dealt with the sinking pumps. Also when in some situations, both sets of these
conditions are encountered. Following are the special methods that are used to deal
with the situations, out lined above:
● Piling system
● Caisson methods
● Cementation
● Freezing method
● Shaft drilling & Boring
11. Describe the pilling system.
Ans: This method is suitable only for sinking through the loose ground near the
surface.
Wooden piles 2–5 m long, 50–70 mm thick & 150–200 mm wide, or steel piles are used.
Steel piles are stronger than that of wood. Wooden piles are shod with iron at bottom so as to
pierce the ground. The piles are driven down by heavy mallets, and are placed edge to edge
so as to form a complete circular lining. They are held in place by circular rings or curbs,
placed at an interval of 0.8–1 m. After putting the first set of piles, another set of piles is then
driven but before this the ground enclosed is dug out, to the extent that the first set of piles is
about 0.6 m in the ground. In this manner number of sets of piles are driven and ground is
simultaneously
dug, till driving through the loose and unstable ground completes. This means sufficient
extra ground all around the proposed site of the shaft need to be dug and piled.
Once the firm ground is encountered, the permanent lining which could be either that
of bricks, steel tubing or concrete is built. The space between this lining and the piles
is filled with some packing material.
In the recent past use of concrete pile wall is also becoming popular. This is accomplished
either by driving the steel pipes of about 500 mm dia. using a pile driver, else the
holes of 500 mm – 1 m dia. are driven with a drilling rig and then concrete is poured into
it. These pipes or holes are put all along the circumference of the shaft. If the sides of the
holes drilled, are liable to cave in, then it is treated with some mud or slurry.
12. What is Caisson Method? Name the classes.
Ans: This method is popularly known as Drop-Shaft and is common in civil
engineering
works while one has to sink through the riverbed. This method is suitable to sink through the
running ground to a depth somewhat greater than the one, which can be negotiated by
adopting the pilling method. The method can be sub divided into three main classes, namely:

30. 1. Sinking drum process
2. Forced-drop method
3. Pneumatic Caisson method.
13. Describe the term cementation.
Ans: The cementation plant includes: high capacity double acting ram pumps, cement
mixing tanks, pipe range and other tanks to inject chemicals such as silicate of soda or sulfate
of alumina, if pre silication is adopted.
Initially 2.5% cement is injected, its quantity later on can be increased to 50% depending
upon ground conditions and quantity of water. Total hole drilled are divided into three
potions, say: A, B and C. Holes ‘A’ are used to seal off the main fissures.
Holes ‘B’ are used to seal of the hair cracks. Holes ‘C’ are used to do the same function
as holes ‘B’ but with reduced quantity of the cement injection. The selection of grout
(which is a mixture of cement, sand and water) density depends upon the water
absorbability of the grouting hole. The table14.1 illustrates this aspect.
To decrease absorbability and reduce the cost of operation, sometimes clay is mixed
with cement in the ratio of 1:2 to 1:4. The grouting operation is considered successful
when the control holes prove that water absorbability within the grouted rocks is less
than 0.5 litters/min.
14. Describe Sinking and Walling.
Ans: After cementation, for a ground column of certain length, the procedure of
ordinary
shaft sinking is carried out. However, the depth of blasting round should be limited to 1.5 m,
and also, the explosive’s charge amount per shot-hole as well as the total charge/ blast,
should be kept minimum. Depending upon the rocks through which shaft is to be sunk and
the amount of water encountered while carrying out the process of cement injection and
magnitude of the fissures (as the joints, fissures encountered are the potential source of water
in future), the type of lining work that is carried out includes, the lining of concrete (R.C.C.
or ordinary) or use of steel tubing. The former is cheaper and also very common.
15. Brief the Freezing process.
Ans: This method is suitable for any kind of heavily watered strata including quick sand. It
has proved its success even in most difficult ground conditions. The process consists of
formation of a cylinder of frozen ground, in the center of which it is possible to sink a shaft,
by following the ordinary method of sinking. The freezing is accomplished by boring/drilling
a ring of holes slightly outside, around the site selected, for the actual shaft to be sunk. In
these holes through steel tubes brine solution is circulated. The brine solution, which absorbs
the heat from the boreholes, progressively, causes the ground to freeze, and form the ice wall
of sufficient
thickness. This artificially created wall of ice prevents the inflow of water into the shaft
being sunk. There are four distinct steps that are followed in this system, and these are:
● Drilling and lining of boreholes

31. ● Formation and maintenance of the ice column
● Actual sinking operations, and
● Thawing of ice-wall.

32. Topics name: loading haulage equipment of broken ore.
Q-1: Give the important haulage equipment of broken ore.
Ans. Generally four types are 1.locomotive, 2.Slusher, 3.Rope, and 4.Belt conveyor.
Q-2: define locomotive and mucking?
Ans. locomotive: a locomotive or engine is a rail transport that provides the motive power
for a train and it is applicable for haulage roadway.
Mucking:Material fragmented with or without aid explosives from a working face is known
as muck. The process of loading this muck into a conveyance for transportation away from
the face is known as mucking.
Q-3: list out muck characteristics.
Ans. Muck characteristics
 Size
 Shape
 Volume
 Hardness
 Moisture content
 Angle of repose
 Dryness
 Stickiness
Q-4: write down the selection criteria of mucking equipment.
Ans. Selection criteria of mucking equipment:
i. Transportation system
ii. Capital available
iii. Required output
iv. Size of opening
v. Size of rock fragment
vi. Mucking lead
vii. Unit operation system
viii. Economic factor
ix. Technical factor
I. Environmental factor
Q-5: discuss the selecting suitable loading-haulage equipment for the open pit mines.
Ans.1. Financial consideration (FC):
 Commission
 Shipment
 Operating cost

33.  Capital cost
2. Operating condition, safety, and environment (OSE):
 Ease of operation
 Legislative requirement
 Working condition in mine
 Safety and protective devices in respect of accident
3. Mine parameter (MP):
 Bench geometry
 Soil characteristics
 Fragmented rock size
 Haul distance
 Weather condition
4. Equipment technical parameter (ETP):
 Utilization
 Continues of operation
 Capacity and productivity.
Q-6: What is meant of belt conveyor and give the types of belt conveyor?
Ans . the belt conveyor is basically an endless belt in a straight line stretched between two
drums, one driving the system and the other acting as a return drum. Types of belt conveyor:
 Pvc conveyor belt
 Rubber conveyor belt
 Wire reinforced
 Food industry conveyor belt
Q-7: write down the advantages and limitations of belt conveyor belt.
Ans. advantages:
 A continuous supply of material
 Low operating cost
 High rate and speed of supply
 More efficiency and low cost.
Limitations:
 Can not be useful for long distance
 Required high one time capital
 Lumps should not be of big size
 Can not be worked for high inclinations
Q-8: Explain the selection criteria of belt conveyor.
Ans.
a) Amount of material to be conveyed

34. b) Continuity of operation needed
c) Size of lumps
d) Distance of transportation
e) Environment allowance
f) Gradient
g) Method of coal winning
h) Capital available
Q-9: Make a list of design parameters for belt conveyor.
Ans :
 belt dimension, capacity, and speed
 roller diameter
 belt power and tensions
 idler spacing
 pulley diameter
 motor
 shaft design
 control
Q-10: illustrate the types of conveyor transportations system.
Ans :
i. belt conveyor system
ii. flexible gravity conveyors
iii. roller conveyor system
iv. screw conveyors
v. trolley conveyors
vi. reciprocating vertical conveyor
vii. vertical lift conveyor
viii. pneumatic conveyor
ix. vibrating conveyor

35. 1. What is locomotive? Give the types of locomotive.
Ans: A locomotive or engine is a rail transport vehicle that provides the motive power
for a train and it is applicable for haulage roadway.
Basically locomotives for their underground use are –
 Diesel locomotive
 Electric locomotive
2. Briefly discuss about electric locomotive.
Ans: An electric locomotive is a locomotive powered by electricity from overhead lines,
a third rail or on-board energy storage such as a battery or a super capacitor.
Structure:
I. The type of electrical power used in either direct current (DC) or Alternative
current (AC).
II. Various collection method exists:
 A trolley pole, which is a long flexible pole that engages the line with a
wheel or shoe.
 A bow collector, which is a frame that holds a long collecting rods
against the wire.
 A pantograph, which is a hinged frame that holds the collecting shoes
against the wire in a fired geometry.
 A contact shoe, which is a shoe in contact with the third rail.
III. Electric locomotives almost universally use axle-hung traction motors, with one
motor for each powered axle.
IV. Power transfer from motor to axle is effected by super gearing, in which a pinot
on the motor shaft engages a bull gear on the axle.
V. Both gears are enclosed in a liuid-tight housing containing lubricating oil.
VI. Electricity is typically generated in large and relatively efficient generating
stations, transmitted to the railway network and distributed to the trains.
Action:
I. Direct current (DC) Trolley wire locomotives are used in mines and tunnels.
II. Elimination of rail bonding and the risk of accidental firing of the blasting
circuit due to stray current.
III. Using rail as a return conductor results the operation to be simple and
economical but requires much attention on its safety aspects,
IV. Overheating of a cell during charging may cause fire.
V. In battery type of locomotives lead-acid type of batteries having life up to 4
years or 1250 discharge cycles are used.

36. VI. In some trolley wire locomotives designs an electric cable reel is also included
to allow its use beyond the trolley wires.
VII. Compressed air locomotives is that they are absolutely flame proof particularly
in roadways of high gassy mines where use of other types of locomotives is
prohibited by law.
3. Describe about Diesel locomotive.
Ans: This type of locomotive for its use in underground mines and tunnels is built of
all metallic construction and all other parts which are liable to cause fire are
substantially shrouded by steel covers. The following features are incorporated to
minimize the risk of fire.
Having some of these provisions:
 Air filter to prevent carbon particles suspended in air to enter into the engine.
 Flame trap yo trap any flame due to back fire of the engine.
 Exhaust conditioner to cool exhaust gases.
 Water coding jacket together with a temperature gauge to stop the engine in the
event of overheating.
 High compression mechanism to fire the engine spark plugs.
 Flame proof fittings.
4. How a locomotive can be maintained?
Ans: The maintenance of electric locomotive is essential to avoid failures and keep it
serviceable condition.
It can be performed by various processes at specific time interval i.e. weekly or
monthly.
The maintenance process includes the following criteria in-
i. Check the condition of one chute and fixing of pole plate.
ii. Ensure proper lubrication of servomotors.
iii. Ensure no leakage during testing of electro valve.
iv. Check condition of pole plate and contractors.
v. Check conditions of all loss bar and cables.
vi. Check tightness of nuts and bolts.
5. Define conveyor belt. Selection of conveyor belt.
Ans: Conveyor belt: A mining conveyor is a type of machine used to move ore or waste
material generated by mining operations.
Selection of conveyor belt: There are following factors that decide the selection of belt
conveyor-
a) Amount of material to be conveyed
b) Continuity of operation needed
c) Size of lumps
d) Distance of transportation
e) Environmental allowance
f) Gradient

37. g) Method of coal winning
h) Capital available
6. How a conveyor belt can be designed?
Ans: There are following factors for designing of belt conveyors are-
i) The average tonnage peak rate and frequency of peak rates.
ii) Characteristics of the material i.e.
 Density
 Maximum lump size
 Nature of material- dry, wet, sticky, dusty
 Chemical action belt
iii) Graphical layout of conveyor profile and motive power available.
iv) Operating conditions- hours of working, climate conditions etc.
v) Sustainability of a belt conveyor and width and speed of belt.
vi) Belt shape.
7. Discuss the working principal of conveyor belt.
Ans: The Working principal of conveyor belt are-
 Belt conveyor is a machine taking the friction a driving force to transport
material in continuous way.
 The equipment consists of frame, conveyor belt, support, roller, tensioning
device, driving device etc.
 From the materials charging point to the materials discharging point, it
generates a material transport process on a certain transport line,
 Excluding transport pure material, of can also working together with production
process in production system to have streamlined conveying line.
8. Write down the application conveyor belt.
Ans: The application conveyor belt:
 Conveyor belts are widely used in mineral industry.
 Underground mine transport, opencast mine transport and processing plants
deploy conveyor belts of different kinds to adopt the specific job requirements.
 A wider range of material can be handled which pause problems in other
transportation means.
 By the use of many forms of ancillary equipment such as mobile trippers or
spreaders bulk material can be distributed and deposited whenever required.
 Many other functions can be performed with the basic conveying like weighing,
sorting, picking, sampling, blending, spraying, cooling, drying etc.
 The belt conveyor can be adopted for special purposes (fire resistant, wear
resistant, high angle negotiation etc.) and can be integrated with other
equipment.

38.  In underground mine transport, belt conveyors can be used in thin seams as it
eliminates the rock works that might otherwise be required to gain haulage
height.
9. Mention the types conveyor belt.
Ans: Types of conveyor belts are as following:
i. Belt conveyor system
ii. Flexible gravity
iii. Roller conveyor system
iv. Screw conveyor
v. Trolley conveyor
vi. Reciprocating vertical conveyor
vii. Vertical lift conveyor
viii. Pneumatic conveyor
ix. Vibrating conveyor
x. Bucket conveyor
10. List the design parameter of conveyor belt.
Ans:
I. Belt dimension, capacity and speed.
II. Roller diameter.
III. Belt power and tensions.
IV. Idler spacing.
V. Pulley diameter
VI. Motor.
VII. Shaft design.
VIII. Control.
11. Which factors should be considered in equipment selection?
Ans: Four groups of factors largely determine the selection of excavating equipment
(the discussion applies specifically to surface equipment but the factor are applicable
to underground as well)
i) Performance factor: This relates to machine productivity, and includes cycle
speed available force (power), digging range bucket capacity, travel speed and
reliability.
ii) Design factor: The design factor provides insight into the quality and
effectiveness of detail design, including the sophistication of human-machine
interface for operators and maintenance personnel, the level of technology
employed and the kind of control and power available.
iii) Support Factor: Sometimes overlooked in machine evaluation, support factors
are reflected in servicing and maintenance. Ease for servicing, special skills
involved, parts availability and manufacturer’s support are important
considerations.

39. iv) Cost Factor: Probably the most quantitative (and ultimate) factor, costs are
determined by standard estimating procedures for large mining and construction
equipment. If reasonable assumption as to life interest rate, inflation, fuel and
maintenance are made then results should be meaningful. The customary basis
is to use unit costs all computed on an s/hr. and converted to s/ton (s/ton) or
s/yd3 (s/m3).
12. Illustrate LHD.
Ans: Load Haul and Dump units(LHD)
They are mainly used for underground loading, hauling and dumping in few (10s)
meters to low-profile dumper, rail or ore-pass
Figure: load haul and dump units
13. Narrate the benefits of using scrapers.
Ans:
i) Scraper can move material with a single operator and single power-unit.
ii) Key for removing overburden and maintaining haul roads.
iii) Can also be used as haulers to top load rock into the large, low target scraper
bowl.

40. iv) Scrapers have proven effective in the following jobsite applications:
 Overburden Removal
 Haul Road Maintenance
 Mine Reclamation Projects
 Gravel Quarries
 Coal Mines
 Gypsum Mines
14. What are the advantages and disadvantages of direct rope haulage in
underground mining?
Ans: Advantages:
i) The rope speed is generally 8-12 km/h and the system can operate between any
point of the haulage plane and the haulage engine.
ii) It can, therefore, cope with the haulage requirements of an advancing working
face,
iii) Only one haulage truck is required.
iv) The system can also serve branch roads if the gradient is suitable for down-the
gradient movement of empties by gravity.
Disadvantages:
i) High peak power demand as load starts its journey up the gradient.
ii) Severe breaking duty on the downward run.
iii) High haulage speed demanding high standard of track maintenance.
iv) Not suitable for mild inclination of roads.
15. Brief selection of Loading and Haulage Equipment.
Ans: Calculations for selection of Shovel Excavator (Loading and Haulage Equipment)
Practical consideration of the following three factors is important in choosing the right
size of a shovel or any single –bucket excavator:
o Time factor
o Operational factor
o Bucket fill factor
Time Factor: It is the percentage availability of the equipment in unit time, which
could be an hour or a shift. If the equipment is available 55minutes/hour, and 7 hours
in a shift of 8 hours, then it is considered as favorable situation. Under the average
condition, availability of 50minutes/hour is common but when if falls to 40
minutes/hour or below it, the condition is considered as unfavorable. The value of this
factor is an overall reflection of management‘s efficiency. Time factor TF=Effective
minutes available every hour/60.
Operational Factor (OF): This is a reflection of working conditions that include
layout, matching equipment meant for loading (mucking), transportation, crushing, etc.
This also takes into account the services in terms of lighting, ventilation (comports),

41. heat, humidity or any other factor that affects the performance of the equipment,
including the operator’s efficiency.
Bucket Fill Factor (BF): It is the percentage of rated bucket capacity (m3) to the one
which will actually be delivered in a working cycle. It is based on the degree of
fragmentation, or size of material to be filled in, and also bucket teeth or replaceable
cutting edge or lip.

42. 1. What is belt conveyor transportation system?
Ans: The belt conveyor is basically an endless belt in a straight line stretched between
two drums, one driving the system and the other acting as a return drum.
2. Describe different parts of belt conveyor transportation system?
Ans:
The parts of belt conveyor transportation system are:-
 A flat endless belt which moves continuously.
 The idlers which support the belt.
 The structure of channel on which the idlers are mounted.
 The tensioning arrangement for keeping the belt on proper tension.
 The drums at the discharged and tail end over which the belt passes.
 The drive head which comprises the electric motor, coupling, gearing a snub pulleys.
3. Give the main selections criteria of belt conveyor transportation system?
Ans:
The Selection criteria are given below:-
 Amount of material to be conveyed.
 Continuously of operation needed.
 Size of lumps.
 Distance of transportation.
 Environmental allowance.
 Gradient.
 Method of coal winning.
 Capital available.
4. Write down the advantages of belt conveyor transportation system?
Ans:
The advantages of belt conveyor transportation system are:-
 A Continuous supply of material.
 Low operation cost than road transportation.
 High rate & speed of supply.
 Bonding can be done to get fair grade.
 More effiency and low cost.
5. Write down the limitations of belt conveyor transportation system?

43. Ans:
The limitations of belt conveyor transportation system are:-
 It cannot be useful for long distance.
 Required high one time capital.
 Lumps should not be of big size.
 Place should be dry enough and air velocity should not be high.
 Cannot be worked for high inclinations.
6. Clarify all types of conveyor belts.
Ans:
The types of conveyor belts are:
I. PVC conveyor belts.
II. Rubber Conveyor belts.
III. Wire reinforced belts.
IV. Food industry coveyor belt.
7. Describe the types of conveyor system?
Ans:
Two types of conveyor system are:-
 Belt Conveyor
 Chain Conveyor.
8. Write down the applications of belt conveyor.
Ans:
The applications of belt conveyor are:
 Mining.
 Automotive.
 Agriculture.
 Computer.
 Electronic.
 Food Processing.
 Chemical.
 Print finishing & Packing.
9. Sketch Belt conveyor system.
Ans:

45. Topic: Types of Belt Transport
Equipment
1. Write down the different types of conveyer belts?
i. Chute Conveyer
ii. Wheel Conveyer
iii. Roller Conveyer
iv. Chain Conveyer
v. Slat Conveyer
vi. Flat Belt Conveyer
vii. Magnetic Belt Conveyer
viii. Troughed Belt Conveyer
ix. Bucket Conveyer
x. Vibrating Conveyer
xi. Screw Conveyer
2. Define chute Conveyer?
Chute or Trough Conveyers are material handling systems that use gravity to convey
product along smooth surfaces from one level to another. Key specifications include
the chute material and the physical dimensions such as length and chute width. Chute
Conveyers are used for scrap handling, packaging, postal service package or mail
handling, etc.
3. What is bucket conveyer?
Bucket Conveyers or bucket elevators use multi-sided containers attached to cables,
belts, or chains to convey products or materials. The containers remain upright along
the system and are tipped to release material.
4. What is magnetic conveyer?
Magnetic Conveyers use moving magnets mounted beneath stationary plates, tables, or
other kinds of non-magnetic slider beds, to move magnetic (ferrous) materials, often in
the form of machining scrap. Magnetic Conveyers are commonly used as chip
Conveyers to remove ferrous chips from machining centers.
5. Write down the short note of roller conveyers belt?

46. Roller Conveyers use parallel rollers mounted in frames to convey product either by
gravity or manually. Key specifications include the roller diameter and axle center
dimensions. Roller Conveyers are used primarily in material handling applications such
as on loading docks, for baggage handling, or on assembly lines among many others.
The rollers are not powered and use gravity, if inclined, to move the product, or
manually if mounted horizontally. The Conveyers can be straight or curved depending
on the application and available floor space.
6. Define slat conveyers?
Slat Conveyers use slats or plates made of steel, wood, or other materials typically
mounted on roller chains to convey product. The slats are not interlocked or
overlapping. Apron/slat Conveyers are used primarily in material handling applications
for moving large, heavy objects including crates, drums etc.
7. Write down about chain conveyers belt?
Drag or Chain or Tow Conveyers use mechanical devices attached to moving members,
usually chains or cables, to drag or tow products. Drag Conveyers are used for moving
bulk materials in bins, flights, or other attachments and can have multiple discharge or
loading points. Tubular drag Conveyers use a fully enclosed system of chains to convey
product in any direction. Chain Conveyers use a chain, or multiple chains to move
pallets or other hard-to-convey products.
8. Define screw conveyer?
Screw Conveyers, sometimes known as spiral, worm, or auger Conveyers use helical
elements to move materials. They consist of a helical screw element or steel auger that
rotates around a central shaft, driving the work material according to the screw design
and rotational direction. The helical screw functions within a casing, trough or
compartment to take full advantage of the rotational force.
9. What is wheel conveyer?
Wheel Conveyers use unpowered wheels to move objects along their lengths by gravity
or manual power. Wheel Conveyers are used for item or package handling and are
commonly employed for loading and unloading trucks and moving packages, pallets,
etc. through facilities or along assembly lines. The Conveyers are configured by the
number of wheels and wheel spacing, depending on the load requirements and the
application.
10. What is vibrating conveyer?

47. Vibrating Conveyers use rotary or linear vibration to move material along their system
beds. Vibrating Conveyers are used for moving dry, bulk materials such as aggregate,
gravel, coal, etc. The bed of the conveyor vibrates to move the material along its length.
The conveyor can be a trough, a tube, or a flat table top. Many sizes are available
depending on the application.
11. Write down the classification of belt conveyers according to path of the motion?
According to their path of motion belt Conveyers are classified as:
i. Horizontal
ii. Inclined
iii. Combined
- Inclined horizontal
- Horizontal inclined
- Horizontal inclined horizontal
- Inclined horizontal incline

48. TOPICS : DESIGN OF BELT CONVEYORS.
QUESTION & ANSWER:
1. Write the design concept of belt conveyors?
Ans : It is necessary to have design related basic information about various components of
belt conveyor before attempting to design belt conveyor. The design of belt conveyor is
depends upon design/construction of individual component, but the design of many
individual component depends upon the ultimate design construction of belt conveyor.
2. Write down the application of belt conveyors?
Ans : Some of those are-
(a) Capacities of a belt system may range from 500 to 5000 M3 /hr and more. The
distance covered for a belt conveyor system be as small as 50 m (for indoor work) to 5
Ian. for supplying raw material from mine area. Used for conveying various bulk and unit
loads along horizontal or slightly inclined paths.
(b) Used in foundry shop.
(c) Used for supplying coal.
(d) Transferring building materials, fossil minerals, grains store.
(e) Used in wheel excavators
(J) Ice-cream plant.
(g) Pbwer plants.
(h) Bakeries.
(i) Confectionery.
(J) Feed and flour mills.
(k) Laundries.
(1) Textile.
(m) Ceramic.
(n) Chemical plant.
(o) Ship yards.
(p) Post office.

49. (q) Supply depots.
3. What are the types of conveyor transportation system?
Ans : Those are followings,
I. Gravity conveyors
II. Belt conveyors
III. Live roller conveyors.
4. What is belt conveyor transportation system?
Ans : It defines as,
I. The belt conveyor is an endless belt moving over two end pulleys at fixed positions
and used for transporting material horizontally or at an incline up or down.
II. Belt conveyors are employed to convey a great variety of bulk materials and also unit
loads along a horizontal or gently inclined paths.
5. Describe different parts of belt conveyor transportation system?
Ans: The main components of a belt conveyor are:
1. The belt that forms the moving and supporting surface on which the conveyed material
rides. It is the tractive element. The belt should be selected considering the material to be
transported.
2. The idlers, which form the supports for the carrying and return stands of the belt.
3. The pulleys that support and move the belt and controls its tension.
4. The drive that imparts power to one or more pulleys to move the belt and its loads.
5. The structure that supports and maintains the alignments of the idlers and pulleys and
support the driving machinery.
Other components include:
1. Loading chute or feeder chute that organises the flow of material and directs it on the belt
conveyor.
2. Take-up-device which is used to maintain the proper tension of the belt for effective power
transmission.
3. Belt cleaner that keeps the belt free from materials sticking to the belt.
4. Tramp removal device, which is optionally used in case the conveyed material bears the
chance of having tramp iron mixed with it and subsequent handling of the material, demands
its removal.
5. Continuous weighing device for constantly measuring the load being carried by the
conveyor belt.
6. Discharge chutes to guide the discharged projectile to subsequent conveyor or other
receiving point.

50. Fig: component of belt conveyors.
6. Give the main selection criteria of belt conveyor transportation system?
Ans : The main selection criteria are following,
I. Layout
II. Conveyor duty
III. Material specification
IV. Environmental conciderations
V. Cost
VI. Standardization.
7. Write down the advantages of belt conveyor transportation system?
Ans : The advantage of using conveyor system:
1.Conveyors designed with inclination allow materials, both big and small, to be moved from
one elevation to another easily. This saves a lot of time.
2.Conveyors offer unlimited opportunities to continuously load and unload items over a long
period of time.
3.Large factories will have requirements where materials need to be moved between multiple
levels or floors. Conveyors can be designed to transport materials across levels, with almost
no limitation of height.
4.Conveyors with automated incline belts can automatically unload materials, eliminating
manual unloading. This also means that no time is wasted in monitoring material unloads.
5.Conveyors allow careful control of the speed at which materials are moved. That means
there are fewer chances of something breaking and causing loss due to handling issues.
6.Conveyors can move in both directions. This is very useful when materials need to be
moved between opposite ends of a manufacturing unit during the manufacturing process.

51. 8. Write down the limitations of belt conveyor transportation system?
Ans : Some of them are,
(a) Accumlation difficult.
(b) complicated marshalling
(c) The loss of light weight bulk material carried away as dust or spilled from the belt along
its path is another objectionable features.
(d) Continuous or periodic monitoring of belt is necessary
(e) Heat affects the material of belt.

52. 1.What is Belt conveyor?
Answer: A continuous moving band of fabric, rubber or metal used for transporting
objects from one place to another. A belt conveyor is a bulk material handling equipment.
2. What are the parts of a conveyor belt?
Ans: Belt conveyor has six basic components. These are -
the belt
the belt support system (idlers)
the pulleys
the drive
the structure
the enclosure
Figure: Belt Conveyor
3.What are the advantages of using belt conveyors?
Answer: The advantages of belt conveyor are-
Noiseless operation.
Large length of conveying path
Lower power consumption.
Long life.
Adaptability to different types of goods.
Ability to carry almost any bulk material
High reliability of operations
Can transport material in any direction.

53. 4.What is the limitations of belt conveyor?
Answer: The limitations of belt conveyor are-
Accumulation difficult.
complicated marshalling
The loss of light weight bulk material carried away as dust or spilled from the belt
along its path is another objectionable feature.
Continuous or periodic monitoring of belt is necessary
Heat affects the material of belt.
5.Write down the application if Belt conveyor system?
Answer: Belt conveyor is a part of a Conveyor system which has majorly helped to progress
the industrial sector promptly. It is widely used for the purpose of material handling projects
from one point to another. The process of conveying materials have become easy and quick
because of this efficient mechanical device. The belt conveyors can also transport heavy
materials effortlessly. It is used to convey materials like grain, sand, coal, ore, salt, etc.
Applications of belt conveyor are-
Conveyor belts are widely used in mineral industry.
Underground mine transport, opencast mine transport and processing plants deploy
conveyor belts of different kinds to adopt the specific job requirements.
Manufacturing industries
Pharmaceuticals
Food producing industries
Packaging industries
Categorizing and gathering the materials
Power plants
Bakeries and confectioneries
Textile industries
Laundries
Flour mills
Ice-cream plants
Chemical plants
Shipyards
6. What are the types of conveyor belts?
Answer: 8 Basic Types of Conveyor Belts. These are-

54. Roller Bed Conveyor Belts.
Curved Belt Conveyors.
Incline/Decline Belt Conveyors.
Sanitary and Washdown Conveyors.
Specialty Conveyor Belt
Cleated Belt Conveyors
Modular Belt Conveyors
Flat Belt Conveyors
7.What is the function of conveyor?
Answer: A conveyor system is a common piece of mechanical handling equipment that
moves materials from one location to another. Conveyors are especially useful in applications
involving the transportation of heavy or bulky materials.
8. How does a conveyor belt work?
Answer: Conveyor Belt is one of the elementary tools in the material handling industry, a
conveyor belt is the carrying medium of a Belt Conveyor System.
Conveyor Belt system is used in a transportation tool that works straight on a Conveyor
surface or rollers which constantly move and it can be carried on the same level or
interchanging level. The Conveyor Belt is driven by an electrically powered unit which is
mostly located on the unloading end or on an intermediate area.
Conveyor Belt is usually used in the transportation of bulk materials like coal, sand, grain,
etc. can be conveyed effortlessly without any hassle.
Belt conveyor systems comprise of two or more pulleys, the conveyor belt— rotate around
them. To move the belt forward, one or two pulleys are powered. The powered pulley is
called “drive pulley,” the unpowered one is known as “idler pulley. The mechanism between
these powered pulleys and idler pulleys work for Belt Conveyor System
9.What is conveyor weighing system?
Answer: Conveyor Weighing System that are used to measure the flow rate of Bulky
materials transported on a belt conveyor. This flow rate is received as a product of Belt Load
Belt Speed and integrated over time to derive the Total material delivered over the
Conveyer
10.Where should be installed a conveyor belt with weighing system?
Answer: To attain accurate measurement and minimize any disruption in working
processes, it is important to choose a suitable location for the installation of conveyor belt
with weighing system

55. 11.Write down the main applications of conveyor belt in Mining Industry?
Conveyor belts are widely used in mineral industry. Underground mine transport, opencast
mine transport and processing plants deploy conveyor belts of different kinds to adopt the
specific job requirements. The main advantages of conveyor belt system are:
A wider range of material can be handled which pause problems in other
transportation means. Belt conveyor can be used for abrasive, wet, dry, sticky or dirty
material. The lump size of the transported material is limited by the width of the belt.
Belts up to 2500 mm wide are used in mining industry.
Higher capacity can be handled than any other form of conveyor at a considerably
lower cost per tonne kilometre. Conveyor belts with capacity of 11000t/h and
even higher can be deployed to match with higher capacity mining machinery.
Longer distances can be covered more economically than any other transportation
system. A single belt conveyor or a series of belt conveyors can do this. Belt conveyors
can be adopted for cross-country laying. 4. By the use of many forms of ancillary
equipment such as mobile trippers or spreaders bulk material can be distributed and
deposited whenever required.
Many other functions can be performed with the basic conveying like weighing,
sorting, picking, sampling, blending, spraying, cooling, drying etc. 6. Structurally it is
one of the lightest forms of conveying machine. It is comparatively cheaper and
supporting structures can be used for many otherwise impossible structures such
as crossing rivers, streets and valleys.
The belt conveyor can be adopted for special purposes (fire resistant, wear resistant,
corrosion resistant, high angle negotiation etc.) and can be integrated with other
equipment.
It can be horizontal, incline or decline or combination of all.
Minimum labour is required for the operation and maintenance of belt conveyor
system.
In underground mine transport, belt conveyor can be used in thin seams as it
eliminates the rock works that might otherwise be required to gain haulage height.
Moreover, belt conveyor can provide continuous haulage service from pit bottom to
the surface

56. 1.What is conveyor belt system?
A conveyor system is a common piece of mechanical handling equipment that moves
materials from one location to another. Conveyors are especially useful in applications
involving the transportation of heavy or bulky materials.
2.Major components of conveyor belt system?
Answer : Major components are
 Long continuous belt
 Carried on rolls- rollers held by frames
 Belt wrapped around pulleys at end
 Pulleys coupled to gears and motors
 Peripheral devices to drop on belt direct around corner, clean, discharge etc
3. Sketch the belt conveyor parts:
Fig: parts of conveyor belt

57. 4.How conveyor belt functions?
Answer:
 Materials fall on moving belt that carries it along
 A continuous haulage system that is not limited by cycles of batch movement
 Requires a continuous frame and structure before can transport material over
route
5. Write down the conveyor belting parts.
Answer:
The belting parts are:
Carcass: Woven fabric or materials for tensile strengths.
Skims: Rubber layers between two carcass ply’s
Braker: Fabric coat above carcass to break impact of load
 Top cover: A rubber that resist cutting abrasions and sometimes chemical actions
6. What is conveyor belt elastomer?
Answer: Elastomer cover high-duty conveyor and processing belt. It covers conveyor with
thermoplastic. It demonstrate extremely energy return and offer consistent performance
among wide range of temperature.
7. Characteristics of conveyor belt elastomers in mining?
Answer : Those characteristics are:
 Most elastomers cover in mining for bump and abrasion resistance- good natural or
synthetic rubber
 Oil stoker coals may need chemical resistance – neoprene rubber
 Hot process ores may need heat resistance – 75% of rated carcass.
8. Equipment for loading of a conveyor belt:
Answer: Need to get even load on belt and get materials traveling in same direction to
minimize belt strain.
 Chute: may use scalping bars so fine falls on first and provide cusion.
 Transfer conveyor :wear on short replaceable belt get things to speed
 vibratory feeder is also needed.

58. 9. Sketch the method of loading conveyor belt:
10. Write down the principle of belt use.
Answer:
 Belt should always be in line with their intended purpose
 The procedure of belt installation On a belt conveyor is specified in the operation And
maintenance manual for the belt conveyor And the rules for operation and
maintenance of belt are set out in Operations manual for belt conveyor.
 The operation temperature for belt is specified In applicable technical condition Of
acceptance relevant to specific belt types.
 Belt should be used in line with the current state of the art
 The use of handling methods which expose the belt to damage shall in each case be
regarded as the user’s fault
 Any amendments to the conveyor design Without submission of relevant documents
to the belt manufacturers Shall make the warranty null and void.
 Belts should be spliced in accordance with guidelines Contained in belt maintenance
and operation documentation e.g. in the information leaflets Provide by manufacturers
Of materials used for splicing.

59.  In particular, belts must splice carefully, axially and solely by means of one technique
 Any damage to the conveyor belt caused by Improper splicing shall not be covered by
warranty obligations
 Mechanical joints can be made with use of materials available in the market and in
accordance with guidelines Issued by manufacturers Of cleats or fasteners to be used
 for joint
 Any claims by virtue of belt Failure due to improper Mechanical joints shall be
explicitly rejected.
11.what are the Belt transport condition.
Answer :
 Belt can be transported with any covered Means of transportation Which guarantee
the effectiveness Of the transport and Its compliance with Relevant regulations
 Belts to be transported must be formed into freight unit
 Belts In bulk on the means Of transport or In containers should be fixed in a way
preventing their dislocation
 The manner of fixing must be Specified by carrier, who is responsible for correct
performance of his instructions
 Inside warehouse belts shall be handled And displaced with use of tools and
equipment that exclude the possibility to have the belt damage.
12.Write down the mechanical components of a belt conveyor :
Answer :
1. Tail pulley
2. Snub pulley
3. Internal belt cleaner
4. Impact idlers
5. Return idlers
6. Belt
7. Bend pulleys
8. Take-up pulleys
9. Take-up units
10. Carrying idlers
11. Pulley cleaner
12. External belt cleaner
13. Head pulley
14. Feed chute
15. Skirt board
13.Sketch the mechanical components of belt conveyor.

60. Answer :
14. Define conveyor capacity.
Answer:
Belt conveyor is required to convey Certain quantity of material per hour as shown in the
given figure. The material is accommodated on the belt forming certain Cross section of the
material
This cross section multiplied by belt velocity provides volume of material being transported
in unit time. Thus belt conveyor's ability to transport Material is volumetric in nature
The transported volume is converted into tonnes.
15.Draw a overall machinery maintenance diagram.

61. Answer: The significance collection of technical information on construction, design, and
maintenance of belt conveyor will help to achieve increased reliability at a decreased cost.

62. 1.What is hoist?
Ans: A hoist is a device used for lifting or lowering a load by means of a drum or lift-wheel
around which rope or chain wraps. It may be manually operated, electrically or pneumatically
driven and may use chain, fiber or wire rope as its lifting medium.
2.Types of Hoist used in mining applications?
Ans: There are three principal types of hoists used in mining applications:
 Drum hoist
 Friction hoist
 Blair multi rope hoist
3. Give some example of hoist.
Ans: Examples of hoists:
 Single-drum hoist
 Double-drum hoist
 Friction hoist
 Blair-multi rope hoist
 Conical drum
 Spiral drum
4. Key factors of selecting hoisting system.
And: three key factors govern hoist selection:
 Production rate
 Depth of shaft
 Number of levels to be accessed
5.Design processes of the hoisting system.
Ans: The design process:
i. Balanced hoisting
ii. Slippage in friction sheave hoisting
iii. Wire rope size
iv. Sheave and drum diameter
v. Rope fleet angle
vi. Skip size versus hoisting velocity

63. vii. Hoisting cycle
viii. Duty cycle
ix. Auxiliary electrical and mechanical equipment
6. Describe friction hoist.
Ans: Friction hoists are the most common type of hoist used in Europe, Asia and Australia.
The friction hoist was invented in 1877 by Frederick Koepe. Friction hoists are mounted on the
ground above the mine shaft, or at the top of the headframe. Friction hoists utilize tail ropes
and counterweights and do not have the haulage rope fixed to the wheel, but instead passed
around it. The tail ropes and weights offset the need for the motor to overcome the weight of
the conveyance and hoisting rope, thereby reducing the required horsepower of the hoisting
motor by up to 30%, with the overall power consumption remaining the same. Friction hoists,
unlike drum hoists, can and normally do use multiple ropes giving them a larger payload
capacity, however since they require a larger safety factor, they are impractical for very deep
shafts.
7. Define Blair multi-rope hoist.
Ans: The Blair multi-rope hoist is a variation of the double-drum hoist. It is used in extremely
deep shafts as the second drums cable are used to balance the primary load.
8. Describe Drum hoist.
Ans: Drum hoists are the most common type of hoist used in North America, South Africa and
South America. When using a drum hoist the hoisting cable is wound around the drum when
the conveyance is lifted. Single-drum hoists can be used in smaller applications, however
double-drum hoists easily allow the hoisting of two conveyances in balance (i.e. one skip being
lifted while a second skip is being lowered). Drum hoists are mounted on concrete slabs within
a hoistroom, the hoisting ropes run from the drum, up to the top of the headframe, over a sheave
wheel and down where they connect to the conveyance (cage or skip).
9. Advantages and disadvantages of Drum hoist.
Ans: Advantages: Drum hoists require less routine maintenance than a friction hoist, because
the haulage cable is fixed to the drum, and therefore have less downtime, and the maintenance
regime is less sophisticated. Drum hoists can continue to operate if the shaft bottom gets
flooded and less shaft depth is required below the loading pocket, unlike friction hoists where
such flooding could cover the tail ropes and so on. Because drum hoists do not have tail ropes,
the hoisting system is more suited to slinging beneath a conveyance.
Disadvantages: Drum hoists take up more space than a friction hoist for the same service as all
of the haulage cable must be accommodated on the drum when the hoist is fully raised. Drum

64. hoists require rapid fluctuations in power demand, which can pose a problem if power is
generated on site rather than provided through the main power grid.
10. Advantages and disadvantages of Friction hoist.
Ans: Advantages: New friction hoists are less expensive than new drum hoists, and the lead
time for delivery may be shorter as there is more competition for manufacturing. Multi-rope
friction hoists have a larger lift capacity than a drum hoist. A friction hoist is smaller in diameter
than a drum hoist for the same service, making it easier to ship and install than a drum hoist.
Disadvantages: Balanced friction hoists are not suitable for hoisting from multiple loading
pockets on different horizons within a shaft, and are generally not suitable for deep shafts.
Friction hoists cannot operate at normal speeds if the shaft bottom is flooded and water reaches
the tail ropes.
11. Components of Hoist Plant.
Ans: The hoist plant consists of all those components of the mine plant that are necessary to
elevate ore, coal, stone, or waste and to raise and lower personnel and material in the mine.
Classified by location, they consist of the following:
1. Surface plant
 Hoist room
i. Hoist drum or sheave
ii. Hoist electrical and mechanical equipment
iii. Hoist ropes
 Headframe
i. Idler sheaves
ii. Storage bins
iii. Skip dump mechanism
2. Shaft plant
 Skips
 Cages, elevators
 Shaft guides
3. Underground plant
 Dump and storage bin
 Crusher
 Loading pocket
 Personnel and materials-handling facilities
12. Write down the Applications of Hoisting Methods.
Ans: Application of hoisting methods:

65. Drum Friction Sheave Multidrum
Optimum Depth
ft
<6000 <3000 >6000
Maximum skip
capacity
tons
28 85 56
Maximum output
tph
900 2800 1800
Features Single rope
Multilevel
Medium depth
Wide use in U.S.
Multirope
Single level
Limited depth
High production
Best efficiency
Wide use outside
U.S.
Multirope
Great depth
13. Performance characteristics of different types of hoisting system.
Ans: with their different principles, shapes, and numbers and arrangements of ropes, the
various hoisting systems exhibit quite different performance characteristics. In comparing
operating cost, the parameter that determines energy consumption, and hence cost, is the duty
cycle of the hoist. This is a plot of the instantaneous power requirements versus hoisting time.
The main difference are associated with drum shape and the use or absence of a tail rope.
Usually the most attractive system for high-speed, high-production, low-energy skip hoisting
from a single level at moderate depths is the friction sheave method. Using counterweights, it
is also adaptable to multilevel hoisting, and with ground mounting of the sheaves can be used
at depths to 5000ft or more.
14. What do you mean by duty cycle.
Ans: The relationship between hoist motor power requirements and hoisting cycle times is
called the duty cycle.
15. Illustrate components of the hoist plant with a vertical shaft.
Ans:

66. Fig: Components of the hoist plant with a vertical shaft

67. 1. Define hoist?
Ans: A hoist is a device used for lifting or lowering a load by means of a
drum or lift-wheel around which rope or chain wraps. It may be manually
operated, electrically or pneumatically driven and may use chain, fiber or
wire rope as its lifting medium.
2. How does a hoist work?
Ans: A Chain Block (also known as a hand chain hoist) is a mechanism used to
lift and lower heavy loads using a chain. Chain blocks contain two wheels
which the chain is wound around. When the chain is pulled, it winds around the
wheels and begins to lift the item that is attached to the rope or chain via a hook.
3. Is the hoist lift safe?
Ans: Know the safe load limit of the hoist. Lever operated hoists can be used to pull in any
direction, but a straight line pull must be maintained. Side pulling or lifting increases wear
and sets up dangerous stress levels on hoist parts. Only one person should pull on hand, chain
and lever hoists.
4. Mention the common causes of incidents in hoisting operation?
Ans:
 Line of Fire
 Overturning of a crane or forklift truck
 Proximity to overhead power lines
 Mechanical failure
 Dropped objects
 Climbing onto a load
5. Mark the prevention of incidents in hoisting operation?
Ans: The good news is that there are many things that can be done to prevent
these incidents from occurring. Let’s take a look at some of these elements.
 Training and competence
 Lifting and hoisting teams
 Lift plan
 Industry guidance

68. (1) What is hoisting in mining?
Ans: In underground mining a hoist or winder is used to raise and lower conveyances within
the mine shaft.
(2) What are the types of mine hoist?
Ans: Mine hoist are divided into three categories:-
1 .Friction hoist:-Friction hoist are mounted on the ground above the mine shaft or at
top of the head frame.
2. Drum hoists are mounted on concrete slabs within a hoistroom, the hoisting ropes
run from the drum, up to the top of the head frame, over a sheave wheel and down where they
connect to the conveyance.
3. Blair multi –rope hoist:-A Blair hoist is essentially a conventional hoist with wider
drums, each drum having a Centre flange that enables it to coil two ropes attached to a skip
via two head sheaves. The skip connection has a balance wheel, similar to a large –grove V-
belt sheaves , to allow moderate length changes during winding.
(3) What are the different types of hoisting equipment?
Ans: We look at the different types of hoisting equipment available:
Manual Hoists:- Manual hoists, sometimes referred to as chain falls, are ratchet (lever-
actuated) or hand chain operated lifting devices.
A manual lifting hoist uses two different chains, the hand chain used to control the lifting and
lowering action and the load chain, which supports the load.
Powered Hoists: Powered hoists are one of the different types of lifting gear you can find and
come in 3 varieties-
•electric
•air/ pneumatic
• hydraulic
(4) What are the major components of a Hoisting system?
Ans: The hoisting systems are three components:

69. Derrick: This is a long steel tower used in the drilling rig to provide vertical height
which is required to raise or lower sections of pipes into the hole. It is the most important
identifiable symbol on the drilling rig.
Block and Tackle System: his is a system in the Hoisting System that comprises of
travelling block, crown block and drilling line. They are used to provide a mechanical
advantage that helps in handling large loads easily.
Drawworks: The main operating component of the Hoisting System .They are used
to transmit power from prime movers to the hoisting drum that lifts the casing, drilling string
.They also transmit power to a rotary drive sprocket that helps in driving a rotary table.
(5) What are the types of hoisting Equipment in construction?
Ans: The common equipment used are as follows:-
 Pulley and sheave block
 Chain hoists
 Mobile cranes
 winch
 Jack Shear leg
 Tower cranes
 Whirler cranes
 Derrick cranes
 Gantry cranes
(6) What is hoist?
Ans:-A hoist is a device used for lifting or lowering a load of drum or lift –wheel around which
rope or chain warps.
(7) What is Hoist man?
Ans: In mining a person who operates steam or electric hoisting machinery used to lower cages
and skips into a mine and to raise them to the surface from different level.
(8) What are the types of hoist?
Ans: There are three types of residential hoisting devices:
1. Wheeled hoists
2. Stationary hoists
3. Ceiling lifts

70. (9) What is electrical hoist?
Ans: A hoist is a device used for lifting or lowering a load by means of a drum or lift-wheel
around which rope or chain wraps. It may be manually operated, electrically or pneumatically
driven and may use chain , fiber or wire rope as its lifting system.
(10) What about Maintenance in hoisting Device?
Ans: Hoists and ceiling lifts are mechanical devices that can break down. They need regular
servicing. Maintenance is generally complex and should be done by an expert. Purchasing a
maintenance contract from a reputable supplier is a very good idea. Powered units often have
a standby, rechargeable battery which comes with the lift.
(11) What are the characteristics of manual hoisting?
Ans:
 Initial costs are lower
 Easier to transport ,portable
 Requires more work to lift heavier loads
 Longer lifting time compared to powered varieties
 Usually prone to more wear and tear over time than powered models
(12) What are the characteristics of power hoisting?
Ans:
 Faster lifting speed
 Wider range of lifting capacity
 Pendant or controller operated
 Electric models are prone to overheating with frequent use
 Air/Pneumatic models are useful where sparking is a concern.
(13) What are the difference between pneumatic Hoist and Electric Hoist

71. (14) What are the difference between Hoist and Crane?
Ans:
Hoist Crane
A hoist is a device deployed for lowering and
lifting loads.
crane is a device utilized for moving loads in
different directions.
A hoist is a simple equipment. a crane is a complicated device.
A hoist can move loads vertically. a crane can move loads both vertically and
horizontally.
(15) What are the advantages of drum hoist?
Ans: Advantages:-
• Drum hoists require less routine maintenance than a friction hoist, because the
haulage cable is fixed to the drum, and therefore have less downtime, and the maintenance
regime is less sophisticated.
• Drum hoists can continue to operate if the shaft bottom gets flooded and less
shaft depth is required below the loading pocket, unlike friction hoists where such flooding
could cover the tail ropes and so on. Because drum hoists do not have tail ropes
• The hoisting system is more suited to slinging beneath a conveyance
(16) What are the Disadvantages of drum hoist?
Ans:-Disadvantages:-
• Drum hoists take up more space than a friction hoist for the same service as all
of the haulage cable must be accommodated on the drum when the hoist is fully raised.
• Drum hoists require rapid fluctuations in power demand, which can pose a
problem if power is generated on site rather than provided through the main power grid.

72. (17) Draw underground mining plant main components related to shaft and
hoist?
Fig: underground mining plant main components related to shaft and hoist

73. 1 .What are the Applications of hoist in Industries? 4
Ans: Hoists are used anywhere lifting and moving a load is required, not restricted to
industrial applications. Hoists have a wide range of applications including lifting
cargo, construction materials, engines and warehouse stock.
Industries where hoists are used include the followings:
 Aerospace
 Automotive
 Construction
 Logging
 Marine
 Manufacturing
 Medical
 Mining
2 .How the maintenance of Hoist is done? 3
Ans: As with any equipment it is important to assess the condition of a used or refurbished
hoist. Inspection of the hoist rigging equipment as well as regular maintenance of the hoist is
highly recommended. If possible, obtain the serial number for the used item. This will help
identify the design specifications and limitations as set by the manufacturer. Although not
common, failure in the support structure or line material can occur. It is important to be aware
of the regulations outlined by OSHA Standard 1910.179, “Overhead and Gantry Cranes,”
outlines information regarding the operation and safety of overhead cranes.
3 .What are the considerations of using hoist? 4
Ans: Operating time, frequency of usage and load all factor into the life of the hoist. These
factors as well as travel distance and speed will also affect the lifetime of the trolley, where
applicable. Using equipment above recommended parameters will lower the product lifetime.
The required effort to operate a manual hoist (lever or hand operated) should be within the
limits of the operator.
The lifting capacity of the hoist should not be higher than the weight capacity of the structure
that will support the hoist .For most applications requiring regular lifting of 2 tons or more, a
motorized trolley is recommended. Structural components such as the load block or hook add
to the overall weight being lifted, keep this in mind when assessing lifting needs.Specialty or
custom hoists are often available from certain manufacturers.
4 .Write down the Use of Power Travel Wire Hoist. 2

74. Ans: Its a heavy-duty electric hoist which is ideal for rough environments.it is one of the fastest
moving hoists. Where electric motor and dual rails are used it can carry up to 20tons but is not limited
to that. Specific power travel wire hoists can be designed for a heavier load-bearing capacity. This
hoist truly delivers power and efficiency required in chemical plants, foundries and steel mills.
5 .Write down the use of Push Pull Trolley Hoist. 2
Ans: It’s a hand operated hoist with a trolley attached at the end. The trolley comes equipped
with wheels for easier lateral motion. This hoist specifically geared towards load shifting
rather than cross motion. They have load bearing capacity of up to 3 tonnes. This hoist is
perfect for warehouse and storage facilities.
6. Write down the use of Flame Proof Hoist. 2
Ans: This hoist is specially designed for environments where fire are a known hazard. Oil
refineries and chemical plants are the major businesses in need of this hoist. It’s a regular
hoist, electrically operated using a hand-held pendant.
7. Write down the use of Double Rail Hoist. 2
Ans: this hoist is used for double girder cranes.it is also referred to as crab hoist. Its excellent
for heavier loads. Double girder cranes are used for spans and need a specialized hoist, which
is where the crab crawls.
8. Write down the use of Double Rail Hoist. 2
Ans: It’s one of the most versatile hoists, providing ample maneuverability. Its used in the
environments where lot of cross movement is necessary.it navigate through twists and turns
and easily; change direction as needed. Its used in warehouses and manufacturing plants.
9. Write down the use of Electric Hoist. 2
Ans: Electric hoists can be designed to use chain or wire rope, and use an electric motor to
turn gears located inside the hoist that lift or lower the load .Electric hoists can be used in a
variety of applications and come in numerous types and configurations, but are limited by
duty cycle and can’t run continuously. The electric motor in the hoist requires a cooling-off
period in between uses to ensure that the motor doesn’t overheat.
10. What are the uses of Electric Chain Hoist? 2
Ans: Electric chain hoists are used for lifting or lowering material. An electric motor and
controller are utilized to lift, lower and accelerate or decelerate the speed of the hoist. Electric
hoists are ideal for use in industrial production lines and small machine shops where more
frequent and faster lifting is required.
11. Briefly describe about maintenance and servicing of hoist and sling? 7
Ans: The maintenance of hoists and slings is a vital element in ensuring the safety of service
users. Like all mechanical equipment, hoists suffer wear and tear during prolonged use and
can malfunction or just wear out. Faults and breakdowns involving hoists, and a failure to
repair or maintain them, are the most common causes of accidents and prosecutions.managers
must ensure that all hoists are maintained and regularly serviced according to the
recommendations of the manufacturer, usually on a six-monthly basis. Maintenance should