Type: Storage unit Length: 400 mm Width: 700 mm Height: 1000 mm Weight: 34,95 kg Materials: Plywood with laminate

Transcription

1 Interia Prosjekt AS Attn.: Lars Johansen Olav Tryggvasons Gate 29 N-7011 Trondheim Order no Page 1 of 1 Appendices 3 Initials laha/prni/hbs Test Report Material: Model: Universal Type: Storage unit Length: 400 mm Width: 700 mm Height: 1000 mm Weight: 34,95 kg Materials: Plywood with laminate Sampling: Method: The test material was sampled by the client and received at the Danish Technological Institute EN 16121:2013 Non-domestic storage furniture Requirements for safety, strength, durability and stability Test severity 1 + Annex A. EN 16122:2012 Domestic and non-domestic storage furniture Test method for the determination of strength, durability and stability Period: The testing was carried out from to : Model Universal fulfils the requirements in EN 16121:2013 and EN 16122:2012. Individual results appear from Appendices 1 and 2. Storage: Terms: The test material will be destroyed after 1 month, unless otherwise agreed. The test has been performed according to the attached conditions, which are according to the guidelines laid down by DANAK (The Danish Accreditation). The testing is only valid for the tested specimen. The test report may only be extracted, if the laboratory has approved the extract , Danish Technological Institute, Wood Technology, Taastrup Lars Hansen Test responsible Per A. Nielsen Co-reader

2 Page 1 of 2 EN 16121: General safety requirements 5.3 Shear and squeeze points Shear and squeeze points when setting up and folding Shear and squeeze points under influence of powered mechanism Shear and squeeze points during use 5.4 Hinged horizontal lids 5.5 Vertical glass components 5.6 Stability EN 16122:2012 table Structural safety Structural safety tests - EN 16122:2012 table Structural safety requirements EN 16122:2012 table 4 6 Strength and durability 6.1 General 6.2 Strength and durability requirements - EN table 5 7 Information for use

3 Page 2 of 2 Annex A A.2 Modified requirements for schools, kindergartens and similar applications A.2.1 A.2.2 A.2.3 A.2.4 A.2.5 A.2.6 A.2.7 A.2.8 A.2.9 A3 General Storage furniture specifically designed for use in schools and kindergartens shall fully comply with this European Standard with the exception of the following modifications: Definition shear and squeeze points A sear and squeeze point exist if the distance between two accessible parts moving relative to each other can be less than 25 mm or more than 7 mm in any position during movement Principles of safety requirements The requirements of shall be modified such that the tests contained in Table 4 are only considered to affect safety when the height of the centre of gravity of the unit, or any part is >350 mm above the floor and the total mass is >5 kg. General safety requirements In addition to the requirements contained within 5.2, all accessible parts where the probability of contact by the user is high shall be rounded with a minimum 2 mm radius or chamfer Shear and squeeze points under the influence of powered mechanisms In addition to the requirements contained within 5.3.2, it is recommended that there should be no gap greater than 7 mm between the hinged edge of a door or flap and the main body of the product, or any hinge component, when assembled/adjusted for normal use. Shear and squeeze points during use In addition to the requirements contained within 5.3.3, it is recommended that there should be no gap greater than 7 mm between the hinged edge of a door or flap and the main body of the product, or any hinge component, when assembled/adjusted for normal use. Glass Glass shall fulfil the fragmentation test requirements of EN :2000, Clause 8, or has a mode of breakage (β) according to EN 12600:200, Type B or Type C Stability The requirements for stability contained in 5.6 shall apply to units where the height to the top of the unit is 450 mm or more above the floor level. Strength and durability drop test for trays The test shall be carried out in accordance with the drop test for trays (test 6.17, table 5), with the exception that the drop height for test severity Finger entrapment There shall be no accessible holes greater than 7 mm or less than 12 mm with a depth greater than 10 mm when assessed in accordance with of EN 716-2:2008+A1:2013

4 Page 1 of 2 EN 16122: Shelves, general Shelf retention test horizontal outward force Shelf retention test vertical downward force Deflection of shelves Strength of shelf supports 6.2 Tops and bottoms Sustained load test for tops and bottoms Static load test for tops and bottoms Clothes rails and supports, general Dislodgement of clothes rails Strength of the structure, test for structure and underframe Drop test Tests for units with castors or wheels Pivoted doors, general Strength of pivoted doors vertical load of pivoted doors Horizontal load of pivoted doors Slam shut of pivoted doors Durability of pivoted doors Sliding doors and horizontal roll fronts, general Slam shut/open of sliding doors and horizontal roll fronts Flaps, strength of bottom-hinged flaps Durability of flaps Drop test for horizontally top-hinged doors/flaps Vertical roll fronts, slam shut/open of vertical roll fronts Durability of vertical roll fronts Extension elements, general Strength of extension elements Durability of extension elements Slam shut and open of extension elements Displacement of extension element bottoms Interlock test Locking and latching mechanism tests, general Trays, general Strength test for locking and latching mechanisms for extension elements Strength test for locking and latching mechanisms for doors, flaps and roll frons

5 Page 2 of Sustained load test for trays 8.3 Drop test for trays 9 Coat hooks, strength of coat hooks Units mounted to the building, units not supported by the floor, general Movable parts, shelf supports, tops and bottoms Overload Dislodgement test 10.2 Units supported by the floor 11.1 Stability tests, general 11.2 Doors, extension elements and flaps closed, all storage units unloaded Units that are, or can be, adjusted to a height of 1000 mm or less Units that are, or can be, adjusted to a height of more than 1000 mm Opening doors, extension elements and flaps, all storage units unloaded 11.4 Doors, extension elements and flaps opened and unlocked All storage areas unloaded and all doors, extension elements and flaps open All storage areas unloaded with overturning load All storage areas loaded with overturning load 11.5 Doors, extension elements and flaps closed and locked, all storage units loaded 11.6 Dynamic stability test for units with castors

6 Appendix 3 Page 1 of 1 Photo

7 The general conditions pertaining to assignments accepted by Danish Technological Institute shall apply in full to the technical testing and calibration at Danish Technological Institute and to the completion of test reports and calibration certificates within the relevant field. Danish Accreditation (DANAK) DANAK was established in 1991 in pursuance of the Danish Act No. 394 of 13 June 1990 on the promotion of Trade and Industry. The requirements to be met by accredited laboratories are laid down in the Danish Agency for Trade and Industry s ("Erhvervsfremme Styrelsens") Statutory Order on accreditation of laboratories to perform testing etc. and GLP inspection. The statutory order refers to other documents, where the criteria for accreditation are specified further. The standards DS/EN ISO/IEC General requirements for the competence of testing and calibration laboratories and DS/EN General criteria for the assessment of testing laboratories describe fundamental criteria for accreditation. DANAK uses guidance documents to clarify the requirements in the standards, where this is considered to be necessary. These will mainly be drawn up by the European co-operation of Accreditation (EA) or the International Laboratory Accreditation Co-operation (ILAC) with the purpose of obtaining uniform criteria for accreditation. In addition, DANAK draws up Technical Regulations with specific requirements for accreditation that are not contained in the standards. In order for a laboratory to be accredited it is, among other things, required: - that the laboratory and its personnel are not subject to any commercial, financial or other pressures, which might influence their technical judgement - that the laboratory operates a documented quality system - that the laboratory has at its disposal all items of equipment, facilities and premises required for correct performance of the service that it is accredited to perform - that the laboratory management and personnel have technical competence and practical experience in performing the service that they are accredited to perform - that the laboratory has procedures for traceability and uncertainty calculations - that accredited testing or calibration is performed in accordance with fully validated and documented methods - that the laboratory keeps records, which contain sufficient information to permit repetition of the accredited test or calibration - that the laboratory is subject to surveillance by DANAK on a regular basis - that the laboratory shall take out an insurance, which covers liability in connection with the performance of accredited services Reports carrying DANAK s logo are used, when reporting accredited services and show that these have been performed in accordance with the rules for accreditation.