a a BS 476 - Part 6

Page 2 of 5Report No.: GZ11010315-1Test item particularsClassification of installation and use...........................:—Possible test case verdicts- Test case does not apply to the test object................:N/A- Test object does meet the requirement.....................:P (Pass)- Test object does not meet the requirement...............: F (Fail)TestingDate of receipt of test item............................................:January 10, 2011Date (s) of performance of tests...................................:January 10, 2011 to January 26, 2011General remarks:This report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this report. Only the Client is authorized to permit copying or distribution of this report and then only in its entirety. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and test results in this report are relevant only to the sample tested. This report by itself does not imply that the material, product, or service is or has ever been under an Intertek certification program.“(see remark #)” refers to a remark appended to the report.“(see Appendix #)” refers to an appendix appended to the report.Throughout this report a comma (point) is used as the decimal separator.When determining the test result, measurement uncertainty has been considered.General product information:The test sample named Fire Retard Board, Submitted sample dimension: 225×225×18mm.Refer to ‘Appendix B Product Photo’ for details.Intertek Testing Services Shenzhen Ltd. Guangzhou BranchBlock E, No.7-2 Guang Dong Software Science Park, Caipin Road, Guangzhou Science City,GETDD, Guangzhou, ChinaPage 3 of 5Report No.: GZ11010315-1BS 476-6ClauseRequirement - Test Result - Remark VerdictIntertek Testing Services Shenzhen Ltd. Guangzhou BranchBlock E, No.7-2 Guang Dong Software Science Park, Caipin Road, Guangzhou Science City,GETDD, Guangzhou, China⎯ Fire propagationPrior to testing, the sample was conditioned, toconstant mass at a temperature of 23 ± 2 °C, and arelative humidity of 50 ± 10 %, and maintained inthis condition until required for testing. Threespecimens with dimension of 225×225mm weretested according to clause 9 of BS 476-6, and thetest result was calculated through clause 10 of BS476-6.Fire propagation index: 18.87; Refer to ‘Appendix A – Test data’ for detail. ⎯******************************************End of Page****************************************Intertek Testing Services Shenzhen Ltd. Guangzhou BranchBlock E, No.7-2 Guang Dong Software Science Park, Caipin Road, Guangzhou Science City,GETDD, Guangzhou, ChinaAppendix ATest DataThroughout the test on each specimen, carefully observe the material’s behaviour within the apparatus and take special note of any of the following phenomena listed in clause 9.2 of the standard. None of the listed phenomena was observed and the test results on all three specimens tested were valid.The index of the performance for the specimen was determined as follows:S 1=∑==35.0t t t C S 10θθ−, S 2=∑==104t t t C S 10θθ−, S 3=∑==2012t t t C S 10θθ−, S=S 1+ S 2+S 3Where:S = index of performance for each of the specimens tested and S1, S2 and S3 are sub-indices; t = Time in minutes from the origin which reading are taken;θs = Temperature rise in ℃ for the specimen at time, t;θc = Temperature rise in ℃ for the calibration sheet at time, t.Fire Propagation index I = i 1 + i 2 + i 3Where, i1, i2 and i3 are given by the expressions:i 1 = 31[(S 1)A + (S 1)B + (S 1)C ], i 2 = 31[(S 2)A + (S 2)B + (S 2)C ], i 3 = 31[(S 3)A + (S 3)B + (S 3)C ] The following test results were obtained for each specimen tested:Sub-indices Index of performance Specimen No. S1 S2 S3 SA 5.35 8.09 5.65 19.09B 5.08 7.99 5.63 18.69C 5.25 7.99 5.61 18.85 Sub-index Sub-index Sub-index Fire propagation Number of specimens tested i 1i 2 i 3 l 3 5.22 8.02 8.63 18.87Note: If a suffix “R” is included in the above fire propagation index I, this indicates that the results shouldbe treated with caution.******************************************End of Page****************************************Intertek Testing Services Shenzhen Ltd. Guangzhou BranchBlock E, No.7-2 Guang Dong Software Science Park, Caipin Road, Guangzhou Science City,GETDD, Guangzhou, ChinaAppendix BProduct photo B.1 Overall view******************************************End of Report****************************************。

FIRE RESISTANCE OF CONTRACT FURNITURE AND FURNISHINGSA GUIDE PREPARED BY THEBRITISH CONTRACT FURNISHING ASSOCIATIONCONTRACT FURNITURE FIRE RESISTANCE REQUIREMENTSRequirements in the contract area are a voluntary standards regime but if specified, by a customer, become subject to Contract Law. Requirements are given by British Standards (BS) but test methods are a mixture of BS and European Standards (Norms) (EN). This is because of differences between UK law and other European national laws.The requirements standards are graded, that is they have more than one level to cater for different types of use, in some cases there is discretion as to which level can be chosen. If the customer does not specify the level required, you should always ask for clarification, the customer may be assuming a level or may be entirely ignorant. Where disputes have arisen in these circumstances, the supplier nearly always loses as they are deemed to have a responsibility to advise where the specification is not clear.It is not unknown for customers to ask for non fire-retardant products to save cost, you must not agree to this. Despite the fact that fire resistance is a voluntary regime, custom and practice dictates that the accepted standards should be adhered to, pleas that it is voluntary or that the customer said otherwise are exceedingly unlikely to provide a defence in court.It is well worth having a copy of the requirement standards for reference but there is no point in holding copies of the test methods standards as these are really for test laboratory use only.Upholstered Furniture and SeatingThe requirements are laid down in BS7176: 1995 Incorporating Amendment No. 1 and are for the testing of a composite of filling and cover. The normal requirements are Medium Hazard, which covers hotels, restaurants, pubs, bars, places of entertainment, hospitals, hostels and messes. Medium Hazard requires resistance to the ignition source specified in BS EN1021-1 (cigarette), BS EN1021-2 (match) and Ignition Source 5 (Crib 5) specified in BS5852.Some contract areas are classified Low Hazard by BS7176 and only need cigarette and match test. These are offices, schools, colleges, universities, museums and day centres. In practice, most customers will ask for Medium Hazard as a matter of course and most manufacturers supply to Medium Hazard as the norm.Depending on the volumes manufactured there are requirements for re-testing. For runs of less than 200, predictive testing can be used. This tests a fabric sample using a standardised filling. The fabric should still be re-tested every 20,000m. For runs of more than 200 units, re-testing should take place every 2,500 units or monthly.Products must be permanently and clearly labeled and BS7176 gives the specification for this.Note that the actual tests are to all intents and purposes the same as for the Domestic Furniture Regulations although the labeling is different. This is because the Domestic Furniture Regulations specifically reference BS5852. Since Amendment 1 to BS7176,furniture that has been demonstrated to meet the requirements of The Furniture and Furnishings (Fire) (Safety) Regulations 1988 shall be considered to satisfy the requirements for Low Hazard category of BS7176. This means that product that is certified to BS5852 is considered to meet BS7176 but not vice-versa. For companies that supply both domestic and contract markets, this saves the cost of dual testing.Mattresses, Divans and Bed BasesThe requirements are laid down in BS7177: 1996 Incorporating Amendment No. 1 and provides for the testing of a composite and for testing of individual fillings of different types. Mattresses, divans and bases can be tested on their own or as a total bed assembly where the bed coverings are known (the normal situation in the contract environment). Where the bedding is specified Section 3 of BS6807 provides the test method, where the bedding cannot be specified Section 2 of BS6807 is used. The difference is in the detailed positioning of the ignition sources. The normal requirements are Medium Hazard, which covers messes, day centers, hotels, hostels, old peoples’ homes, holiday camp chalets, boarding schools, residential schools and halls of residence. Medium Hazard requires resistance to the ignition sources specified in BS EN597-1 (cigarette), BS EN597-2 (match) and the Ignition Source 5 specified inBS6807 Section 2 or 3. Hotels, hostels and old peoples’ homes can also be High Hazard, in which case they have to meet resistance to ignition with Ignition Source 7of BS6807 Section 2 or 3 in place of Ignition Source 5. The level of hazard requiredwill be dependent on the features of individual premises and their usage. These ignition sources equate to the ignition sources of BS5852 and BS EN1021-1 & 2.Depending on the volumes manufactured there are requirements for re-testing. For production of less than 400 units per month, one unit should be tested every 6 months. For production of between 400 and 2,400 units per month, one unit should be tested per 2,400 and for production of more than 2,400 units per month, one per month.Products must be permanently and clearly labeled and BS7177 gives the specification for this.Bedcovers and PillowsBS7175: 1989 gives test methods for assessing the resistance to ignitions of bedcovers and pillows. It draws on BS5852 and BS6807 for ignition sources. Requirements arenot laid down but could be inferred from BS7177. The test results are expressed as a straight pass/fail against each ignition source.Fabrics for Curtains and DrapesThe requirements are laid down in BS5867: 1980. There are three performance requirements, expressed as Types A, B and C, for contract use Type B is the appropriate one. The test method is given in BS5438 and is for a small flame source applied to a vertical oriented sample, either to the face or to the bottom edge. Type B testing is carried out on 6 samples according to BS5438 but if one sample fails, a pass can still be gained if there are no failures on testing a further 6 samples.Textile Floor CoveringsThe requirements are laid down in BS5287: 1988 and are suitable for all textile floor coverings. The test method is given by BS4790, which simulates a small ignition source lying on the floor covering. For contract use an affected radius of less than 35mm is required. Note that there are three mounting methods: loose-laid, fully adhered and loose-laid with underlay; the results will only be valid if the floor covering is laid in the same way as the sample tested.Wall CoveringsWall coverings are a potentially difficult area and requirements would depend on the type (use) and size of space and the presence of automatic fire detection. In general terms concrete, brickwork, plasterboard, ceramic tiles, plaster and rendering, woodwool slab, thin vinyl and paper coverings on inorganic surfaces are acceptable everywhere including circulation spaces and escape routes. Timber, hardboard, blockboard, particleboard, heavy flock papers and flame retardant treated thermosetting plastics can be used in rooms but not on stairways and corridors that form escape routes. In rooms of area less than 4m² polystyrene wall and ceiling linings may also be used. The relevant standard is BS476 Part 7, covering surface spread of flame on vertical surfaces, this uses a gas fired radiation panel 900mm square as its heat source with the flame burning for 1 min. Up to 9 samples can be used to obtain 6 valid results. Class 3 is the requirement for small rooms and is met if the average spread of flame is limited to 265mm after 1.5 min and 710mm after 10 min. Class 1 is the requirement for other rooms and is met if the average spread of flame is limited to 165mm after 10 min. Circulation spaces and escape routes require Class 0, which is not BS476 but is found in Part B of Building Regulations. Partitions should meet, at least, the requirements of the space that they divide.Compliant construction products are readily available but furnishing materials are unlikely to have been tested. Careful thought should be given before changing a wall covering or using an unusual material. The advice of the local Fire Officer should be sought in any area where there is the slightest doubt as to suitability.WatchpointsThe main problems encountered are with imported fabrics and upholstery as most other countries don’t have ignition resistance requirements to UK levels. The issue is verifying any claims made by an overseas supplier. Verbal assurance is worthless, written assurance is better but you would be well advised to insist on copies of test certificates, note especially the date of issue in connection to re-testing (above). Be aware that there are forged certificates in circulation and that these are indistinguishable from the genuine article. If in doubt, the way to check is to call the test laboratory and have them confirm that they have issued that certificate, to that company, for that particular product. You should view with particular caution any products manufactured in the Far East and imported through a 3rd party company based in another EU country. Such arrangements are often a ploy to circumvent national safety requirements (not just furniture, these arrangements are found for a wide range of goods) by exploiting the EU “free passage of goods” policy.Special Requirements for the Public SectorThe public sector have some particular requirements, these are found in BS5815 although there can be departmental issued documents as well.BS5815In three parts this specifies performance requirements and construction for sheets, pillowslips, towels, napkins, counterpanes and quilt covers for use in the public sector. Part 3 is counterpanes and quilt covers. The flammability requirement called up is found in BS5438.The British Contract Furnishing Association is the leading trade association in the UKfor companies supplying furniture and furnishings into the contract area. The contract area comprises, offices, hotels, restaurants, bars, educational establishments, hospitals and healthcare establishments and some niche areas. The BCFA represents a sector worth around £2 billion annually.Project House, 25 West Wycombe Road, High Wycombe HP11 2LQ Tel: 01494 896790 Fax: 01494 896799 E: enquiries@。

英国标准载客列车防火设计和建造规范经许可由澳大利亚标准复制除版权法允许外，没有BSI的许可不得复印BS 6853：1999 包括1号修改案BSI英国标准目录页码负责的委员会封面内侧前言iii介绍1 范围2 参考标准3 术语和定义以及符号4 车辆类别的划分5 设计根据6 材料7 火灾的蔓延与火灾形成物的控制8 火探测和灭火系统，以及旅客通讯装置9 关键和紧急系统的控制和功能10 帮助旅客和工作人员逃亡1 2 2 3 5 6 7 14161718附录A（提供信息资料的）论烟气和有毒气体排气物的检测附录B （提供信息资料的）有毒气体加权总和，R的测定附录C（提供信息资料的）关于分类研究法的一般说明附录D（标准的）检测烟气浓度的方法附录E（提供信息资料的）试验数据的整理分析2021 23 25 39文献目录41图D.2——测光系统图D.3——光电管的电路图图D.4——理想曲线图D.5——拐点的推断图D.6——不同损失机械装置导致的Am（ON）偏差图D.7——单一状态（地面材料）试验图D.8——单一状态（小型）试验图D.9——小型试验的示意图图D.10——板试验的示意图图D.11——座位试验的示意图图D.12——地面材料试验的示意图图D.13——电缆试验的示意图333334 343435 3535363738 38表1——内部水平朝上的表面表2——内部垂直面表3——内部水平朝下的表面表4——外部水平朝上的表面表5——外部垂直表面表6——外部水平朝下的表面表7——内部质量为100g至500g的较小用途材料表8——外部质量为400g至2000g的较小用途材料表9——座位装饰表10——座位构架（后靠背和基座）表11——纺织品（可随意立起和放倒）（朝上表面、向下表面和垂直表面）表12——垫子表13——内部电缆9 9 9 10 10 1010111112 121213表14——外部电缆表B.1——IDLH数值表B.2——各种气体的参考值表C.1——检测Ao用材料的数量13212223介绍本标准的目的是在一个车辆或构成载客列车的车辆上或车辆周围着火时确保车辆上旅客的安全。

AH1401051C技术规格（1）合同号：AH1401051审核人：____________ BJ00_AH13_000201.16.15广业文A0731经办人：王 启明电梯编号L-8电梯型号UAX-800-CO105(单开门)台数1载重量(kg)800速度(m/min)105层/站/门4/2/2服务楼层1,4基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)1850×2100机房位置无机房井道总高(m)25.080提升高度(m)14.200顶层净高(mm)8880底坑净深(mm)2000轿内尺寸(宽×深)(mm)1400×1350轿厢天花CS-101G轿厢高度(mm)轿顶高度_2300轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿厢后壁喷涂钢板_YM47(哑香槟铝)轿门喷涂钢板_YM47(哑香槟铝)轿厢地面塑料地板胶_A-23开门方向中分门开门尺寸(宽×高)(mm)800×2100轿厢操纵箱OPM-B_发纹不锈钢操纵箱按钮DL-PO轿厢位置指层器UA-BD_发纹不锈钢_设置于操纵壁门套1层_小门套_发纹不锈钢；其余各层_小门套_喷涂钢板_WN01(象牙白)层（厅）门1层_发纹不锈钢；其余各层_喷涂钢板_WN01(象牙白)耐火门BS476耐火门厅外召唤指示器所有层_BL-56_镜面不锈钢_FL-PW_GL-BS_含钟_镜面不锈钢电梯编号L-A8电梯型号LCA-1050-CO105(贯通门)台数1载重量(kg)1050速度(m/min)105层/站/门7/7/11服务楼层主门：1,2...,5；副门：B2,B1,2,3,4,5基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz 控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2450×2100机房位置无机房井道总高(m)36.130提升高度(m)28.750顶层净高(mm)5380底坑净深(mm)2000轿内尺寸(宽×深)(mm)1600×1500轿厢天花CS-101G轿厢高度(mm)轿顶高度_2800轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)150，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)900×2100轿厢操纵箱GOP-620_发纹不锈钢_网点蚀刻操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套主门：所有层_小门套_发纹不锈钢副门：所有层_小门套_发纹不锈钢层（厅）门主门：1层_镜面不锈钢；其余各层_发纹不锈钢副门：所有层_发纹不锈钢耐火门BS476耐火门厅外召唤指示器主门：所有层_VIB-628_镜面不锈钢_FL-PW 副门：所有层_VIB-628_镜面不锈钢_FL-PW电梯编号L-9电梯型号UAX-800-CO105(单开门)台数1载重量(kg)800速度(m/min)105层/站/门7/7/7服务楼层B2,B1,1,2...,5基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2000×2200机房位置无机房井道总高(m)36.130提升高度(m)28.750顶层净高(mm)5380底坑净深(mm)2000轿内尺寸(宽×深)(mm)1300×1350轿厢天花DX-302G轿厢高度(mm)吊顶高度_2970轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿厢后壁喷涂钢板_YM47(哑香槟铝)轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)200，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)800×2100轿厢操纵箱GOP-620_发纹不锈钢_网点蚀刻操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套所有层_小门套_发纹不锈钢层（厅）门1层_镜面不锈钢；其余各层_发纹不锈钢耐火门BS476耐火门厅外召唤指示器所有层_BL-56_镜面不锈钢_FL-PW_GL-BS_含钟_镜面不锈钢电梯编号L10电梯型号LCA-1050-CO105(单开门)台数1载重量(kg)1050速度(m/min)105层/站/门7/7/7服务楼层B2,B1,1,2...,5基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz 控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2500×2000机房位置无机房井道总高(m)36.130提升高度(m)28.750顶层净高(mm)5380底坑净深(mm)2000轿内尺寸(宽×深)(mm)1600×1400轿厢天花DX-302G轿厢高度(mm)吊顶高度_2650轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿厢后壁喷涂钢板_YM47(哑香槟铝)轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)200，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)900×2100轿厢操纵箱GOP-620_发纹不锈钢_网点蚀刻操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套所有层_小门套_发纹不锈钢层（厅）门1层_镜面不锈钢；其余各层_发纹不锈钢耐火门BS476耐火门厅外召唤指示器所有层_VIB-628_镜面不锈钢_FL-PW电梯编号L-12,L-13,L11电梯型号LCA-1050-CO105(单开门)台数3载重量(kg)1050速度(m/min)105层/站/门7/7/7服务楼层B2,B1,1,2...,5基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz 控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2500×2000机房位置无机房井道总高(m)36.130提升高度(m)28.750顶层净高(mm)5380底坑净深(mm)2000轿内尺寸(宽×深)(mm)1600×1400轿厢天花DX-302G轿厢高度(mm)吊顶高度_2650轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿厢后壁喷涂钢板_YM47(哑香槟铝)轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)200，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)900×2100轿厢操纵箱GOP-620_发纹不锈钢_网点蚀刻操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套所有层_小门套_发纹不锈钢层（厅）门1层_镜面不锈钢；其余各层_发纹不锈钢耐火门BS476耐火门厅外召唤指示器所有层_VIB-628_镜面不锈钢_FL-PW电梯编号L-14电梯型号LCA-1050-CO105(贯通门)台数1载重量(kg)1050速度(m/min)105层/站/门10/9/9服务楼层主门：1；副门：B2,B1,2,3,...,6,8基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz 控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2400×2000机房位置无机房井道总高(m)46.150提升高度(m)39.250顶层净高(mm)4900底坑净深(mm)2000轿内尺寸(宽×深)(mm)1600×1400轿厢天花CS-101G轿厢高度(mm)轿顶高度_2800轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)150，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)900×2100轿厢操纵箱GOP-620_发纹不锈钢_网点蚀刻操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套主门：所有层_小门套_发纹不锈钢副门：所有层_小门套_发纹不锈钢层（厅）门主门：所有层_镜面不锈钢副门：所有层_发纹不锈钢耐火门BS476耐火门厅外召唤指示器主门：所有层_VIB-628_镜面不锈钢_FL-PW 副门：所有层_VIB-628_镜面不锈钢_FL-PW电梯编号L-27,L-28电梯型号LCA-1350-CO105(单开门)台数2载重量(kg)1350速度(m/min)105层/站/门7/7/7服务楼层B2,B1,1,2...,5基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2750×2400机房位置无机房井道总高(m)39.400提升高度(m)32.200顶层净高(mm)5200底坑净深(mm)2000轿内尺寸(宽×深)(mm)2000×1500轿厢天花DX-302G轿厢高度(mm)吊顶高度_2450轿厢前壁发纹不锈钢门灯横梁发纹不锈钢轿厢侧壁发纹不锈钢轿厢后壁发纹不锈钢轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)250，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)1100×2100轿厢操纵箱GOP-616(一体化操纵箱)操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套所有层_小门套_镜面不锈钢层（厅）门所有层_镜面不锈钢耐火门BS476耐火门厅外召唤指示器所有层_BL-56_镜面不锈钢_FL-PW_HF-119_镜面不锈钢电梯编号L-5电梯型号UAX-1000-CO105(单开门)台数1载重量(kg)1000速度(m/min)105层/站/门8/8/8服务楼层B2,B1,1,2...,6基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz 控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2400×2000机房位置无机房井道总高(m)39.000提升高度(m)32.250顶层净高(mm)4750底坑净深(mm)2000轿内尺寸(宽×深)(mm)1600×1400轿厢天花DX-302G轿厢高度(mm)吊顶高度_2650轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿厢后壁喷涂钢板_YM47(哑香槟铝)轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)200，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)900×2100轿厢操纵箱GOP-620_发纹不锈钢_网点蚀刻操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套所有层_小门套_发纹不锈钢层（厅）门1层_镜面不锈钢；其余各层_发纹不锈钢耐火门BS476耐火门厅外召唤指示器所有层_VIB-628_镜面不锈钢_FL-PW电梯编号L-6,L-17,L-19,L2电梯型号LCA-1050-CO105(贯通门)台数4载重量(kg)1050速度(m/min)105层/站/门7/7/11服务楼层主门：B2,B1,1,2...,5；副门：2,3,4,5基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz 控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2450×2100机房位置无机房井道总高(m)36.130提升高度(m)28.750顶层净高(mm)5380底坑净深(mm)2000轿内尺寸(宽×深)(mm)1600×1500轿厢天花CS-101G轿厢高度(mm)轿顶高度_2800轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)150，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)900×2100轿厢操纵箱GOP-620_发纹不锈钢_网点蚀刻操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套主门：所有层_小门套_发纹不锈钢副门：所有层_小门套_发纹不锈钢层（厅）门主门：1层_镜面不锈钢；其余各层_发纹不锈钢副门：所有层_发纹不锈钢耐火门BS476耐火门厅外召唤指示器主门：所有层_VIB-628_镜面不锈钢_FL-PW 副门：所有层_VIB-628_镜面不锈钢_FL-PW电梯编号L7,L-18,L-16,L-20,L-22电梯型号LCA-1050-CO105(贯通门)台数5载重量(kg)1050速度(m/min)105层/站/门7/7/11服务楼层L7,L-18,L-16,L-20:主门：B2,B1,1,2...,5；副门：2,3,4,5；L-22:主门：B1,1,2...,5；副门：B2,2,3,4,5；基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz 控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2450×2100机房位置无机房井道总高(m)36.130提升高度(m)28.750顶层净高(mm)5380底坑净深(mm)2000轿内尺寸(宽×深)(mm)1600×1500轿厢天花CS-101G轿厢高度(mm)轿顶高度_2800轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)150，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)900×2100轿厢操纵箱GOP-620_发纹不锈钢_网点蚀刻操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套主门：所有层_小门套_发纹不锈钢副门：所有层_小门套_发纹不锈钢层（厅）门主门：1层_镜面不锈钢；其余各层_发纹不锈钢副门：所有层_发纹不锈钢耐火门BS476耐火门厅外召唤指示器主门：所有层_VIB-628_镜面不锈钢_FL-PW 副门：所有层_VIB-628_镜面不锈钢_FL-PW电梯编号L-21,L-15,L-3电梯型号LCA-1050-CO105(贯通门)台数3载重量(kg)1050速度(m/min)105层/站/门7/7/11服务楼层主门：1,2...,5；副门：B2,B1,2,3,4,5基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz 控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2450×2100机房位置无机房井道总高(m)36.130提升高度(m)28.750顶层净高(mm)5380底坑净深(mm)2000轿内尺寸(宽×深)(mm)1600×1500轿厢天花CS-101G轿厢高度(mm)轿顶高度_2800轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)150，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)900×2100轿厢操纵箱GOP-620_发纹不锈钢_网点蚀刻操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套主门：所有层_小门套_发纹不锈钢副门：所有层_小门套_发纹不锈钢层（厅）门主门：1层_镜面不锈钢；其余各层_发纹不锈钢副门：所有层_发纹不锈钢耐火门BS476耐火门厅外召唤指示器主门：所有层_VIB-628_镜面不锈钢_FL-PW 副门：所有层_VIB-628_镜面不锈钢_FL-PW电梯编号L4电梯型号LCA-1050-CO105(贯通门)台数1载重量(kg)1050速度(m/min)105层/站/门7/7/11服务楼层主门：1,2...,5；副门：B2,B1,2,3,4,5基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz 控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2450×2100机房位置无机房井道总高(m)36.130提升高度(m)28.750顶层净高(mm)5380底坑净深(mm)2000轿内尺寸(宽×深)(mm)1600×1500轿厢天花CS-101G轿厢高度(mm)轿顶高度_2800轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)150，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)900×2100轿厢操纵箱GOP-620_发纹不锈钢_网点蚀刻操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套主门：所有层_小门套_发纹不锈钢副门：所有层_小门套_发纹不锈钢层（厅）门主门：1层_镜面不锈钢；其余各层_发纹不锈钢副门：所有层_发纹不锈钢耐火门BS476耐火门厅外召唤指示器主门：所有层_VIB-628_镜面不锈钢_FL-PW 副门：所有层_VIB-628_镜面不锈钢_FL-PW电梯编号L-23电梯型号LCA-1050-CO105(单开门)台数1载重量(kg)1050速度(m/min)105层/站/门7/7/7服务楼层B2,B1,1,2...,5基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz 控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2500×2000机房位置无机房井道总高(m)36.130提升高度(m)28.750顶层净高(mm)5380底坑净深(mm)2000轿内尺寸(宽×深)(mm)1600×1400轿厢天花DX-302G轿厢高度(mm)吊顶高度_2650轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿厢后壁喷涂钢板_YM47(哑香槟铝)轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)200，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)900×2100轿厢操纵箱GOP-620_发纹不锈钢_网点蚀刻操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套所有层_小门套_发纹不锈钢层（厅）门1层_镜面不锈钢；其余各层_发纹不锈钢耐火门BS476耐火门厅外召唤指示器所有层_VIB-628_镜面不锈钢_FL-PW电梯编号L-1电梯型号LCA-1050-CO105(单开门)台数1载重量(kg)1050速度(m/min)105层/站/门7/7/7服务楼层B2,B1,1,2...,5基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz 控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2500×2000机房位置无机房井道总高(m)36.130提升高度(m)28.750顶层净高(mm)5380底坑净深(mm)2000轿内尺寸(宽×深)(mm)1600×1400轿厢天花DX-302G轿厢高度(mm)吊顶高度_2650轿厢前壁喷涂钢板_YM47(哑香槟铝)门灯横梁喷涂钢板_YM47(哑香槟铝)轿厢侧壁喷涂钢板_YM47(哑香槟铝)轿厢后壁喷涂钢板_YM47(哑香槟铝)轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)200，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)900×2100轿厢操纵箱GOP-620_发纹不锈钢_网点蚀刻操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套所有层_小门套_发纹不锈钢层（厅）门1层_镜面不锈钢；其余各层_发纹不锈钢耐火门BS476耐火门厅外召唤指示器所有层_VIB-628_镜面不锈钢_FL-PW电梯编号L-24电梯型号LCA-1350-CO105(单开门)台数1载重量(kg)1350速度(m/min)105层/站/门9/9/9服务楼层B3,B2,B1,1,2...,6基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz控制方式单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)2600×2500机房位置无机房井道总高(m)48.500提升高度(m)41.050顶层净高(mm)5450底坑净深(mm)2000轿内尺寸(宽×深)(mm)1800×1700轿厢天花DX-302G轿厢高度(mm)吊顶高度_2620轿厢前壁发纹不锈钢门灯横梁发纹不锈钢轿厢侧壁发纹不锈钢轿厢后壁发纹不锈钢扶手后壁单排_AA-Y138圆形_镜面不锈钢挂镜安装位置后壁扶手位置以上轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)250，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)1100×2100轿厢操纵箱GOP-616(一体化操纵箱)操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱残疾人操纵箱GOP-610(残疾人操纵箱)_发纹不锈钢_FL-PW_置于轿厢右侧壁门套所有层_小门套_镜面不锈钢层（厅）门所有层_镜面不锈钢耐火门BS476耐火门厅外召唤指示器所有层_BL-56_镜面不锈钢_FL-PW_GL-BS_含钟_镜面不锈钢电梯编号L-25,L-26电梯型号LCA-1350-CO105(单开门)台数2载重量(kg)1350速度(m/min)105层/站/门L-25:7/7/7；L-26:9/9/9；服务楼层L-25:B1,1,2...,6；L-26:B3,B2,B1,1,2 (6)基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz控制方式L-25,L-26:并联制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)L-25:2600×2400；L-26:2700×2400；机房位置无机房井道总高(m)L-25:39.850；L-26:48.250；提升高度(m)L-25:32.650；L-26:41.050；顶层净高(mm)5200底坑净深(mm)2000轿内尺寸(宽×深)(mm)1800×1700轿厢天花DX-302G轿厢高度(mm)吊顶高度_2620轿厢前壁发纹不锈钢门灯横梁发纹不锈钢轿厢侧壁发纹不锈钢轿厢后壁发纹不锈钢轿门镜面不锈钢预留地板厚度(mm)15地板装饰负责用户负责预留装饰重量(kg)250，预留空调重量50kg已含于预留装饰重量中空调负责安装单位负责开门方向中分门开门尺寸(宽×高)(mm)1100×2100轿厢操纵箱GOP-616(一体化操纵箱)操纵箱按钮FL-PW轿厢位置指层器点阵数显_设置于操纵箱门套所有层_小门套_镜面不锈钢层（厅）门所有层_镜面不锈钢耐火门BS476耐火门厅外召唤指示器所有层_BL-56_镜面不锈钢_FL-PW_GL-BS_含钟_镜面不锈钢电梯编号L-24,L-25,L-26,L-27,L-28,L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-8,L-9,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8电梯型号L-24,L-25,L-26,L-27,L-28:LCA-1350-CO105(单开门)；L-1,L-23,L11,L10,L-12,L-13:LCA-1050-CO105(单开门)；L-3,L2,L4,L7,L-14,L-15,L-21,L-6,L-17,L-19,L-16,L-20,L-22,L-18,L-A8:LCA-1050-CO105(贯通门)；L-5:UAX-1000-CO105(单开门)；L-8,L-9:UAX-800-CO105(单开门)；台数29载重量(kg)L-24,L-25,L-26,L-27,L-28:1350；L-1,L-3,L-23,L2,L4,L11,L7,L10,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:1050；L-5:1000；L-8,L-9:800；速度(m/min)105层/站/门L-24,L-26:9/9/9；L-25,L-27,L-28,L-1,L-23,L11,L10,L-9,L-12,L-13:7/7/7；L-3,L2,L4,L7,L-15,L-21,L-6,L-17,L-19,L-16,L-20,L-22,L-18,L-A8:7/7/11；L-5:8/8/8；L-8:4/2/2；L-14:10/9/9；服务楼层L-24,L-26:B3,B2,B1,1,2...,6；L-25:B1,1,2...,6；L-27,L-28,L-1,L-23,L11,L10,L-9,L-12,L-13:B2,B1,1,2...,5；L-3,L4,L-15,L-21,L-A8:主门：1,2...,5；副门：B2,B1,2,3,4,5；L2,L7,L-6,L-17,L-19,L-16,L-20,L-18:主门：B2,B1,1,2...,5；副门：2,3,4,5；L-5:B2,B1,1,2...,6；L-8:1,4；L-14:主门：1；副门：B2,B1,2,3,...,6,8；L-22:主门：B1,1,2...,5；副门：B2,2,3,4,5；基站1驱动方式微机控制交流变频调压调速电源动力电源：380V/50Hz；照明电源：220V/50Hz控制方式L-24:单控；L-25,L-26:并联；L-27:单控；L-28:单控；L-1:单控；L-3:单控；L-23:单控；L2:单控；L4:单控；L11:单控；L7:单控；L10:单控；L-5:单控；L-8:单控；L-9:单控；L-14:单控；L-15:单控；L-21:单控；L-6:单控；L-17:单控；L-19:单控；L-12:单控；L-13:单控；L-16:单控；L-20:单控；L-22:单控；L-18:单控；L-A8:单控制作标准GB7588-2003《电梯制造与安装安全规范》井道尺寸(宽×深)(mm)L-24:2600×2500；L-25:2600×2400；L-26:2700×2400；L-27,L-28:2750×2400；L-1,L-23,L11,L10,L-12,L-13:2500×2000；L-3,L2,L4,L7,L-15,L-21,L-6,L-17,L-19,L-16,L-20,L-22,L-18,L-A8:2450×2100；L-5,L-14:2400×2000；L-8:1850×2100；L-9:2000×2200；机房位置无机房井道总高(m)L-24:48.500；L-25:39.850；L-26:48.250；L-27,L-28:39.400；L-1,L-3,L-23,L2,L4,L11,L7,L10,L-9,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:36.130；L-5:39.000；L-8:25.080；L-14:46.150；提升高度(m)L-24,L-26:41.050；L-25:32.650；L-27,L-28:32.200；L-1,L-3,L-23,L2,L4,L11,L7,L10,L-9,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:28.750；L-5:32.250；L-8:14.200；L-14:39.250；顶层净高(mm)L-24:5450；L-25,L-26,L-27,L-28:5200；L-1,L-3,L-23,L2,L4,L11,L7,L10,L-9,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:5380；L-5:4750；L-8:8880；L-14:4900；底坑净深(mm)2000轿内尺寸(宽×深)(mm)L-24,L-25,L-26:1800×1700；L-27,L-28:2000×1500；L-1,L-23,L11,L10,L-5,L-14,L-12,L-13:1600×1400；L-3,L2,L4,L7,L-15,L-21,L-6,L-17,L-19,L-16,L-20,L-22,L-18,L-A8:1600×1500；L-8:1400×1350；L-9:1300×1350；轿厢天花L-24,L-25,L-26,L-27,L-28,L-1,L-23,L11,L10,L-5,L-9,L-12,L-13:DX-302G；L-3,L2,L4,L7,L-8,L-14,L-15,L-21,L-6,L-17,L-19,L-16,L-20,L-22,L-18,L-A8:CS-101G；轿厢高度(mm)L-24,L-25,L-26:吊顶高度_2620；L-27,L-28:吊顶高度_2450；L-1,L-23,L11,L10,L-5,L-12,L-13:吊顶高度_2650；L-3,L2,L4,L7,L-14,L-15,L-21,L-6,L-17,L-19,L-16,L-20,L-22,L-18,L-A8:轿顶高度_2800；L-8:轿顶高度_2300；L-9:吊顶高度_2970；轿厢前壁L-24,L-25,L-26,L-27,L-28:发纹不锈钢；L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-8,L-9,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:喷涂钢板_YM47(哑香槟铝)；门灯横梁L-24,L-25,L-26,L-27,L-28:发纹不锈钢；L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-8,L-9,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:喷涂钢板_YM47(哑香槟铝)；轿厢侧壁L-24,L-25,L-26,L-27,L-28:发纹不锈钢；L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-8,L-9,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:喷涂钢板_YM47(哑香槟铝)；轿厢后壁L-24,L-25,L-26,L-27,L-28:发纹不锈钢；L-1,L-23,L11,L10,L-5,L-8,L-9,L-12,L-13:喷涂钢板_YM47(哑香槟铝)；扶手L-24:后壁单排_AA-Y138圆形_镜面不锈钢；挂镜安装位置L-24:后壁扶手位置以上；轿门L-24,L-25,L-26,L-27,L-28,L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-9,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:镜面不锈钢；L-8:喷涂钢板_YM47(哑香槟铝)；预留地板厚度(mm)L-24,L-25,L-26,L-27,L-28,L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-9,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:15；轿厢地面L-8:塑料地板胶_A-23；地板装饰负责L-24,L-25,L-26,L-27,L-28,L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-9,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:用户负责；预留装饰重量(kg)L-24,L-25,L-26,L-27,L-28:250；L-1,L-23,L11,L10,L-5,L-9,L-12,L-13:200；L-3,L2,L4,L7,L-14,L-15,L-21,L-6,L-17,L-19,L-16,L-20,L-22,L-18,L-A8:150；，预留空调重量L-24,L-25,L-26,L-27,L-28,L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-9,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:50；kg已含于预留装饰重量中空调负责L-24,L-25,L-26,L-27,L-28,L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-9,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:安装单位负责；开门方向中分门开门尺寸(宽×高)(mm)L-24,L-25,L-26,L-27,L-28:1100×2100；L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:900×2100；L-8,L-9:800×2100；轿厢操纵箱L-24,L-25,L-26,L-27,L-28:GOP-616(一体化操纵箱)；L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-9,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:GOP-620_发纹不锈钢_网点蚀刻；L-8:OPM-B_发纹不锈钢；操纵箱按钮L-24,L-25,L-26,L-27,L-28,L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-9,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:FL-PW；L-8:DL-PO；轿厢位置指层器L-24,L-25,L-26,L-27,L-28,L-1,L-3,L-23,L2,L4,L11,L7,L10,L-5,L-9,L-14,L-15,L-21,L-6,L-17,L-19,L-12,L-13,L-16,L-20,L-22,L-18,L-A8:点阵数显_设置于操纵箱；L-8:UA-BD_发纹不锈钢_设置于操纵壁；残疾人操纵箱L-24:GOP-610(残疾人操纵箱)_发纹不锈钢_FL-PW_置于轿厢右侧壁；门套L-24,L-25,L-26,L-27,L-28:所有层_小门套_镜面不锈钢；L-1,L-23,L11,L10,L-5,L-9,L-12,L-13:所有层_小门套_发纹不锈钢；L-3,L2,L4,L7,L-14,L-15,L-21,L-6,L-17,L-19,L-16,L-20,L-22,L-18,L-A8:主门：所有层_小门套_发纹不锈钢副门：所有层_小门套_发纹不锈钢；L-8:1层_小门套_发纹不锈钢；其余各层_小门套_喷涂钢板_WN01(象牙白)；层（厅）门L-24,L-25,L-26,L-27,L-28:所有层_镜面不锈钢；L-1,L-23,L11,L10,L-5,L-9,L-12,L-13:1层_镜面不锈钢；其余各层_发纹不锈钢；L-3,L2,L4,L7,L-15,L-21,L-6,L-17,L-19,L-16,L-20,L-22,L-18,L-A8:主门：1层_镜面不锈钢；其余各层_发纹不锈钢副门：所有层_发纹不锈钢；L-8:1层_发纹不锈钢；其余各层_喷涂钢板_WN01(象牙白)；L-14:主门：所有层_镜面不锈钢副门：所有层_发纹不锈钢；耐火门BS476耐火门厅外召唤指示器L-24,L-25,L-26,L-8,L-9:所有层_BL-56_镜面不锈钢_FL-PW_GL-BS_含钟_镜面不锈钢；L-27,L-28:所有层_BL-56_镜面不锈钢_FL-PW_HF-119_镜面不锈钢；L-1,L-23,L11,L10,L-5,L-12,L-13:所有层_VIB-628_镜面不锈钢_FL-PW；L-3,L2,L4,L7,L-14,L-15,L-21,L-6,L-17,L-19,L-16,L-20,L-22,L-18,L-A8:主门：所有层_VIB-628_镜面不锈钢_FL-PW副门：所有层_VIB-628_镜面不锈钢_FL-PW；。

TECHNICAL DATA SHEET 2-in/2-out Dante ™ Wall Plate Product DescriptionThe Bose ® ControlSpace ® WP22B-D Dante audio interface is a cost effective multi-I/O wall box. The WP22B-D features two balanced mic/line XLR inputs and two balanced XLR line outputs. The WP22B-D is designed to fit into most dual gang US junction boxes and is PoE en -abled, so all connectivity (power and data) is provided by a single CAT-5 cable. The size of the WP22B-D makes it easy to put Dante c onnectivity close to analog devices, helping to reduce costly and interference-prone analog wiring.Key Features• 2 balanced XLR mic/line inputs• 2 balanced XLR line outputs• 802.3af compliant PoE powered to work with any compliant PoE network switch• Three input gain settings for common line and microphone sources. Channel gain is individually adjustable via ControlSpace Designer ™ software • +48VDC Phantom power per channel • ID indicator allows easy identification of which unit is c ommunicating with ControlSpace Designer softwareTechnical Specifications A/D Converters 48 kHz, 24-bitSystem THD < 0.01 % at any gain, input signal 3 dB below maximum PoE Class Class 0 802.3af PoE PD compliant Certifications FCC Part 15 Class A, CE (EN 55022 Class A)Dimensions 2.75” H x 3.60” W x 1.88” D (70 mm x 91 mm x 48 mm)Operating Temperature 32 °F – 104 °F (0 °C – 40 °C)Applications Convenient, wall-mounted mic/line I/O drops for:• Hotel ballrooms • Conference/meeting centers • Conference rooms• Sports facilities• Convention centers • Religious and worship facilities • Retrofit applications using existing networking cablesTECHNICAL DATA SHEETConnector Panel IN 1 and IN 2 XLR inputs: Balanced mic/line inputs. Gains of 0dB, +25dB, and +40dB gain, selectable via software ID indicator: Blinks when the I dentify button is pressed inC ontrolSpace Designer ™ software. Allows easy identification of a spe -cific WP22BU-D OUT 1 and OUT 2 XLR outputs:Balanced line-level outputsDecora-style trim plate included Dante ™ Wall Plate Dante ™ / PoE network connector: 100 Mbps Dante RJ-45 Ethernet network connectionDante ™ is a trademark of Audinate Pty Ltd.ControlSpace Designer ™ software interface。

检测认证不同建筑材料不燃性试验的分级判定研究■ 区斯怀（通标标准技术服务有限公司顺德分公司）摘 要：建筑材料的燃烧性能直接关系到建筑物的防火安全。

中国、欧洲、英国和澳洲均有各自的燃烧性能分级准则。

其中不燃性试验作为评判建筑材料是否符合A级不燃材料为生产厂家和检测机构提供了试验方法。

各个国家都有各自的不燃性试验标准，本文通过对比不同国家和地区的不燃性试验标准和各自的燃烧性能分级准则，得出不同国家和地区对不燃性材料的要求是不一致的，这为生产商和经销商出口到各个国家和地区的建筑材料的不燃性要求提供依据。

关键词：不燃性，建筑材料，燃烧性能分级DOI编码：10.3969/j.issn.1002-5944.2022.22.030Study on Classifi cation and Determination of Non-combustibility Test ofDifferent Building MaterialsOU Si-huai（SGS-CSTC Standards Technical Services Co., Ltd. Shunde Branch）Abstract: The combustion performance of building materials is directly related to the fi re safety of buildings. China, Europe, Britain and Australia have their own combustion performance classifi cation standards. Among them, the non combustibility test provides a test method for manufacturers and testing institutions to judge whether building materials meet the requirements of class A non-combustibility materials. Each country has its own non-combustibility test standards. By comparing the non-combustibility test standards of different countries and their respective combustion performance classifi cation criteria, this paper concludes that the requirements for non-combustibility materials in different countries are inconsistent, which provides a basis for the non-combustibility requirements of building materials exported to various countries by manufacturers and dealers.Keywords: non-combustibility, building materials, fl ammability classifi cation1 引 言GB 8624-2012《建筑材料及制品燃烧性能分级》于2013年10月1日实施，燃烧性能分级为A、B1、B2、B3，同时建立了与欧盟标准（EN 13501-1:2018《建筑材料及制品燃烧性能分级 第1部分：依据燃烧性能进行分级》）分级A1、A2、B、C、D、E、F的对应关系，与我国当前工程建设实际相匹配。

热轧卷板常识与国内外牌号对照热轧卷板是以板坯（主要为连铸坯）为原料，经加热后由粗轧机组及精轧机组制成带钢。

从精轧最后一架轧机出来的热钢带通过层流冷却至设定温度，由卷取机卷成钢带卷，冷却后的钢带卷，根据用户的不同需求，经过不同的精整作业线（平整、矫直、横切或纵切、检验、称重、包装及标志等）加工而成为钢板、平整卷及纵切钢带产品。

由于热连轧钢板产品具有强度高，韧性好，易于加工成型及良好的可焊接性等优良性能，因而北广泛应用于船舶、汽车、桥梁、建筑、机械、压力容器等制造行业。

随着热轧尺寸精度、板形、表面质量等控制新技术的日益成熟以及新产品的不断问世，热连轧钢板、带产品得到了越来越广泛的应用并在市场上具有越来越强的竞争力。

产品分类：热连轧钢板产品包括钢带（卷）及有其剪切而成的钢板。

而钢带（卷）可以分为直发卷及精整卷（分卷、平整卷及纵切卷）。

主要产品：热连轧按其材质、性能的不同可分为：普通碳素结构钢、低合金钢、合金钢。

按其用途的不同可分为：冷成型用钢、结构钢、汽车结构钢、耐腐蚀结构用钢、机械结构用钢、焊接气瓶及压力容器用钢、管线用钢等。

一般说明：热连轧钢板产品，钢种规格品种繁多，用途广泛，从一般的工程结构至汽车、桥梁、船舶、锅炉压力容器等制造，都得到大量使用。

各种不同用途，对钢板的材质性能、表面质量及尺寸、外形精度等要求也各不相同，因此，必须对热轧钢板产品的品种、材质、特性及其用途有所了解，才能做到经济、合理利用。

热轧系列产品介绍：热轧产品规格性能：一、各类钢板、卷重1、珠钢卷：;15T左右2、鞍钢：1700机组Q195（1250）17T左右（1050）12T左右Q235（1250）20T左右（1050）12T左右1780机组25T左右出帮平板 3.0以下4T左右3、4、5、6 5-9T3、梅钢：1000-1050 13T左右1150-1250 17T左右4、太钢：15-17T5、本钢：1000-1250 16-18T1500 24-25T6、邯钢：1250 14-15T1500 13-14T，20-22T，29-30T三种7、包钢：14-15T8、宝钢：9000-1000 17-19T1050-1250 25T左右1350-1500 30-34T出厂平板 3.0以下2-5T3、4、5、6 8T左右9、俄罗斯：SPHC 18T左右（切钢）SAE1006 左右（切钢）08YU 左右（玛钢）SPHC 左右（新钢）乌克兰08KP 8T左右日本15T左右二、各钢厂材质（常用）：珠钢：ZJ330B ZJ400A ZJ400B ZJ400A鞍钢：1700机组Q195 Q235B1780机组SPHC SS400太钢：Q195 Q215 Q235A邯钢：SS400 SPHC SS330 SS490 SPHD本刚：SS400 Q235A SPHC Q195梅钢：SS400 Q235A SPHC Q195 Q215包钢：Q235A Q235B宝刚：SPHC SS400 SPHT2 STW22 SPHDSS490 SPHE乌克兰：08KP俄罗斯：08YU SAE1006 SPHC SS400日本：SPHC三、性能比较：SPHC，Q195，SAE1006，08YU，含碳量均为6个左右属于冷成型用钢，适用于制造冷型加工的零件。

世界主要国家的阻燃标准及规定国名电气、电子设备领域建筑领域汽车、火车、飞机、船舶美国UL-746高分子材料UL-1270音响设备UL-1410电视机UL-94塑料燃烧试验UL-114办公设备ASTM E84-84建筑材料的燃烧性能ASTM E119建筑材料的燃烧试验方法ASTM D2843塑料分解燃烧的烟生成量FMVSS汽车内装饰材料FAR(Part25)飞机内装饰材料SOLAS(1974)船舶防火结构ASTM D3676ASTM E-162NFPA 258加拿大CSA C22,2加拿大电气规范(第二部分)主要零件采用UL标准NBC(加拿大国家建筑法规)UL C-CAN4S-101-M82建筑材料的耐火试验UL C-S102-M83表面燃烧试验SOLAS(1974)船舶用材料德国VDE 0304(第三部分：硅碳棒试验)VDE 0304(第一部分)：本生灯法VDE 0470加热铁芯法VDE 0471第二部分：炽热电阻丝法等材料的燃烧试验标准DIN 4102大型建筑物及部件的耐火性DIN18230工厂建筑物的耐火结构(原东德标准：TGL10685/11建筑材料的燃烧性能和TGL10685/11建筑材料的耐火性能)建筑材料必须取得BTI(建筑技术研究所认可)DIN53438(第三部分)：车辆的塑料车身德国商业同业公会规范25-00201飞机内装材料SCH SV part船舶用材料DIN 5510车辆的耐火性FAR part 23、FAR part 25：飞机用材料英国BS-738用火焰点火的燃烧试验及着火温度试验IEC公告707 BS 476(第4部分)：不燃材料试验BS 476(第7部分)：表面燃烧试验BS 476(第11部分)：发热量试验BS 2782塑料试验方法BS 6853 I-2类：车辆的耐火性能SOLAS II-20章船舶材料法国NFC 32-070电线电缆的阻燃耐火性能UTEC 20-452、UTEC 20-453、UTEC 20-454、(低发烟、低有害气体试验)AFNOR(1985)建筑材料标准NEP 92-505材料燃烧试验GTM 001B NFP92503，507铁路车辆用材料NFP92-05汽车用材料意大利UN 18456 (CSERF1/75/A) UN 18457 (CSERF1/75/A) UN 19174(CSERF3/77) UN 19175 (CSERF4/83) 建筑材料日本UL94燃烧试验JISA1321建设省告示1231号JISA9511JIS D 1201汽车内装材料FMVSS302汽车内装材料运输省铁道81号之2铁道车辆用材料澳大利亚(1)AS 2420(炽热电阻丝试验、表面漏电痕迹试验)(2)电线电缆遵照IEC332，331正在研究与DS6977大致相同的内容正在研究引进发烟性能的标准按照AS 标准AS1530.1材料燃烧性能 AS1530.2材料燃烧性能 AS1530.3材料燃烧试验AS K156发泡聚苯乙烯标准韩国UL94、UL1410、UL1270、UL746D 均与日本标准一样，都是仿效UL 标准朝鲜阻燃协会标准的第112条、38条、40条。

BRITISH STANDARD BS EN754-3:2008Aluminium andaluminium alloys —Cold drawn rod/barand tube —Part 3: Round bars, tolerances ondimensions and formICS 77.150.1012 &23<,1* :,7+287 %6, 3(50,66,21 (;&(37 $6 3(50,77(' %< &23<5,*+7 /$:BS EN 754-3:2008This British Standard was published under the authority of the Standards Policy and Strategy Committeeon 30 April 2008© BSI 2008ISBN 978 0 580 55596 1National forewordThis British Standard is the UK implementation of EN 754-3:2008. It supersedes BS EN 754-3:1996 which is withdrawn.The UK participation in its preparation was entrusted to Technical Committee NFE/35, Light metals and their alloys.A list of organizations represented on this committee can be obtained on request to its secretary.This publication does not purport to include all the necessary provisions of a contract. Users are responsible for its correct application.Compliance with a British Standard cannot confer immunity from legal obligations.Amendments/corrigenda issued since publicationDate CommentsEUROPEAN STANDARD NORME EUROPÉENNE EUROPÄISCHE NORM EN 754-3 March 2008ICS 77.150.10Supersedes EN 754-3:1995English VersionAluminium and aluminium alloys - Cold drawn rod/bar and tube -Part 3: Round bars, tolerances on dimensions and formAluminium et alliages d'aluminium - Barres et tubes étirés -Partie 3: Barres rondes, tolérances sur dimensions etforme Aluminium und Aluminiumlegierungen - Gezogene Stangen und Rohre - Teil 3: Rundstangen, Grenzabmaße undFormtoleranzenThis European Standard was approved by CEN on 10 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 STANDARDIZATIONC O M I TÉE U R O PÉE NDE N O R M A LI S A T I O NEUR OPÄIS C HES KOM ITEE FÜR NOR M UNGManagement Centre: rue de Stassart, 36 B-1050 Brussels© 2008 CEN All rights of exploitation in any form and by any means reservedworldwide for CEN national Members.Ref. No. EN 754-3:2008: EEN 754-3:2008 (E)2Contents PageForeword..............................................................................................................................................................3 1 Scope......................................................................................................................................................4 2 Tolerances on dimensions ...................................................................................................................4 2.1 Diameter..................................................................................................................................................4 2.2 Length.....................................................................................................................................................4 2.3 Squareness of cut ends........................................................................................................................5 3 Tolerances on form................................................................................................................................5 3.1 Ovality.....................................................................................................................................................5 3.2 Straightness...........................................................................................................................................5 Bibliography.. (7)BS EN 754-3:2008EN 754-3:2008 (E)3ForewordThis document (EN 754-3:2008) has been prepared by Technical Committee CEN/TC 132 “Aluminium and aluminium alloys”, the secretariat of which is held by AFNOR.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. This document supersedes EN 754-3:1995.Within its programme of work, Technical committee CEN/TC 132 entrusted CEN/TC 132/WG 5 "Extruded and drawn products " to revise EN 754-3:1995.The following technical modifications have been introduced during the revision: Only editorial changes to bring this part in line with the other parts of EN 754EN 754 comprises the following parts under the general title "Aluminium and aluminium alloys — Cold drawn rod/bar and tube ":Part 1: Technical conditions for inspection and delivery Part 2: Mechanical propertiesPart 3: Round bars, tolerances on dimensions and form Part 4: Square bars, tolerances on dimensions and form Part 5: Rectangular bars, tolerances on dimensions and form Part 6: Hexagonal bars, tolerances on dimensions and form Part 7: Seamless tubes, tolerances on dimensions and form Part 8: Porthole tubes, tolerances on dimensions and formAttention 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. CEN/TC 132 affirms it is its policy that in the case when a patentee refuses to grant licenses on standardized standards products under reasonable and not discriminatory conditions then this product shall be removed from the corresponding standard.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.BS EN 754-3:2008EN 754-3:2008 (E)41 ScopeThis document specifies the tolerances on dimensions and form for aluminium and aluminium alloy cold drawn round bars having diameters in the range from 3 mm up to and including 100 mm. The temper designations used in this part are according to EN 515.2 Tolerances on dimensions2.1 DiameterThe tolerances on diameter are specified in Table 1.Table 1 — Diameter tolerancesDimensions in millimetresDiameter DOver Up to and includingTolerances≥ 3608,00− 6 10 09,00− 10 18 11,00− 18 30 13,00− 30 50 16,00− 50 65 19,00− 65 80 30,00− 80 10035,00−2.2 LengthIf fixed lengths are to be supplied, this shall be stated in the order document. The fixed length tolerances are specified in Table 2.BS EN 754-3:2008EN 754-3:2008 (E)5Table 2 — Fixed length tolerancesDimensions in millimetresDiameter DTolerances on fixed lengthFromUp to and includingL ≤ 2 0002 000 < L ≤ 5 000L > 5 0003 1005+ 07+ 010+If no fixed or minimum length is specified in the order, round drawn bars may be delivered in random lengths. The actual lengths and tolerances on random lengths shall be agreed between supplier and purchaser.2.3 Squareness of cut endsThe squareness of cut ends shall be within half of the fixed length tolerance range (Table 2) for both fixed and random lengths, (e.g. for a fixed length tolerance of 100 + mm the squareness of cut ends shall be within 5 mm).3 Tolerances on form3.1 OvalityOvality is the difference between the maximum and minimum diameters measured in one cross-section. The maximum permissible ovality is 50 % of the tolerance range specified in Table 1, (e.g. for a diameter tolerance of0,08− mm the maximum permissible ovality is 0,04 mm).3.2 StraightnessDeviations from straightness, h s and h t , shall be measured as shown in Figure 1 with the round bar placed on a horizontal base plate so that its mass decreases the deviation.The straightness tolerances are specified in Table 3. (The straightness tolerance h t applies to the whole length, e.g. for a length of 6 m the maximum deviation from straightness h t is the value given in the table multiplied by 6 m).For round bars with diameter less than 10 mm, the straightness tolerances shall be agreed upon between supplier and purchaser.The straightness tolerances apply to round bars with a diameter greater than 10 mm in all tempers except O and Tx51. If a straightness tolerance is required for either O or Tx51 temper, it shall be agreed between supplier and purchaser.BS EN 754-3:2008EN 754-3:2008 (E)6Key1 base plate2 straight edgeFigure 1 — Measurement of deviation from straightnessTable 3 — Straightness tolerancesDimensions in millimetresDiameter D FromUp to andincludingMaximum deviation from straightness per metre lengthh t /length mm/mMaximum localizedkink in any 300 mm portionH s10 10020,6BS EN 754-3:2008EN 754-3:2008 (E)7Bibliography[1] EN 515, Aluminium and aluminium alloys — Wrought products — Temper designationsBS EN 754-3:2008BS EN754-3:2008BSI389 Chiswick High Road LondonW4 4AL BSI — British Standards InstitutionBSI is the independent national body responsible for preparingBritish Standards. It presents the UK view on standards in Europe and at the international level. It is incorporated by Royal Charter.RevisionsBritish Standards are updated by amendment or revision. 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