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pdf§ 160.176–23
46 CFR Ch. I (10–1–98 Edition)
(2) Procedures for examining serviceability of lifejackets and the frequency
of examination.
(3) Pages for logging on board examinations.
(4) Frequency of required servicing at
approved servicing facilities.
(5) Instructions, if any, on proper
stowage.
(6) Procedures for getting the lifejackets repaired by a servicing facility
or the manufacturer.
(7) Procedures for making emergency
repairs on board.
(8) Any specific restrictions or special instructions.
§ 160.176–23 Marking.
(a) General. Each inflatable lifejacket
must be marked with the information
required by this section. Each marking
must be waterproof, clear, and permanent. Except as provided elsewhere in
this subpart, each marking must be
readable from a distance of three feet.
(b) Prominence. Each marking required in paragraph (d) of this section,
except vital care and use instructions,
if any, must be less prominent and in
smaller print than markings required
in paragraph (c) of this section. Each
optional marking must be significantly
less prominent and smaller than required
markings.
The
marking
‘‘ADULT’’ must be in at least 18 mm (3⁄4
inch) high bold capital lettering. If a
lifejacket is stored in a package, the
package must also have the marking
‘‘ADULT’’ or this marking must be
easily visible through the package.
(c) Text. Each inflatable lifejacket
must be marked with the following
text in the exact order shown:
ADULT—For a person weighing more than
90 pounds.
Type V PFD—Approved for use on (see
paragraph (e) of this section for exact text to be
used here) in lieu of (see paragraph (f) of this
section for exact text to be used here).
This lifejacket must be serviced, stowed,
and used in accordance with (insert description of service manual and user’s manual).
When fully inflated this lifejacket provides
a minimum buoyant force of (insert the design
buoyancy in lb.).
(d) Other Information. Each lifejacket
must also be marked with the following information below the text required by paragraph (c) of this section:
(1) U.S. Coast Guard Approval No.
(insert assigned approval number).
(2) Manufacturer’s or private labeler’s name and address.
(3) Lot Number.
(4) Date, or year and calendar quarter, of manufacture.
(5) Necessary vital care or use instructions, if any, such as the following:
(i) Warning against dry cleaning.
(ii) Size and type of inflation medium
cartridges required.
(iii) Specific donning instructions.
(e) Approved applications. The text to
be inserted in paragraph (c) of this section as the approved use will be one or
more of the following as identified by
the Commandant on the approval certificate issued according to § 159.005–
13(a)(2) of this chapter:
(1) The name of the vessel.
(2) The type of vessel.
(3) Specific purpose or limitation approved by the Coast Guard.
(f) Type equivalence. The exact text to
be inserted in paragraph (c) of this section as the approved performance type
will be one of the following as identified by the Commandant on the approval certificate:
(1) Type I PFD.
(2) Type V PFD—(insert exact text of
additional description noted on the approval certificate).
[CGD 78–1746, 54 FR 50320, Dec. 5, 1989, as
amended by CGD 78–174b, 56 FR 29442, June
27, 1991]
PART 161—ELECTRICAL EQUIPMENT
Subpart 161.001 [Reserved]
Subpart 161.002—Fire-Protective Systems
Sec.
161.002–1 Incorporation by reference.
161.002–2 Types of fire-protective systems.
161.002–3 Materials and workmanship.
161.002–4 General requirements.
161.002–8 Automatic fire detecting systems,
general requirements.
161.002–9 Automatic fire detecting system,
power supply.
161.002–10 Automatic fire detecting system
control unit.
161.002–12 Manual fire alarm systems.
161.002–14 Watchman’s supervisory systems.
161.002–15 Sample extraction smoke detection systems.
161.002–17 Equivalents.
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§ 161.002–1
161.002–18 Method of application for type approval.
Subpart 161.001 [Reserved]
Subpart 161.006—Searchlights, Motor
Lifeboat, for Merchant Vessels
Subpart 161.002—Fire-Protective
Systems
161.006–1 Applicable specifications.
161.006–2 Type.
161.006–3 Materials and workmanship.
161.006–4 Requirements.
161.006–5 Sampling, inspections and tests.
161.006–6 Procedure for approval.
Subpart 161.008
SOURCE: 21 FR 9032, Nov. 21, 1956, unless
otherwise noted.
§ 161.002–1
[Reserved]
Subpart 161.010—Floating Electric
Waterlight
161.010–1 Incorporation by reference.
161.010–2 Design, Construction, and Test Requirements.
161.010–3 Inspections and methods of test.
161.010–4 Procedure for approval.
Subpart 161.011—Emergency Position
Indicating Radiobeacons
161.011–1 Purpose.
161.011–5 Classes.
161.011–10 EPIRB approval.
Subpart 161.012—Personal Flotation Device
Lights
161.012–1
161.012–3
161.012–5
161.012–7
161.012–9
161.012–11
161.012–13
161.012–15
161.012–17
Scope.
Definitions.
Approval procedures.
Construction.
Performance.
Approval tests.
Production tests and inspections.
Markings.
Instructions.
Subpart 161.013—Electric Distress Light for
Boats
161.013–1 Applicability.
161.013–3 General
performance
requirements.
161.013–5 Intensity requirements.
161.013–7 Signal requirements.
161.013–9 Independent power source.
161.013–11 Prototype test.
161.013–13 Manufacturer certification and
labeling.
161.013–17 Manufacturer notification.
AUTHORITY: 46 U.S.C. 3306, 3703, 4302; E.O.
12234, 45 FR 58801, 3 CFR, 1980 Comp., p. 277;
49 CFR 1.46.
Incorporation by reference.
(a) Certain material is incorporated
by reference into this subpart with the
approval of the Director of the Federal
Register under 5 U.S.C. 552(a) and 1
CFR part 51. To enforce any edition
other than that specified in paragraph
(b) of this section, the Coast Guard
must publish notice of change in the
FEDERAL REGISTER; and the material
must be available to the public. All approved material is available for inspection at the Office of the Federal Register, 800 North Capitol Street NW.,
suite 700, Washington, DC, and at the
U.S. Coast Guard, (G–MSE), 2100 Second Street SW., Washington, DC 20593–
0001, and is available from the sources
indicated in paragraph (b) of this section.
(b) The material approved for incorporation by reference in this subpart
and the sections affected are as follows:
AMERICAN BUREAU OF SHIPPING (ABS)
American Bureau of Shipping, Two World
Trade Center, 106th Floor, New York, NY
10048.
Rules for Building and Classing Steel Vessels, 1996—161.002–4(b).
AMERICAN SOCIETY FOR TESTING AND MATERIALS (ASTM)
American Society for Testing and Materials, 100
Barr Harbor Drive, West Conshohocken, PA
19428–2959.
ASTM B 117–95, Standard Practice for Operating Salt Spray (Fog) Apparatus, 1996—
161.002–4(b).
FACTORY MUTUAL ENGINEERING AND RESEARCH (FMER)
Factory Mutual Engineering and Research,
ATTN: Librarian, 1151 Boston-Providence
Turnpike, Norwood, MA 02062.
Class Number 3150: Audible Signal Devices,
December, 1974—161.002–4(b).
Class Number 3210: Thermostats for Automatic Fire Detection, July, 1978—161.002–
4(b).
Class Number 3230–3250: Smoke Actuated Detectors for Automatic Fire Alarm Signaling, February, 1976—161.002–4(b).
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�§ 161.002–2
46 CFR Ch. I (10–1–98 Edition)
Class Number 3260: Flame Radiation Detectors for Automatic Fire Alarm Signaling,
September, 1994—161.002–4(b).
Class Number 3820: Electrical Utilization
Equipment, September, 1979—161.002–4(b).
INTERNATIONAL ELECTROTECHNICAL COMMISSION (IEC)
International Electrotechnical Commission, 1,
Rue de Varembe, Geneva, Switzerland.
IEC 533, Electromagnetic Compatibility of
Electrical and Electronic Installations in
Ships, 1977—161.002–4(b).
MARITIME
ORGANIZATION
INTERNATIONAL
(IMO)
International Maritime Organization, Publications Section 4 Albert Embankment, London
SE1 7SR, United Kingdom.
International Convention for the Safety of
Life at Sea, 1974 (SOLAS 74) Consolidated
Edition (Including 1992 Amendments to
SOLAS 74, and 1994 Amendments to SOLAS
74), 1992—161.002–4(b).
NATIONAL FIRE PROTECTION ASSOCIATION
(NFPA)
National
Fire
Protection
Association,
1
Batterymarch Park, Quincy, MA 02269.
NFPA 72, National Fire Alarm Code, 1993—
161.002–4(b).
LLOYD’S REGISTER OF SHIPPING (LR)
Lloyd’s Register of Shipping, ATTN: Publications, 17 Battery Place, New York, NY 10004–
1195.
LR Type Approval System; Test Specification Number 1, 1990—161.002–4(b).
UNDERWRITERS LABORATORIES, INC. (UL)
Underwriters Laboratories, Inc., 12 Laboratory
Drive, Research Triangle Park, NC 27709–3995.
UL 38, Standard for Manually Actuated Signaling Boxes for Use with Fire-Protective
Signaling Systems, 1994—161.002–4(b).
UL 268, Standard for Smoke Detectors for
Fire Protective Signaling Systems, 1989
(including revisions through June 1994)—
161.002–4(b).
UL 521, Standard for Heat Detectors for Fire
Protective Signaling Systems, 1993 (including revisions through October 1994)—
161.002–4(b).
UL 864, Standard for Control Units for FireProtective Signaling Systems, 1991 (including revisions through May 1994)—161.002–
4(b).
[CGD 94–108, 61 FR 28291, June 4, 1996; 61 FR
36787, July 12, 1996; 62 FR 23910, May 1, 1997;
CGD 97–057, 62 FR 51049, Sept. 30, 1997]]
§ 161.002–2 Types of fire-protective systems.
(a) General. Fire-protective systems
covered by this subpart shall include,
but not be limited to, automatic fire
and smoke detecting systems, manual
fire alarm systems, sample extraction
smoke detection systems, watchman’s
supervisory systems, and combinations
of these systems.
(b) Automatic fire detecting systems.
For the purpose of this subpart, automatic fire and smoke detecting systems will be considered to consist of
normal and emergency power supplies,
a fire detecting control unit, fire detectors, smoke detectors, and audible and
visual alarms distinct in both respects
from the alarms of any other system
not indicating fire.
(c) Manual fire alarm systems. For the
purpose of this subpart, manual fire
alarm systems will be considered to
consist of normal and emergency power
supplies, a fire alarm control unit,
manual fire alarm boxes, and audible
and visual alarms distinct in both respects from the alarms of any other
system not indicating fire. Manual fire
alarm systems are usually combined
with automatic fire detecting systems.
(d) Sample extraction smoke detection
systems. For the purpose of this subpart, Sample extraction smoke detection systems will be considered to consist of a control unit, a blower box, and
a piping system to conduct air samples
from the protected spaces to the control unit.
(e) Watchman’s supervisory systems.
For the purpose of this subpart, a
watchman’s supervisory equipment
will be considered to be apparatus, either electrical or mechanical, used to
verify the presence of watchmen and
the regular performance of their assigned duties.
[CGFR 56–39, 21 FR 9032, Nov. 21, 1956, as
amended by CGFR 70–143, 35 FR 19966, Dec.
30, 1970; CGD 94–108, 61 FR 28292, June 4, 1996]
§ 161.002–3
ship.
Materials
and
workman-
(a) Suitability. All materials used in
the construction of fire-protective
equipment shall be of the quality best
suited for the purpose intended.
(b) Materials covered by reference specifications. Where specifications are referred to for a given material, it is intended to require that the quality of
material used shall be at least equal to
that covered in the reference specifications.
[21 FR 9032, Nov. 21, 1956, as amended by CGD
94–108, 61 FR 28292, June 4, 1996]
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§ 161.002–10
§ 161.002–4 General requirements.
(a) Introduction. The purpose of fireprotective systems is to give warning
of the presence of fire in the protected
spaces. To meet this end, the basic requirements of the fire-protective systems are reliability, sturdiness, simplicity of design, ease of servicing, and
the ability to withstand shipboard
shock and vibration and the adverse effects of sea humidity.
(b) Standards. (1) All fire-protective
systems must be designed, constructed,
tested, marked, and installed according
to the applicable standards under
§ 161.002–1 and subchapter J (Electrical
Engineering) of this chapter.
(2) All systems must be listed or certified as meeting these standards by an
independent laboratory that is accepted by the Commandant under part 159
of this chapter for the testing and listing or certification of fire detection
equipment and systems.
(3) All parts of the system must pass
the environmental tests for control and
monitoring equipment in either ABS
Rules for Building and Classing Steel
Vessels Table 4/11.1 or pass the Category ENV3 tests of Lloyd’s Register
Type Approval System, Test Specification Number 1, as appropriate.
(4) Those parts of the system that are
to be installed in locations requiring
exceptional degrees of protection must
also pass the salt spray (mist) test in
either ABS Rules for Building and
Classing Steel Vessels Table 4/11.1; Category ENV3 of Lloyd’s Register Type
Approval System, Test Specification
No. 1; or ASTM B–117 with results as
described in corrosion-resistant finish
in § 110.15–1 of this chapter.
[21 FR 9032, Nov. 21, 1956, as amended by CGD
94–108, 61 FR 28292, June 4, 1996; 62 FR 23910,
May 1, 1997]
§ 161.002–8 Automatic fire detecting
systems, general requirements.
(a) General. An automatic fire detecting system shall consist of a power supply; a control unit on which are located
visible and audible fire and trouble signalling devices; and fire detector circuits, as required, originating from the
control unit. Power failure alarm devices may be separately housed from
the control unit and may be combined
with other power failure alarm systems
when specifically approved.
(b) [Reserved]
[21 FR 9032, Nov. 21, 1956, as amended by CGD
94–108, 61 FR 28292, June 4, 1996]
§ 161.002–9 Automatic fire
system, power supply.
detecting
The power supply for an automatic
fire detecting system must meet the
requirements of § 113.10–9 of subchapter
J (Electrical Engineering Regulations)
of this chapter.
[CGD 74 FR 125a, 47 FR 15279, Apr. 8, 1982]
§ 161.002–10 Automatic fire detecting
system control unit.
(a) General. The fire detecting system
control unit shall consist of a dripproof
enclosed panel containing visible and
audible fire alarm signalling devices,
visible and audible trouble alarm signalling devices, visible and audible
power failure alarm devices, power supply transfer switch, charging equipment when employed, and overcurrent
protection for power supplies.
(b) Fire alarms—(1) General. The operation of a fire detecting and alarm system must cause automatically—
(i) The sounding of a vibrating type
fire bell with a gong diameter not
smaller than 15 cm (6 inches) or other
audible alarm that has an equivalent
sound level and that is mounted at the
control unit and at the remote annunciator panel, when provided;
(ii) The sounding of a vibrating type
fire bell with a gong diameter not
smaller than 20 cm (8 inches) or other
audible alarm that has an equivalent
sound level and that is located in the
engine room; and
(iii) an indication of the fire detecting zone from which the signal originated, visible at the control unit and
at the remote annunciator panel, when
provided;
(2) Maintaining alarm. The audible
and visible alarms resulting from the
operation of a fire detector having selfrestoring contacts shall be maintained
automatically by the control unit until
a resetting device is operated manually.
(3) Silencing audible alarm. Manual
means shall be provided at the control
unit to silence the audible fire alarms,
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�§ 161.002–10
46 CFR Ch. I (10–1–98 Edition)
but operation of the audible fire alarm
device shall permit the visible fire
alarm to remain until manually reset
as described in paragraph (b)(2) of this
section.
(4) Non-interference. The control unit
shall be so arranged as to permit one or
any number of fire alarms simultaneously, and an alarm on one circuit
shall not interfere with the normal operation of any other circuit, except
that the audible fire alarms, when silenced by the means provided by paragraph (b)(3) of this section, need not
sound upon receipt of succeeding sensor signals.
(5) Source of energy. The source of energy for the alarms referred to in this
paragraph shall be the ‘‘normal
source’’. On a system supplied by duplicate storage batteries, the ‘‘normal
source’’ shall be construed to mean
that part of the supply circuit on the
load side of the battery transfer switch
and fuses. On a system supplied by a
branch circuit the ‘‘normal source’’
shall be construed to mean the load
side of any transformer or rectifier employed to modify the nature or magnitude of the supply potential.
(c) Electrical supervision—(1) Circuits.
The circuits formed by conductors extending from the control unit to the
fire detectors of each zone shall be
electrically supervised.
(2) Normal source. The normal source
of energy to the control unit shall be
electrically supervised.
(3) Audible fire alarms. The engine
room audible fire alarm shall be electrically supervised.
(d) Power failure alarms—(1) Loss of
potential. The loss of potential from a
supervised normal source of energy
automatically shall be indicated at the
control unit by the sounding of an audible power failure alarm. The source
of energy for the alarm shall be the
emergency power source. The source of
energy for the alarm of a system supplied by duplicate storage batteries
shall be the storage battery being
charged.
(2) Silencing audible alarm. Means
shall be provided at the control unit to
silence the audible power failure alarm
by transferring the signal to a visible
indicator which shall remain until the
silencing means is restored to its normal position.
(e) Trouble alarms—(1) Open Circuit.
An open circuit occurring in either supervised circuit covered by paragraph
(c) (1) or (3) of this section shall automatically be indicated at the control
unit by the sounding of an audible
trouble alarm and by a visual indicator
showing the circuit or zone from which
the signal originated except that on
systems employing closed-circuit series connected detectors, an open circuit in the zone wiring may cause a fire
alarm.
(2) Silencing audible alarm. Manual
means shall be provided at the control
unit to silence the audible alarm. Operation of the silencing means shall permit the visible alarm to remain until
the trouble has been corrected.
(3) Non-interference. The control unit
shall be so arranged as to permit one or
any number of trouble alarms simultaneously, and an alarm on one circuit
shall not interfere with the normal operation of any other circuit, except
that the audible trouble alarm, when
silenced by the means provided by
paragraph (e)(2) of this section, need
not sound on receipt of succeeding
trouble signals.
(4) Source of energy. The source of energy for the trouble alarms required by
this paragraph shall be the normal
source as defined in paragraph (b)(5) of
this section.
(f) Circuit testing—(1) Fire alarm and
trouble alarm test. Means shall be provided at the control unit for individually testing each fire detecting zone
circuit. The testing means shall be capable of simulating a fire condition and
a trouble condition.
(2) Ground test. Means shall be provided at the control unit for manual
testing of each individual fire detecting zone circuit for the presence of
grounds. Systems whose normal source
of supply is derived from a circuit from
the ship’s alternating-current temporary emergency bus shall be provided
with a two-winding transformer in the
supply circuit and located in the control unit to isolate electrically the fire
detecting system from the ship’s electrical system.
(g) Power supply transfer switch. An
automatic transfer switch with no
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§ 161.002–14
‘‘off’’ position shall be provided in the
control unit for selecting the source of
power, except that systems employing
duplicate storage batteries may be provided with a manual transfer switch.
(1) Automatic transfer switch. Upon reduction of potential from the normal
power source of 15 to 20 percent, the
automatic fire detection system shall
automatically be disconnected from
the normal source and connected to the
emergency source. Upon restoration of
potential from the normal source of 85
to 95 percent of normal valves, the
automatic fire detection system shall
automatically be transferred back to
normal source.
(2) Manual transfer switch. Automatic
fire detecting systems employing duplicate storage batteries as the power
supplies shall be provided with a manual transfer switch with no ‘‘off’’ position to select the battery to supply the
system and the battery to be charged.
(h) Automatic fire detecting system, battery charging and control—(1) General.
Automatic fire detecting systems employing duplicate storage batteries as
the power supply shall be provided with
battery charging and control facilities
as specified by this paragraph.
(2) Transfer switch. A manual transfer
switch shall be provided in accordance
with paragraph (g)(2) of this section.
(3) Voltmeter and voltmeter switch. A
voltmeter and a voltmeter switch shall
be provided at the control unit and
connected to read (i) voltage of battery
supplying system and (ii) voltage of
battery on charge.
(4) Ammeter. An ammeter shall be
provided to indicate the charging current to the battery on charge.
(5) Reverse current protection. An
undervoltage or reverse current relay
shall be provided to disconnect the battery on charge from the charging
source in the event of loss of potential
from the charging source unless reverse current flow is effectively
blocked by a rectifier.
(6) Resistors. Fixed and variable resistors shall be provided to regulate the
charging rate, together with a two-position switch to select between a normal charging rate and a high charging
rate.
(7) Overcurrent protection. The batteries shall be protected against over-
current by fuses rated at not less than
150 percent and not more than 200 percent of the maximum normal battery
load.
(8) Location. The equipment required
by this paragraph shall be located in or
adjacent to the control unit.
[CGFR 56–39, 21 FR 9035, Nov. 21, 1956, as
amended by CGFR 70–143, 35 FR 19666, Dec.
30, 1970; CGD 94–108, 61 FR 49691, Sept. 23,
1996]
§ 161.002–12 Manual fire alarm systems.
(a) General. A manual fire alarm system shall consist of a power supply, a
control unit on which are located visible and audible fire and trouble alarms,
and fire alarm circuits as required
originating from the control unit and
terminating at manual fire alarm
boxes. Power failure alarm devices may
be separately housed from the control
unit and may be combined with other
power failure alarm systems when specifically approved.
(b) Types. Manual fire alarm systems
shall be one of the following types, or
a combination of several types:
(1) Manual fire alarm stations superimposed on and connected as an integral part of the fire detector circuit
wiring of an automatic fire detection
system.
(2) Electrical system using manually
operated fire alarm boxes.
(3) Other types as may be developed.
(c) Power supply. The power supply
shall be as specified for automatic fire
detecting system by § 161.002–9.
(d) Manual fire alarm system control
unit. The manual fire alarm system
control unit shall be as specified for
automatic fire detecting systems by
§ 161.002–10.
[21 FR 9032, Nov. 21, 1956, as amended by CGD
94–108, 61 FR 28292, June 4, 1996]
§ 161.002–14 Watchman’s
supervisory
systems.
(a) General. The watchman’s supervisory system shall consist of apparatus to verify the presence of watchmen
and the regular performance of their
assigned duties.
(b) Types. The watchman’s supervisory systems shall be one of the following types, or a combination of several types:
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46 CFR Ch. I (10–1–98 Edition)
(1) A mechanical system consisting of
portable spring-motor-driven recording
clocks in conjunction with key stations located along the prescribed
routes of the watchmen to operate the
clock recording mechanism.
(2) An electrical system employing a
recorder located at a central station in
conjunction with key stations along
the prescribed route of the watchmen.
(3) Other types that may be developed.
(c) Portable spring-motor-driven recording clocks. (1) Each clock shall run for
at least one week without rewinding
and shall be substantially mounted and
strongly encased. It shall be made so
that the recordings cannot be seen
without opening the case and so that
the case cannot be opened without indicating, by a distinctive recording,
the time of opening and closing.
(2) The records of the recording
watch clock shall be legible and permanent.
(d) Key stations for use with portable
recording watch clocks. (1) The key station shall be of substantial construction and provided with a hinged cover.
The key shall be attached to the station by means of a strong link chain.
The key stations shall be mounted in
such a manner that they cannot be removed without giving evidence of removal.
(2) Keys shall be made so that they
are difficult to duplicate, and shall be
of a pattern susceptible of variations
tending to reduce the probability that
a set of keys for one clock will operate
other clocks.
[21 FR 9032, Nov. 21, 1956, as amended by
CGFR 59–7, 24 FR 3241, Apr. 25, 1959]
§ 161.002–15 Sample extraction smoke
detection systems.
The smoke detecting system must
consist of a means for continuously exhausting an air sample from the protected spaces and testing the air for
contamination with smoke, together
with visual and audible alarms for indicating the presence of smoke.
[CGD 94–108, 61 FR 28292, June 4, 1996]
§ 161.002–17 Equivalents.
The Commandant may approve any
arrangement, fitting, appliance, appa-
ratus, equipment, calculation, information, or test that provides a level of
safety equivalent to that established
by specific provisions of this subpart.
Requests for approval must be submitted to Commandant (G–MSE). If necessary, the Commandant may require
engineering evaluations and tests to
demonstrate the equivalence of the
substitute.
[CGD 94–108, 61 FR 28292, June 4, 1996]
§ 161.002–18 Method of application for
type approval.
(a) The manufacturer must submit
the following material to Commandant
(G–MSE), U.S. Coast Guard Headquarters, 2100 Second Street SW.,
Washington, DC 20593–0001:
(1) A formal written request that the
system be reviewed for approval.
(2) Three copies of the system’s instruction manual, including information concerning installation, programming, operation, and troubleshooting.
(3) One copy of the complete test report generated by an independent laboratory accepted by the Commandant
under part 159 of this chapter for the
testing and listing or certification of
fire-protective systems. A current list
of these facilities may be obtained
from the address in this section.
(4) Three copies of a list prepared by
the manufacturer that contains the
name, model number, and function of
each major component and accessory,
such as the main control cabinet, remote annunicator cabinet, detector,
zone card, isolator, central processing
unit, zener barrier, special purpose
module, or power supply. This list
must be identified by the following information assigned by the manufacturer:
(i) A document number.
(ii) A revision number (the original
submission being revision number 0).
(iii) The date that the manufacturer
created or revised the list.
(b) The Coast Guard distributes a
copy of the approved instruction manual to the manufacturer and to the
Coast Guard Marine Safety Center
(MSC).
(c) The manufacturer shall maintain
an account of the equipment offered for
approval. The list identification information in paragraphs (a)(4)(i) through
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§ 161.006–4
(a)(4)(iii) of this section appears on the
Certificate of Approval and indicates
the official compilation of components
for the approved system. If the manufacturer seeks to apply subsequently
for the approval of a revision (because
of, for example, additional accessories
becoming available, replacements to
obsolete components, or a change in
materials or standards of safety),
changes to the approved list must be
submitted for review and approval.
(d) To apply for a revision, the manufacturer must submit—
(1) A written request under paragraph (a) of this section;
(2) An updated list under paragraph
(b) of this section; and
(3) A report by an independent laboratory accepted by the Commandant
under part 159 of this chapter for the
testing and listing or certification of
fire-protective systems indicating compliance with the standards and compatibility with the system.
(e) If the Coast Guard approves the
system or a revision to a system, it
issues a certificate, normally valid for
a 5-year term, containing the information in paragraphs (a)(4)(i) through
(a)(4)(iii) of this section.
B141–45—Specification for electrodeposited
coatings of nickel and chromium on copper, and copper-base alloys.
(4) Underwriters’ Laboratories, Inc.:
Standard for flexible cord and fixture wire,
third edition, October, 1935.
(b) Copies of the above specifications
shall be kept on file by the manufacturer, together with the approved plans
and certificate of approval.
§ 161.006–2 Type.
(a) The motor lifeboat searchlight
shall be of the incandescent type
equipped with a lamp of approximately
90 watts of proper voltage for use with
the electric power installation of the
lifeboat, usually a 12-volt radio storage
battery.
(b) [Reserved]
§ 161.006–3 Materials and workmanship.
(a) Materials. The materials shall be
of best quality and suitable in every respect for the purpose intended. All materials shall be corrosion resistant. The
use of acid flux in making joints shall
not be permitted.
(b) Workmanship. The workmanship
shall be first class in every respect.
§ 161.006–1 Applicable specifications.
§ 161.006–4 Requirements.
(a) Corrosion-resisting materials. Silver, corrosion-resisting steel, copper,
brass, bronze and copper-nickel alloys
are considered satisfactory corrosionresistant materials within the intent of
this subpart.
(b) Searchlight parts. The motor lifeboat searchlight shall, in general consist of the following parts:
(a) The following specifications, of
the issue in effect on the date motor
lifeboat searchlights are manufactured,
form a part of this subpart:
(1) Navy Department specifications:
Yoke and pedestal.
Housing.
Front door.
Reflector.
Lamp socket.
Supply cable.
[CGD 94–108, 61 FR 28292, June 4, 1996]
Subpart
161.006—Searchlights,
Motor Lifeboat, for Merchant
Vessels
SOURCE: CGFR 49–43, 15 FR 127, Jan. 11,
1950, unless otherwise noted.
42S5—Screws, machine, cap and set, and
nuts.
43B11—Bolts, nuts, studs, and tap-rivets (and
materials for same).
(2) Federal specification:
QQ–B–611—Brass, Commercial; bars, plates,
rods, shapes, sheets, and strip.
(3) A.S.T.M. standards:
B117–44T—Method of salt spray (fog), testing
(tentative).
(c) Weight and dimensions. The height
of the motor lifeboat searchlight shall
not exceed 19 inches and the weight
shall not exceed 16 pounds, unless otherwise approved.
(d) Wiring. The motor lifeboat searchlight shall be wired with a five-foot
length of rubber-jacketed hard service
flexible cord, Underwriters’ Laboratories, Inc., Type S, or equivalent, of a
size not less than No. 16 AWG. At the
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point where the cable enters the
searchlight, a waterproof entrance
bushing with packing gland and cord
grip shall be provided.
(e) Lamp and socket. The motor lifeboat searchlight shall be provided with
a lamp of not less than 80 watts nor
more than 100 watts, and a suitable
lamp socket. Means shall be provided
for adjusting and securing the lamp
socket at any position between the
focal point and a point not less than 1⁄4
inch away from the focal point in either direction in the axis of the beam.
(f) Housing. The housing shall be constructed of brass, Federal Specification
QQ–B–611, Composition E, copper alloy,
or other suitable corrosion-resistant
material as approved, of a thickness
not less than No. 20 AWG. The housing
shall be capable of free movement of at
least 60 degrees above and 20 degrees
below the horizontal, and of a free
movement of 360 degrees in a horizontal plane. It shall be possible to
lock the barrel in any desired position,
vertically or horizontally, without the
use of tools. A sturdy metal hand grip
shall be provided at the back of the
housing for housing-adjusting purposes.
(g) Front door. A front door shall be
attached to the housing in such a manner that it can be readily opened or removed, without the use of tools, for the
purpose of relamping. The door, when
closed, shall be waterproof. Clear front
door glass shall be used.
(h) Reflector. The reflector shall be
paraboloidal. It shall be constructed of
brass, Federal Specification QQ–B–611
Composition E, finished and with electroplated coatings of nickel and chromium in accordance with A.S.T.M.
Specification B141–45, Type K. C., or as
otherwise approved. The reflector shall
furnish a minimum average illumination of 100 foot candles, when measured
as specified in § 161.006–5 (b) (2).
(i) Yoke and pedestal. The yoke and
pedestal shall be of rugged construction. The pedestal shall be suitable for
bolting to a flat surface with not less
than four 3⁄8-inch diameter bolts.
(j) Beam spread. The beam shall be at
least 60 feet in diameter at 200 yards.
The edge of the beam shall be defined
as a point at which the intensity of the
light is 10 percent of the maximum intensity.
(k) Bolts, nuts, and screws. Bolts and
nuts shall conform to the requirements
of Navy Department Specification
43B11. Screws shall conform to the requirements of Navy Department Specification 42S5.
(l) Name plate. The motor lifeboat
searchlight shall be provided with a
permanent metallic name plate giving
the name of manufacturer, type designation, and drawing number.
§ 161.006–5 Sampling, inspections and
tests.
(a) General. Motor lifeboat searchlights specified by this subpart are not
inspected at regularly scheduled factory inspections of production lots, but
the Commander of the Coast Guard
District may detail an inspector at any
time to visit any place where such
searchlights are manufactured to
check materials and construction
methods and to conduct such tests and
examinations as may be required to
satisfy himself that the searchlights
are being manufactured in compliance
with the requirements of this specification and with the manufacturer’s plans
and specifications approved by the
Commandant.
(b) Methods of test—(1) Waterproof test.
The searchlight shall be subjected for 5
minutes to a stream of water under a
head of approximately 35 feet from a
hose not less than 1 inch in diameter
from a distance of approximately 10
feet. The hose nozzle shall be adjusted
to give a solid stream at the enclosure.
No leakage shall occur in this test.
(2) Beam candlepower. All light except
that produced from the searchlight
under test shall be excluded from the
room in which measurements are
made. The searchlight shall be operated at rated voltage with a seasoned
lamp as specified in § 161.006–4(e). Measurements of beam candlepower shall be
made at the corners of a 6-inch square
located in the center of the beam at a
distance of 32 feet immediately in front
of the searchlight.
(3) Corrosion resistance. The searchlight shall be subjected to a 200-hour
salt spray test in accordance with A. S.
T. M. Standard B117–44T. There shall
be no evidence of corrosion that will be
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§ 161.010–3
detrimental to the operation of the
searchlight.
(4) Heat run. The searchlight, completely assembled, shall be operated
continuously for 2 hours at rated voltage following which the waterproof
test shall be conducted. This cycle
shall be repeated 3 times. The ambient
temperature shall be approximately 25
°C. The water stream shall be from an
ordinary cold water tap.
§ 161.006–6 Procedure for approval.
(a) General. Motor lifeboat searchlights are approved only by the Commandant, United States Coast Guard,
Washington, DC, 20226. Correspondence
relating to the subject matter of this
specification shall be addressed to the
Commander of the Coast Guard District in which the factory is located.
(b) Manufacturer’s plans and specifications. In order to obtain approval of
motor lifeboat searchlights, submit detailed plans and specifications, including a complete bill of material, assembly drawings, and parts drawings descriptive of the arrangement and construction of the device, to the Commander of the Coast Guard District in
which the factory is located. Each
drawing shall have an identifying
drawing number, date, and an identification of the device; and the general
arrangement for assembly drawing
shall include a list of all drawings applicable, together with drawing numbers and alteration numbers. The manufacturer will be advised whether or
not the drawings and specifications appear satisfactory or what corrections
appear necessary and then he may proceed with the construction of the preapproval sample in accordance therewith. The pre-approval sample, together with four copies of the plans and
specifications corrected as may be required, shall be forwarded to the Commandant via the Commander of the
Coast Guard District in which the factory is located for inspection and tests.
The cost of the tests is to be borne by
the manufacturer.
Subpart 161.008 [Reserved]
Subpart 161.010—Floating Electric
Waterlight
SOURCE: CGD 85–208, 54 FR 27020, June 27,
1989, unless otherwise noted.
§ 161.010–1
Incorporation by reference.
(a) Certain materials are incorporated by reference into this part
with the approval of the Director of the
Federal Register in accordance with 5
U.S.C. 552(a). To enforce any edition
other than the one listed in paragraph
(b) of this section, notice of change
must be published in the FEDERAL REGISTER and the material made available
to the public. All approved material is
on file at the Office of the Federal Register, 800 North Capitol Street, NW.,
suite 700, Washington, DC, and at the
U.S. Coast Guard, Office of Design and
Engineering Standards (G–MSE), 2100
Second Street SW., Washington, DC
20593–0001, and is available from the
sources indicated in paragraph (b) of
this section.
(b) The material approved for incorporation by reference in this part, and
the sections affected are:
UNDERWRITERS LABORATORIES, INC.
12 Laboratory Drive, Research Triangle Park,
NC 27709–3995
ANSI/UL 1196, Standard for Floating
Waterlights, Second Edition March 23, 1987.
161.010–2; 161.010–4
[CGD 85–208, 54 FR 27020, June 27, 1989, as
amended by CGD 95–072, 60 FR 50467, Sept. 29,
1995; CGD 96–041, 61 FR 50733, Sept. 27, 1996;
CGD 97ndash;057, 62 FR 51049, Sept. 30, 1997]]
§ 161.010–2 Design, Construction, and
Test Requirements.
Each floating electric waterlight
shall meet the requirements of ANSI/
UL 1196.
§ 161.010–3 Inspections and methods of
test.
(a) Each inspection and test report
required by this subpart shall comply
with § 159.005–11 of this chapter.
(b) The U.S. Coast Guard reserves the
right to make any inspection or test it
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46 CFR Ch. I (10–1–98 Edition)
deems necessary to determine the conformance of the materials and equipment to this subpart.
(c) The facilities, materials, and
labor for all tests shall be furnished at
no cost to the U.S. Coast Guard.
(b) Class C—An EPIRB that has been
type approved or type accepted by the
FCC as a Class C EPIRB. These
EPIRB’s are manually activated and
are not required to be Coast Guard approved.
§ 161.010–4 Procedure for approval.
(a) A request for approval of an automatic floating electric waterlight must
be submitted to the Commandant (G–
MSE), U.S. Coast Guard, 2100 Second
Street SW., Washington, DC 20593–0001.
(b) All inspections and tests must be
performed by an independent laboratory which meets the requirements of
§ 159.010–3 of this chapter. A list of independent laboratories accepted by the
Coast Guard as meeting § 159.010–3 of
this chapter may be obtained by contacting the Commandant (G–MSE).
(c) Each request for approval must
contain;
(1) The name and address of the applicant,
(2) One copy of all plans and specifications that meet the requirements of
§ 159.005–12 of this chapter,
(3) A pre-approval sample of the
waterlight,
(4) An inspection and test report verifying compliance with the construction
and test requirements of ANSI/UL 1196,
and
(5) A statement by the manufacturer
certifying that the waterlight complies
with the requirements of this subpart.
[39 FR 10139, Mar. 18, 1974, as amended by
CGD 80–024, 49 FR 40409, Oct. 16, 1984]
[CGD 85–208, 54 FR 27020, June 27, 1989, as
amended by CGD 95–072, 60 FR 50467, Sept. 29,
1995; CGD 96–041, 61 FR 50734, Sept. 27, 1996]
§ 161.011–10 EPIRB approval.
(a) The Coast Guard approves the
class of EPIRB’s listed in § 161.011–5(a)
of this subpart.
(b) An application for type approval
or type acceptance of an EPIRB should
be submitted to the FCC in accordance
with Title 47 of the Code of Federal
Regulations, Part 2. When requested by
the FCC, the Coast Guard reviews the
test results in the application that concern installation and automatic operation (if required) of the EPIRB. The
Coast Guard provides the results of the
review to the manufacturer, and to the
FCC for its use in acting upon the application.
(c) Upon notification of the FCC type
acceptance or type approval, the Commandant (G–MSE) issues a certificate
of approval for the EPIRB.
[CGD 80–024, 49 FR 40409, Oct. 16, 1984, as
amended by CGD 95–072, 60 FR 50467, Sept. 29,
1995; CGD 96–041, 61 FR 50734, Sept. 27, 1996]
Subpart 161.012—Personal
Flotation Device Lights
SOURCE: CGD 76–028, 44 FR 38785, July 2,
1979, unless otherwise noted.
[39 FR 10139, Mar. 18, 1974]
§ 161.012–1 Scope.
(a) This subpart prescribes construction and performance requirements, approval and production tests, and procedures for approving personal flotation
device lights fitted on Coast Guard approved life preservers, bouyant vests,
and other personal flotation devices.
(b) [Reserved]
§ 161.011–5 Classes.
EPIRB’s are classed as follows:
(a) Class A—an EPIRB that has been
type approved or type accepted by the
FCC as a Class A EPIRB. These
EPIRB’s are capable of floating free of
a vessel and activating automatically
if the vessel sinks.
§ 161.012–3 Definitions.
(a) As used in this subpart, PFD
means Coast Guard approved personal
flotation device.
(b) For the purpose of § 161.012–7, storage life means the amount of time after
the date of manufacture of the power
source of a light that the power source
Subpart 161.011—Emergency
Position Indicating Radiobeacons
§ 161.011–1 Purpose.
This subpart prescribes approval requirements for emergency position indicating radiobeacons (EPIRB).
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§ 161.012–11
can be stored under typical marine environmental conditions on a vessel and
still have sufficient power for the light
to meet the requirements of § 161.012–9.
§ 161.012–5 Approval procedures.
(a) An application for approval of a
PFD light under this subpart must be
sent to the Commandant (G–MSE), U.S.
Coast Guard, Washington, DC 20593–
0001.
(b) Each application for approval
must contain—(1) The name and address of the applicant;
(2) Two copies of plans showing the
construction details of the light;
(3) A detailed description of the applicant’s production testing program;
and
(4) A laboratory test report containing the observations and results of approval testing.
(c) The Commandant advises the applicant whether the light is approved.
If the light is approved, an approval
certificate is sent to the applicant.
[CGD 76–028, 44 FR 38785, July 2, 1979, as
amended by CGD 88–070, 53 FR 34536, Sept. 7,
1988; CGD 95–072, 60 FR 50467, Sept. 29, 1995;
CGD 96–041, 61 FR 50734, Sept. 27, 1996]
§ 161.012–7 Construction.
(a) Each light must be designed to be
attached to a PFD without damaging
the PFD or interfering with its performance.
(b) Each light and its power source
must be designed to be removed and replaced without causing damage to the
PFD.
(c) The storage life of the power
source of a light must be twice as long
as the period between the date of manufacture and the expiration date of the
power source.
(d) Each light, prior to activation,
must be capable of preventing leakage
from its container of any chemicals it
contains or produces.
(e) Each component of a light must
be designed to remain serviceable in a
marine environment for at least as
long as the storage life of the light’s
power source.
(f) No light may have a water pressure switch.
(g) Each light must be designed so
that when attached to a PFD, its light
beam, at a minimum, is visible in an
arc of 180 degrees above or in front of
the wearer.
(h) Each light, including its power
source, must fit into a cylindrical
space that is 150 mm (6 in.) long and 75
mm (3 in.) in diameter.
(i) Each light, including its power
source, must not weigh more than 225g
(8 oz.).
(j) Each light that is designed to operate while detached from a PFD must
have a lanyard that can be used to connect it to the PFD. The lanyard must
be at least 750 mm (30 in.) long.
(k) Each light designed to operate
while detached from a PFD must be capable of floating in water with its light
source at or above the surface of the
water.
§ 161.012–9 Performance.
(a) If a light is a flashing light, its
flash rate when first activated, or within five minutes thereafter, must be between 50 and 70 flashes per minute.
(b) Each light must—(1) Begin to
shine within 2 minutes after activation; and
(2) Within 5 minutes after activation
be capable of being seen from a distance of at least one nautical mile on a
dark clear night.
(c) Each light must be designed to operate underwater continuously for at
least 8 hours at a water temperature of
15°±5 °C (59°±9 °F). However, if the light
needs air to operate, underwater operation is required only for 50 or more
seconds during each minute of the
eight hour period.
(d) Each light must be designed to
operate both in sea water and in fresh
water.
(e) A light that concentrates its light
beam by means of a lens or curved reflector must not be a flashing light.
(f) Each light must be designed to operate in accordance with this section
after storage for 24 hours at a temperature of 65°±2 °C (149°±44 °F), and after
storage for 24 hours at ¥30°±2 °C
(¥22°±4 °F).
§ 161.012–11 Approval tests.
(a) The approval tests described in
this section must be conducted for each
light submitted for Coast Guard approval. The tests must be conducted by
a laboratory that has the equipment,
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�§ 161.012–13
46 CFR Ch. I (10–1–98 Edition)
personnel, and procedures necessary to
conduct the approval tests required by
this subpart, and that is free of influence and control of the applicant and
other manufacturers, suppliers, and
vendors of PFD lights.
(b) A sample light must be activated
at night under clear atmospheric conditions. However, two lights must be
used if the power source is water activated, and one light must be activated
in fresh water and the other in salt
water having the approximate salinity
of sea water. The light, or lights, must
begin to shine within 2 minutes after
activation and, within 5 minutes after
activation, must be seen from a distance of at least one nautical mile
against a dark background.
(c) At least ten sample lights must be
selected at random from a group of at
least 25. Each sample light must be
kept at a constant temperature of 65°±2
°C (149°±4 °F) for 24 hours. Each sample
light must then be kept at a constant
temperature of minus 30°±2 °C (minus
22°±4 °F) for 24 hours. Five samples
must then be submerged in salt water
having the approximate salinity of sea
water and the five other samples must
be submerged in fresh water. The temperature of the water must be 15°±5 °C
(59°±9 °F). The lights must then be activated and left submerged for eight
hours. However, if their power sources
need a supply of air to operate, the
lights may be brought to their normal
operating positions at the surface of
the water for up to 10 seconds per
minute during the eight hour period.
At least nine of the ten lights must operate continuously over the eight hour
period. If the lights are flashing lights,
at least nine of ten must have a flash
rate of between 50 and 70 flashes per
minute when first activated or within
five minutes thereafter.
(d) Individual tests must be conducted on a sample light to determine
whether the light meets the requirements of § 161.012–7, except that technical data showing compliance with
§ 160.012–7(c) may be submitted with the
application for approval in lieu of performing an individual test.
§ 161.012–13 Production tests and inspections.
(a) The manufacturer of approved
lights must randomly select a sample
of ten lights from each lot of lights
produced. Each lot must not exceed
1,000 lights. At least nine of the ten
lights, when tested in accordance with
the test described in § 161.012–11(c),
must meet the test criteria prescribed
by that section. If less than nine lights
meet the test criteria, another random
sample of ten lights must be taken and
tested. If less than nine of these lights
meet the test criteria, none of the
lights in the lot may be sold as Coast
Guard approved equipment.
(b) The Coast Guard does not inspect
lights approved under this subpart on a
regular schedule. However, the Commandant may select samples and conduct tests and examinations whenever
necessary to determine whether the
lights are being manufactured in compliance with the requirements in this
subpart.
§ 161.012–15 Markings.
(a) Each light manufactured under
Coast Guard approval must be permanently and legibly marked with:
(1) The manufacturer’s name or trade
mark that clearly identifies the model
designation;
(2) The Coast Guard approval number
asssigned to light; and
(3) Instructions on how to activate
the light.
(b) The power source of each light
must be permanently and legibly
marked with its date of manufacture
and expiration date. Each date must
include the month and year.
§ 161.012–17 Instructions.
(a) Each light must have instructions
on how to attach it to a PFD in a manner that complies with § 161.012–7(a).
However, in the case of lights that are
to be attached by a PFD manufacturer,
only one set of instructions need be
provided for each shipment of lights.
(b) If a light is designed to be attached to a finished PFD, any attachment materials that are not supplied
with the light must be clearly identified in the instructions. If a light is to
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§ 161.013–7
be attached to a finished PFD by a
PFD purchaser, any attachment materials not supplied with the light must
be generally available for purchase.
(c) Each set of instructions must—(1)
Clearly identify the kind of PFD construction (for example fabric covered
or vinyl dipped) to which the light can
be attached; and
(2) Not require penetration of the
bouyant material of the PFD.
Subpart 161.013—Electric Distress
Light for Boats
SOURCE: CGD 76–183a, 44 FR 73054, Dec. 17,
1979, unless otherwise noted.
§ 161.013–1 Applicability.
(a) This subpart establishes standards for electric distress lights for
boats.
(b) [Reserved]
§ 161.013–3 General performance requirements.
(a) Each electric light must:
(1) Emit a white light which meets
the intensity requirements of § 161.013–
5;
(2) Be capable of automatic signaling
in a manner which meets the requirements of § 161.013–7;
(3) Contain an independent power
source which meets the requirements
of § 161.013–9;
(4) Float in fresh water with the lens
surface at or above the surface of the
water;
(5) Be equipped with a waterproof
switch; and
(6) Meet the requirement of paragraphs (a) (1) through (4) of this section
after floating for at least 72 hours followed by submersion in 5% by weight
sodium chloride solution for at least 2
hours.
(b) The electric light may not be
equipped with a switch mechanism
which permits continuous display of a
beam of light except that the light may
be equipped with a switch which returns to the off position when pressure
is released.
§ 161.013–5 Intensity requirements.
(a) If an electric light emits light
over an arc of the horizon of 360 degrees, the light must:
(1) When level, have a peak intensity
within 0.1 degrees of the horizontal
plane;
(2) Have a peak Equivalent Fixed Intensity of at least 75 cd; and,
(3) Have a minimum Equivalent
Fixed Intensity within a vertical divergence of ±3 degrees of at least 15 cd.
(b) If an electric light emits a directional beam of light, the light must:
(1) Have an Equivalent Fixed Intensity of no less than 25 cd within ±4 degrees vertical and ±4 degrees horizontal
divergence centered about the peak intensity; and,
(2) Have a minimum peak Equivalent
Fixed Intensity of 2,500 cd.
(c) The Equivalent Fixed Intensity
(EFI) is the intensity of the light corrected for the length of the flash and is
determined by the formula:
EFI = I × (tc ¥ ti) / 0.2 + (tc ¥ ti)
Where:
I is the measured intensity of the fixed
beam,
tc is the contact closure time in seconds, (0.33 for this S-O-S signal), and
ti is the incandescence time of the
lamp in seconds.
(d) An electric light which meets the
requirements of either paragraph (a) or
(b) of this section need not, if capable
of operating in both manners, meet the
requirements of the other paragraph.
§ 161.013–7
Signal requirements.
(a) An electric light must have a
flash characteristic of the International Morse Code for S-O-S and,
under design conditions,
(1) Each short flash must have a duration of 1⁄3 second;
(2) Each long flash must have a duration of 1 second;
(3) The dark period between each
short flash must have a duration of 1⁄3
second;
(4) The dark period between each
long flash must have a duration of 1⁄3
second;
(5) The dark period between each letter must have a duration of 2 seconds;
(6) The dark period between each
S-O-S signal must have a duration of 3
seconds.
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46 CFR Ch. I (10–1–98 Edition)
(b) The flash characteristics described in paragraph (a) must be produced automatically when the signal is
activated.
§ 161.013–9 Independent power source.
(a) Each independent power source
must be capable of powering the light
so that it meets the requirements of
§ 161.013–3(a)(1) and emits a recognizable flash characteristic of the International Morse Code for S-O-S at a rate
of between 3 and 5 times per minute
after six hours of continuous display of
the signal.
(b) If the independent power source is
rechargeable, it must have a waterproof recharger designed for marine
use.
(c) If the independent power source
requires external water to form an
electrolyte, it must operate in sea
water and fresh water.
§ 161.013–11 Prototype test.
(a) Each manufacturer must test a
prototype light identical to the lights
to be certified prior to the labeling required by § 161.013–13.
(b) If the prototype light fails to
meet any of the general performance
requirements of § 161.013–3 the lights
must not be certified under this subpart.
(c) Each manufacturer must:
(1) Forward the test results within 30
days to the Commandant (G–MSE), U.
S. Coast Guard, Washington, DC 20593–
0001; and
(2) Retain records of the test results
for at least 5 years, or as long as the
light is manufactured and certified,
whichever is longer.
[CGD 76–183a, 44 FR 73054, Dec. 17, 1979, as
amended by CGD 88–070, 53 FR 34536, Sept. 7,
1988; CGD 95–072, 60 FR 50467, Sept. 29, 1995;
CGD 96–041, 61 FR 50734, Sept. 27, 1996]
§ 161.013–13 Manufacturer
certification and labeling.
(a) Each electric light intended as a
Night Visual Distress Signal required
by 33 CFR part 175 must be certified by
the manufacturer as complying with
the requirements of this subpart.
(b) Each electric light must be legibly and indelibly marked with:
(1) Manufacturer’s name;
(2) Replacement battery type;
(3) Lamp size; and
(4) The following words—
‘‘Night Visual Distress Signal for
Boats Complies with U. S. Coast Guard
Requirements in 46 CFR 161.013. For
Emergency Use Only.’’
(c) If an electric light is designed for
use with dry cell batteries the label
must advise the consumer on the battery replacement schedule which under
normal conditions would maintain performance requirements of § 161.013–3.
§ 161.013–17 Manufacturer notification.
Each manufacturer certifying lights
in accordance with the specifications
of this subpart must send written notice to the Commandant (G–MSE), U.
S. Coast Guard, Washington, DC 20593–
0001 within 30 days after first certifying
them, and send a new notice every five
years thereafter as long as it certifies
lights.
[CGD 76–183a, 44 FR 73054, Dec. 17, 1979, as
amended by CGD 88–070, 53 FR 34536, Sept. 7,
1988; CGD 95–072, 60 FR 50467, Sept. 29, 1995;
CGD 96–041, 61 FR 50733, Sept. 27, 1996]
PART 162—ENGINEERING
EQUIPMENT
Subpart 162.017—Valves, PressureVacuum Relief, for Tank Vessels
Sec.
162.017–1 Applicable specifications.
162.017–2 Type.
162.017–3 Materials, construction, and workmanship.
162.017–4 Inspections and testing.
162.017–5 Marking.
162.017–6 Procedure for approval.
Subpart 162.018—Safety Relief Valves,
Liquefied Compressed Gas
162.018–1 Applicable specifications, and referenced material.
162.018–2 Scope.
162.018–3 Materials.
162.018–4 Construction and workmanship.
162.018–5 Blow-down adjustment and popping tolerance.
162.018–6 Marking.
162.018–7 Flow rating tests.
162.018–8 Procedure for approval.
Subpart 172.027—Combination Solid
Stream and Water Spray Firehose Nozzles
162.027–1 Incorporation by reference.
162.027–2 Design, construction, testing and
marking requirements.
284
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| File Type | application/pdf |
| File Modified | 2015-01-21 |
| File Created | 2015-01-21 |