UK/0126/0137 MI-005 EC type-examination certificate UK/0126/0137 Revision 1 issued by: The National Measurement Office Notified Body Number 0126 In accordance with the requirements of the Measuring Instruments (Liquid Fuel and Lubricants) Regulations 2006 (SI 2006/1266) and the Measuring Instruments (NonPrescribed Instruments) Regulations 2006 (SI 2006/1270) which implement, in the United Kingdom, Council Directive 2004/22/EC, this certificate of EC typeexamination has been issued to: Gilbarco GmbH Ferdinand Henze Strasse 9 D-33154 Salzkotten Germany In respect of: Liquids other than water dispenser designated SK700-II family of dispensers Accuracy class: 0.5 Liquid fuels and Adblue 1.0 LPG The necessary data (principal characteristics, alterations, securing, functioning etc) for identification purposes and conditions (when applicable) are set out in the descriptive annex to this certificate. This Revision replaces previous versions of the certificate. Issue Date: Valid Until: Reference No: 01 August 2014 29 November 2022 TS0901/0030 Signatory: P R Dixon for: Chief Executive National Measurement Office | Stanton Avenue | Teddington | TW11 0JZ | United Kingdom Tel +44 (0)20 8943 7272 | Fax +44 (0)20 8943 7270 | Web www.gov.uk/nmo NMO is an Executive Agency of the Department for Business Innovation & Skills 0135 Descriptive Annex 1 INTRODUCTION The Gilbarco Veeder-Root Dispensers are for use in attended or unattended mode. A number of alternative housings are included which are identified as: SK700-II Endura Frontier Europe IOD Encore510 397G Horizon Aral 112 Frontier Sprint Encore alternative identification: alternative identification: alternative identification: alternative identification: alternative identification: alternative identification: alternative identification: alternative identification: alternative identification: alternative identification: alternative identification: SK700-II/Endura SK700-II/Frontier EU SK700-II/IOD SK700-II/Encore510 SK700-II/397G SK700-II/Horizon SK700-II/Aral SK700-II/112 SK700-II/Frontier SK700-II/Sprint SK700-II/Encore Example arrangements are shown in Figures 3-11 and 14-15. Further examples are held in the Documentation File. The dispensers described in this document are suitable for use with: • • • liquid fuels including petroleum, ethanol blends, methanol blends, diesel, heating oil, biodiesel and biodiesel blends, liquefied petroleum gas (LPG), aqueous urea solution (Adblue), The dispenser model name may identify the liquid type, e.g. SK700-II/Adblue, SK700-II/LPG. Example arrangements are shown in Figures 12-13. Measuring instruments associated with the liquid types above can share the same calculator, and optionally share the same enclosure. The measuring instruments can share the same calculator and housing as a compressed gas dispenser. 2/17 2 CHARACTERISTICS Accuracy Class Mechanical Environment Class Electromagnetic Environment Class Vmin liquid fuels 0.5 Liquid fuels and Adblue 1.0 LPG M2 E1 2 or 5 litres if Qmax ≤ 60lpm 2, 5 or 10litres if Qmax > 60lpm Often determined by national reverification practices. Vmin LPG Vmin Adblue 5 litres 2 or 5 litres 2.1 The ambient temperature range for a dispenser is limited to a range in which the characteristics of all individual components within the dispenser are valid. Similarly, the liquid temperature range for a dispenser is limited to a range in which the characteristics of all individual components are valid. 2.2 The overall characteristic of a measuring instrument (delivery circuit) is limited to a range in which the characteristics of all the individual components within the measuring instrument are valid. 2.3 enclosure Operation at -40°C is only valid if a heater is fitted to the electronics 2.4 meter. Where two meters are used in parallel, Qmax = 2 x Qmax for an individual 2.5 Qmin-Qmax for a measuring instrument, as marked on the dispenser nameplate, can be selected by Gilbarco providing that: Qmax/Qmin ≥ 10 for liquid fuels Qmax/Qmin ≥ 5 for LPG Qmax/Qmin ≥ 4 for Adblue and that there is no conflict with the characteristics of any component associated with that instrument. 3/17 3 CONSTRUCTION 3.1 Prime Components and Characteristics The dispenser is constructed from any combination of the prime components listed in Table 1 providing there are no conflicting characteristics within the relevant Evaluation Certificates. Table 1 Comments Certificate Adblue Evaluation LPG Type Liquid Fuel Manufacturer Prime Component Summary Meters Gilbarco Veeder-Root C+, V, V+ TC7144 Issued by NMI X Gilbarco GmbH Ecometer TC7143 Issued by NMI X Gilbarco Veeder-Root C TC7141 Issued by NMI X Gilbarco Veeder-Root V meter GB-1343 C global & C+ GB-1360 global meters Gilbarco Veeder-Root X X Gilbarco GmbH K150 TC7142 Issued by NMI X Endress+Hauser LPGmass DN15 TC7286 Issued by NMI X Endress+Hauser LPGmass DN8 TC7286 Issued by NMI 2A Engineering Prima SK12-001 ME Issued by SLM Gilbarco Veeder-Root GPU90 TC7146 Issued by NMI X Gilbarco Veeder-Root GPU140 TC7274 Issued by NMI X Gilbarco Veeder-Root Sandpiper-2 TC7123 X Gilbarco Veeder-Root Sandpiper-GSO Rose GB-1534 X Tulip ER112, EL112 GB-1368 X X X Gas Separators Electronic Calculator Gilbarco Veeder-Root Gilbarco Veeder-Root GB-1467 Used in volumeonly dispensers X TC7080 Red Jacket Not required FE-Petro Not required Gas separator not X required Gas separator not X required X Submerge Pumps 4/17 X X X Issued by NMI. Only used in 112 model Gilbarco GmbH X X Table 2 C+, V, V+ V meter C+ global meter C global meter C Ambient temp -10°C to +55°C -10°C to +55°C C+ global meter low temp version -40°C to +55°C Ecometer -25°C to +55°C K150 meter -25°C to +55°C E+H Coriolis LPGmass DN15 -40°C to +55°C E+H Coriolis LPGmass DN8 -40°C to +55°C 2A Prima meter -25°C to +55°C GPU90 -40°C to +55°C GPU90 -40°C to +55°C GPU140 -40°C to +55°C Sandpiper-2 Sandpiper-GSO Rose Tulip ER112, EL112 -25°C to +55°C Prime Component Characteristics Liquid temp -10°C to +40°C -10°C to +40°C -40°C to +40°C -10°C to +50°C -10°C to +50°C -40°C to +55°C -40°C to +55°C -10°C to +50°C -40°C to +55°C -40°C to +55°C -40°C to +55°C - Viscosity Qmin range / fuel 0.4mPa.s to 1.6lpm 17mPa.s Qmax Pmax 80lpm 3.5bar 0.4mPa.s to 4lpm 17mPa.s 80lpm 3.5bar 0.4mPa.s to 1.6lpm 17mPa.s 80lpm 3.5bar 0.4mPa.s to 4lpm 17mPa.s 80lpm 3.5bar 0.4mPa.s to 4lpm 17mPa.s 130lpm 3.5bar - 2.4kg/min 130kg/min 100bar - 0.8kg/min 36kg/min 100bar LPG 5lpm 50lpm 25bar 0.4mPa.s to 1.1mPa.s 90lpm 1.9bar 1.1mPa.s to 17mPa.s 90lpm 2.5bar 1.1mPa.s to 8.0mPa.s 140lpm 3.5bar - - - - 5/17 3.2 Self Service Devices The dispenser may be connected to the following self-service devices: • • any self-service device listed in Table 3 where the calculator supports the protocol, or any self-service device with a Parts Certificate where the communication protocol is stated in the Parts Certificate for the self-service device and in the Evaluation Certificate for the calculator. Table 3 Manufacturer Self-service devices Type Gilbarco Gilbarco Autotank Gilbarco Autotank Tokheim Wayne Scheidt u Bachmann Hectronic Hectronic Hectronic BP Europe Orpak Systems Ltd Evaluation Certificate Passport Europe TC7581 PBox Outdoor Payment 127612 NC3/NP3 L/P/C Outdoor Payment NP-M3(OPT) NC-M3 CRIP (GS/SK) NP3-M3 NC3L-M3 (GS/SK) NP3-M4 NC3P-M4 NC3L-M4 (GS/SK) FuelPOS Fusion TMS30 TA2331 Heconomy Hecstar Hecfleet NT RAP Sustain Systor POS and OrPt OPT FIT.10.A.ER.01 FIT.10.A.01 TC7343 SP 107023 TC7596 GB-1286 A0445/4225/2012EC A0445/4226/2012EC TC7657 GB-1381 Comments Issued by NMI Issued by SP (Sweden) Issued by ITO (Finland) Issued by NMI Issued by SP Issued by NMI Issued by BEV Issued by BEV Issued by NMI 3.2 Other Components and Arrangements Critical to Metrology 3.2.1 General 3.2.1.1 Where one meter feeds more than one hose circuit (for example Master-Satellite configurations), control valves ensure that a delivery cannot be made simultaneously from more than one hose circuit. 3.2.1.2 The combination of hose type and length is selected to ensure hose dilation does not result in a displayed quantity at the start of a transaction prior to the nozzle being operated. 6/17 3.2.2 Liquid fuel dispensers 3.2.2.1 Where more than one meter shares an incoming product line, either in the same dispenser, or in the case of sites with submerged pumping units meters within other dispensers, non-return valve(s) are fitted to prevent reverse flow from each meter. 3.2.2.2 When one pump and gas separator feeds two meters which in turn feed separate hoses, a control valve is fitted in the hydraulic circuit associated with each meter. 3.2.3 LPG dispensers 3.2.3.1 A non-return valve is fitted in the liquid line between the vapour separator and the meter. 3.2.3.2 A differential valve is installed, and ensures that the liquid pressure is a minimum of 1 bar greater than the vapour pressure 3.2.3.3 A manometer is installed in the liquid line close to the meter and upstream of the differential valve. 3.2.3.4 For LPG installations where several dispensers share a common supply system, a control valve is installed in each meter circuit. 3.2.3.5 For LPG installations where several dispensers share a common supply system, and where the gas separator does not include a float mechanism, a non-return valve is installed in the each dispenser vapour return line 3.2.4 Adblue dispensers 3.2.4.1 A non-return valve is fitted in the liquid line ahead of the meter. 3.2.4.2. dry. The installation provides a system to prevent the remote pump running 3.3 Optional Components and Arrangements 3.3.1 Optional Chassis Construction 3.3.1.1 The electronics enclosure facia may be constructed of steel, aluminium, or plastic, or a combination of these materials, except where restricted by the calculator certificate. 3.3.1.2 The dispenser housing may be used for the construction of a satellite unit containing a hose and nozzle circuit fed from the hydraulics in a remote master dispenser. This unit may optionally house a display repeating the transaction information shown on the master. The satellite is deemed to be a nozzle of the master unit. Two satellites may share a single housing. 7/17 3.3.2 Optional Features • • • • • • • • • • • 3.3.3 Addition of Gilbarco Veeder-Root vapour recovery systems, using electronics considered as part of the calculator evaluation. Addition of electronics for payment at the dispenser Electronic calibration Temperature compensation Heaters for the electronics enclosure for low temperature operation Preset, by self-service device, or by local user interface Master-Satellite operation for diesel/gasoil dispensers Delivery flowrate selection either by nozzle selection or by pushbutton Volume only indicator On LPG dispensers, if the delivery button/switch is released, the delivery may be continued within a programmable time of up to 15 seconds without zero setting of the calculator Other options listed in the component evaluation certificates Component options • Control valves may be single stage on/off, two stage for preset transactions, or proportional providing continuously variable flowrates • Hoses and nozzles are as described in the technical file supporting this certificate. • Vapour recovery systems are as described in the technical file supporting this certificate. • Hydraulic arrangements of the prime components are as described in the technical file supporting this certificate. 3.3.4 Options not critical to Metrology. 3.3.4.1 The following items may be included within the hydraulic circuits: • • • • • • Shear valves Non-return valves separate from the pump and gas separator Swivels and or safety breaks in the hose assembly circuit Sightglasses for non-metrological purposes in the hose assembly circuit Mechanical totalisers Additional manometers on LPG dispenser 3.3.4.2 The following items may be included within the electronics housing without being included in component evaluation certificates • Any electronics not associated with the sales transaction and not connected to circuits of the calculator, and which will not impact the EMC characteristics of the enclosure. 8/17 4 APPROVAL CONDITIONS The certificate is issued subject to the following conditions: 4.1 Markings 4.1.1 Markings are in accordance with the WELMEC Guide 10.5 Issue 1. An example is shown in Figure 1. Initial verification labels including the CEM mark are added to this nameplate; but may be removed at subsequent field verifications. The height of the CE mark and the rectangle containing the letter “M” and year code are 5mm minimum. 4.1.2 The markings and inscriptions shall fulfil the requirements of Paragraph 9 of Annex I of the Directive 2004/22/EC. 4.2 Data Sheet 4.2.1 The datasheet format is in accordance with the WELMEC Guide 10.5 Issue 1. An example is shown in figure 2. 4.3 Displays and Legends 4.3.1 Displays and legends are configured to meet the requirements of the country of installation. The text associated with the volume and price is greater than 10mm high. The text associated with unit price(s) is greater than 4mm high 4.3.2 Text is included on or near the primary display to indicate the minimum delivery for the dispenser. 4.3.3 Where a temperature compensation system is employed, text is added on or near the primary display to indicate that the volume is “at 15°C”. Alternative words may be used to deal with national or language requirements. 5 LOCATION OF SEALS 5.1 Securing is detailed in the Documentation Files for the individual components. 5.2 Components may additionally be sealed to the dispenser frame, or alternatively, may be specifically listed by serial number on a datasheet which remains with the dispenser in the calculator enclosure. 5.3 On LPG dispensers, the pressure calibration screw of the differential valve is sealed, and the differential valve is sealed against removal from the dispenser. Any mechanical valves in the vapour return line are sealed in the open position. 9/17 6 SUPPORTING DOCUMENTATION 6.1 Documentation file is held on file TS0901/0030/2/0001 7 ALTERNATIVES 7.1 There are as yet no alternatives 8 ILLUSTRATIONS Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Figure 7 Figure 8 Figure 9 Figure 10 Figure 11 Figure 12 Figure 13 Figure 14 Figure 15 Nameplate – typical arrangement of English version Datasheet – typical arrangement of English version SK700-II – typical arrangement Endura – typical arrangement Frontier Europe – typical arrangement IOD – typical arrangement Encore 510 – typical arrangement 397G – typical arrangement Horizon – typical arrangement Aral – typical arrangement 112 – typical arrangement LPG dispenser – typical arrangement Adblue dispenser – typical arrangement Frontier and Sprint – typical arrangements Encore – typical arrangement 9 CERTIFICATE HISTORY ISSUE NO. DATE DESCRIPTION UK/0126/0137 30 November 2012 Type examination certificate first issued. UK/0126/0137 Revision 1 01 August 2014 Revision 1 issued. Section 1: Frontier, Sprint and Encore models added. Associated illustrations added in section 8. Tables 1 and 2: Sandpiper-GSO and Endress-Hauser DN8 meter added. Section 8 alternative Endura housing added. Figure 2 updated. 10/17 Manufacturing address Example shows option to have one nameplate per side on 2-sided dispensers Figure 1 Nameplate – typical arrangement of English version 11/17 Figure 2 Datasheet – typical arrangement of English version (Multiproduct model shown) 12/17 Figure 3 SK700-II – typical arrangement Figure 4 Endura – typical arrangement 13/17 Figure 5 Frontier Europe – typical arrangement Figure 6 Figure 7 IOD – typical arrangement Encore 510 – typical arrangement 14/17 Figure 8 Figure 9 397G – typical arrangement Horizon – typical arrangement Figure 10 Aral – typical arrangement Figure 11 112 – typical arrangement 15/17 Figure 12 Figure 13 Figure 14 LPG dispenser – typical arrangement Adblue dispenser – typical arrangement Frontier and Sprint – typical arrangements 16/17 Figure 15 Encore – typical arrangement ©Crown Copyright 2014 NATIONAL MEASUREMENT OFFICE 17/17
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