oSIST prEN 1080:2023

SLOVENSKI STANDARD
oSIST prEN 1080:2023
01-april-2023
Nadomešča:
SIST EN 1080:2013
Varovalne čelade za mlajše otroke
Impact protection helmets for young children
Stoßschutzhelme für Kleinkinder
Casques de protection contre les chocs pour les jeunes enfants
Ta slovenski standard je istoveten z: prEN 1080
ICS:
13.340.20 Varovalna oprema za glavo Head protective equipment
97.190 Otroška oprema Equipment for children
oSIST prEN 1080:2023 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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oSIST prEN 1080:2023

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oSIST prEN 1080:2023


DRAFT
EUROPEAN STANDARD
prEN 1080
NORME EUROPÉENNE

EUROPÄISCHE NORM

February 2023
ICS Will supersede EN 1080:2013
English Version

Impact protection helmets for young children
Casques de protection contre les chocs pour les jeunes Stoßschutzhelme für Kleinkinder
enfants
This draft European Standard is submitted to CEN members for enquiry. It has been drawn up by the Technical Committee
CEN/TC 158.

If this draft becomes a European Standard, CEN members are bound to comply with the CEN/CENELEC Internal Regulations
which stipulate the conditions for giving this European Standard the status of a national standard without any alteration.

This draft European Standard was established by CEN in three official versions (English, French, German). A version in any other
language made by translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC
Management Centre has the same status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway,
Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Türkiye and
United Kingdom.

Recipients of this draft are invited to submit, with their comments, notification of any relevant patent rights of which they are
aware and to provide supporting documentation.

Warning : This document is not a European Standard. It is distributed for review and comments. It is subject to change without
notice and shall not be referred to as a European Standard.


EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2023 CEN All rights of exploitation in any form and by any means reserved Ref. No. prEN 1080:2023 E
worldwide for CEN national Members.

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oSIST prEN 1080:2023
prEN 1080:2023
Contents Page
European foreword . 3
Introduction . 4
1 Scope . 5
2 Normative references . 5
3 Terms and definitions . 6
4 Requirements . 8
4.1 Materials innocuousness. 8
4.2 Construction . 8
4.3 Field of vision . 8
4.4 Shock absorbing capacity . 10
4.5 Durability . 10
4.6 Retention system . 10
4.7 Self-release system . 11
4.8 Marking and information . 11
5 Test methods . 11
5.1 General. 11
5.2 Verifying materials innocuousness and construction . 13
5.3 Determination of shock absorbing capacity . 14
5.4 Determination of self-release system opening force . 19
5.5 Determination of field of vision . 20
5.6 Test report . 20
6 Marking . 21
7 Information supplied by the manufacturer . 21
Annex A (informative) Alternative procedure for artificial ageing . 23
Annex ZA (informative) Relationship between this European Standard and the essential
requirements of Regulation (EU) 2016/425 of the European Parliament and of the
Council of 9 March 2016 on personal protective equipment aimed to be covered . 24
Bibliography . 26

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oSIST prEN 1080:2023
prEN 1080:2023 (E)
European foreword
This document (prEN 1080:2023) has been prepared by Technical Committee CEN/TC 158 “Head
protection”, the secretariat of which is held by SIS.
This document is currently submitted to the CEN Enquiry.
This document will supersede EN 1080:2013.
In comparison with the previous edition, the following technical modifications have been made:
— In this revision we analysed different hazards related to head impact situations for cyclists and the
most common risks associated with them.
— Requirements for rotational shock absorption at impacts are added;
— Normative reference to test method for impacts with a tangential component has been included;
— Inclusion head injury criteria;
— The impact speeds used in the different tests are based on available information in literature and risk
analysis;
This document has been prepared under the standardization request M/571 given to CEN by the
European Commission and the European Free Trade Association and supports essential requirements of
Regulation (EU) 2016/425.
For relationship with EU Regulation (EU) 2016/425, see informative Annex ZA, which is an integral part
of this document.
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oSIST prEN 1080:2023
prEN 1080:2023 (E)
Introduction
This document specifies the requirements for protective headwear for use by young children while
pursuing recreational activities, such as cycling, roller-sports and sledging, in environments which have
risks of head injuries in combination with risk of strangulation.
The requirements in this document are concerned with the performance of a helmet to reduce the risk of
injury to the skull, brain and part of the head within the specified area of protection. Performance levels
and test methods are based upon proven methods of test and technical criteria and enhanced by data
from expert sources in the field of head protection. A unique feature of this standard is the requirement
on a self-release mechanism to minimize the risk for children to be hanged in the chin strap of a helmet.
The risk arises when the child combines the intended activity with playing. This is a well-known risk,
there have been at least 9 known cases in Europe with fatal outcomes where children have been strangled
by traditional chin straps. The release properties in the standard have been designed for release at
entrapment, and based on scientific investigations on chin strap forces, to ensure that the helmet is not
released in case of a severe cycle accident.
The helmet itself is not intended to be worn at play in the playground or while using playground
equipment, head protection in these areas is covered by standards for design of playground equipment
and surfaces.
This standard does not replace other standards for head protection. Helmets according to this standard
do offer shock absorption performance of the same value as i.e. helmets for cyclists or skiers. However,
they do not meet all other requirements which these helmets fulfil, for example strength of retention
system or penetration for skiing helmets.
Parents need to be made aware that the protection given by a helmet depends on the circumstances of
the accident and wearing of a helmet cannot always prevent injury, death or disability.
Cycle related activities can result in a broad spectrum of accident situations. Most accident statistics
relates to cycle accidents and less is written about the accident situation for other activities such as roller
sports and sledging. Depending on the cycle accident situation the helmet and head can be loaded in
compression and also with a tangential force leading to rotation of the helmet and head. The most
common cycle accident for cyclists are single accidents to the ground. The impact surface can alter from
asphalt, gravel and other impact surfaces. To capture the overall accident situation, the test methods
defined in this document are designed to take as many aspects as possible into account without
restricting the usability of the helmet.
A proportion of the energy of an impact is absorbed by the helmet, thereby reducing the force of the blow
sustained by the head. The structure of the helmet can be damaged in absorbing this energy.
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oSIST prEN 1080:2023
prEN 1080:2023 (E)
1 Scope
This document specifies requirements and test methods for helmets intended for use by young children
to provide head protection in situations with risks of head injuries in combination with risk of
strangulation.
The document is applicable for but not limited to:
— children’s cycling;
— children’s roller-sports activities (skateboarding, roller skating, kick scooter riding etc);
— children’s sledging activities (use of toboggan, sledge, snow tray etc);
when there is a risk of strangulation due to the child playing in connection to the intended activity.
Requirements and the corresponding methods of test are given for the following:
— construction including field of vision;
— shock absorbing properties;
— retention system properties, including chin strap, fastening devices and self-release system;
— marking and information.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements of this document. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any amendments) applies.
EN 960:2006, Headforms for use in the testing of protective helmets
EN ISO 13688:2013, Protective clothing - General requirements (ISO 13688:2013)
EN 13087-1:2000, Protective helmets — Test methods — Part 1: Conditions and conditioning
EN 13087-2:2012, Protective helmets - Test methods - Part 2: Shock absorption
EN 13087-5:2012, Protective helmets - Test methods - Part 5: Retention system strength
EN 13087-6:2012, Protective helmets - Test methods - Part 6: Field of vision
prEN 17950:2023, Protective helmets — Test methods — Shock absorption including measuring rotational
kinematics
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3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
• IEC Electropedia: available at https://www.electropedia.org/
• ISO Online browsing platform: available at https://www.iso.org/obp
3.1
protective helmet
item to be worn on the head and intended to absorb the energy of an impact thus reducing the risk of
injury to the head
3.2
helmet type
category of helmets which does not differ in such essential respects as the materials or dimensions or
construction of the helmet, of the retention system (3.4) or of the protective padding (3.3.1)
3.3
padding

3.3.1
protective padding
material used to absorb impact energy
3.3.2
comfort padding
lining material provided for the wearer's comfort (for better fit, to make the helmet warmer, etc)
3.3.3
sizing padding
lining material used for adjustment of the helmet size
3.4
retention system
complete assembly by means of which the helmet is maintained in position on the head including any
devices for adjustment of the system, sizing or to enhance the wearer's comfort
3.5
chin strap
part of the retention system (3.4) consisting of a strap that passes under the wearer's jaw to keep the
helmet in position
3.6
self-release system
mechanism which releases when loaded with a certain force
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prEN 1080:2023 (E)
3.7
basic plane
for a given headform, horizontal plane located at a vertical distance ‘x’ below and parallel to the reference
plane (3.8)
Note1 to entry: This corresponds to the basic plane of the human head being the longitudinal plane which passes
through the lower level of the eye orbits and the upper level of the external opening of the ear canals
[SOURCE: EN 960:2006, 2.10]
3.8
reference plane
construction plane parallel to the basic plane (3.7) at a distance from it which is a function of the size of
the headform
Note 1 to entry: All horizontal datum levels are quoted relative to this plane.
[SOURCE: EN 960:2006, 2.5]
3.9
test area
area of the helmet in which impact tests are conducted which corresponds to the minimum protected
area of the human head
3.10
accessories
additional device(s) which can be attached to the helmet and are intended to be removable by the user,
but which provide no protective function to the wearer
EXAMPLE Helmet accessory can be a lamp, camera etc.
3.11
non-integral additional protective devices
additional protective device(s) supplied or recommended by the manufacturer which can be attached to
the helmet and intended to be removable by the user
EXAMPLE (sun)visors
3.12
protective lower face cover (chin guard)
detachable, movable or integral (permanently fixed) part of the helmet covering the lower part of the face
and intended to protect the chin of the user against impact
3.13
linear shock absorption
head protection towards direct head impact. Evaluated with a flat and kerbstone anvil
3.14
rotational shock absorption
head protection towards oblique head impact. Evaluated with an angled anvil
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oSIST prEN 1080:2023
prEN 1080:2023 (E)
3.15
Pilz plane
plane angled 10° from the reference plane (3.8) at the rear of the head at the intersection of the reference
plane and the midsagittal plane
[SOURCE: prEN 17950:2023, 3.3]
4 Requirements
4.1 Materials innocuousness
The material requirements shall be verified during inspection in 5.2, by safety data sheets provided in
documents supplied by the manufacturer.
The material used shall not be subject to any known appreciable alteration from contact with sweat or
toiletries or cleaners recommended by the manufacturer. The material used in those parts of the helmet
coming, or that can come into contact with the skin, shall not be known to cause skin disorders or other
adverse effects on health in accordance with, EN ISO 13688:2013, 4.2.
4.2 Construction
There shall be no sharp edges, roughness or projection on any parts of the helmet which are in contact,
or potential contact, with the wearer, when the helmet is worn, such as is likely to cause injury to the
wearer.
The helmet shall withstand handling. The helmet shall be so designed and shaped that its parts, such as
rivets, ventilators, edges, fastening device and the like, are not likely to injure the user in reasonably
foreseeable use.
To minimize the probability of getting caught up at use, the helmet shall not be provided with or intended
to have
— a protective lower face cover (chin guard) (3.12),
— non-integral additional protective devices (3.11),
— accessories (3.10).
4.3 Field of vision
When tested according to 5.5, there shall be no occultation in the field of vision bounded by angles as
follows (see Figure 1):
a) horizontally: min 105° from the longitudinal vertical median plane to the left and right hand sides;
b) upwards: min 25° from the reference plane (3.8);
c) downwards: min 45° from the basic plane (3.7).
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oSIST prEN 1080:2023
prEN 1080:2023 (E)
Dimensions in millimetres

a) Section of headform in longitudinal vertical plane

b) Section of headform in reference plane
Key
1 reference plane 4 vertical longitudinal median plane
2 basic plane 5 central transverse vertical plane
3 central vertical axis
NOTE 1 L1 and L2 represent the centre of the eyes.
NOTE 2 K1 and K2 represent the lower edge of the eye sockets (orbits).
Figure 1 — Field of vision
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oSIST prEN 1080:2023
prEN 1080:2023 (E)
4.4 Shock absorbing capacity
4.4.1 General
The helmet shall have a means of absorbing impact energy.
When tested in accordance with 5.3.1 and 5.3.2 the peak linear acceleration shall not exceed 250g and
the peak angular velocity shall not exceed 35 rad/s.
4.4.2 Linear shock absorption
The helmet shall give linear shock absorption (3.13) to the part of the user's head covered by the test area
of the helmet as specified in 5.3.1.1.
+0,1 +0,1
When tested in accordance with 5.3.1 the velocity shall be of 5,42 m/s on the flat anvil, and 4,57
0 0
m/s on the kerbstone anvil.
NOTE These are theoretically equivalent to 1 497 mm and 1 064 mm drop heights respectively.
4.4.3 Rotational protection
The helmet shall give rotational protection along X, Y and Z head rotation (See Figure 4 and 5).
+0,1
When tested in accordance with 5.3.2, the velocity shall be 6,50 m/s on the oblique anvil.
0
NOTE This is theoretically equivalent to 2153 mm drop height.
4.5 Durability
The helmet shall be inspected according to 5.2.2 to not exhibit damage that could cause significant injury
to the wearer's head when the helmet is worn (internal sharp edges, points) after being tested according
to 5.3.
4.6 Retention system
4.6.1 General
All parts of the retention system (3.4) fastened to the helmet shall be securely attached. Securely attached
means that when tested according to 5.4, no part of the retention system releases before the self-release
system (3.6).
The retention system shall remain fastened, and the helmet shall remain on the headform when tested
according to 5.3.
4.6.2 Chin strap
The chin strap (3.5) shall not include a chin cup.
Any chin strap shall be not less than 15 mm wide. The width of the chin strap shall be measured prior to
testing and without any tension on the strap.
Chin straps may be fitted with means of enhancing comfort.
4.6.3 Fastening device
Any retention system shall be fitted with a device to adjust and maintain tension in the system. The device
shall be capable of adjustment so that the buckle can be positioned centrally below the jaw, when
assessed according to 5.2.5. It shall not be possible to detach the fastening device from the strap.
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prEN 1080:2023 (E)
4.7 Self-release system
4.7.1 General
Self-release systems (3.6) with adjustable opening force shall satisfy the requirements of 4.7.2
throughout the range of adjustment. The self-release system may be such that part of the retention system
is not fastened to the helmet.
4.7.2 Release force
When tested according to 5.4, the self-release system shall open in all the tested helmets by a force
exceeding 90 N but not exceeding 160 N.
4.7.3 Colour
To identify helmets with a self-release system all or some of the visible parts of the retention system shall
in accordance with this standard be visibly and indelibly coloured green.
4.8 Marking and information
The durability of the markings as specified in 6 shall be verified by test in 5.2.4.
5 Test methods
5.1 General
5.1.1 Headforms
5.1.1.1 Headform for shock absorption
Linear shock absorption (3.13) and rotational shock absorption (3.14) shall be evaluated with the
headform as specified in prEN 17950:2023, 4.2. Size designation 470, 490, 530, 570, 610 and 630 shall
be used as measured from the Pilz plane (3.15).
5.1.1.2 Headform for self-release system and field of vision
For determination of self-release system opening force and field of vision, the headforms used shall
comply with EN 960:2006 at least down to the basic plane.
The sizes in Table 1 shall be used for determination of field of vision while for determination of self-
release system opening force, the sizes 475, 495, 535, 575, 605, and 625 are available.
NOTE Table 1 also gives the size designation of EN 960:2006 that approximates the size designation of
prEN 17950:2023, 4.2 size designation.
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oSIST prEN 1080:2023
prEN 1080:2023 (E)
Table 1 — Sizes of headforms
Size designation
Size designation
(EN 960:2006)
(prEN WI00158113:202x, 4.2)
475 470
495 (A) 490
515 (C) 510
535 (E) 530
555 (G) 550
575 (J) 570
585 (K) 590
605 (M) 610
625 (O) 630
5.1.2 Number of samples and sequence of tests
For each helmet type, seven helmets for each headform size that fits within the manufacturers' claimed
head size range shall be submitted for testing. If there is no test headform applicable to the
shell/protective padding size combination, the next smaller available test headform shall be used.
The sequence of test and tests per sample are given in Table 2. The sequence shall be repeated for each
applicable headform size.
The smallest and largest applicable headform size is used for the linear shock absorbing capacity tests on
helmet sample one, two, three and four. The smallest and largest applicable headform size is used for the
self-release system opening force test on helmet sample one, two and four after the shock absorption
tests on these samples. The smallest applicable headform size is used for the rotational shock absorbing
capacity tests using helmet sample five and six. Four conditions are applied. A hot condition
(+ 50 °C ± 2 °C), a cold condition (- 20 °C ± 2 °C) and ageing condition (5.3.1.2.3 or Annex A) and an
ambient condition (+ 20 °C ± 2 °C).
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Table 2 — Sequence of test and tests per sample
 Conditioning
a b b c d
 Hot Cold Cold Ageing Ambient
 helmet 1 helmet 2 helmet 3 helmet 4 helmet 5, 6
Linear shock absorption Kerb Flat Flat Kerb /
g f g g
Large HF Small HF Large HF Large HF
Flat Kerb Kerb Flat /
g f g g
Large HF Small HF Large HF Large HF
f
Rotational shock absorption / / / / Small HF
Release force No No / No /
e e e
Recond. Recond. Recond.
g f g
Large HF Small HF Large HF
a
Hot condition: + 50°
b
Cold condition: −20°C
c
Ageing condition: moisture and UV
d
Ambient condition: + 20 °C
e
No Recondition
f
Smallest applicable Headform
g
Largest applicable Headform
The seventh sample is reserved as a reference sample, which can be used by the test laboratory in case
of doubt about any of the performance requirements.
5.2 Verifying materials innocuousness and construction
5.2.1 Inspection
Perform an assessment of any safety data sheets or documentation supplied by the manufacturer relevant
to the materials used in the helmet's construction.
Inspect the helmet to verify whether it is suitable for its intended purpose and fulfils the requirements
in 4.1, 4.2, 4.6.1 and 4.7.3.
5.2.2 Visual and tactile examination
Check by visual and tactile examination that helmets have no rough, sharp or hard surfaces that could
irritate or injure the user.
5.2.3 Mass determination
Determine the mass of the helmets of the same size submitted for testing. Calculate and record the mean
value in gram (g) rounded off to the nearest 10 g, stating the size of the helmet.
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prEN 1080:2023 (E)
5.2.4 Assessment of the helmet’s marking and information
An assessment of the helmet's marking and information supplied by the manufacturer shall be
performed.
The durability of the markings as specified in 6 is verified by rubbing the marking by hand for 15 s with
a piece of cotton cloth soaked with water. The inspection shall be carried out by a person with normal
vision to determine if the marking remains legible.
5.2.5 Assessment of the buckle adjustment capability
Perform an assessment of the requirement in 4.6.3 by fitting the helmet on all headforms that fit within
the helmets size range and by positioning it according to the manufacturer’s instructions or in the manner
in which the helmet is intended to be worn on the head.
5.3 Determination of shock absorbing capacity
5.3.1 Linear shock absorption
5.3.1.1 Test area for linear shock absorption
a) Take a headform of appropriate size designation and mark a point B, 6,35 mm above the reference
plane (3.8) back of the headform (see Figure 1 and Figure 2).
b) Place the helmet on the headform. Apply a vertical load of 50 N on the crown of the helmet in order to
stabilize the helmet on the headform. Position the front edge of the helmet to meet the upwards field of
vision specified in 4.3 or to the manufacturer's normal wearing position, if this is detailed by the
manufacturer and results in greater than the specified upwards vision.
c) Draw the AA′′ line (in the AA′ plane) on the helmet.
d) Draw a line on the helmet, (line 1 in Figure 2), parallel to and approximately 20 mm above the AA′′ line
(for use as an angular measurement datum line).
e) Mark the helmet at points B1 and B2. These points are the sideways horizontal projection of point B
on to the outer surface of the helmet.
f) Draw a line RR′ on the helmet passing through B1 and B2, the line being angled 10° upwards toward
the front of the helmet relative to the datum line drawn in d).
The area above the line drawn in f) is the test area for impacts on to the flat anvil. The area above the line
RWA′′ is the test area for impacts on to the kerbstone anvil, point W being the intersection of the lines
marked in accordance with c) and f) above.
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Key
1 angular displacement datum
2 reference plane
3 headform
4 helmet
Figure 2 — Definition of test area
5.3.1.2 Conditioning
5.3.1.2.1 High temperature conditioning
The helmet shall be exposed to a temperature of (50 ± 2) °C for a period of time between 4 h and 24 h.
5.3.1.2.2 Low temperature conditioning
The helmet shall be exposed to a temperature of (−20 ± 2) °C for a period of time between 4 h and 24 h.
5.3.1.2.3 Artificial ageing
The outer surface of the protective helmet shall be exposed successively to:
a) ultraviolet irradiation by a 150 W xenon-filled quartz lamp for 40 h at a range of 250 mm;
b) spraying for 4 h to 24 h with water at ambient temperature a rate between 1 and 2 l/min.
NOTE A method for artificial ageing is described in Annex A. This method can be used as an alternative to the
conditioning according to 5.3.1.2.3.
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5.3.1.3 Apparatus
The apparatus shall be in accordance with EN 13087-2:2012, 5.3, falling headform method, except for
headforms and anvils dimensions.
The headforms for linear shock absorption (3.13) to be used shall comply with prEN 17950:2023 (see
5.1.1). The flat steel anvil shall have a circular impact face of (130 ± 3) mm diameter.
The steel kerbstone anvil shall have two faces, each inclined at (52,5
...