SIST EN 716-2:2008
Furniture - Children's cots and folding cots for domestic use - Part 2: Test methods
Furniture - Children's cots and folding cots for domestic use - Part 2: Test methods
This part of prEN 716 specifies test methods that assess the safety of children's cots and folding cots for domestic use.
It applies to children’s cots and folding cots with an internal length between 900 mm and 1 400 mm.
Möbel - Kinderbetten und Reisekinderbetten für den Wohnbereich - Teil 2: Prüfverfahren
Dieser Teil der prEN 716 legt Prüfverfahren zur Bewertung der Sicherheit von Kinderbetten und Reisekinderbetten für die Verwendung im Wohnbereich fest.
Er gilt für Kinderbetten und Reisekinderbetten mit einer Innenlänge zwischen 900 mm und 1 400 mm.
Meubles - Lits a nacelle fixes et pliants a usage domestique pour enfants - Partie 2 : Méthodes d'essai
La présente partie de prEN 716 décrit les méthodes d’essai permettant d’évaluer la sécurité des lits a nacelle fixes et pliants a usage domestique pour enfants.
Elle s’applique aux lits a nacelle fixes et pliants d’une longueur intérieure comprise entre 900 mm et 1 400 mm.
Pohištvo - Otroške postelje in zložljive posteljice za domačo uporabo - 2. del: Preskusne metode
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Standards Content (Sample)
SLOVENSKI STANDARD
SIST EN 716-2:2008
01-september-2008
1DGRPHãþD
SIST EN 716-2:1996
3RKLãWYR2WURãNHSRVWHOMHLQ]ORåOMLYHSRVWHOMLFH]DGRPDþRXSRUDERGHO
3UHVNXVQHPHWRGH
Furniture - Children's cots and folding cots for domestic use - Part 2: Test methods
Möbel - Kinderbetten und Reisekinderbetten für den Wohnbereich - Teil 2: Prüfverfahren
Meubles - Lits a nacelle fixes et pliants a usage domestique pour enfants - Partie 2 :
Méthodes d'essai
Ta slovenski standard je istoveten z: EN 716-2:2008
ICS:
97.140 Pohištvo Furniture
SIST EN 716-2:2008 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.
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SIST EN 716-2:2008
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SIST EN 716-2:2008
EUROPEAN STANDARD
EN 716-2
NORME EUROPÉENNE
EUROPÄISCHE NORM
March 2008
ICS 97.140; 97.190 Supersedes EN 716-2:1995
English Version
Furniture - Children's cots and folding cots for domestic use -
Part 2: Test methods
Meubles - Lits à nacelle fixes et pliants à usage domestique Möbel - Kinderbetten und Reisekinderbetten für den
pour enfants - Partie 2 : Méthodes d'essai Wohnbereich - Teil 2: Prüfverfahren
This European Standard was approved by CEN on 2 February 2008.
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 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 Management Centre has the same status as the
official versions.
CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Cyprus, Czech Republic, Denmark, Estonia, Finland,
France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal,
Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
Management Centre: rue de Stassart, 36 B-1050 Brussels
© 2008 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 716-2:2008: E
worldwide for CEN national Members.
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SIST EN 716-2:2008
EN 716-2:2008 (E)
Contents Page
Foreword.4
1 Scope .5
2 Normative references .5
3 General test conditions.5
3.1 Preliminary preparation .5
3.2 Test equipment .5
3.3 Application of forces .6
3.4 Tolerances .6
3.5 Test sequence.6
3.6 Prevention of movement during test .6
4 Test apparatus .6
4.1 Measuring probes.6
4.2 Bottom impactor .7
4.3 Test mattress.8
4.4 Side impactor .8
4.5 Loading pad.9
4.6 Stops .9
4.7 Floor surface .10
4.8 Test chain and mass .10
4.9 Small parts cylinder.10
4.10 Test mass .11
4.11 Bite tester .11
4.12 Retaining block .12
4.13 Foothold template.13
4.14 Head probes .13
4.14.1 Small head probe.13
4.14.2 Large head probe.14
4.15 Template for V-shaped openings.14
4.16 Test dummy.15
5 Test procedures.15
5.1 Assembly and inspection .15
5.2 Footholds.16
5.2.1 Determination of a foothold.16
5.2.2 Tests for footholds .17
5.2.3 Measurement of distance between footholds and/or top of cot sides and ends.19
5.2.4 Flexible materials.20
5.3 Measurements.20
5.3.1 Holes, gaps and openings inside the cot.20
5.3.2 Holes, gaps and openings on the outside of the cot .21
5.4 Small parts.23
5.4.1 General.23
5.4.2 Torque test .23
5.4.3 Tension test.24
5.5 Bite test.24
5.6 Strength of cot base and mattress base (impact test).24
5.7 Strength of sides and ends.25
5.7.1 Static load test of side slats (bending test) .25
5.7.2 Strength of sides or side slats (impact test).26
5.7.3 Strength of corners (impact test).27
2
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EN 716-2:2008 (E)
5.7.4 Strength of mesh and flexible sides and ends (static load test) .27
5.8 Strength of frame and fastenings .28
5.8.1 Vertical static load test .28
5.8.2 Durability test.29
5.9 Snag points .30
5.10 Stability.30
5.11 Locking mechanisms.31
5.11.1 Durability .31
5.11.2 Strength.31
6 Test report.31
Bibliography.32
3
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SIST EN 716-2:2008
EN 716-2:2008 (E)
Foreword
This document (EN 716-2:2008) has been prepared by Technical Committee CEN/TC 207 “Furniture”, the
secretariat of which is held by UNI.
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 September 2008, and conflicting national standards shall be
withdrawn at the latest by September 2008.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. CEN [and/or CENELEC] shall not be held responsible for identifying any or all such patent rights.
This document supersedes EN 716-2:1995.
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, Cyprus, Czech
Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia,
Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain,
Sweden, Switzerland and the United Kingdom.
Significant technical differences between this edition and EN 716-2:1995 are as follows:
a) Following items were made more concrete or introduced: Test equipment (3.2), Application of forces (3.3),
Tolerances (3.4) and under Test equipment (4), Test mattress (4.3), Device for bite test (4.11), Template
for foot hold (4.13), Head probes (4.14), Testing device for V-shaped openings (4.15) and Retaining block
(4.12);
b) Elaboration and specification of the test procedures (5), Assembly and inspection (5.1), for the
measurements of closed openings testing with at test probe (5.3.2.1) and measurement of V-shaped
openings testing with a test probe (5.3.2.2) were introduced, Small parts (5.4), Bite test (5.5), Strength of
sides and ends (5.7), Snag points (5.9) and Locking mechanisms (5.11);
c) Testing of brakes of the rollers and test chain with disc were deleted;
d) Revised editorially and with regard to content.
4
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EN 716-2:2008 (E)
1 Scope
This part of EN 716 specifies test methods for assessing the safety of children's cots and folding cots for
domestic use.
It applies to children’s cots and folding cots with an internal length greater than 900 mm but not more than
1 400 mm.
2 Normative references
The following referenced documents are indispensable for the application 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 ISO 2439:2000, Flexible cellular polymeric materials - Determination of hardness (indentation technique)
(ISO 2439:1997, including Technical Corrigendum 1:1998)
ISO 7619-2, Rubber, vulcanized or thermoplastic — Determination of indentation hardness — Part 2: IRHD
pocket meter method
3 General test conditions
3.1 Preliminary preparation
The tests are designed to be applied to a cot that is fully assembled and ready for use.
The test unit shall be stored in indoor ambient conditions for at least one week immediately prior to testing.
Any deviation from this procedure shall be stated in the test report.
Before testing, any fabrics intended to be removable shall be cleaned or washed twice in accordance with the
manufacturer's instructions. If no instructions are supplied, the manner of washing/cleaning shall be stated in
the test report.
The tests shall be carried out under indoor ambient conditions, but if during a test the atmospheric
temperature is outside the range 15 °C to 25 °C, the maximum and/or minimum temperature shall be recorded
in the test report.
The cot shall be tested as delivered. If the cot is a knock down type, it shall be assembled according to the
manufacturer's instructions supplied with the cot. If the cot can be assembled, combined or adjusted in
different ways, the most adverse combination shall be used for each test.
Knock-down fittings shall be tightened before testing. Further re-tightening shall not take place unless this is
specifically required by the manufacturer.
In the case of designs not catered for in the test procedures, the tests shall be carried out as far as possible
as described, and a list made of the deviations from the test procedures.
3.2 Test equipment
Unless otherwise specified, the tests may be applied by any suitable device because results are dependent
only upon correctly applied forces and loads and not upon the apparatus.
5
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The equipment shall not inhibit the deformation of the cot during testing. It shall be able to move so that it can
follow the deformation of the cot during testing, so that the loads are always applied at the specified point and
in the specified direction.
All loading pads shall be capable of pivoting in relation to the direction of the applied force. The pivot point
shall be as close as practically possible to the load surface.
3.3 Application of forces
The forces in the static load tests shall be applied sufficiently slowly enough to ensure that negligible dynamic
force is applied.
The forces in durability tests shall be applied at a rate to ensure that excessive heating does not occur.
3.4 Tolerances
Unless otherwise stated, the following tolerances apply:
Forces: ± 5 % of the nominal force;
Masses: ± 0,5 % of the nominal mass;
Dimensions: ± 1,0 mm of the nominal dimension;
Angles: ± 2° of the nominal angle;
Positioning of loading pads: ± 5 mm;
Duration of forces: ( 2 ± 1) s for durability tests
(10 ± 2) s for static load tests, including tension, torque and bite tests.
The tests are described in terms of the application of forces. Masses can, however, be used. The relationship
10 N = 1 kg shall be used for this purpose.
3.5 Test sequence
The tests shall be carried out in the order laid down in this standard and on the same cot.
3.6 Prevention of movement during test
If the cot tends to slide or roll during the tests specified in clause 5, it shall be restrained by stops (4.6).
4 Test apparatus
4.1 Measuring probes
Probes made of plastics or other hard, smooth material mounted on a force-measuring device.
There shall be one probe with a diameter of 7 mm (-0,1/+0 mm), see Figure 1a.
There shall be five probes with an angle of 30° ± 0,5° with diameters of 25 mm (0/+0,1 mm), 45 mm (0/+0,1
mm), 60 mm (0/+0,1 mm), 65 mm (0/+0,1 mm) and 85 mm (0/+0,1 mm) with conical ends, see Figure 1b.
6
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EN 716-2:2008 (E)
There shall be four cylindrical probes with diameters of 5 mm (-0,1/+0 mm), 7 mm (-0,1/+0 mm), 12 mm
(0/+0,1 mm) and 18 mm (0/+0,1 mm) with hemispherical ends, see Figure 1c.
Figure 1 a— 7 mm probe
Figure 1 b — Conical probes
Figure 1 c — Cylindrical probes
Key
1 Ø 5 mm (-0,1/+0 mm), Ø 7 mm (-0,1/+0 mm), Ø 12 mm (0/+0,1 mm), Ø 18 mm (0/+0,1 mm)
Figure 1
4.2 Bottom impactor
An impactor with a total mass of 10 kg of hardwood or equivalent material with a hemispherical end and with
dimensions in accordance with Figure 2.
The impactor shall be guided so that it is kept vertical and always falls on the impact point.
7
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EN 716-2:2008 (E)
Dimensions in millimetres
Figure 2 — Bottom impactor
4.3 Test mattress
3
A PUR foam sheet with a thickness of 60 mm, a bulk density of (35 ± 2) kg/m and an indentation hardness
index of (170 ± 40) N in accordance with A.40 of EN ISO 2439:2000 and being at least 400 mm × 800 mm in
area but not larger than the mattress base of the cot under test. The test mattress shall have a cotton cover
2 2
with a mass per unit area of 100 g/m to 120 g/m .
4.4 Side impactor
A pendulum with a cylindrical head made of steel (Figure 3). The head of the pendulum shall be surrounded
by a 10 mm thick layer of rubber of hardness 76 IRHD to 78 IRHD in accordance with ISO 7619-2. The total
mass shall be 2 kg.
8
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EN 716-2:2008 (E)
Dimensions in millimetres
Key
1 Pivot point
2 Centre of gravity
3 Rubber 76 to 78 IRHD
Figure 3 — Side impactor
4.5 Loading pad
A rigid cylindrical object, 100 mm in diameter, having a smooth hard surface and rounded edge with radius of
12 mm.
4.6 Stops
Stops which prevent the article from sliding but not tilting, not higher than 12 mm except in cases where the
design of the item necessitates the use of higher stops, in which case the lowest that will prevent the item
from sliding shall be used.
9
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EN 716-2:2008 (E)
4.7 Floor surface
Rigid, horizontal and flat surface.
4.8 Test chain and mass
Ball chain with a ball diameter of (3,2 ± 0,2) mm and a distance between ball centres of (4,0 ± 0,2) mm
(Figure 4), fixed to a 2,5 kg spherical weight with a diameter of 115 mm forming a loop in accordance with
Figure 5.
Dimensions in millimetres
Figure 4 — Ball chain
Dimensions in millimetres
Key
1 Ball chain
2 Weight, mass 2,5 kg
3 Fixing point
Figure 5 — Test chain and mass
4.9 Small parts cylinder
For assessment of small components, having dimensions in accordance with Figure 6.
[1]
.
NOTE The cylinder is identical to the one specified in EN 71-1
10
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EN 716-2:2008 (E)
Dimensions in millimetres
Figure 6 — Small parts cylinder
4.10 Test mass
A weight having a mass of 10 kg and a cross-section of 100 mm × 30 mm.
4.11 Bite tester
An apparatus (Figure 8), consisting of two sets of teeth (Figure 7), made from H13 high chrome tool steel or
equivalent and hardened to 45 Rockwell C to 50 Rockwell C. There shall be two teeth at the top and two at
the bottom of the bite tester, positioned so that the vertical centre line of one pair of teeth is (1 ± 0,1) mm in
front of the centre line of the other set of teeth. In the fully closed position the teeth shall overlap each other by
(1 ± 0,1) mm. The outer most corners of the teeth shall have a radius of (0,3 ± 0,1) mm.
The teeth shall be mounted so as to pivot about a point (50 ± 1) mm from the rear most pair of teeth and
positioned so that when closed the centre lines of the two pairs of teeth are parallel to each other. The bite
tester shall be equipped with a stop to prevent the distance between the teeth from exceeding (28 ± 1) mm
when fully opened. The closing force of the teeth shall be set at (50 ± 5) N.
The bite tester shall be provided with a guide to prevent items entering further into the fully opened jaws by
more than (17 ± 1) mm. The bite tester shall be equipped with a means whereby a force of (50 ± 5) N may be
applied along its centre line in a direction tending to pull the teeth off the sample.
11
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EN 716-2:2008 (E)
Dimensions in millimetres
Figure 7 — Test teeth
Dimensions in millimetres
Key
1 Position of guide
2 Pivot point
Figure 8 — Bite tester
4.12 Retaining block
Two retaining blocks made of rigid material with a width of 50 mm and a radius of 5 mm at the front edges.
12
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EN 716-2:2008 (E)
4.13 Foothold template
A strip of 10 mm thick transparent material cut to the shape as shown in Figure 9, marked on one face with
the pattern as shown.
The sides of the template shall be at a right angle to the faces. All edges and corners shall be without any
radius.
Dimensions in millimetres
Key
1 Triangular cells plotted on a 5 x 5 grid
Figure 9 — Template for foothold test (example of left hand template)
Two templates are required to provide a left and right hand template. The markings shown in Figure 9 shall be
on the bottom face of each template to avoid parallax errors.
4.14 Head probes
4.14.1 Small head probe
The small head probe shall be made from plastics or other hard, smooth material with the dimensions given in
Figure 10. The radius shall be 53 mm.
NOTE The small head probe represents a child aged 6 months to 9 months.
13
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EN 716-2:2008 (E)
Dimensions in millimetres
Key
a = 106 mm
b = 145 mm
c = 126 mm
Figure 10 — Small head probes
4.14.2 Large head probe
The large head probe shall be made from plastics or other hard, smooth material with the dimensions given in
Figure 11.
NOTE The large head probe represents a child aged up to 36 months.
Dimensions in millimetres
Key
a = 223 mm
Figure 11 — Large head probe
4.15 Template for V-shaped openings
The template for V and irregular shaped openings shall be made from plastics or other hard, smooth material
°
with the dimensions given in Figure 12. The tolerance for the angles shall be ± 1 .
14
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EN 716-2:2008 (E)
Dimensions in millimetres
230
45
1
2
45 45
155
Key
1 B portion
2 A portion
Figure 12 — V and irregular shaped openings template
4.16 Test dummy
A solid cylinder 200 mm in diameter and 300 mm in height, having a mass of 15 kg and with its centre of
gravity 150 mm above its base. All the edges of the cylinder shall have a radius of 5 mm.
5 Test procedures
5.1 Assembly and inspection
Assemble the cot in accordance with the manufacturer's instruction. Prior to the test, inspect the cot visually
for defects.
Tighten all knock-down fittings.
After testing, check where appropriate:
whether there are sharp edges or burrs,
whether the functions of the locking mechanisms are impaired,
whether the functions of the cot are impaired,
whether the sizes of the openings have changed so that they present a safety hazard,
15
265
25 90 45
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EN 716-2:2008 (E)
if relevant, whether the stability of the cot has changed.
5.2 Footholds
5.2.1 Determination of a foothold
5.2.1.1 Continuous structure
A foothold exists on a continuous structure if four triangles marked on the template are completely obscured
by the structure being checked. These four triangles shall have at least one side in common with another of
the triangles, see Figure 13.
Key
This shaded area denotes one triangle; four shaded areas denote four covered triangles
Figure 13 — Examples of obscured triangles indicating a foothold on a continuous structure
5.2.1.2 Non-continuous structure
A foothold exists on a non-continuous structure if two or more triangles marked on the template are
completely obscured between the edge of the template and the bold lines of the template by the structure
being checked. The two or more triangles on either side of the template shall have at least one side in
common with each other, see Figure 14.
Key
This shaded area denotes one triangle
Figure 14 — Examples of obscured triangles on a foothold on a non-continuous structure
16
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EN 716-2:2008 (E)
5.2.1.3 Wire, thin structures and similar parts
A foothold exists on a wire, thin structure and similar part if it projects across the bold lines on the template,
see Figure 15. Any wire, thin structure or similar part with a maximum width of 5 mm shall be checked in
accordance with 5.2.2.3.
Key
This denotes a wire, thin structure or similar structure
Figure 15 — Example of a foothold on a wire, thin structure and similar part
5.2.2 Tests for footholds
5.2.2.1 Footholds on a continuous structure at an angle less than 55°°°°
Using either the left or right hand template, place the template with its marked face on any continuous
structure inclined at less than 55° to the horizontal. Orientate either template, Figure 9, to check whether four
triangles are obscured; see Figure 16.
5.2.2.2 Footholds on a non-continuous structure at an angle of less than 55°°°°
Using either the left or right hand template, place the template with its marked face on any non-continuous
structure inclined at less than 55° to the horizontal. Orientate either template, Figure 9, to check whether any
triangles are obscured on either side of the bold lines on the template; see Figure 17.
5.2.2.3 Wire, thin structures or similar parts at an angle less than 55°°°°
Using either the left or right hand template, place the template with its marked face on any wire, thin structure
or similar parts at an angle less than 55° to the horizontal. Check whether the wire, thin structure or similar
part has a line of contact extending between the two bold lines marked along the template, Figure 9. See
Figure 18 for examples.
5.2.2.4 Intersecting or adjacent structures where the second structure prevents slipping
Using either the left or right hand template, place the template with its marked face on any structure, thin
structure or similar parts between 55° and 80° to the horizontal where there is also a supporting structure.
Orientate either template, Figure 9, to check whether any four triangles are obscured. See Figure 19 for
examples.
17
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SIST EN 716-2:2008
EN 716-2:2008 (E)
Figure 16 — Examples of footholds on a continuous structure at an angle less than 55°
Figure 17 — Examples of footholds on a non-continuous structure
...
SLOVENSKI STANDARD
oSIST prEN 716-2:2006
01-december-2006
3RKLãWYR2WURãNHSRVWHOMHLQ]ORåOMLYHSRVWHOMLFH]DGRPDþRXSRUDERGHO
3UHVNXVQHPHWRGH
Furniture - Children's cots and folding cots for domestic use - Part 2: Test methods
Möbel - Kinderbetten und Reisekinderbetten für den Wohnbereich - Teil 2: Prüfverfahren
Meubles - Lits a nacelle fixes et pliants a usage domestique pour enfants - Partie 2 :
Méthodes d'essai
Ta slovenski standard je istoveten z: EN 716-2:2008
ICS:
97.140 Pohištvo Furniture
97.190 Otroška oprema Equipment for children
oSIST prEN 716-2:2006 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.
---------------------- Page: 1 ----------------------
EUROPEAN STANDARD
DRAFT
prEN 716-2
NORME EUROPÉENNE
EUROPÄISCHE NORM
October 2006
ICS 97.140; 97.190 Will supersede EN 716-2:1995
English Version
Furniture - Children's cots and folding cots for domestic use -
Part 2: Test methods
Möbel - Kinderbetten und Reisekinderbetten für den
Wohnbereich - Teil 2: Prüfverfahren
This draft European Standard is submitted to CEN members for second enquiry. It has been drawn up by the Technical Committee
CEN/TC 207.
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 Management Centre has the same
status as the official versions.
CEN members are the national standards bodies of Austria, Belgium, Cyprus, Czech Republic, Denmark, Estonia, Finland, France,
Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania,
Slovakia, Slovenia, Spain, Sweden, Switzerland 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.
: This document is not a European Standard. It is distributed for review and comments. It is subject to change without notice and
Warning
shall not be referred to as a European Standard.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
Management Centre: rue de Stassart, 36 B-1050 Brussels
© 2006 CEN All rights of exploitation in any form and by any means reserved Ref. No. prEN 716-2:2006: E
worldwide for CEN national Members.
---------------------- Page: 2 ----------------------
prEN 716-2:2006 (E)
Contents Page
Foreword.4
1 Scope.5
2 Normative references.5
3 General test conditions.5
3.1 Preliminary preparation.5
3.2 Test equipment.6
3.3 Application of forces .6
3.4 Tolerances.6
3.5 Test sequence.6
3.6 Prevention of movement during test .6
4 Test apparatus.6
4.1 Measuring probes.6
4.2 Bottom impactor.7
4.3 Test mattress.8
4.4 Side impactor.8
4.5 Loading pad.9
4.6 Stops.9
4.7 Floor surface.10
4.8 Test chain.10
4.9 Small parts cylinder.10
4.10 Test mass.11
4.11 Bite test apparatus.11
4.12 Retaining block.12
4.13 Foothold template.13
4.14 Head probes.13
4.14.1 Small head probe.13
4.14.2 Large head probe.14
4.15 Test equipment for V-shaped openings .14
4.16 Feeler gauge.15
4.17 Test dummy.16
4.18 Test beam.16
5 Test procedures.16
5.1 Assembly and inspection .16
5.2 Footholds.16
5.2.1 Determination of a foothold.16
5.2.2 Tests for footholds .18
5.2.3 Measurement of distance between footholds and/or top of cot sides and ends.21
5.2.4 Flexible materials.21
5.3 Measurements.21
5.3.1 Holes, gaps and openings inside the cot.21
5.3.2 Holes, gaps and openings on the outside of the cot .22
5.4 Small parts.24
5.4.1 Tension test.24
5.4.2 Torque test.24
5.5 Bite test.25
5.6 Strength of cot base (impact test).25
5.7 Strength of sides and ends.26
5.7.1 Static load test of side slats (bending test) .26
5.7.2 Strength of sides or side slats (impact test).26
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5.7.3 Strength of corners (impact test).28
5.7.4 Strength of mesh and flexible sides and ends (static load test) .28
5.8 Strength of frame and fastenings .29
5.8.1 Vertical static load test .29
5.8.2 Durability test.30
5.9 Snag points.31
5.10 Stability.31
5.11 Locking mechanisms.32
5.11.1 Durability.32
5.11.2 Strength.32
5.11.3 Cots folding inwards.32
6 Test report.32
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prEN 716-2:2006 (E)
Foreword
This document (prEN 716-2:2006) has been prepared by Technical Committee CEN/TC 207 “Furniture”, the
secretariat of which is held by UNI.
This document is currently submitted to the second CEN Enquiry.
This document will supersede EN 716-2:1995.
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1 Scope
This part of prEN 716 specifies test methods that assess the safety of children's cots and folding cots for
domestic use.
It applies to children’s cots and folding cots with an internal length between 900 mm and 1 400 mm.
2 Normative references
The following referenced documents are indispensable for the application 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.
prEN 716-1 Children's cots and folding cots for domestic use — Part 1: Safety requirements
ISO 7619-2:2004 Rubber, vulcanized or thermoplastic — Determination of indentation hardness —
Part 2: IRHD pocket meter method
ISO 2439:2000 Flexible cellular polymeric materials — Determination of hardness (indentation technique)
3 General test conditions
3.1 Preliminary preparation
The tests are designed to be applied to a cot that is fully assembled and ready for use.
The test unit shall be stored in indoor ambient conditions for at least one week immediately prior to testing.
Any deviation from this procedure shall be stated in the test report.
Before testing, any fabrics intended to be removable shall be cleaned or washed twice in accordance with the
manufacturer's instructions. If no instructions are supplied, the manner of washing/cleaning shall be stated in
the test report.
The tests shall be carried out in indoor ambient conditions, but if during a test the atmospheric temperature is
outside the range 15 °C to 25 °C, the maximum and/or minimum temperature shall be recorded in the test
report.
The cot shall be tested as delivered. If of knock down type it shall be assembled according to the
manufacturer's instructions supplied with the cot. If the cot can be assembled, combined or adjusted in
different ways, the most adverse combination shall be used for each test.
Knock-down fittings shall be tightened before testing. Further re-tightening shall not take place unless this is
specifically required by the manufacturer.
In the case of designs not catered for in the test procedures, the tests shall be carried out as far as possible
as described, and a list made of the deviations from the test procedures.
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3.2 Test equipment
Unless otherwise specified, the tests may be applied by any suitable device because results are dependent
only upon correctly applied forces and loads and not upon the apparatus.
The equipment shall not inhibit the deformation of the cot during testing. It shall be able to move so that it can
follow the deformation of the cot during testing, so that the loads are always applied at the specified point and
in the specified direction.
All loading pads shall be capable of pivoting in relation to the direction of the applied force. The pivot point
shall be as close as practically possible to the load surface.
3.3 Application of forces
The forces in the static load tests shall be applied sufficiently slowly to ensure that negligible dynamic force is
applied.
The forces in durability tests shall be applied at a rate to ensure that excessive heating does not occur.
3.4 Tolerances
Unless otherwise stated, the following tolerances apply:
Forces: ± 5 % of the nominal force;
Masses: ± 0,5 % of the nominal mass;
Dimensions: ± 1,0 mm of the nominal dimension;
Angles: ± 2° of the nominal angle;
Positioning of loading pads: ± 5 mm;
Duration of forces: ( 2 ± 1) s for durability tests
(10 ± 2) s for static load tests
The tests are described in terms of the application of forces. Masses can however be used. The relationship
10 N = 1 kg may be used for this purpose.
3.5 Test sequence
The tests shall be carried out in the order laid down in this standard and on the same cot.
3.6 Prevention of movement during test
If the cot tends to slide or roll during the tests specified in clause 5, it shall be restrained by stops (4.6).
4 Test apparatus
4.1 Measuring probes
Probes made of plastics or other hard, smooth material mounted on a force-measuring device (Figure 1).
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There shall be 1 probe having diameter 7 mm (-0,1/+0 mm), see Figure 1A.
There shall be 5 probes with an angle of 30°± 0,5° having diametres 25 mm (0/+0,1 mm), 45 mm (0/+0,1 mm),
60 mm (0/+0,1 mm), 65 mm (0/+0,1 mm) and 85 mm (0/+0,1 mm) with conical ends, see Figure 1B.
There shall be 4 cylindrical probes having diameters 5 mm (-0,1/+0 mm), 7 mm (-0,1/+0 mm), 12 mm (0/+0,1
mm) and 18 mm (0/+0,1 mm) with hemispherical ends, see Figure 1C.
A)
B)
C)
Key
1 Ø 5 mm (-0,1/+0 mm), Ø 7 mm (-0,1/+0 mm), Ø 12 mm (0/+0,1 mm), Ø 18 mm (0/+0,1 mm)
Figure 1 — Measuring probes
4.2 Bottom impactor
An impactor with a total mass of 10 kg of hardwood or equivalent material with hemispherical end and with
dimensions in accordance with Figure 2.
The impactor shall be guided so that it is kept upright and always falls on the impact point.
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Dimensions in millimetres
Figure 2 — Bottom impactor
4.3 Test mattress
3
A PUR foam sheet with a thickness of 60 mm, a bulk density of (35 ± 2) kg/m and an indentation hardness
index of (170 ± 20) N in accordance with A 40 of ISO 2439:2000 and being at least 400 mm × 800 mm in area
but not larger than the mattress base of the cot under test. The test mattress shall have a cotton cover with a
2 2
mass per unit area of 100 g/m to 120 g/m .
4.4 Side impactor
A pendulum with a cylindrical head made of steel (Figure 3). The head of the pendulum shall be surrounded
by a 10 mm thick layer of rubber of hardness 76 to 78 IRHD in accordance with ISO 7619-2:2004. The total
mass shall be 2 kg.
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prEN 716-2:2006 (E)
Dimensions in millimetres
Key
1 Pivot point
2 Centre of gravity
3 Rubber 76 to 78 IRHD
Figure 3 — Side impactor
4.5 Loading pad
A rigid cylindrical object, 100 mm in diameter, having a smooth hard surface and rounded edge with radius of
12 mm.
4.6 Stops
Stops which prevent the article from sliding but not tilting, not higher than 12 mm except in cases where the
design of the item necessitates the use of higher stops, in which case the lowest that will prevent the item
from sliding shall be used.
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4.7 Floor surface
Rigid, horizontal and flat surface.
4.8 Test chain
Ball chain with a ball diameter of 3,2 mm and a distance between ball centres of 4,0 mm (Figure 4), fixed to a
2,5 kg spherical weight with a diameter of 115 mm forming a loop in accordance with Figure 5;
Dimensions in millimetres
Figure 4 — Ball chain
Dimensions in millimetres
Key
1 Ball chain
2 Weight, mass 2,5 kg
3 Fixing point
Figure 5 — Loop
4.9 Small parts cylinder
For assessment of small components, having dimensions in accordance with Figure 6.
NOTE The cylinder is identical to the one used in EN 71-1
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Dimensions in millimetres
Figure 6 — Small parts cylinder
4.10 Test mass
A weight having a mass of 10 kg and a cross-section of 100 mm × 30 mm.
4.11 Bite test apparatus
The bite tester (Figure 8), consists of two sets of teeth (Figure 7), made from H13 high chrome tool steel or
equivalent and hardened to 45-50 Rockwell C. There are two teeth at the top and two at the bottom of the bite
tester, positioned so that the vertical centre line of one pair of teeth is (1 ± 0.1) mm in front of the centre line of
the other set of teeth. In the fully closed position the teeth shall overlap each other by (1 ± 0.1) mm. The outer
most corners of the teeth shall have a radius of (0.3 ± 0.1) mm.
The teeth shall be mounted so as to pivot about a point (50 ± 1) mm from the rear most pair of teeth and
positioned so that when closed the centre lines of the two pairs of teeth are parallel to each other. The bite
tester shall be equipped with a stop to prevent the distance between the teeth from exceeding (28 ± 1) mm
when fully opened. The closing force of the teeth shall be set at (50 ± 5) N.
The bite tester shall be provided with a guide to prevent items entering further into the fully opened jaws by
more than (17 ± 1) mm. The bite tester shall be equipped with a means whereby a force of (50 ± 5) N may be
applied along its centre line in a direction tending to pull the teeth off the sample.
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Dimensions in millimetres
Figure 7 — Test teeth
Dimensions in millimetres
Key
1 Position of guide
2 Pivot point
Figure 8 — Bite test apparatus
4.12 Retaining block
Two retaining blocks made of rigid material with a width of 50 mm and a radius of 5 mm at the front edges.
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prEN 716-2:2006 (E)
4.13 Foothold template
A strip of 10 mm thick transparent material cut to the shape as shown in Figure 9, marked on one face with
the pattern as shown.
The sides of the template shall be square to the faces. All edges and corners shall be left as machined without
any radius.
Dimensions in millimetres
Key
1 Triangular cells plotted on a 5 x 5 grid
Figure 9 — Template for foothold test (example of left hand template)
Two templates are required to provide a left and right hand template. The markings shown in Figure 9 shall be
on the bottom face of each template to avoid parallax errors.
4.14 Head probes
4.14.1 Small head probe
The small head probe shall be made from plastics or other hard, smooth material with the dimensions given in
Figure 10.
NOTE The small head probe represents a child aged 6 to 9 months
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prEN 716-2:2006 (E)
Dimensions in millimetres
a = 106 mm
b = 145 mm
c = 126 mm
Figure 10 — Small head probe
4.14.2 Large head probe
The large head probe shall be made from plastics or other hard, smooth material with the dimensions given in
Figure 11.
Dimensions in millimetres
Key
a 223 mm
Figure 11 — Large head probe
4.15 Test equipment for V-shaped openings
The template for V and irregular shaped openings shall be made from plastics or other hard, smooth material
0
with the dimensions given in Figure 12. The tolerance for the angles shall be ± 1 .
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prEN 716-2:2006 (E)
Dimensions in millimetres
Key
1 B portion
2 A portion
Figure 12 — V and irregular shaped openings template
4.16 Feeler gauge
Feeler gauge with thickness of (0,4 ± 0,02) mm and an insertion edge radius of approx. 3 mm, see Figure 13
Key
1 Edges broken
2 Insertion edge radius
Figure 13 — Feeler gauge
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prEN 716-2:2006 (E)
NOTE This gauge is identical to the one used in EN 71-1:2005 clause 8.4.1.3
4.17 Test dummy
A solid cylinder 200 mm in diameter and 300 mm in height, having a mass of 15 kg and with its centre of
gravity 150 mm above its base. All the edges of the cylinder shall have a radius of 5 mm.
4.18 Test beam
A beam with a width of 80 mm, a length of 1100 mm and a mass of 1,75 kg ± 10 g.
5 Test procedures
5.1 Assembly and inspection
Assemble the cot in accordance with the manufacturer's instruction. Prior to the test, inspect the cot visually
for defects.
Tighten all knock-down fittings.
After testing check, where appropriate:
whether there are sharp edges or burrs,
whether the functions of the locking mechanisms are impaired,
whether the functions of the cot are impaired,
whether the sizes of the openings have changed so that they present a safety hazard,
if relevant, whether the stability of the cot has changed.
5.2 Footholds
5.2.1 Determination of a foothold
5.2.1.1 Continuous structure
A foothold exists on a continuous structure if four triangles marked on the template are completely obscured
by the structure being checked. These four triangles shall have at least one side in common with another of
the triangles, see Figure 14.
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Key
This shaded area denotes one triangle; four shaded areas denotes four covered triangles
Figure 14 — Examples of obscured triangles indicating a foothold on a continuous structure
5.2.1.2 Non-continuous structure
A foothold exists on a non-continuous structure if two or more triangles marked on the template are
completely obscured between the edge of the template and the bold lines of the template by the structure
being checked. The two or more triangles on either side of the template shall have at least one side in
common with each other, see Figure 15.
Key
This shaded area denotes one triangle.
Figure 15 — Example of obscured triangles on a foothold on a non-continous struture
5.2.1.3 Wire, thin structures and similar parts
A foothold exists on a wire, thin structure and similar part if it projects across the bold lines on the template,
see Figure 16. Any wire, thin structure or similar part with a maximum width of 5 mm shall be checked in
accordance with 5.2.2.3.
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Key
This denotes a wire, thin structure or similar structure
Figure 16 — Example of a foothold on a wire, thin structure and similar part
5.2.2 Tests for footholds
5.2.2.1 Footholds on a continuous structure at an angle less than 55°°°°
Using either the left or right hand template place the template with its marked face on any continuous structure
inclined at less than 55° to the horizontal. Orientate either template, Figure 9, to check whether any four
triangles are obscured indicating a foothold; see Figure 17.
5.2.2.2 Footholds on a non-continuous structure at an angle of less than 55°°°°
Using either the left or right hand template place the template with its marked face on any non-continuous
structure inclined at 55° to the horizontal. Orientate either template, Figure 9, to check whether any triangles
are obscured either side of the bold lines on the template indicating a foothold; see Figure 18.
5.2.2.3 Wire, thin structures or similar parts at an angle less than 55°°°°
Using either the left or right hand template place the template with its marked face on any wire, thin structure
or similar parts at an angle less than 55° to the horizontal. Check whether the wire, thin structure or similar
part has a line of contact extending between the two bold lines marked along the template, Figure 9, see
Figure 19 for examples.
5.2.2.4 Intersecting or adjacent structures where the second structure prevents slipping
Using either the left or right hand template place the template with its marked face on any structure, thin
structure or similar parts between 55° and 80° to the horizontal where there is also a supporting structure.
Orientate either template, Figure 9 to check whether any four triangles are obscured indicating a foothold; see
Figure 20 for examples.
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Figure 17 — Examples of footholds on a continuous structure at an angle less than 55°
Figure 18 — Examples of footholds on a non-continuous structure at an angle less than 55°
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prEN 716-2:2006 (E)
Figure 19 — Example of footholds on wire, thin structures or similar parts at an angle less than 55°
Figure 20 — Example of footholds on intersecting or adjacent structures where the second structure
prevents slipping
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5.2.3 Measurement of distance between footholds and/or top of cot sides and ends
Measure the distance between the top of any foothold and the next highest foothold or top of the cot side or
end, see Figure 21. Footholds include also the top of the bed base and the top of the mattress base.
When measuring from at flexible foothold, e.g. a mattress base, the measurement shall be carried out with the
test dummy (4.17).
When measuring from a rigid foothold, the measurement may be carried out with any suitable equipment.
Figure 21 — Example of measurement between footholds and/or top of cot sides and ends
5.2.4 Flexible materials
Where flexible materials or fabrics are covering rigid components the template is pushed against the flexible
material or fabric with a horizontal force of up to 30 N acting along the longitudinal axis of the template.
Orientate either template, Figure 9, to check whether any four triangles are obscured by the rigid components
indicating a foothold.
5.3 Measurements
5.3.1 Holes, gaps and openings inside the cot
Press the measuring probe (4.1) with a force as specified in Table 1 between the wires of the mesh, the slat
...
SLOVENSKI oSIST prEN 716-2:2005
PREDSTANDARD
julij 2005
Pohištvo - Otroške posteljice in zložljive posteljice za domačo uporabo - 2.
del: Preskusne metode
Furniture - Children's cots and folding cots for domestic use - Part 2: Test methods
ICS 97.140;
...
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