SIST EN 15567-1:2015+A1:2020

SLOVENSKI STANDARD
SIST EN 15567-1:2015+A1:2020
01-maj-2020
Nadomešča:
SIST EN 15567-1:2015
Športni in rekreacijski pripomočki - Vrvni plezalni parki - 1. del: Konstrukcijske in
varnostne zahteve
Sports and recreational facilities - Ropes courses - Part 1: Construction and safety
requirements
Sport- und Freizeitanlagen - Seilgärten - Teil 1: Konstruktion und sicherheitstechnische
Anforderungen
Structures de sport et d’activités de plein air - Parcours acrobatiques en hauteur - Partie
1 : Exigences de construction et de sécurité
Ta slovenski standard je istoveten z: EN 15567-1:2015+A1:2020
ICS:
97.220.10 Športni objekti Sports facilities
SIST EN 15567-1:2015+A1:2020 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 15567-1:2015+A1:2020

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SIST EN 15567-1:2015+A1:2020


EN 15567-1:2015+A1
EUROPEAN STANDARD

NORME EUROPÉENNE

February 2020
EUROPÄISCHE NORM
ICS 97.220.10 Supersedes EN 15567-1:2015
English Version

Sports and recreational facilities - Ropes courses - Part 1:
Construction and safety requirements
Structures de sport et d'activités de plein air - Parcours Sport- und Freizeitanlagen - Seilgärten - Teil 1:
acrobatiques en hauteur - Partie 1 : Exigences de Konstruktion und sicherheitstechnische
construction et de sécurité Anforderungen
This European Standard was approved by CEN on 12 March 2015 and includes Amendment 1 approved by CEN on 11 November
2019.

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. Up-to-date lists and bibliographical references
concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN
member.

This European Standard exists 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, Turkey and
United Kingdom.





EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2020 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 15567-1:2015+A1:2020 E
worldwide for CEN national Members.

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Contents Page
European foreword . 3
Introduction . 5
1 Scope . 6
2 Normative references . 6
3 Terms and definitions . 7
4 Safety requirements . 12
4.1 Choice of site . 12
4.2 Material . 13
4.3 Design and manufacture . 16
4.4 Personal protective equipment (PPE) . 22
5 Test methods . 23
6 Marking . 23
6.1 Element identification . 23
6.2 Element marking . 23
7 Inspection and maintenance . 24
7.1 Inspection . 24
7.2 Maintenance manual . 25
8 Documents . 26
8.1 General . 26
8.2 User manual for operators. 26
8.3 Arboreal assessment report . 27
Annex A (normative) Minimum information to be included in an arboreal assessment
report . 28
Annex B (normative) Instructions for the use of the ropes course . 29
Annex C (informative) Relevance of ISO 4309:2010 to EN 15567-1 for Ropes Courses . 31
Annex D (informative) Guidance on risk assessment . 36
Bibliography . 37
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European foreword
This document (EN 15567-1:2015+A1:2020) has been prepared by Technical Committee CEN/TC 136
“Sports, playground and other recreational facilities and equipment”, the secretariat of which is held by
DIN.
This European Standard shall be given the status of a national standard, either by publication of an
identical text or by endorsement, at the latest by August 2020, and conflicting national standards shall
be withdrawn at the latest by August 2020.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CEN shall not be held responsible for identifying any or all such patent rights.
This document includes amendment 1, approved by CEN on 11 November 2019.
This document supersedes !EN 15567-1:2015."
The start and finish of text introduced or altered by amendment is indicated in the text by tags !".
EN 15567 consists of the following parts, under the general title, Sports- and recreational facilities —
Ropes courses:
— Part 1: Construction and safety requirements;
— Part 2: Operation requirements.
The main changes to EN 15567-1:2007 are:
a) terms and definitions revised (Clause 3);
b) requirements for wire ropes revised (4.2.4);
c) new clause for synthetic ropes included (4.2.5);
d) influence of loads revised (4.3.2);
e) requirements for trees revised (4.3.3.3);
f) requirements for zip lines revised (4.3.4.2);
g) requirements for safety systems revised (4.3.5);
h) requirements for personal protective equipment revised in accordance with existing standards
(4.4);
i) requirements for inspection and maintenance revised (Clause 7);
j) Annex A revised;
k) Annex B deleted;
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l) new Annex C “Relevance of ISO 4309:2010 to EN 15567-1 for ropes courses” added;
m) correction of editorial errors.
According to the CEN/CENELEC Internal Regulations, the national standards organizations of the
following countries are bound to implement this European Standard: 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, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United
Kingdom.
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Introduction
Ropes courses vary considerably and may be used for educational, recreational, training or therapeutic
purposes.
Ropes course activities involve risks that should be managed by the manufacturers and operators. This
is achieved through careful design, manufacture, supervision, training, instruction, information etc.
Ropes course activities should only be undertaken by those who are physically and mentally able to
comply with the safety requirements specified by the operator.
The various safety devices (for protection against falling from a height and collisions) consist of
equipment designed to limit the consequences of falls or collisions. There are inherent risks associated
with ropes courses. These risks should, however, be appropriately managed and reduced to an
acceptable level by the ropes course operator. However, it should be understood that such risks cannot
be eliminated altogether. It should be noted that no safety system can prevent deliberate misuse.
On the basis of a risk assessment, that takes into account the manufacturer's manual, operators should
take reasonably practicable measures to ensure the safety of participants and staff. This means that the
degree of risks in a particular job/work place/facility need to be balanced against the time, trouble,
cost, benefits and physical difficulty of taking measures to avoid or reduce the risk.
Ropes course operators should also consider EN 15567-2, when carrying out risk assessments.
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1 Scope
This European Standard applies to permanent and mobile ropes courses and their components.
This European Standard specifies safety requirements for the design, construction, inspection and
maintenance of ropes courses and their components.
This European Standard does not apply to temporary ropes courses (see 3.3) and children's play
grounds (see EN 1176 all parts).
For the use of ropes courses EN 15567-2 applies.
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.
EN 335, Durability of wood and wood-based products - Use classes: definitions, application to solid wood
and wood-based products
EN 350-2:1994, Durability of wood and wood-based products — Natural durability of solid wood — Part
2: Guide to natural durability and treatability of selected wood species of importance in Europe
EN 351-1:2007, Durability of wood and wood-based products - Preservative-treated solid wood - Part 1:
Classification of preservative penetration and retention
EN 358, Personal protective equipment for work positioning and prevention of falls from a height - Belts
and lanyards for work positioning or restraint
EN 361, Personal protective equipment against falls from a height - Full body harnesses
EN 636, Plywood — Specifications
EN 813, Personal fall protection equipment - Sit harnesses
EN 1176-1, Playground equipment and surfacing - Part 1: General safety requirements and test methods
EN 12277, Mountaineering equipment — Harnesses — Safety requirements and test methods
EN 12927-6, Safety requirements for cableway installations designed to carry persons — Ropes — Part 6:
Discard criteria
EN 13411-1, Terminations for steel wire ropes — Safety — Part 1: Thimbles for steel wire rope slings
EN 13411-2, Terminations for steel wire ropes — Safety — Part 2: Splicing of eyes for wire rope slings
EN 13411-3:2004+A1:2008, Terminations for steel wire ropes - Safety - Part 3: Ferrules and ferrule-
securing
EN 13411-4, Terminations for steel wire ropes - Safety - Part 4: Metal and resin socketing
EN 13411-5, Terminations for steel wire ropes — Safety — Part 5: U-bolt wire rope grips
EN 13411-6, Terminations for steel wire ropes — Safety — Part 6: Asymmetric wedge socket
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EN 13411-7, Terminations for steel wire ropes — Safety — Part 7: Symmetric wedge socket
EN 15567-2:2015, Sports- and recreational facilities - Ropes courses - Part 2: Operation requirements
ISO 4309:2010, Cranes — Wire ropes — Care and maintenance, inspection and discard
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1
ropes course
constructed facility consisting of one or more activity systems, support systems and, if needed, an
appropriate safety system with restricted access and requiring supervision
Note 1 to entry: See Figure 1.

Key
Activity systems Support systems Belaying systems
A S B
A1 Elements S1 Poles B1 Assisted belaying system
trees
A2 Platforms S2 B2 Safety line
buildings,
A3 Access S3 B3 Safety system (categories A to
rock,
E)
other supporting
structures
Foundations, anchors
Guy lines
Figure 1 — Example of a ropes course
3.2
permanent ropes course
facility installed for more than seven days on the same site
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3.3
temporary ropes course
facility that is not a mobile ropes course and is installed for a maximum of seven days
3.4
mobile ropes course
facility constructed in such a way that the support system is transportable from site to site
3.5
support system
artificial and/or natural structure intended for installation of activity and safety systems
Note 1 to entry: See Figure 1 for examples.
3.6
activity system
facility that permits the progression of the participant
EXAMPLE Examples are elements, platforms and access structures, see Figure 1.
3.7
element
activity unit in a ropes course
3.8
platform
raised area usually before or after an element on which participants can stand
3.9
giant swing
activity system where the participant performs guided pendulums (to- and-fro movements)
3.10
zip line
activity system in which the participant glides under gravity in a sloping direction
3.11
landing area
area in which a participant exiting an element can land
3.12
change-over
manual transfer from one part of a safety system to another
3.13
safety line
flexible or rigid, horizontal, vertical or sloping, continuous or discontinuous device used as a protection
against falling from a height
3.14
interlocking device
device with at least two gates whereby an action on the one gate results in an effect on another gate
EXAMPLE The opening of one gate causes the locking of another gate.
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3.15
safety system
system used either to prevent, to arrest or cushion a participant's fall
Note 1 to entry: Examples of fall safety systems are guard rails, safety line, landing mat, net, retractable lifeline.
3.16
individual safety system
component(s) connecting the harness to the safety line
Note 1 to entry: Each of the following systems A to E provide adequate levels of safety when used in
combination with appropriate supervision, training, instruction and information. See also EN 15567-2.
3.16.1
individual safety system category A
self-closing device which is not automatically self-locking
EXAMPLE Self-closing or screw gate connector.
3.16.2
individual safety system category B
self-locking device
EXAMPLE Self-locking connector.
3.16.3
individual safety system category C
interlocking device designed to reduce the likelihood of unintentional detaching from the safety system
3.16.4
individual safety system category D
interlocking device designed to prevent unintentional detaching from the safety system
3.16.5
individual safety system category E
device that is permanently attached during operation and can only be opened with a tool
3.17
collective safety system
system which can protect at least one person and, once properly installed or erected, does not require
any action by the user to make sure it will work
Note 1 to entry: Examples include scaffolds, towers, nets, airbags, etc.
3.18
assisted belay system
belaying system where the participant is secured by at least one person
3.19
spotting
one or more persons working to catch, hold or give physical support to other participants
3.20
critical application
application where the consequences of a failure are likely to lead to a serious injury or death
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3.21
serious injury
any of the following injuries:
— fractures, other than to fingers, thumbs and toes;
— amputations;
— any injury likely to lead to permanent loss of sight or reduction in sight;
— any crush injury to the head or torso causing damage to the brain or internal organs;
— serious burns (including scalding) which:
— covers more than 10 % of the body;
— causes significant damage to the eyes, respiratory system or other vital organs;
— any scalping requiring hospital treatment;
— any loss of consciousness caused by head injury or asphyxia;
— any other injury arising from working in an enclosed space which:
— leads to hypothermia or heat-induced illness;
— requires resuscitation or admittance to hospital for more than 24 h
3.22
primary brake
braking system engaged during normal operation to arrest the participant which can be either active or
passive
3.22.1
active braking system
braking system operated by the participant or another person
3.22.2
passive braking system
braking system operating without manual intervention
EXAMPLE Examples are bungee, gravity, net, water, impact absorbers, impact absorbent floors, landing mats,
etc.
3.23
emergency brake
passive braking system that controls participant deceleration upon failure of the primary brake without
causing serious injury or death
3.24
level 1 supervision
situation whereby an instructor can physically intervene to prevent a misuse of the individual safety
system that would otherwise lead to a significant risk of serious injury or death
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3.25
level 2 supervision
situation whereby an instructor is able to see the participant and intervene verbally
3.26
level 3 supervision
situation whereby a participant is in a position to alert an instructor of their need for assistance, who is
able to respond promptly to the alert and provide adequate assistance
Note 1 to entry: It is intended that the role of the instructor is to be available to provide adequate assistance to a
participant if called upon to do so. This is a largely reactive, rather than proactive, role.
3.27
fall factor
the height of the fall or distance fallen divided by the length of the lanyard or rope that is used
3.28
falling space
any space into which a participant may enter during a fall stopped by the safety system
3.29
free space
space in, on or around an element that can accommodate a participant whilst attached to the safety
system
EXAMPLE Examples are oscillating space for a zip line or for a giant swing.
3.30
free height of fall
greatest vertical distance from the clearly intended structure supporting the body to the impact area
below
3.31
dead load
weight of the element when unloaded
3.32
characteristic load
maximum (un-factored) load that can be generated in normal use
3.33
imposed load
load corresponding to the average weight of a participant multiplied by the number of participants
simultaneously authorized on the element
3.34
dynamic load
vertical impact force imposed on the safety system generated by a falling participant
3.35
routine visual check
inspection intended to identify obvious hazards that can result from vandalism, use or weather
conditions
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3.36
operational inspection
inspection, more detailed than routine visual inspection, to check the operation and condition of the
equipment
3.37
periodical inspection
verification carried out by an inspection body at least once per calendar year and within a maximum
interval of 15 months intended to establish the level of safety of the ropes course
3.38
functional test
practical test of elements to ensure they are fit for purpose
3.39
inspection body
body that performs inspections
Note 1 to entry: A body can be an organization or part of an organization.
[SOURCE: EN ISO/IEC 17020:2012, 3.5]
Note 2 to entry: EN ISO/IEC 17020 defines inspection bodies of type A, type B and type C, covered by
appropriate professional civil liability insurance.
3.40
arboricultural expert
competent person able to undertake arboreal assessments
Note 1 to entry: Expert covered by appropriate professional civil liability insurance.
3.41
competent person
someone who has the necessary technical expertise, training and experience to carry out the task
3.42
arboreal assessment report
report of a periodical inspection comparing the condition of the trees in relation to the last assessment
4 Safety requirements
4.1 Choice of site
The site of the ropes course shall be chosen to ensure that it is located in an area of reasonable
operating safety. It shall be possible to evacuate participants from any part of the ropes course.
The immediate surrounding area shall not impair the safety of the structure and the activities taking
place on the site.
Local factors (e.g. lightning, humidity, corrosion, flooding, avalanches, soil conditions, weather patterns
and evidence of previous tree failures, etc.) shall be taken into consideration in both the design and the
operation of the facility, see EN 15567-2. Local land managers and foresters may need to be consulted.
Unauthorized access to the ropes course shall be taken into account referring to national regulations.
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NOTE In general, the installation and use of ropes courses will cause changes to the environment which are
covered by national legislation in force.
4.2 Material
4.2.1 General
Materials shall conform to 4.2.2, 4.2.3, 4.2.4 and 4.2.5.
Materials shall be fit for purpose.
NOTE 1 The provisions relating to certain materials in this standard do not imply that other equivalent
materials are unsuitable in the manufacture of ropes courses.
The selection of materials and their use should be in accordance with appropriate European Standards.
Materials shall be selected and protected so that the structural integrity of the equipment manufactured
from these materials should not be rendered unserviceable before the next relevant inspection.
NOTE 2 EN 15567-2 gives recommendations on inspections.
Particular care should be taken in the choice of materials where equipment is to be used in extreme
climatic or atmospheric conditions.
In the choice of materials or substances for ropes courses, consideration should be given to the eventual
disposal of the material or substance having regard to any possible environmental toxic hazard.
For all Materials used in critical applications, a competent person shall determine an inspection
procedure or comply with the manufacturer's recommendations.
Consideration should also be given to degradation of structural components through ultraviolet
influences.
4.2.2 Timber and associated products
Timber parts should be designed in such a way that precipitation can drain off freely and water
accumulation is avoided.
In cases of ground contact, one or more of the following methods shall be used to minimize the risk of
rot:
a) use of timber species with sufficient natural resistance in accordance with Classes 1 and 2 of the
natural resistance classification given in EN 350-2:1994, 4.2.2.
b) construction methods, e.g. post shoe;
c) use of timber treated with wood preservatives in accordance with EN 351-1:2007, Figure A.1 and in
accordance with hazard Class 4 of EN 335.
Consideration should also be given to other factors which can be hazardous, such as splintering,
poisoning etc.
All components made of timber and associated products, other than those species conforming to a), that
affect the stability of the structure and are in constant contact with the ground shall be treated in
accordance with c).
When selecting metal fastenings, consideration should be given to the species of timber and chemical
treatments used as some will accelerate corrosion of metals if there is contact.
Plywood used for outdoor installations shall conform to EN 636.
EN 14229 may be used for ropes courses where timber poles are used for the support system.
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4.2.3 Metals
Consideration shall be given to the corrosion of metal components.
Metals that produce toxic oxides shall be protected by a non-toxic coating.
4.2.4 Wire ropes
The choice of the wire rope shall be appropriate for the application. For wire safety lines only
galvanized or stainless steel wire ropes shall be used. Synthetic core wire ropes may also be
appropriate.
Wire ropes with natural fibre core shall not be used in critical applications.
A wire rope discard criteria shall be in accordance with the relevant sections of ISO 4309:2010. For
guidance see Annex C. For cables which are not covered by ISO 4309:2010, EN 12927-6 applies.
All wire rope terminations shall conform to EN 13411-1, EN 13411-2, EN 13411-3, EN 13411-4,
EN 13411-5, EN 13411-6 and EN 13411-7 or an appropriate documented test shall be carried out.
Only the following conditions are considered to be acceptable variations from EN 13411-3 in relation to
the use of ferrules on wire rope termination used on ropes courses.
a) The fatigue test (EN 13411-3:2004+A1:2008, 5.1.2.3) is not required if a second ferrule-secured
termination is applied. In such cases, the second ferrule shall be applied in such a way that the end
of the cable is at least flush with the end of the compressed ferrule-secured termination and in a
manner that is consistent with the design provided by the ferrule-secured system designer.
b) All ferrules used for wire rope termination on ropes courses shall display (legibly) the ferrule-
secured termination manufacturer’s mark/identity. A mark for individual traceability, as would
normally be required by EN 13411-3:2004+A1:2008, 7.1 b), is waived.
c) A record shall be kept by the ropes course owner of the ferrule-secured termination manufacturer’s
details. There shall be no requirement to certificate the ferrule-secured termination as is required
by EN 13411-3:2004+A1:2008, 7.2.
If other types of wire rope terminations are used they shall be used in accordance with the
manufacturer's guidelines.
Terminations shall consider the effects of the closure angle. An angle α ≤ 60 ° is recommended (see
Figure 2, e.g. trees and poles).

Key
α = angle of
termination
Figure 2 — Angle of termination
If angles α > 60 °are applied, sufficient measures shall be taken to protect the termination from
inappropriate radial loading.
If the angle α is > 120 °, particular care shall be taken to ensure the strength of the wire rope is
sufficient.
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If it is necessary to use rope clamps to make an in line connection of two separate wi
...