Section



[Code of Federal Regulations]
[Title 49, Volume 5]
[Revised as of October 1, 2002]
From the U.S. Government Printing Office via GPO Access
[CITE: 49CFR571.125]

[Page 407-412]
 
                        TITLE 49--TRANSPORTATION
 
                            OF TRANSPORTATION
 
PART 571--FEDERAL MOTOR VEHICLE SAFETY STANDARDS--Table of Contents
 
            Subpart B--Federal Motor Vehicle Safety Standards
 
Sec. 571.125  Standard No. 125; Warning devices.

    S1. Scope. This standard establishes requirements for devices, 
without self-contained energy sources, that are designed to be carried 
in motor vehicles and used to warn approaching traffic of the presence 
of a stopped vehicle, except for devices designed to be permanently 
affixed to the vehicle.

[[Page 408]]

    S2. Purpose. The purpose of this standard is to reduce deaths and 
injuries due to rear end collisions between moving traffic and disabled 
vehicles.
    S3. Application. This standard applies to devices, without self-
contained energy sources, that are designed to be carried in buses and 
trucks that have a gross vehicle weight rating (GVWR) greater than 
10,000 pounds. These devices are used to warn approaching traffic of the 
presence of a stopped vehicle, except for devices designed to be 
permanently affixed to the vehicle.
    S4. Definitions. Entrance angle means the angle having as its sides 
the line through the center, and normal to the face, of the object to be 
tested, and the line from the center of the object to the center of the 
source of illumination (Figure 2).
    Fluorescent means the property of emitting visible light due to the 
absorption of radiation of a shorter wavelength which may be outside the 
visible spectrum.
    Observation angle means the angle having as its sides the line from 
the observation point to the center of the object to be tested and the 
line from the center of that object to the center of the source of 
illumination (Figure 2).
    Reflex reflective means reflective of light in directions close to 
the direction of incident light, over a wide range of variations in the 
direction of incident light.
    S5. Requirements.
    S5.1  Equipment.
    S5.1.1  Reflex reflective material and fluorescent material that 
meet the requirements of this standard shall be affixed to both faces of 
the warning device. Alternatively, a dual purpose orange fluorescent and 
red reflective material that meets the requirements of this standard 
(hereafter referred to as ``dual purpose material'') may be affixed to 
both faces in places of the reflective and fluorescent materials.
    S5.1.2  Each warning device shall be protected from damage and 
deterioration--
    (a) By enclosure in an opaque protective reusable container, except 
that two or three warning devices intended to be sold for use as a set 
with a single vehicle may be enclosed in a single container; or
    (b) By secure attachment to any light-tight, enclosed, and easily 
accessible compartment of a new motor vehicle with which it is supplied 
by the vehicle manufacturer.
    S5.1.3  The warning device shall be designed to be erected, and 
replaced in its container, without the use of tools.
    S5.1.4  The warning device shall be permanently and legibly marked 
with:
    (a) Name of manufacturer;
    (b) Month and year of manufacture, which may be expressed 
numerically, as ``6/72''; and
    (c) The symbol DOT, or the statement that the warning device 
complies with all applicable Federal motor vehicle safety standards.
    S5.1.5  Each warning device shall have instructions for its erection 
and display.
    (a) The instructions shall be either indelibly printed on the 
warning device or attached in such a manner that they cannot be easily 
removed.
    (b) Instructions for each warning device shall include a 
recommendation that the driver activate the vehicular hazard warning 
signal lamps before leaving the vehicle to erect the warning device.
    (c) Instructions shall include the illustration depicted in Figure 3 
indicating recommended positioning.
    S5.2  Configuration.
    S5.2.1  When the warning device is erected on level ground:
    (a) Part of the warning device shall form an equilateral triangle 
that stands in a plane not more than 10 deg. from the vertical, with the 
lower edge of the base of the triangle horizontal and not less than 1 
inch above the ground.
    (b) None of the required portion of the reflective material and 
fluorescent material shall be obscured by any other part of the warning 
device except for any portion of the material over which it is necessary 
to provide fasteners, pivoting beads or other means to allow 
collapsibility or support of the device. In any event, sufficient 
reflective and fluorescent material shall be used on the triangle to 
meet the requirements of S5.4 and S5.5.
    S5.2.2  Each of the three sides of the triangular portion of the 
warning device shall not be less than 17 and not

[[Page 409]]

more than 22 inches long, and not less than 2 and not more than 3 inches 
wide (Figure 1).
    S5.2.3  Each face of the triangular portion of the warning device 
shall have an outer border of red reflex reflective material of uniform 
width and not less than 0.75 and not more than 1.75 inches wide, and an 
inner border of orange fluorescent material of uniform width and not 
less than 1.25 and not more than 1.30 inches wide (Figure 1). However, 
this requirement shall not apply if the dual purpose material is used.
    S5.2.4  Each vertex of the triangular portion of the warning device 
shall have a radius of not less than 0.25 inch and not more than 0.50 
inch.
    S5.2.5  All edges shall be rounded or chamfered, as necessary, to 
reduce the possibility of cutting or harm to the user.
    S5.2.6  The device shall consist entirely of the triangular portion 
and attachments necessary for its support and enclosure, without 
additional visible shapes or attachments.
    S5.3  Color.
    S5.3.1  The color of the red reflex reflective material on the 
warning device shall have the following characteristics, both before and 
after the warning device has been conditioned in accordance with S6.1, 
when the source of illumination is a lamp with a tungsten filament 
operating at 2856 deg. Kelvin color temperature. Expressed in terms of 
the International Commission on Illumination (CIE) 1931 standard 
colorimetric observer system (CIE chromaticity diagram, Figure 4), the 
chromaticity coordinates of the red reflex reflective material shall lie 
within the region bounded by the spectrum locus and the lines on the 
diagram defined by the following equations:

------------------------------------------------------------------------
                 Boundary                             Equations
------------------------------------------------------------------------
Yellow....................................  y=0.33
White.....................................  x+y=0.98
------------------------------------------------------------------------

    S5.3.2  The color of the orange fluorescent material on the warning 
device shall have the following characteristics, both before and after 
the warning device has been conditioned in accordance with S6.1, when 
the source of illumination is a 150-watt high pressure xenon compact arc 
lamp. Expressed in terms of the International Commission on Illumination 
(CIE) 1931 standard colorimetric observer system, the chromaticity 
coordinates of the orange fluorescent material shall lie within the 
region bounded by the spectrum locus and the lines on the diagram 
defined by the following equations:

------------------------------------------------------------------------
                 Boundary                             Equations
------------------------------------------------------------------------
Yellow....................................  y=0.49 x+0.17
White.....................................  x+y=0.93
Red.......................................  y=0.35
------------------------------------------------------------------------

    The 150-watt high pressure xenon compact arc lamp shall illuminate 
the sample using the unmodified spectrum at an angle of incidence of 
45 deg. and an angle of observation of 90 deg.. If dual purpose material 
is being tested, it shall be illuminated by a 150-watt high pressure 
xenon compact arc lamp, whose light is diffused by an integrating 
sphere.
    S5.4  Reflectivity. When the red reflex reflective material on the 
warning device is tested in accordance with S6.2, both before and after 
the warning device has been conditioned in accordance with S6.1, its 
total candlepower per incident foot candle shall be not less than the 
values specified in Table I for each of the listed entrance angles.
    S5.5  Luminance. When the orange fluorescent material on the warning 
device is tested in accordance with S6.3, both before and after the 
warning device has been conditioned in accordance with S6.1, it shall 
have a minimum relative luminance of 25 percent of a flat magnesium 
oxide surface and a minimum product of that relative luminance and width 
in inches of 44.
    S5.6  Stability. When the warning device is erected on a horizontal 
brushed concrete surface both with and against the brush marks and 
subjected to a horizontal wind of 40 miles per hour in any direction for 
3 minutes--
    (a) No part of it shall slide more than 3 inches from its initial 
position;
    (b) Its triangular portion shall not tilt to a position that is more 
than 10 deg. from the vertical; and
    (c) Its triangular position shall not turn through a horizontal 
angle of more than 10 deg. in either direction from the initial 
position.

[[Page 410]]

    S5.7  Durability. When the warning device is conditioned in 
accordance with S6.1, no part of the warning device shall become warped 
or separated from the rest of the warning device.
    S6.  Test Procedures.
    S6.1  Conditions.
    S6.1.1  Submit the warning device to the following conditioning 
sequence, returning the device after each step in the sequence to 
ambient air at 68  deg.F. for at least 2 hours.
    (a) Minus 40  deg.F. for 16 hours in a circulating air chamber using 
ambient air which would have not less than 30 percent and not more than 
70 percent relative humidity at 70  deg.F.;
    (b) 150  deg.F. for 16 hours in a circulating air oven using ambient 
air which would have not less than 30 percent and not more than 70 
percent relative humidity at 70  deg.F.;
    (c) 100  deg.F. and 90 percent relative humidity for 16 hours;
    (d) Salt spray (fog) test in accordance with American Society of 
Testing and Materials Standard B-117, Standard Method of Salt Spray 
(fog) testing, August 1964, except that the test shall be for 4 hours 
rather than 40 hours; and
    (e) Immersion for 2 hours in water at a temperature of 100  deg.F.
    S6.2  Reflectivity Test. Test the red reflex reflective materials as 
follows:
    (a) Unless dual purpose material is used, prevent the orange 
fluorescent material from affecting the photometric measurement of the 
reflectivity of the red reflex reflective material, either by separation 
or masking.
    (b) Use a lamp with a tungsten filament operating at 2856 deg. 
Kelvin color temperature as the source of illumination.
    (c) Place the source of illumination 100 feet from the red reflex 
reflective material (Figure 2).
    (d) Place the observation point directly above the source of 
illumination (Figure 2).
    (e) Calculate the total candlepower per incident foot candle of the 
red reflex reflective material at each of the entrance and observation 
angles specified in Table 1.
    S6.3  Luminance Test. Test the orange fluorescent material as 
follows:
    (a) Unless dual purpose material is used, prevent the red reflex 
reflective material from affecting the photometric measurement of the 
luminance of the orange fluorescent material.
    (b) Using a 150-watt high pressure xenon compact arc lamp as the 
light source, illuminate the test sample at an angle of incidence of 
45 deg. and an angle of observation of 90 deg.. If dual purpose material 
is being tested, illuminate the sample diffusely through an integrating 
sphere.
    (c) Measure the luminance of the material at a perpendicular viewing 
angle, with no ray of the viewing beam more than 5 deg. from the 
perpendicular to the specimen.
    (d) Repeat the procedure for a flat magnesium oxide surface, and 
compute the quotient (percentage) of the luminance of the material 
relative to that of the magnesium oxide surface.
[GRAPHIC] [TIFF OMITTED] TC01AU91.061

              Fig. 1. Dimensions of Warning Device (Inches)

[[Page 411]]

[GRAPHIC] [TIFF OMITTED] TC01AU91.062


[[Page 412]]


[GRAPHIC] [TIFF OMITTED] TC01AU91.063

[39 FR 28636, Aug. 9, 1974, as amended at 40 FR 4, Jan. 2, 1975; 59 FR 
49591, Sept. 29, 1994]