3SK317ZR-TL-E中文资料

Eaton 265330Eaton Moeller® series PKZM0 Motor-protective circuit-breaker, 3p, Ir=0.1-0.16A, thumb grip lockableGeneral specificationsEaton Moeller® series PKZM0 Motor-protective circuit-breaker265330PKZM0-0,16/AK401508265330976 mm 93 mm 45 mm 0.25 kgCSA-C22.2 No. 60947-4-1-14 CSA Class No.: 3211-05 UL 60947-4-1 CSAIEC/EN 60947 IEC/EN 60947-4-1 ULCSA File No.: 165628UL Category Control No.: NLRV CEUL File No.: E36332 VDE 0660Product NameCatalog Number Model Code EANProduct Length/Depth Product Height Product Width Product Weight CertificationsTurn buttonPhase-failure sensitivity (according to IEC/EN 60947-4-1, VDE 0660 Part 102)Motor protectionPhase failure sensitiveThree-pole ATEX dust-ex-protection, PTB 10, ATEX 3013, Ex II(2) GD100,000 operations (at 400V, AC-3)100,000 Operations (Main conducting paths)Can be snapped on to IEC/EN 60715 top-hat rail with 7.5 or15 mm height.40 Operations/hIII3Motor protective circuit breakerFinger and back-of-hand proof, Protection against direct contact when actuated from front (EN 50274)6000 V AC25 g, Mechanical, according to IEC/EN 60068-2-27, Half-sinusoidal shock 10 msAlso motors with efficiency class IE3Branch circuit: Manual type E if used with terminal, or suitable for group installations, (UL/CSA)-25 - 55 °C, Operating range≤ 0.25 %/K, residual error for T > 40°-5 - 40 °C to IEC/EN 60947, VDE 0660Actuator type Features Functions Number of poles Explosion safety category for dust Lifespan, electricalLifespan, mechanicalMounting positionOperating frequencyOvervoltage categoryPollution degreeProduct categoryProtectionRated impulse withstand voltage (Uimp) Shock resistanceSuitable forTemperature compensationAltitude Terminal capacity (flexible with ferrule)Max. 2000 m-25 °C55 °C25 °C40 °C40 °C80 °CDamp heat, cyclic, to IEC 60068-2-30 Damp heat, constant, to IEC 60068-2-781 x (1 - 6) mm², ferrule to DIN 462282 x (1 - 6) mm², ferrule to DIN 462281 x (1 - 6) mm²2 x (1 - 6) mm²18 - 1010 mm1 Nm, Screw terminals, Control circuit cables 1.7 Nm, Screw terminals, Main cable50 Hz60 Hz0.16 A0 kW0 kW690 V690 V0.16 A60 kA DC, up to 250 V DC, Main conducting paths50 kA, 600 V High Fault, Fuse, SCCR (UL/CSA)600 A, 600 V High Fault, max. Fuse, SCCR (UL/CSA) Screw terminalsAmbient operating temperature - minAmbient operating temperature - maxAmbient operating temperature (enclosed) - min Ambient operating temperature (enclosed) - max Ambient storage temperature - minAmbient storage temperature - maxClimatic proofing Terminal capacity (solid)Terminal capacity (solid/stranded AWG)Stripping length (main cable)Tightening torqueRated frequency - minRated frequency - maxRated operational current (Ie)Rated operational power at AC-3, 220/230 V, 50 Hz Rated operational power at AC-3, 380/400 V, 50 Hz Rated operational voltage (Ue) - minRated operational voltage (Ue) - maxRated uninterrupted current (Iu)Short-circuit currentShort-circuit current rating (group protection)Connection50 kA, 600 V High Fault, CB, SCCR (UL/CSA)600 A, 600 V High Fault, max. CB, SCCR (UL/CSA)Accessories required BK25/3-PKZ0-E65 kA, 240 V, SCCR (UL/CSA)65 kA, 480 Y/277 V, SCCR (UL/CSA)50 kA, 600 Y/347 V, SCCR (UL/CSA)Basic device fixed 15.5 x Iu, Trip Blocks2.5 A, Irm, Setting range max.± 20% tolerance, Trip blocks 0.1 A0.16 AOverload trigger: tripping class 10 A5.39 W0 W1.8 W0.16 A0 WMeets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Short-circuit current rating (type E) Short-circuit release Overload release current setting - minOverload release current setting - maxTripping characteristicEquipment heat dissipation, current-dependent PvidHeat dissipation capacity PdissHeat dissipation per pole, current-dependent PvidRated operational current for specified heat dissipation (In) Static heat dissipation, non-current-dependent Pvs10.2.2 Corrosion resistance10.2.3.1 Verification of thermal stability of enclosures10.2.3.2 Verification of resistance of insulating materials to normal heat10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effects10.2.4 Resistance to ultra-violet (UV) radiation10.2.5 Lifting10.2.6 Mechanical impact10.2.7 InscriptionsDoes not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.The panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Is the panel builder's responsibility. The specifications for the switchgear must be observed.Is the panel builder's responsibility. The specifications for the switchgear must be observed.The device meets the requirements, provided the information in the instruction leaflet (IL) is observed.Motor Starters in System xStart - brochureSave time and space thanks to the new link module PKZM0-XDM32MESwitching and protecting motors - catalogProduct Range Catalog Switching and protecting motorseaton-manual-motor-starters-characteristic-characteristic-curve.eps eaton-manual-motor-starters-characteristic-characteristic-curve-009.eps eaton-manual-motor-starters-characteristic-characteristic-curve-008.epsDA-DC-00004892.pdfDA-DC-00004921.pdfeaton-manual-motor-starters-pkz-dimensions-002.epseaton-manual-motor-starters-pkz-dimensions.epseaton-manual-motor-starters-mounting-3d-drawing-002.epseaton-general-ie-ready-dilm-contactor-standards.epseaton-manual-motor-starters-pkzm0-3d-drawing-008.epseaton-manual-motor-starters-pkzm0-3d-drawing.epsDA-CE-ETN.PKZM0-0,16_AKIL03402034ZIL03407010ZWIN-WIN with push-in technologyIL122023ZUeaton-motor-protective-circuit-breaker-pkzm0-overload-monitoring-exe-manual-mn03402003z-de-de-en-us.pdfDA-CD-pkzm0_ak_neu_aDA-CS-pkzm0_ak_neu_aeaton-manual-motor-starters-transformer-pkzm0-wiring-diagram.eps10.3 Degree of protection of assemblies10.4 Clearances and creepage distances10.5 Protection against electric shock10.6 Incorporation of switching devices and components 10.7 Internal electrical circuits and connections10.8 Connections for external conductors10.9.2 Power-frequency electric strength10.9.3 Impulse withstand voltage10.9.4 Testing of enclosures made of insulating material 10.10 Temperature rise10.11 Short-circuit rating10.12 Electromagnetic compatibility10.13 Mechanical function BrochuresCatalogues Characteristic curve Declarations of conformity DrawingseCAD modelInstallation instructions Installation videos Manuals and user guides mCAD modelWiring diagramsEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia。

技术手册第九代Site Master™S331L手持式智能电缆和天线分析仪具有经典模式和高级模式2 MHz 到 4 GHz 电缆和天线分析仪50 MHz 到 4 GHz 功率计“Site Master 是站点制造商、安装者和维护者和无线服务提供商最值得信赖、最可靠和最值得推荐的电缆和天线分析仪”介绍安立公司非常荣幸的发布其第九代的高性能手持式智能电缆和天线分析仪Site Master™ S331L 。

S331L 全新的设计，是我们综合了我们多年的经验、用户的反馈、现场使用和最新的技术，研发出的最优性价比、专为现场使用、高可靠性、可信赖、结实并易用的智能电缆和天线分析仪。

S331L Site Master 手持电缆和天线分析仪与笔记本连接专为现场应用优化易于使用高效的扫描管理→大于8小时电池工作时间→待机模式和测试模式的快速切换→最高的射频抗干扰能力→内置InstaCal ™自动校准件模块- 快速，一次连接校准→FlexCal ™ 灵活校准模式- 一次校准覆盖所有频率→内置功率计→坚固并可靠→防冲击、灰尘和液体溅落设计→最小、最轻的Site Master ™→集成帮助功能→S331D-类似 经典模式→S331E-类似 高级模式 - 自定义快捷方式 - 增加标记数量 - 全屏显示→多个USB端口→800 x 480 7” TFT 触摸屏 - 大屏幕键盘 - 2个自定义字母数字键盘 - 36个使用字段组合快速命名键→背光键盘→内部存储 >1000 文件 - 存储扫描结果、设置、屏幕截图→快速预览存储的扫描曲线→电缆扫描工具(LST) 软件 - 编辑扫描, 重命名, 归档 - 生成 PDF 或 HTML 报告→标准的*.dat 扫描文件格式→兼容HHST软件 - 被操作人员广泛接受→SweepMasters DIRECT - 提供在线的测试结果传输服务电缆和天线分析仪特点结实，防尘和防滴溅，高可靠性，轻便和小巧Site Master S331L是一款结实、防尘和防水溅、高可靠性、经现场充分验证、并可随时工作的仪表。

版本号V6.0Yk三相/单相电力仪表产品使用说明书(适用于单/三相电压表、电流表、单相功率表、功率因数表、频率表、单相组合表)上海亚度电子科技有限公司目录1、概述 (1)2、技术参数 (1)3、安装与接线 (2)3.1仪表尺寸 (2)3.2安装方法 (2)3.3接线端子功能说明 (3)3.4接线注意事项 (7)4、编程操作说明 (7)4.1面板显示信息说明 (7)4.2编程操作 (9)4.3典型操作范例 (12)5、功能模块 (16)5.1开关量输入/输出‥ (16)5.2模拟量变送输出 (18)6、数字通讯 (20)6.1硬件连接 (20)6.2通讯协议 (21)6.3寄存器地址信息表 (24)7、常见问题及解决办法‥ (25)1、概 述单/三相数显仪表是一种具有可编程测量、显示、数字通讯功能的电测仪表，采用交流采样技术，可直接或间接测量单/三相电网中的电流或电压，可广泛应用变电站自动化，配电自动化、智能建筑、企业内部的电量测量、管理、考核。

2、技术参数项目参数额定值 AC400V过负荷持续：1.2倍 瞬时：2倍 功耗<1V A(每相) 阻抗 >500k电压 精度 RMS 测量，精度等级0.5级 (可定做0.2级） 额定值 AC5A过负荷持续：1.2倍 瞬时：2倍 功耗<0.4V A(每相) 阻抗 >2m Ω电流 精度 RMS 测量，精度等级0.5级 (可定做0.2级） 频率范围 45-65Hz输 入 测 量 显 示显示 可编程、切换、四位LED 或LCD 显示工作范围 标配AC220V±10%，可选配DC24V 48V AC380V AC/DC 80-265V;电源功耗 ≤5V A数字接口 RS-485接口、MODUS-RTU 协议（选配） 开关量输入 2路或4路开关量输入、干接点方式（选配）开关量输出 2路或3路，继电器触点输出，AC3A/250V DC3A/30V（选配）输出模拟量输出 1路或3路模拟量输出、4-20mA/0-20mA （选配） 工作环境 -10-55℃ 环境 储存环境 -20-75℃耐压 输入/电源>2kV ，输入/输出>2kV ，电源输出>1kV 安全绝缘输入、输出、电源对外壳>50M Ω3、安装与接线3.1仪表尺寸外形尺寸mm （LxH） 壳体尺寸mm（AxB）开孔尺寸mm(SxY)总长mm(N)深度mm(M)120x120 110x110 111x111 95 84 96x96 90x90 91x91 95 84 80x80 75x75 76x76 95 84 72x72 66x66 67x67 95 84 48x48 44x44 45x45 95 843.2安装方法：3.3接线端子功能说明3.3.1端子功能编号单/三相仪表端子功能编号表：端子号端子功能端子功能说明端子号 端子功能端子功能说明1L辅助电源相线端24 DI1第一路开入接入端2N辅助电源零线端25 DI2第二路开入接入端26 DI3第三路开入接入端3IA*/I*A相电流进线端/单相电流进线端 27 DI4第四路开入接入端28 DGND 开入公共端，负端4IA/I A相电流出线端/单相电流出线端295IB*B相电流进线端30DO1 第一路开出端6IB B相电流出线端317IC*C相电流进线端32DO2 第二路开出端8IC C相电流出线端3334 DO3 第三路开出端9UA/UL A相电压接入端/单相电压相线端37 AO1 第一路模拟量输出端11UB B相电压接入端39 AO2 第二路模拟量输出端13UC C相电压接入端41 AO3 第三路模拟量输出端15UN零线接入端45 AGND 模拟量输出公共负端21A485通讯A+端22B485通讯B-端3.3.2信号输入接线方式3.3.3接线端子背视图(供参考，以实物为准)注：以上为所有附加功能俱全时的接线图，如果用户使用过程中发现某些功能少了，表示所选的产品不支持该功能。

k3类电缆参数
K3类电缆参数指的是一种电缆的特定参数。

具体的参数可能
会因不同的电缆制造商和应用而有所差异，下面是一些常见的
K3类电缆参数：
1. 电压等级：K3类电缆通常适用于低压（LV）和中压（MV）电力系统，其电压等级通常在1 kV至36 kV之间。

2. 绝缘材料：K3类电缆的绝缘材料通常是交联聚乙烯（XLPE）或橡胶。

这些材料具有良好的绝缘性能，可以有效地防止电气故障和漏电。

3. 直径和截面积：K3类电缆的直径和截面积可以根据具体的
应用需求而有所不同。

常见的直径范围通常在10 mm至150 mm之间，截面积范围通常在1 mm²至1000 mm²之间。

4. 温度等级：K3类电缆通常具有良好的耐高温性能，可以在
较高的环境温度下正常运行。

常见的温度等级通常在70℃至105℃之间。

5. 电线数量：K3类电缆中包含的电线数量可以根据具体的应
用需求而有所不同。

通常有单芯电缆和多芯电缆两种类型可供选择。

需要注意的是，以上参数仅供参考，实际的K3类电缆参数可
能会有所不同。

在选择和使用电缆时，应根据具体的应用需求
和电气系统要求来确定合适的参数。

建议咨询专业的电缆制造商或工程师以获得准确的参数信息。

放大器内置型光电开关 （小型）E3Z实现小型、长距离、节省电力和节省能源的光电传感器的标准型■检测距离/对射型15m 、回归反射型4m 、扩散反射型1m 。

■独特的防止外部乱光计算方法，变频荧光灯下也能工作。

■最大限度降低电力消耗和含铅材质的使用。

■IP67保护构造，防止相互干扰功能， EN 规格标准。

防油型 为IP67f 。

■光轴与机械轴的偏差控制在±2.5°\u20197X 内，光轴对合更容 易。

种类相关信息 技术指南 （技术篇） (1290)技术指南 （操作篇） (1400)E3Z 注. 防油型号的回归反射型与标准的回归反射型检测距离不同。

＊1. 不附带反射板，根据不同用途，有7种反射板可供选择购买。

＊2. 检测距离是使用E39-R1S 时距离。

另外传感器与反射板间的距离请设定在 ［］内的数值以上的范围。

＊3. 上表中标有＊3的产品表示有导线0.5m 也是标准品，请在型号末尾标明导线长度。

（例：E3Z-T61 0.5M ） ＊4. 上表中标有＊4的产品表示有接插件中继型 （M12）型号末尾带有-M1J 。

（例：E3Z-T61-M1J ） ＊5. 上表中标有＊5的产品表示e-CON 接插件中继型。

（导线长度0.3m/0.5m/2m ）。

型号末尾带有-ECON 。

例如E3Z-□6□-ECON 。

详细情况请参照1381页。

连接接插件有单面e-CON 接插件 E39-ECON □ （导线长度2m/5m ）和两端e-CON 接插件 E39 -ECONW □ （导线长度0.5～2m 0.1m 单位） 2种。

e-CON 是FA 设备、连接器制作商的标准化规格。

＊6. 备有夹紧式e-CON 接插件中继型 （导线长度2m ） 。

型号末尾带有-ECON-C （例：E3Z-T61-ECON-C 2M ） 。

接插件有单侧e-CON 接插件型 E39-ECON □M （导线长度2m/5m ） 和两端e-CON 接插件型 E39-ECONW □ （导线长度0.5～2m 0.1m 为单位）。

NGLISHContents1.0General information on documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 1.1Explanation of the symbols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32.0General safety advice . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 2.1General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 2.2Intended Use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 2.3Transport, handling and storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 2.4Operating information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 2.5Maintenance and repair . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 2.6Safety technology conditions for clamping devices . . . . . . . . . . . . . . . . . . . . . . . . . . .63.0Set up and function . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 3.1Clamping device components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 3.2Function . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .74.0Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 4.1Fixing the top jaws . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .85.0Commissioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 5.1Clamping force . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 5.2Commissioning after longer breaks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .96.0Maintenance and repair . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 6.1Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 6.1.1Balancing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 6.1.2Disassembling the clamping device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .117.0Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .128.0Spare parts and service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 8.1Customer service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .139.0Manufacturer’s Declaration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1410.0Appendix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15QLC-KTEdition 03 / 2009 CONTENTS1.0 General information on documentationThis user manual contains the essential information for the proper use of the clamping device. It is addressed to technically qualified people.Qualified people are:•those who have received instruction on using the clamping device.•those who have received training on setting up and repairing clamping devices,and work as repair and servicing staff.F or the operation, maintenance and repair of the clamping device it isessential that the information in this manual is read and understood.We reserve the right to make technical changes to the descriptions and statements in this instruction manual that are essential to improve the clamping device.The manual may not be copied, disseminated or used for competitive purposes in full or in part.The copyright for this manual belongs to FORKARDT DEUTSCHLAND GMBH.1.1 Explanation of the symbolsSafety advice to prevent danger to life or reduce damage to property is shown in this manual by the symbols and pictograms indicated here.indicates potential risk. Death, severe physical injury or substantial dama-ge to property may occur if the precautions are not undertaken or thesafety advice not adhered to.indicates important information on avoiding damage to property or undes-irable operating states.indicates information on handling or additional information. QLC-KT Edition 03 / 2009GENERAL INFORMATION ONDOCUMENTATION☞☞2.0 General safety advice 2.1 General Clamping devices may produce risks if the use and handling do not meet the require-ments for safety technology. The clamping device is produced to the current state of the technology and is safe to operate. Even so this clamping device may produce risks if it is used improperly by unqualified people. The following information is to be used for personal safety and to prevent damage to the product described or the connected devices. Read this manual before working with the clamping device and observe all safety information. Not adhering to the instructions contained in this manual may result in danger to life, severe personal injury or substantial damage to property. •Only qualified people may work with the clamping device.•It is not permitted to change or alter the clamping device yourself.•Only use the clamping device when it is in perfect condition. •Before working on the clamping device, switch the machine off and ensure it can not be switched on again.•Only use original manufacturer components and spare parts. The warranty lapses if parts from other manufacturers are used.•Before starting to use the clamping device check whether all protective devices have been attached.•The "lathe – clamping device – work piece" system is primarily influenced by the work piece being produced, which may result in a remaining risk. The operator must assess the remaining risk. The manufacturer is not liable for damage arising from not adhering to the manual.2.2 Intended Use The clamping device may only be used to clamp workpieces on machine tools. When doing so the maximum axial force, clamping force and revolutions of the clamping device may not be exceeded. The required clamping force must be determined for the application in line with the applicable technical rules (e.g. VDI 3106). If in doubt or if accessories are used that were not provided by the manufacturer, the manufacturer must approve or restate the thresholds. The following must be considered: •Variable adhesion coefficients between work piece and top jaw •Relationship between clamping diameter and working diameter •Size of cutting force on the cutting tool •Top jaws overhang from the clamping location QLC-KT Edition 03 / 2009GENERAL SAFETY ADVICE•Reduction in clamping force via the centrifugal force for external clamping •The maximum revs stated only apply to hard standard top jaws•F or special top jaws that are to be used for this chuck the maximum revs are engraved on the jawsProper use includes adhering to the manufacturer's prescribed assembly, set-up, ope-ration and maintenance terms. All other uses are considered to be unauthorised.The manufacturer is not liable for damage thus caused.2.3 Transport, handling and storageNotify the forwarder if there is transport damage. Notify the manufacturer in writing without delay if parts are missing. If the clamping device is not assembled immediate-ly after delivery it must be stored in a protected location. Cover the parts properly and protect from dust and moisture.In order to protect all the blank parts, the clamping device and pressure oil cylinder,and all accessories are covered with a protective substance on delivery.2.4 Operating informationAs per the regulations of the trade association, revolving clamping devices must be secured from touching using appropriate covers or protective doors.If faults occur on the clamping device during operation, the machine mustbe switched off immediately and only restarted when the fault has beenresolved.After switching off the clamping power the work piece may release itself from the clamping device.The local safety regulations and accident prevention rules of the appropriate trade association apply to operating the clamping device.2.5Maintenance and repairF or maintenance and monitoring work ensure the clamping device is without pressure.At the high revs that are common on lathes, the clamping device is exposed to high loads. It can be damaged during collisions between the tool and clamping device thatmay occur occasionally, e.g. if the program process has faults damage may occur. QLC-KTEdition 03 / 2009GENERAL SAFETY ADVICEAfter a collision switch off the lathe immediately and check the clamping device for damage. In addition to easily recognised damage, hidden damage may also occur, e.g. hairline fractures in the chuck body or the base jaws. Remove the clamping device immediately from the machine spindle.Analyse the affected parts of the clamping device with an appropriate, non-destructi-ve testing procedure to ensure there are no fractures and exchange it if damage has occurred. Only use original parts. 2.6Safety technology conditions for clamping devices The safety technology conditions for operating clamping devices under pressure are defined in the trade association's testing guidelines and the DIN, VDE and VDI guide-lines. The individual test conditions are ensured via the following activities:Test condition Ensured via:The machine spindle may only start when Pressure switch in the clamping lines the minimum clamping pressure in the clamping cylinder has been built up.The machine spindle may only start Clamping route monitoring on the if the jaw stroke clamping is in the actuating cylinder permitted range.The clamping may only be released when Standstill monitoring on the the machine spindle has stopped.machine spindle If the clamping energy fails Unlockable non-return valve the work piece remains clamped until in actuating cylinder the spindle stops.If the power fails and restarts the switching Impulse-controlled way valve with detent positions do not change.end positions If the clamping energy fails, a signal to Pressure switch in the clamping line automatically or manually stop the spindle is given.At 1/5 of the maximum activation power the clamping device used must open and close.QLC-KT Edition 03 / 2009GENERAL SAFETY ADVICE ☞QLC-KTEdition 03 / 2009SET UP AND FUNCTION3.0 Set up and function3.1 Clamping device componentsPlease see the enclosed assembly drawing and the corresponding parts list.3.2 FunctionThe power chuck QLC-KT was developed especially for the fabrication of mass pro-duction components with high rotational speeds.The connection of the chucking system and the work piece is actuated by gravity, i. e.the transmission of power goes on by pressing of the clamping jaws (base jaws with top jaws) to the work piece.Rotating workholding systems are subject to the influence of the centrifugal force,which increases with the square of the rotational speed. The centrifugal force counter-acts the clamping force in case of O. D. clamping, in case of I. D. clamping it is just the contrary.The mounting of centrifugal weights behind the base jaws reduces the centrifugal force and accordingly a higher speed is achieved.The operation pressure at the hydraulic aggregate has to be set up in a way, that the maximum actuating force of the clamping unit will not be exceeded.QLC-KTEdition 03 / 2009ASSEMBLY4.0 AssemblyOn assembly only use screws of the strength class 10.9! Only the indica-tion of another strength class on the drawing (see enclosure) would be anexemption.On assembly please pay attention to the following instructions:•When assembling the base jaws note the markings 1, 2, 3 on the chuck body (guides) and on the base jaws. Place base jaw 1 in the relevant guide 1 on the clam-ping device etc.•Observe the locked torques for the screws. (Specifications from the screw manufacturer).•Unfasten the lock screw from the chuck cover (standard version) or unscrew the complete chuck cover (special version).•Fasten the chuck on the spindle.•Bolt down the draw bar with the central screw in the piston.•Align the clamping device with a dial gauge so that after assembly the stroke on the test surfaces of the clamping device does not exceed a value of 0.01 mm.•Tighten chuck fixing screws with a torque wrench in a clockwise direction.•Check the jaws and piston stroke for the clamping device used. (Refer to list).•Measure the clamping power when the clamping device is stopped using a static clamping force measuring tool, e.g. FORKARDT SKM 1200/1500, and compare it with the value stated on the chuck.•At 1/5 of the maximum actuating force the clamping device used must open and close.4.1 Fixing the top jawsWhen fixing the top jaws on the base jaws, note the 1, 2, 3 marks on the base jaws or related guides. Fix top jaw 1 to base jaw 1 on the clamping device etc.QLC-KTEdition 03 / 2009COMMISSIONING5.0 Commissioning•Check all visible bolted joints to ensure that they are tight. Check all pressure oil,leakage oil and other pipes to ensure they are assembled and connected properly. •Check operating and working pressure.•Close protective door, start machine, allow machine spindle to operate.•Carry out clamping device idle stroke to distribute lubricating grease and check the operation of the clamping device.•Start machine, wait for the authorisation to switch on the machine spindle, as per the machine programme.The precision of the clamping device is indicated when the work piece isclamped repeatedly and its movement is accurate.5.1 Clamping forceThe pressure required to produce the actuation is called the clamping force. The force available on the clamping jaws (base jaws with top jaws) at high spindle speeds varies with the level of clamping force available at standstill, the weight of the top jaws and their gravity radius.The stated max. clamping force can only be achieved under thefollowing conditions:•Perfect condition of the clamping device•Optimal lubrication of all sliding surfaces•Maximum actuating force - Short top jaws overhang•Standstill n = 0 (or low revs)The clamping force at standstill is measured usinga static clamping force measuring device, e.g. SKM1200/1500.Check or calculate whether the clamping force ofthe clamping device is adequate for working underthe selected operating conditions.If the clamping device rotates, the operating clam-ping force can be determined with a dynamic clam-ping force measuring device, e.g. FORSAVE D.5.2 Commissioning after longer breaks•Set operating and work pressure on thehydraulic motor.•Carry out clamping device idle stroke to distribute the lubrication grease.•Activate clamping cylinder several times (back and forth) to vent the system.QLC-KTEdition 03 / 2009MAINTENANCEAND REPAIR•Check clamping force at standstill on the clamping device with clamping force measuring device, e.g. z. B. FORKARDT SKM 1200/1500.•Insert work piece and start clamping.•Check function as per function process.Check clamping and release functions.•Check electric switches.•Start operation.6.0 Maintenance and repair6.1 MaintenanceBecause of the various operational relationships it is not possible to determine in advance how often maintenance, wear monitoring and servicing are required.This must be stipulated according to the level of the load and pollution.Appoximate valuesOperating hours/period Control site/maintenance information After 24 hours; Carry out idle stroke to lubricatewhen commissioning or the clamping device.repairing.Check the screw connectionsto ensure they are firm.Weekly Check clamping force at standstillwith a clamping forcemeasuring device, e.g.FORKARDT SKM 1200/1500.Weekly Check operation of clamping device.Lubricate the clamping device via thelubrication nipple in the base jaws withthe stipulated lubrication grease.If the clamping force or precision Check the base jaws,is unusually low.chuck piston and settinglever for wear or pollution.QLC-KT Edition 03 / 2009MAINTENANCE AND REPAIR6.1.1 BalancingThe clamping device is dynamically balanced, whereby the imbalance is balanced by screwing in balancing weights into the chuck body and adhering to balancing rating Q = 6.3 in line with VDI 2060.6.1.2 Disassembling the clamping devicePlace clamping device onto a palette or work bench and disassemble the individual parts as described below.•Remove cylinder screws from the chuck body thread.•Pull out chuck flange with the centrifugal weights from the chuck body centring hole and remove from chuck piston.•Pull out complete chuck piston with setting lever from the hole or the chuck body and base jaw recesses.•Pull out base jaws from the chuck body guides.Check all parts for damage and clean them. Replace defective parts, lubricate and reassemble. If fixing screws have to be exchanged, use the same dimensions and quality.When inserting the base jaws in the chuck body guides, note the markings. Insert base jaw 1 into chuck body guide 1 etc.QLC-KTEdition 03 / 2009TROUBLESHOOTING7.0 TroubleshootingThe following table lists the actions required to resolve various problemswith the clamping device.Restart the device after troubleshooting as per the information in the"Commissioning" chapter.Problem Possible cause ActionsThe lathe vibrates Cylinder flange or Check clamping cylinderstrongly.intermediate flange and clamping deviceimbalance rotation andClamping cylinder correct if necessary.or deviceimbalance as a result ofincorrect assembly.Clamping force Contamination Lubricate or disassemble, is too low.Inadequate lubrication clean, lubricate andreassemble.The rotation error Top jaws were exchanged, Check and change(for the ground out)possibly also the if necessary.top jaws base jaws.is too large.The piston stroke is Connecting rod installed Check the installationnot reached.incorrectly.of the connecting rod.☞QLC-KTEdition 03 / 2009SPARE PARTS AND SERVICE8.0Spare partsFor reasons of safety and for the proper functioning only use original FORKARDT parts.Refer to the component list for the item numbers.Manufacturer's warranty only for FORKARDT original parts.There is no product liability for damage incurred as a result of using third party parts in our products.8.1Customer serviceTo order spare parts, please state the following information:Name QuantityIdent. numberFORKARDT2155 Traversefield Dr Traverse City, MI 49686Phone: 800-544-3823Email:*****************Website: ☞9.0Manufacturer’s DeclarationIn line with EC Machine Directive 2006/42/EG, and their current changeguidelines (observe date of issue).We hereby declare that this shipment is the machine part listed below and is designed to be installed into a machine. It's use is not permitted until it can be determined that the machine into which it is installed has met the requirements of the EC Directive.Name:Power-operated three jaw chuckType:QLC-KTHarmonised standards used, DIN EN ISO 12100-1, DIN EN ISO 12100-2, depending on product: DIN EN< 414, DIN EN 418,DIN EN 457, DIN EN 60 204-1National standards Test Guidelines GS-EM No. I / 2 - 50 ofand technical specifications used, the Iron and Metal II Trade Associationas appropriate:Date /Manufacturer's signature: 04.03.2009.............................................................(Head of Design Mr. Hildebrandt)This declaration loses its validity if the components of the product are changedor dis-assembled without our express permission.Manufacturer's Declaration No.: 3QLC-KT.E As we are constantly improving our products the measurements and statements may not always apply to the latestdesigns; they are therefore non-binding.QLC-KTEdition 03 / 2009MANUFACTURER’SDECLARATIONQLC-KTEdition 03 / 2009NOTES3 Z L 200 E 04/15 0.0 F K E d i t i o n 12/11 P r i n t e d i n G e r m a n yFORKARDT GMBH Lachenhauweg 1272766 Reutlingen-Mittelstadt D-40699 ErkrathPhone: (+49) 211 25 06-0E-Mail:*****************FORKARDT USA2155 Traversefield Drive Traverse City, MI 49686, USAPhone: (+1) 800 544-3823(+1) 231 995-8300Fax: (+1) 231 995-8361E-Mail : ***************** Website: FORKARDT FRANCE S.A.R.L.28 Avenue de BobignyF-93135 Noisy le Sec Cédex Phone: (+33) 1 4183 1240Fax: (+33) 1 4840 4759E-Mail:****************************FORKARDT CHINAPrecision Machinery (Shanghai) Co Ltd 1F , #45 Building, No. 209 Taigu Road, Waigaoqiao FTZ CHINA 200131, CHINAPhone: (+86) 21 5868 3677E-Mail:****************.com Website: FORKARDT INDIA LLP Plot No. 39 D.No.5-5-35Ayyanna Ind. ParkIE Prasanthnagar, Kukatpally Hyderabad - 500 072IndiaPhone: (+91) 40 400 20571Fax: (+91) 40 400 20576E-Mail:**********************www.forka © 2015 FORKARDT, Errors and omissions excepted.L O C A T I O N S W O R L D W I D EInnovative Technology byOUR HISTORY。

核电站用1E级(K3类)控制和仪表电缆第2部分：额定电压300/500V核电站用1E级（K3类）仪表电缆1范围本标准规定了额定电压300/500V核电站用1E级（K3类）无卤低烟阻燃A级仪表电缆的型号规格、技术要求、试验项目和方法、验收规则、包装和贮运。

本标准适用于额定电压300/500V核电站用1E级（K3类）无卤低烟阻燃A级仪表电缆。

2 规范性引用文件下列文件中的条款通过本标准的引用而成为本标准的条款。

凡是注日期的引用文件，其随后所有的修改单（不包括勘误的内容）或修订版本均不适用于本标准，然而，鼓励根据本标准达成协议的各方研究是否可使用这些文件的最新版本。

凡是不注日期的引用文件，其最新版适用于本标准。

CST 74C 068 00 核电厂电缆技术规范GB/T 2951.1—1997 电缆绝缘和护套材料通用试验方法第1部分：通用试验方法第1节：厚度和外形尺寸测量-机械性能试验GB/T 2951.2—1997 电缆绝缘和护套材料通用试验方法第1部分：通用试验方法第2节：热老化试验方法GB/T 2951.3—1997 电缆绝缘和护套材料通用试验方法第1部分：通用试验方法第3节：密度测定方法—吸水试验—收缩试验GB/T 2951.4—1997 电缆绝缘和护套材料通用试验方法第1部分：通用试验方法第4节：低温试验GB/T 2951.5—1997 电缆绝缘和护套材料通用试验方法第2部分：弹性体混合料专用试验方法第1节：耐臭氧试验—热延伸试验—浸矿物油试验GB/T 3048.4-1994 电线电缆电性能试验方法导体直流电阻试验GB/T 3048.6-1994 电线电缆电性能试验方法绝缘电阻试验电压—电流法GB/T 3048.8-1994 电线电缆电性能试验方法交流电压试验GB/T 3956-1997 电缆的导体GB 5441.3—1985 通信电缆试验方法电容耦合及对地电容不平衡试验GB 5441.6—1985 通信电缆试验方法串音衰减试验比较法GB 6995.3-1986 电线电缆识别标志第3部分：电线电缆识别标志GB 6995.5-1986 电线电缆识别标志第5部分：电力电缆绝缘线缆识别标志GB/T 11026.1-2003 电气绝缘材料耐热性第一部分：老化程序和试验结果的评定GB/T 17650.2 取自电缆的材料燃烧时释放出气体的试验第2部分：用测量pH值和导电率来测量气体酸度的方法GB/T 17651-1998 电缆或光缆在特定条件下燃烧的烟密度测定GB/T 18380.1 电缆在火焰条件下的燃烧试验第1部分：单根绝缘电线或电缆的垂直燃烧试验方法GB/T 18380.3 电缆在火焰条件下的燃烧试验第3部分：成束电线或电缆的燃烧试验方法JB/T 8137-1999 电缆交货盘IEC 60092-375 船舶电气设备船用通信电缆和射频电缆第375部分：一般仪表，仪表和通信电缆IEEE 383-2003 核电厂用1E级电缆、现场接头和连接件的型式试验标准NES 713 小样材料燃烧产物毒性指数的测定RCCE-E 核岛电气设计和建造规则3定义本标准采用下列术语和定义。