1. Essentials of Fire Fighting,
5th Edition
2. Firefighter I 131 Chapter 13 Lesson Goal After completing this lesson, the student shall be able to use, care for, and perform maintenance on fire hose, couplings, hose appliances, and tools and perform various hose loads and finishes according to the authority having jurisdiction (AHJ).
3. Firefighter I 132 Specific Objectives 1. Discuss fire hose sizes.
2. Describe types of fire hose damage and practices to prevent such damage.
3. Discuss general care and maintenance of fire hose.
4. Firefighter I 133 Specific Objectives 4. Distinguish between characteristics of threaded couplings and nonthreaded couplings.
5. Discuss care of fire hose couplings.
6. Describe the characteristics of hose appliances and tools.
5. Firefighter I 134 Specific Objectives 7. Describe common hose rolls.
8. List general hose loading guidelines.
9. Describe common hose loads.
10. Describe hose load finishes.
11. Discuss preconnected hose loads for attack lines.
6. Firefighter I 135 Specific Objectives 12. List guidelines when laying hose.
13. Describe the basic hose lays for supply hose.
14. Describe procedures for handling preconnected and other hose.
7. Firefighter I 136 Specific Objectives 15. List general safety guidelines that should be followed when advancing a hoseline into a burning structure.
16. Discuss procedures for advancing hose.
17. Describe techniques for operating hoselines.
8. Firefighter I 137 Specific Objectives 18. Inspect and maintain hose. (Skill Sheet 13-I-1)
19. Make a straight hose roll. (Skill Sheet 13-I-2)
20. Make a donut hose roll. (Skill Sheet 13-I-3)
9. Firefighter I 138 Specific Objectives 21. Couple a hose. (Skill Sheet 13-I-4)
22. Uncouple a hose. (Skill Sheet 13-I-5)
23. Make the accordion hose load. (Skill Sheet 13-I-6)
24. Make the horseshoe hose load. (Skill Sheet 13-I-7)
10. Firefighter I 139 Specific Objectives 25. Make the flat hose load. (Skill Sheet 13-I-8)
26. Make the preconnected flat hose load. (Skill Sheet 13-I-9)
27. Make the triple layer hose load. (Skill Sheet 13-I-10)
11. Firefighter I 1310 Specific Objectives 28. Make the minuteman hose load. (Skill Sheet 13-I-11)
29. Connect to a hydrant using a forward lay. (Skill Sheet 13-I-12)
30. Make the reverse hose lay. (Skill Sheet 13-I-13)
12. Firefighter I 1311 Specific Objectives 31. Advance the preconnected flat hose load. (Skill Sheet 13-I-14)
32. Advance the minuteman hose load. (Skill Sheet 13-I-15)
33. Advance the triple layer hose load. (Skill Sheet 13-I-16)
13. Firefighter I 1312 Specific Objectives 34. Advance hose Shoulder-load method. (Skill Sheet 13-I-17)
35. Advance hose Working line drag method. (Skill Sheet 13-I-18)
36. Advance a line into a structure. (Skill Sheet 13-I-19)
14. Firefighter I 1313 Specific Objectives 37. Advance a line up and down an interior stairway. (Skill Sheet 13-I-20)
38. Advance an uncharged line up a ladder into a window. (Skill Sheet 13-I-21)
15. Firefighter I 1314 Specific Objectives 39. Advance a charged line up a ladder into a window. (Skill Sheet 13-I-22)
40. Extend a hoseline. (Skill Sheet 13-I-23)
41. Simulate the procedure for controlling a loose hoseline. (Skill Sheet 13-I-24)
16. Firefighter I 1315 Specific Objectives 42. Replace a burst hoseline. (Skill Sheet 13-I-25)
43. Operate a charged attack line from a ladder. (Skill Sheet 13-I-26)
17. Firefighter I 1316 Fire Hose Produced in different diameters, each for specific purposes
Size refers to outside diameter
Most commonly cut, coupled into pieces of 50 or 100 feet (15 or 30 m)
18. Firefighter I 1317 Fire Hose
19. Firefighter I 1318 Intake Hose Used to connect fire department pumper or portable pump to water source
Two groups
Soft intake hose
Hard intake hose
20. Firefighter I 1319 NFPAฎ Standards NFPAฎ 1961, Standard on Fire Hose, lists specifications for fire hose
NFPAฎ 1963, Standard for Fire Hose Connections, lists specifications for fire hose couplings and screw threads
21. Firefighter I 1320 NFPAฎ Standards NFPAฎ 1901, Standard for Automotive Fire Apparatus, requires pumpers to carry varying sizes/amounts of hose
22. Firefighter I 1321 Fire Hose Damage Mechanical Slices, rips, abrasions �on coverings
Crushed/damaged �couplings
Cracked inner linings
Certain practices prevent damage
23. Firefighter I 1322 Fire Hose Damage Thermal Excessive heat/direct flame contact can char, melt, weaken outer jacket and dehydrate rubber lining
Inner linings can be dehydrated when hose hangs to dry too long
Certain practices prevent damage
24. Firefighter I 1323 Fire Hose Damage Organic Rubber-jacket hose not subject to damage caused by living organism, but this is a problem on hose with woven jacket of natural fiber if stored wet
Mildew, mold rot fibers of hose jacket, causing hose to rupture under pressure
25. Firefighter I 1324 Fire Hose Damage Organic If outer jacket made of synthetic fibers, will resist organic damage
Outer jacket of some natural-fiber hose has been chemically treated to resist mildew, mold; not always 100 percent effective
Certain practices prevent damage
26. Firefighter I 1325 Fire Hose Damage Chemical Chemicals, chemical vapors can damage outer jacket on hose or cause rubber lining to separate from inner jacket
When hose exposed to petroleum products, paints, acids, alkalis, may be weakened
27. Firefighter I 1326 Fire Hose Damage Chemical
28. Firefighter I 1327 Washing Hose Method depends on type of hose
Hard rubber booster hose, hard intake hose, rubber-jacket collapsible hose
Woven-jacket fire hose
29. Firefighter I 1328 Washing Hose When jacket exposed to oil
Wash with mild soap/detergent using common scrub brush
Make sure oil completely removed
Thoroughly rinse with clear water
30. Firefighter I 1329 Washing Hose Hose washing machines
Can make care, maintenance easier
Wash almost any size fire hose up to 3 inches (77 mm)
Flow of water into device can be adjusted as desired
31. Firefighter I 1330 Washing Hose Hose washing machines
Movement of water assists in propelling hose through device
Hoseline that supplies washer with water can be connected to pumper or used directly from hydrant
Higher water pressure = Better results
Cabinet-type machine
32. Firefighter I 1331 Drying Hose Woven-jacket must be thoroughly dried before being reloaded on apparatus
Methods depend on type of hose
Should be in accordance with SOP, manufacturers recommendations
Some may be placed on apparatus wet with no ill effects
33. Firefighter I 1332 Storing Hose After hose has been brushed, washed, dried, should be rolled and stored in suitable racks unless it is to be placed back on apparatus
34. Firefighter I 1333 Storing Hose Hose racks
Located in clean, well-ventilated room or close to apparatus
Can be freestanding on floor or mounted permanently on wall
If mobile, can be used to store and move hose
35. Firefighter I 1334 Threaded Fire Hose Couplings Consist of two major components
Male External threads
Female Internal threads
36. Firefighter I 1335 Threaded Fire Hose Couplings Disadvantage One male, one female necessary to make connection unless double-male or double-female adapter used
37. Firefighter I 1336 Threaded Fire Hose Couplings Intake hose
Sometimes equipped with two-piece female hose couplings on each end
Threaded hose couplings on large intake hose equipped with extended lugs providing handles for attaching to hydrant outlet/pump intake
38. Firefighter I 1337 Threaded Fire Hose Couplings Shank
Portion of coupling that serves as point of attachment to hose
Lugs
Aid in tightening, loosening couplings
Aid in grasping coupling when making, breaking coupling connections
Types
39. Firefighter I 1338 Threaded Fire Hose Couplings Higbee cut
Special type of thread design
Tends to eliminate cross-threading
One rocker lug on each half of coupling has small indentation to mark where Higbee cut begins
40. Firefighter I 1339 Storz Couplings Referred to as sexless couplings
No distinct male/female components
Identical to, may be connected to other Storz couplings of same size
Designed to be connected/disconnected with quarter turn
41. Firefighter I 1340 Storz Couplings Have lugs, slots built into swivel rings of each coupling for locking
Must have locking devices if attached to large-diameter hose
42. Firefighter I 1341 Rules for Care of Fire Hose Couplings Avoid dropping/dragging
Do not permit vehicles to run over hose
Inspect couplings when hose washed/�dried
Remove gasket, twist swivel in warm, soapy water
43. Firefighter I 1342 Rules for Care of Fire Hose Couplings Clean threads to remove tar, dirt, gravel, oil
Inspect gasket, replace if cracked/�creased
44. Firefighter I 1343 Cleaning Fire Hose Couplings Hose-washing machines will not clean sufficiently
Swivel part should be submerged in warm, soapy water and worked forward and backward
45. Firefighter I 1344 Cleaning Fire Hose Couplings Male threads should be cleaned with stiff brush
Wire brush may be necessary
Swivel gasket
Expansion-ring gasket
46. Firefighter I 1345 Hose Appliances Any piece of hardware used with fire hose to deliver water
47. Firefighter I 1346 Hose Appliances Valves
Control flow of water in hoselines, at hydrants, at pumpers
Ball valves
Gate valves
Butterfly valves
Clapper valves
48. Firefighter I 1347 Hose Appliances Valve devices
Allow number of hoselines operating on fire ground to be increased/decreased
Wye appliances
Siamese appliances
Water thief appliances
Large-diameter hose appliances
Hydrant valves
49. Firefighter I 1348 Hose Appliances Fittings
Connect hose of different diameters, thread types
Adapter
Reducers
Elbows
Hose caps
Hose plugs
50. Firefighter I 1349 Hose Appliances Intake strainers
Devices attached to drafting end of hard intake to keep debris from entering fire pump
Guidelines for use
51. Firefighter I 1350 Hose Tools Hose roller
Prevents damage to hose that can occur when dragged over sharp corners
Consists of metal frame with two or more rollers
Can be used for protecting rope from similar edges
52. Firefighter I 1351 Hose Tools Hose jacket
Can be installed on ruptured section of hoseline to temporarily close rupture
Consists of hinged two-piece metal cylinder
Made in two sizes
Encloses hose so can operate at full power
Can be used to connect hose with mismatched couplings
53. Firefighter I 1352 Hose Tools Hose clamp
Can be used to stop flow of water in hoseline
Three types Screw-down, press-down, hydraulic press
Can injure firefighters/damage hose if applied incorrectly
Several general rules for use
54. Firefighter I 1353 Hose Tools Spanner
Used to tighten/loosen couplings
May have other built-in features
55. Firefighter I 1354 Hose Tools Hydrant wrench
Used to remove caps from hydrant outlets, open hydrant valves
Equipped with pentagonal opening fitting most standard hydrant operating nuts
May be equipped with spanner
56. Firefighter I 1355 Hose Tools Rubber mallet Strike lugs to tighten/loosen couplings
Hose bridge/ramp
Helps prevent damage to hose
Should be used where hose laid across street
Can be positioned over small spills
Can be used as chafing blocks
57. Firefighter I 1356 Hose Tools Chafing blocks
Used to protect fire hose where subjected to rubbing from vibrations
Useful where intake hose comes in contact with pavement
May be wood, leather, old truck tires
58. Firefighter I 1357 Hose Tools Hose strap, hose rope, hose chain
Used to carry, pull fire hose
Provide more secure means to handle pressurized hose when applying water
59. Firefighter I 1358 Straight Roll Simplest
Starts at one end, �usually male coupling; �to complete roll hose �toward other end
When complete, female end exposed and male protected in center of roll
60. Firefighter I 1359 Used in situations
When loaded back on apparatus at fire
When returned to quarters for washing
When placed in storage
Easy loading of minuteman load
Methods to indicate need for repair/test Straight Roll
61. Firefighter I 1360 Donut Roll Used in situations where hose is likely to be deployed for use directly from roll
62. Firefighter I 1361 Donut Roll Advantages over straight roll
Better control
Hose rolls out easier
Facilitates connecting to other couplings
Can be performed by 1-2 firefighters
63. Firefighter I 1362 Twin Donut Roll Works well on 1ฝ-inch �(38 mm) and 1พ-inch �(45 mm) hose
Creates compact roll �that is easily transported, carried
If couplings offset about 1 foot (0.3 m), can be coupled together after roll tied
64. Firefighter I 1363 Self-Locking Twin Donut Roll Twin donut roll with built-in carrying loop formed from hose itself
Loop locks over couplings to keep intact
Length of carrying loop may be adjusted
65. Firefighter I 1364 Hose Beds Hose compartments on fire apparatus
Vary in size, shape
Sometimes built for specific needs
Front of hose bed
Rear of hose bed
Split beds
66. Firefighter I 1365 Hose Loading Guidelines Check gaskets, swivel before connecting couplings
Keep flat sides of hose in same plane when two sections connected
Tighten couplings hand-tight
Remove kinks, twists when bent to form loop in hose bed
67. Firefighter I 1366 Hose Loading Guidelines Make short fold/reverse bend in hose during loading so couplings not too close to front or rear of hose bed and will not flip over when pulled out of bed
Load large-diameter hose with all couplings near front of bed
Do not pack too tightly
68. Firefighter I 1367 Accordion Load Derives name from manner in which it appears after loading
Procedure
Advantages
69. Firefighter I 1368 Horseshoe Load Named for way it �appears after loading
Procedure
Advantage
Disadvantages
70. Firefighter I 1369 Horseshoe Load In single hose load, may be started on either side
Steps for split hose bed
71. Firefighter I 1370 Flat Load Easiest to load
Suitable for any size supply hose
Best way for large-diameter hose
Advantage
Disadvantage
72. Firefighter I 1371 Flat Load May be started on either side of single hose bed
In split hose bed, lay first length against partition with coupling hanging appropriate distance below hose bed
Large-diameter hose
73. Firefighter I 1372 Finishes for Forward Lays Designed to facilitate making hydrant connection
Not as elaborate as finishes for reverse lays
74. Firefighter I 1373 Finishes for Forward Lays Straight finish
Last length or two of hose flaked loosely back and forth across top of hose load
Associated with forward-lay operation
Hydrant wrench, gate valve, adapters strapped to hose near female coupling
75. Firefighter I 1374 Finishes for Reverse Lays Reverse horseshoe finish
Similar to horseshoe load
One or two 100-foot (30 m) lengths of hose
Can be used with any size attack hose
Can be used for preconnected line
Can be loaded in two or three layers
Can be pulled from bed for arm carry
76. Firefighter I 1375 Finishes for Reverse Lays Skid load finish
Folding last three lengths of hose into compact bundle on top of rest of load
Begins by forming 3+ pull loops extending beyond end of hose load
Rest of hose accordion-folded across hose used to form pull loops
77. Firefighter I 1376 Preconnected Hose Loads for Attack Lines Primary lines used for fire attack by most departments
Connected to discharge valve, placed in area other than main hose bed
Range from 50-250 feet (15-75 m)
Can be carried in several places
78. Firefighter I 1377 Preconnected Flat Load Adaptable for varying �widths of hose beds
Often used in transverse �beds
Similar to flat load for large supply hose except
Preconnected
Loops provided to aid in pulling from bed
79. Firefighter I 1378 Triple Layer Load Begins with hose folded �in three layers
Designed to be pulled by �one person
Disadvantage
Can be used for all sizes attack lines
Often preferred for larger lines
80. Firefighter I 1379 Minuteman Load Designed to be pulled, �advanced by one
Advantage
Pays off shoulder as �firefighter advances toward fire
Well suited for narrow hose bed
Disadvantages
81. Firefighter I 1380 Booster Hose Reels Used for booster lines
May be mounted in any of several places on apparatus
May be hand- or power-operated
Should be loaded one layer at a time in an even manner
82. Firefighter I 1381 Guidelines When Laying Hose Do not ride in standing position to lay hose when apparatus moving
Drive apparatus at speed no greater than one that allows couplings to clear tailboard as hose leaves bed
Lay hose to one side of roadway
83. Firefighter I 1382 Forward Lay Hose laid from water source to fire
Used when source is a hydrant and pumper must be positioned near fire
Hose beds should be loaded so first coupling off is female
Operation
84. Firefighter I 1383 Forward Lay Advantages
Disadvantages
Information for firefighter at hydrant
Making hydrant connection
Using four-way hydrant valves
85. Firefighter I 1384 Reverse Lay Hose laid from fire to water source
Used when pumper must first go to fire location so size-up can be made before laying supply line
Most expedient way to lay hose if apparatus must stay close to water
86. Firefighter I 1385 Reverse Lay Hose beds should be loaded so first coupling off hose bed is male
Has become standard method for setting up relay pumping operation when using 2ฝ-inch or 3-inch (65 or 77 mm) hose as supply line
87. Firefighter I 1386 Reverse Lay Long lays of large hose may require pumper at hydrant to increase pressure in supply hose
Most direct way to supplement pressure, set up drafting operations
Disadvantages
88. Firefighter I 1387 Reverse Lay Procedures if operation involves two pumpers
Does not require four-way hydrant valve
Also used when pumper arrives at fire and must work alone for extended time
89. Firefighter I 1388 Reverse Lay Making hydrant connections with soft intake hose
Making hydrant connections with hard intake hose
90. Firefighter I 1389 Split Lay Any of a number of ways to lay multiple supply hoses with a single engine
Various types
If equipped with sexless couplings, direction of lay is unimportant
May other options when hose bed is divided
91. Firefighter I 1390 Pulling Preconnected Hoselines Preconnected flat load
Minuteman load
Triple layer load
92. Firefighter I 1391 Other (Not Preconnected) Hoselines Usually 2ฝ-inches (65 mm) or larger
Wyed lines
Shoulder loads from flat/horseshoe loads
Shoulder loads from accordion or flat loads
93. Firefighter I 1392 Working Line Drag One of quickest, easiest ways to move fire hose at ground level
Use limited by available personnel
94. Firefighter I 1393 Advancing Hoselines Difficult when deploying up or down stairways, from standpipes, up ladders, deep into buildings
Easier when uncharged
95. Firefighter I 1394 Guidelines When Advancing Hoseline into Burning Structure Bleed air from charged hoselines before entering
Position nozzle operator, all members of hose team on same side of hoseline
Check doors for heat before opening
96. Firefighter I 1395 Guidelines When Advancing Hoseline into Burning Structure Stay low, avoid blocking ventilation openings
Chock self-closing doors open
Check for, remove kinks from line
97. Firefighter I 1396 Advancing Hose Up Stairway Should be advanced up stairways uncharged when conditions allow
Lay uncharged hose against outside wall to keep stairs clear as possible, avoid sharp bends and kinks in hose
If possible, position firefighter at every turn/point of resistance
98. Firefighter I 1397 Advancing Hose Down Stairway Advancing uncharged hoseline easier than charged
Advancing uncharged line recommended only when no fire, very minor fire
99. Firefighter I 1398 Advancing Hose Down Stairway Excess hose should be flaked outside stairwall
Firefighters must be positioned at corners, pinch points
100. Firefighter I 1399 Advancing Hose From Standpipe Getting hose to upper floors of high-rise buildings can be challenging
One solution is to have hose rolls or packs on apparatus ready to carry aloft and then connect to standpipe system
101. Firefighter I 13100 Advancing Hose From Standpipe Hose must be brought to fire floor over aerial ladder or by interior stairway
Crews normally stop one floor below fire floor and connect to standpipe
If standpipe in enclosed stairwell, it is acceptable to hook up on fire floor
102. Firefighter I 13101 Advancing Hose From Standpipe Steps once at standpipe connection
Be alert for pressure-relief devices and follow SOPs for removal/connection
If using certain sizes of hose, place gated wye on standpipe outlet
103. Firefighter I 13102 Advancing Hose From Standpipe 2ฝ-inch (65 mm) attack line may be used depending on size, nature of fire
Extra hose should be flaked up stairs toward floor above fire
During pickup operations, carefully drain water to prevent unnecessary damage
104. Firefighter I 13103 Advancing Hose Up Ladder Easier and safer with uncharged line
Advancing charged line
Operating hoseline from ladder
105. Firefighter I 13104 Controlling Loose Hoseline Very dangerous because it may flail about or whip back and forth
Firefighters, bystanders may be seriously injured or killed
Methods for controlling
106. Firefighter I 13105 Replacing Burst Sections Hose clamp or kink can be used to stop flow of water when replacing burst section of hose
Two additional sections of hose should be used to replace any one bad section
107. Firefighter I 13106 Operating Small Handlines One Firefighter Method Only used during overhaul �after fire or for very small �outdoor nuisance fires
Requires hoseline to be straight at least 10 feet (3 m) behind nozzle
Firefighter should hold nozzle with one hand and hose with the other
108. Firefighter I 13107 Operating Small Handlines Two Firefighter Method Usually needed when nozzle must be advanced
Nozzle operator duties
Backup firefighter duties
109. Firefighter I 13108 Operating Large Handlines One Firefighter Method NOT recommended when nozzle is connected to large handline
May be used during exposure protection/overhaul operations if master stream device unavailable
110. Firefighter I 13109 Operating Large Handlines One Firefighter Method Large loop formed that crosses over line behind nozzle
Firefighter sits on intersection where hose crosses and directs stream
111. Firefighter I 13110 Operating Large Handlines One Firefighter Method To reduce fatigue, nozzle operator can use hose strap or utility strap looped over shoulder or reduce nozzle flow if conditions allow
Does not permit much maneuvering
112. Firefighter I 13111 Operating Large Handlines Two Firefighter Method #1 Uses means of anchoring hose because of nozzle reaction
Nozzle operator duties
Backup firefighter duties
113. Firefighter I 13112 Operating Large Handlines Two Firefighter Method #2 Uses hose rope tools or utility straps to assist in anchoring hose
Nozzle operator duties
Backup firefighter duties
114. Firefighter I 13113 Operating Large Handlines Three Firefighter Method In all cases, positioning of nozzle operator same as for two-firefighter method
115. Firefighter I 13114 Operating Large Handlines Three Firefighter Method Some departments prefer first backup firefighter to stand behind nozzle operator with third firefighter kneeling on hose behind second firefighter
Another method is for all firefighters to use hose straps and remain standing
116. Firefighter I 13115 Summary To fight fires safely and effectively, firefighters must know the capabilities and limitations of the various types of fire hose used in their departments.
117. Firefighter I 13116 Summary Firefighters must know the differences between supply hose and attack hose and how to use each one.
Firefighters must know how to load hose onto apparatus and how to make the various hose load finishes used in their department.
118. Firefighter I 13117 Review Questions 1. List three methods to prevent each of the following types of fire hose damage: mechanical damage, thermal damage, organic damage, and chemical damage.
119. Firefighter I 13118 Review Questions 2. What is the difference between threaded couplings and nonthreaded couplings?
3. List common hose rolls.
120. Firefighter I 13119 Review Questions 4. List four general loading guidelines.
5. What are general safety guidelines when advancing hose into a burning structure?
