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压力管道焊接工艺规程1 合用范围本规程合用于工业管道或公用管道中材质为碳素钢、低合金钢、耐热钢、不锈钢和异种钢等压力管道的焊条电弧焊、钨极氩弧焊以及二氧化碳气体保护焊的焊接施工。

2 重要编制依据2.1 GB50236-2023《现场设备、工业管道焊接工程施工及验收规范》；2.2 GB/T20801-2023《压力管道规范-工业管道》；2.3 SH3501-2023《石油化工剧毒、可燃介质管道工程施工及验收规范》；2.4 GB50235-2023《工业金属管道工程施工及验收规范》；2.5 CJJ28-2023《城市供热管网工程施工及验收规范》；2.6 CJJ33-2023 《城乡燃气输配工程施工及验收规范》；2.7 GB/T5117-2023 《碳钢焊条》；2.8 GB/T5118-2023 《热强钢焊条》；2.9 GB/T983-2023 《不锈钢焊条》；2.10 YB/T5092-2023《焊接用不锈钢丝》；2.11 GB14957-1994《焊接用钢丝》；2.12 其他现行有关标准、规范、技术文献。

3 施工准备3.1 技术准备3.1.1 3.2 对材料的规定3.4 焊接人员3.4.2 3.5 施焊环境4.1 压力管道焊接施工流程图（见图1 ）图1 焊 接 施 工 流 程 图 4.2 焊前准备及接头组对4.2.1 4.2.2 b ）异种钢管子焊接时, 焊条或焊丝的选用一般应符合下列规定: 表1 常用钢号推荐选用的焊接材料焊前准备焊机性能确认 焊口组对质量评估正式施焊 焊接检查焊缝无损探伤结果评估焊后热解决硬度测试水压实验焊接坡口制备及清理 焊条烘干及焊丝清理焊缝外观检查是表2 不同钢号相焊推荐选用的焊接材料表3 常用钢号分类分组4.2.4 a）按SH3501-2023《石油化工剧毒、可燃介质管道工程施工及验收规范》分为SHA级的压力管道、中高合金钢及不锈钢管道的坡口应采用机械方法加工。

b）其他管道坡口宜采用机械方法加工, 当采用热加工方法时, 切割后必须去除影响焊接质量的表面层。

数控车床宏程序FANUC数控车第一章编程代码----------------------------------------------------------1 1．准备功能G------------------------------------------------------------1 2．辅助功能M-----------------------------------------------------------6 第二章用户宏程序-------------------------------------------------------71. 运算符号---------------------------------------------------------------72．转移和循环-----------------------------------------------------------7 3．运算指令--------------------------------------------------------------8第三章宏程序编程------------------------------------------------------11 1．车V型圆锥- --------------------------------------------------------11 2．车U圆弧-------------------------------------------------------------12 3．方程曲线车削加工-------------------------------------------------13 5．车梯形螺纹36×6--------------------------------------------------14 6．蜗杆-------------------------------------------------------------------15 7．加工多件--------------------------------------------------------------17 第四章自动编程---------------------------------------------------------------21 1．UG建模--------------------------------------------------------------------21 2．创建几何体----------------------------------------------------------------24 附录--------------------------------------------------------------------------29第一章编程代码1．准备功能G00快速定位G01直线插补G02顺弧插补G03逆弧插补G04暂停G9,G60,G64准确/连续停G20英制输入G21米制输入G40取消刀具补偿G41建立左刀具补偿G42建立右刀具补偿G50坐标设定/主轴最高速设定G70精车循环格式：G70 P(ns) Q(nf)ns: 精加工形状程序的第一个段号。

目录一．编制说明 (1)二、编制依据 (1)三、工程概况 (2)四、施工准备 (3)五、施工程序和方法 (4)六.施工技术组织措施 (30)七、资源需求计划 (40)八．施工进度计划表 (45)一．编制说明独山子千万吨炼油及百万吨乙烯项目—50万立方米原油商业储备库罐体制安工程中,包含6台10X104m3双盘浮顶油罐T-001～006。

本方案是为其中T-001和T-004两台设备施工而编制的。

施工主要包括罐底、罐壁、浮顶、附件的制作安装。

为提高施工安全性，保证施工质量和进度，罐体安装将采用倒装法施工，使用液压顶升装置对罐壁进行提升;罐底板、罐壁板焊接均采用自动焊.结合工程的具体情况,特编制此施工方案,以保证给用户提供精品工程。

二、编制依据1.设计文件及图纸资料2.国家及行业规范、标准API650《钢制焊接油罐》GB50128—2005《立式筒形钢制焊接储罐施工及验收规范》GB/T8923—1988《涂装前钢材表面锈蚀等级和除锈等级》SH3530-2001《石油化工立试圆筒形钢制储罐施工工艺标准》GB50236-98《现场设备、工业管道焊接工程施工及验收规范》GB50235—97《工业金属管道工程施工及验收规范》JB4708-2000《钢制压力容器焊接工艺评定》JB4744—2000《钢制压力容器产品焊接试板的力学性能检验》JB/T4709-2000《钢制压力容器焊接规程》JB/4730-2005《承压设备无损检测》GB50341-2003《立式圆筒形钢制焊接油罐设计规范》GB19189—2003《压力容器用调质高强度钢板》GB50205-2001《钢结构施工质量验收规范》三、工程概况1．工程简介工程名称:独山子千万吨炼油及百万吨乙烯项目—50万立方米原油商业储备库罐体制安工程建设地点：克拉玛依市独山子区竣工日期：在2007年9月30日竣工施工内容：10X104m3双盘浮顶油罐T—001、T-004的罐体制作安装（含内外附件安装）.其主要参数如下:储罐规格基本参数罐体主要材质2．现场情况根据现场施工条件，为提高工作效率和质量，油罐的预制和安装分为两部分进行.储罐的预制工作全部在距离施工现场3公里的预制厂完成后，再运往储罐施工现场进行安装。

90dB502044S80R/ S80US80US80RS80U -BZ -220-R [Model number][Buzzer][Voltage][Color]||||• S80R • S80U• (Blank)- No buzzer type • BZ- Built-in buzzer type• 12 - DC12V • 24 - DC24V • 110 - AC110V • 220 - AC220VR-Red A-Amber G-Green B-Blue Bulb Revolving Warning LightThank you for purchasing Qlight’s products. Please read this user manual carefully prior to installation and operation to ensure safe and correct use.Failure to follow the instructions below may cause a loss of life or serious physical injury.1. Please remove any objects that can interrupt ventilation around the product.2. Please turn off the power of the product immediately if it fails to operate properly.3. Carefully wire the product according to each product’s specification.4. Please be careful in preventing chemicals such as thinner, benzene, etc. in contact with the surface of the product.5. Do not apply excessive force/impact to the product.6. Failure to follow any of the instructions above may cause malfunction or damage to the product, fire, and electric shock.Failure to follow the proper instructions may cause damage to property, the product, or malfunction of the product that would void the warranty.1. During wiring or maintenance, please completely turn off the power of the product. (Failure to follow this may lead to an electric shock.)2. Do not install the product in locations that subjects it to excessive dust or water other than the conditions designated by the IP protection ratings indicated for each product. (Failure to follow these instructions may cause a fire to the product, electric shock, physical injury, malfunction or damage to the product.)3. Do not alter or repair this product. If maintenance or repair service is required, please contact your local Qlight contact point. (Failure to follow these instructions may lead to fire, electric shock, or product damage.)4. Please apply the correct voltage to the product. (Failure to follow these instructions may lead to fire, electric shock, or product damage.)5. When the product is applied to a condition that may impact lives or property, please make sure to have a double safety device. (Failure to follow this may cause damage to property, fire, electric shock and loss of life.)• Protection rating : IP44• Ambient operating temperature : -20°C to +50°CPlease scan the QR code for more detailed product information.S80US80RS80R/ S80U• First, remove the flange nuts from bolts and place the product through the mounting surface holes.• Fasten the flange nuts on the opposite side of themounting surface until the product is tightened securely.• DC/AC type cable specification :External power line - UL1015 AWG18(0.75sq) x 2C 400mm• For built-in buzzer type, there is a shared supply line for the buzzer and lighting element.Power■ Parts Definition/ Installation■ Mounting Hole Specifications• Machine holes on the mounting surface referring to the diagram below.• Please refer to the dimensions below for installation of mounting brackets• This product is designed for use with protection rating of IP44.• If the product is installed in locations that subject it to excessive dust or water other than the designated IP protection rating indicated(IP44), it may cause malfunction or damage to the product.• In case of outdoor applications, install the product in the upright position. Do not install the product horizontal or upside-down positions where water can potentially penetrate into the product and impact it’s operation.• For further information, please visit our website ().Product Operation Inquiry / Customer Support +82-55-328-4082You can expect prompt service if you have exact information such as model name, symptom, telephone number and address.※ALL PRODUCT, PRODUCT SPECIFICATIONS AND DATA ARE SUBJECT TO CHANGE WITHOUT NOTICE TO IMPROVERELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.Head office : A-412, 579 Kyungin-Ro, Guro-Gu, Seoul, Korea (Postal Code : 08212)Factory : 185-25, Mukbang-Ro, Sangdong-Myeon, Gimhae-Si, Gyeongsangnam-Do, Korea (Postal Code : 50805)EN-1806A。

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216• Replace up to 7 components with one X2Y• Differential and common mode attenuation• Matched capacitance line to ground, both lines• Low inductance due to cancellation effect • High Speed Data Filtering • EMC I/O Filtering• FPGA / ASIC / µ-P Decoupling • DDR Memory DecouplingX2Y ® technology patents and registered trademark under license from X2Y ATTENUATORS, LLCH OW TO O RDER X2Y ® F ILTER & D ECOUPLING C APACITORSP/N written: 100X14W104MV4TDimensional View Cross-sectional ViewA B Equivalent CircuitsT10.0Ω1.00Ω0.10Ω0.01ΩA p p r o x i m a t e I m p e d a n c e (Ω)10.0Ω1.00Ω0.10Ω0.01ΩA p p r o x i m a t e I m p e d a n c e (Ω)M ECHANICAL C HARACTERISTICS0402 (X07)0603 (X14)0805 (X15)1206 (X18)1210 (X41)1410 (X44)1812 (X43)IN mmIN mm IN mm IN mm IN mm IN mm IN mm L 0.045 ± 0.003 1.143 ± 0.0760.064 ± 0.005 1.626 ± 0.1270.080 ± 0.008 2.032 ± 0.2030.124 ± 0.010 3.150 ± 0.2540.125 ± 0.010 3.175 ± 0.2540.140 ± 0.010 3.556 ± 0.2540.174 ± 0.010 4.420 ± 0.254W 0.025 ± 0.0030.635 ± 0.0760.035 ± 0.0050.889 ± 0.1270.050 ± 0.008 1.270 ± 0.2030.063 ± 0.010 1.600 ± 0.2540.098 ± 0.010 2.489 ± 0.2540.098 ± 0.010 2.490 ± 0.2540.125 ± 0.010 3.175 ± 0.254T 0.020 max 0.508 max0.026 max 0.660 max 0.040 max 1.016 max 0.050 max 1.270 max 0.070 max 1.778 max 0.070 max 1.778 max 0.090 max 2.286 max EB 0.008 ± 0.0030.203 ± 0.0760.010 ± 0.0060.254 ± 0.1520.012 ± 0.0080.305 ± 0.2030.016 ± 0.0100.406 ± 0.2540.018 ± 0.0100.457 ± 0.2540.018 ± 0.0100.457 ± 0.2540.022 ± 0.0120.559 ± 0.305CB 0.012 ± 0.0030.305 ± 0.0760.018 ± 0.0040.457 ± 0.1020.022 ± 0.0050.559 ± 0.1270.040 ± 0.005 1.016 ± 0.1270.045 ± 0.005 1.143 ± 0.1270.045 ± 0.005 1.143 ± 0.1270.045 ± 0.005 1.143 ± 0.127Amplifier Input Filter ExampleIn this example, a single Johanson X2Y ® component was used to filter noise at the input of a DCinstrumentation amplifier. This reduced component count by 3-to-1 and costs by over 70% vs.conventional filter components that included 1% film Y-capacitors.Source: Analog Devices, “A Designer’s Guide to Instrumentation Amplifiers (2nd Edition)” by Charles Kitchin and Lew CountsX2Y ® Circuit 1: Filtering Circuit 1 connects the X2Y ® filter capacitor across two signal lines. Common-mode noise is filtered to ground (or reference) by the two Y-capacitors, A & B. Because X2Y ® is a balanced circuit that is tightly matched in both phase and magnitude with respect to ground, common-to-differential mode noise conversion is minimized and any differential-mode noise is cancelled within the device. The low inductance of the capacitors extends their highfrequency attenuation considerably over discrete MLCs.X2Y ® Circuit 2: Power Bypass / Decoupling Circuit 2 connects the A & B capacitors in parallel doubling the total capacitance while reducing the inductance. X2Y capacitors exhibit up to 1/10th the device inductance and 1/5th the mounted inductance of similar sized MLC capcitors enabling high-performance bypass networks with far fewer components and vias. Low ESL deliversimproved High Frequency performance into the GHz range.PowerGroundGSM RFI Attenuation in Audio & AnalogGSM handsets transmit in the 850 and 1850 MHz bands using a TDMA pulserate of 217Hz. These signals cause the GSM buzz heard in a wide range ofaudio products from headphones to concert hall PA systems or “silent” signalerrors created in medical, industrial process control, and security applications.Testing was conducted where an 840MHz GSM handset signal was deliveredto the inputs of three different amplifier test circuit configurations shown belowwhose outputs were measured on a HF spectrum analyzer.1) No input filter, 2 discrete MLC 100nF power bypass caps.2) 2 discrete MLC 1nF input filter, 2 discrete MLC 100nF power bypass caps.3) A single X2Y 1nF input filter, a single X2Y 100nF power bypass cap.X2Y configuration provided a nearly flat response above the ambient and up to 10 dB imrpoved rejection than the conventional MLCC configuration.X2Y High Performance Power Bypass - Improve Performance, Reduce Space & ViasActual measured performance of two high performance SerDes FPGA designs demonstrate how a 13 component X2Y bypass network significantly out performs a 38 component MLC network. For more information see /pdfs/JDI_X2Y_STXII.pdfCommon Mode Choke9.0 x 6.0 x 5.0 mm X2Y ®2.0 x 1.3 x 1.0 mmAmbientEliminating Capacitor Anti-Resonance IssueA common design practice is to parallel decade capacitance values to extend the high frequency performance of the filter network. This causes an unintendeand often over-looked effect of anti-resonant peaks in the filter networkscombined impedance. X2Y’s very low mounted inductance allows designersto use a single, higher value part and completely avoid the anti-resonance problem. The impedance graph on right shows the combined mountedimpedance of a 1nF , 10nF & 100nF 0402 MLC in parrallel in RED. The MLCnetworks anti-resonance peaks are nearly 10 times the desired impedance. A100nF and 47nF X2Y are plotted in BLUE and GREEN. (The total capacitance ofX2Y (Circuit 2) is twice the value, or 200nF and 98nF in this example.) The sigleX2Y is clearly superior to the three paralleled MLCs.Use of solder mask beneath component is not recommended because of flux/contaminant entrapment.Recommended X2YBypass LayoutO PTIMIZING X2Y P ERFORMANCE ON THE PCBX2Y capacitors deliver excellent performance in EMI/RFI fi ltering and Power Bypass applications. Physical and electrical placement on the PCB is critical in achieving good results. A low inductance, dual ground connection is mandatory.EMI Filter Applications Low inductance PCB routing examples are shown in fi gures 1 and 2. Figures 3-5 show unbalanced and high inductance connections and should be avoided. See detailed application note X2Y EMI FIlter Evaluation and PCB Design Guidelines .Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5PDN / Power Bypass Applications Figures on right compare the X2Yrecommended layout against a poor layout. Because of its long extents fromdevice terminals to vias, and the wide via separation, the poor layout exhibitsapproximately 200% L1 inductance, and 150% L2 inductance compared torecommended X2Y layouts. See detailed application note X2Y Power BypassMounting.L AB E VALUATION S OLDERING P RECAUTIONSCeramic capacitors (X2Y and standard MLC types) can be easily damaged when hand soldered. Thermal cracking of the ceramicbody is often invisible even under a microscope. Factors that increase thermal cracking risk:1. 4 terminals to solder can increase hand-soldering time and temperature exposure2. Pb-free solders have higher reflow temperatures3. Low inductance connections to ground are inherently good heat-sinksA damaged component may exhibit a short circuit immediately and not recover, or may operate with intermittent Insulation Resistance(IR) levels. If you are not achieving expected results and have followed the other guidelines carefully, check to see you are adhering tothe soldering guidelines below:• Always pre-heat the PCB and component to within 50°C of solder reflow temperature at 2°C/sec. maximum.• Use contact-less hand solder tools such as a hot air pencil, IR lamp, etc.• Avoid over-heating of the ceramic component, temperature limit: 260°C for 20-30 seconds max.• Use a soldering iron as last resort; 20W max. tip, NO CONTACT with ceramic, limit solder time to 5 seconds max.A reliable, cost effective prototype PCB reflow soldering process is possible using a household toaster oven. There are several goodprocedures available on-line by googling “Toaster Oven Soldering”Parts listed in the table are standard parts and carry the highest DC voltage rating for their size and value. Legacy part number requirements for lower voltage codes are fulfilled with the higher voltage rating which exceeds the requirement. Please contact the factory for part values or voltage combinations that are not shown.Parts listed in the table are standard parts and carry the highest DC voltage rating for their size and value.Legacy part number requirements for lower voltage codes are fulfilled with the higher voltage rating which exceeds the requirement.Please contact the factory for part values or voltage combinations that are not shown.15191 Bledsoe Street Sylmar, California 91342 T el (818) 364-9800 • FAX (818) 364-6100JOHANSON HONG KONG LTD.Unit E, 11/F ., Phase 1, Kaiser Estate41 Man Yue StreetHunghom, Kowloon, Hong KongJOHANSON EUROPE LTD.Acorn House, Old Kiln Road Flackwell Heath, Bucks HP10 9NR United Kingdom Johanson Dielectrics, Inc. reserves the right to make design and price changes without notice. All sales are subject to the terms and conditions printed on the back side of our sales order acknowledgment forms, including a limited warranty and remedies for non-conforming goods or defective goods. 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第五套⼈民币补号第五套⼈民币补号(A、U、H、X、Y、M、J、O)2005版币的补号⼤都以开头，并在不断的更新中995补票冠号(6种)：1:AG、AH、AI、AJ 2:UH、UJ9910补票冠号(7种)：1:AH、AI、AJ 2:UH、UI、UJ 3:HU9920补票冠号(4种)：1 :AH、AI、AJ 2:UJ9950补票冠号(3种)：AH、AI、AJ99100补号冠号(19种)： 1:AH、AI、AJ 2:UG、UH、UI、UJ 3:HU、HW、HX、HY、HZ 4:XU、XW、XX、XY、XZ 5:YN、YO 991补票冠号：49种AD、AE、AG、AH、AI、AJUA、UB、UC、UD、UE、UFHS、HT、HU、HW、HX、HY、HZXS、XT、XU、XW、XX、XY、XZUO、YK、YL、YM、YN、YOMS、MU、MY、MZJK、JM、JOME、MF、MG、MH、MI、MJOL、OM、ON、OO991 三冠补号：49种AOB南昌、AOC西安、AOD上海、AOE北京、AOG成都、AOH保定、AOJ⽯家庄,UOC南昌、UOD⽯家庄、UOE西安、UOF上海、UOG成都、UOH北京、UOJ保定HOS西安、HOT上海、HOU北京、HOW成都、HOX保定、HOY南昌、HOZ⽯家庄XOS南昌、XOT⽯家庄、XOU上海、XOW北京、XOX西安、XOY成都、XOZ保定UOL成都、UOM保定、UON南昌、YOL西安、YOM上海、YON北京、YOK⽯家庄,MOU⽯家庄、MOW西安、MOX上海、MOY北京、MOZ成都JOL保定、JOM南昌、JON⽯家庄、JOK成都MOG上海、MOH北京、MOJ成都LOM西安、LON上海三冠补号：49种AOB、AOC、AOD、AOE、AOG、AOH、AOJ,UOC、UOD、UOE、UOF、UOG、UOH、UOJHOS、HOT、HOU、HOW、HOX、HOY、HOZXOS、XOT、XOU、XOW、XOX、XOY、XOZUOL、UOM、UON、YOL、YOM、YON、YOK,MOU、MOW、MOX、MOY、MOZJOL、JOM、JON、JOKMOG、MOH、MOJLOM、LONA0B50，A0C10，A0D15，A0E10，A0G50，A0H10，A0J20，U0D10，U0E10，U0F10，U0H10，U0J10，H0S10，H0T10，H0U10，H0X10，H0Z10，X0T10，X0U20，X0W10，X0X10，X0Y15，X0Z15，U0M10，Y0L5，Y0M20，Y0N8，M0W5，M0X30，M0Y12，M0Z15，J0L8 ，M0G25，M0H5，L0M5 2018年参考价 493元J0K+Y0K=4000991四冠补号⼤冠：51种⼀组：A00B,A00C,A00D,A00E,A00G,A00H,A00J,J00J⼆组：U00B,U00D,U00E,U00F,U00G,U00H,U00J三组：H00T,H00U,H00W,H00X,H00Y,H00Z四组：X00S,X00T,X00U,X00W,X00X,X00Y,X00Z五组：Y00K,Y00L,Y00M,Y00N,U00N,U00M六组：M00S,MOOT,MOOW,M00X,M00Y,M00Z七组：A00N,JOOL,JOOM,J00N⼋组: MOOD,MOOE,MOOF,MOOG,MOOH,MOOJ九组：L00N991四冠细分补号⼀组：A00B,A01B,A02B,A03B,A04B,A00C,A00D,A00E,A00G,A00H,A00J,A01J,A02J,A03J,J00J 七⼆组：U00B,UO1B,U00D,U00E,U00F,U01F,U02F,U03F,U04F,U05F,U00G,U00H,U01H,U00J,UO1J 七三组：H00T,HO1T,H00U,H00W,H00X,H00Y,HO1Y,H02Y,H03Y,H00Z,HO1Z,HO2Z, 六四组：X00S,X00T,X01T,X00U,X00W,X01W,X02W,X03W,X00Y,X01Y,X02Y,X03Y,X00Z,X01Z,X02Z 六五组：Y00L,Y00M,Y00N,U00N,UO1N,U00M,UO1M,Y00K 五六组：M00S,MOOT,MOOW,M00X,M01X,M00Y,M00Z,M01Z七组：A00N,JOOL,JO1L,JOOM,J00N⼋组: MOOE,MOOF,MOOG,MOOH,MOOJ, MO1J,九组：L00N X00X三轮⽬前共投放了85个补号，后续补号敬请期待！AOOE 15 AOIE 10 AOOB 15 AOIB 10 AOOH 15 AOOG 30 AOOD 330AOOJ 15 AOIJ 10 AO2J 10 A03J 10 JOOJ 330UOOG 10-30 UOOJ 15 UOIJ 10 UOOD 20 UOOE 20 UOOH 20 UOOB 15UOIB 10 UOOF 15 UOIF 10 UO2F 10 UO3F 10HOOT 20 HOIT 10 HOOY 25 HOIY 10 HOOW 35 HOOX 20 HOOZ 15 HOOU 360XOOU 20XOOZ 40 XOOT 20 XOOS 15 XOOW 15 XOOY 15 Xo1Z 10 Xo2Z 10YOOL 30-120 YOON10-120 YOOM 80 YOOK 15 UOON 15MOOS 25 MOOX 20 MOOY 120 MOOZ M00J 8 XOOX 40991 五冠补号第⼀组:A000B⽯家庄，A000C南昌，A000D北京，A000E成都，A000G保定，A000H海南，A000J西安U000C保定，U000D南昌，U000E北京，U000F成都，U000G海南，U000H⽯家庄，U000J西安HO0OT海南，HO0OU南昌，HO0OW⽯家庄，HO0OX，HO0OY北京，HO0OZ成都055补票冠号AE、AD、AI、AJUG、UH、UI、UJHW、HX、HY、HZXW、XX、XY、XZYL、YM、YN、YOMW、MX、MY、MZJL、JM、JN、JOMG、MH、MI、MJOM ON OOAG、AH、0510补票冠号31个1:AD AE AIAJ2:UG UH UI UJ3:HW HX HY HZ4:XW XX XY XZ5:YM YN YO6:MX MY MZ7:JL JM JN JO8:MG MH MI9:ON OO OL第⼆轮：(5种)A*E、A*G、A*H、A*JH0W、UOM、UON、YOK、MOY0520补票冠号AJ、UJ、HZ、HX、XX、XY、XZ、HW、AH、AI 0550补票冠号AE、UJ、HZ、XW、XX、XY、XZ05100补票冠号AC、AD、AE、AH、AIUE、UF、UG、UH、UI、UJHT、HU、HW、HY、HX、HZXU、XW、XX、XY、XZYK、YL、YM、YN、YOMX、MY、MZJL、JM、JN、JOMF、MH、MI、MJOO、OM、ON05100三冠补号：1：A0C A0D A0E A0G A0H A0J2：U0D U0E U0F U0G U0H U0J U1J3：H0T H0U H0X H0Y4：X0T X0W X0Z5：Y0M Y0N6：M0Y M0Z7：J0N05100：第⼀轮：AC、AD、AE、AH、AI、UE、UF、UG、UH、UI、UJ、HT、HU、HW、HX、HY、HZ、XT、XU、XW、XX、XY、XZ、YK、YL、YM、YN、YO、MF、MG、MH、MI、MJ、MW、MX、MY、MZ、JL、JM、JN、JO、ON、OM、OO(44种)第⼆轮：A*C、A*D、A*E、A*G、A*H、A*J、U*D、U*E、U*F、U*G、U*H、U*J、H*T、H*U、H*W、H*X、H*Y、H*Z、X*T、X*U、X*W、X*X、X*Y、X*Z、M*X、M*Y、M*Z、Y*L、Y*M、Y*N、M*J(31种)第三轮：A**E、A**G、A**H、A**J、U**H(5种)991补号资料(2014-05-28 08:49:38)第⼀轮冠号第⼀⼤组：AD(成都印钞公司) AE(南昌印钞⼚) AG(⽯家庄印钞⼚) AH(西安印钞⼚) AI(上海印钞⼚) AJ(北京印钞⼚)第⼆⼤组：UA(西安印钞⼚) UB(⽯家庄印钞⼚) UC(上海印钞⼚) UD(北京印钞⼚) UE(成都印钞公司) UF(南昌印钞⼚)第三⼤组：HS(保定五四三印刷⼚) HT(成都印钞公司) HU(北京印钞⼚) HW(上海印钞⼚) HX(西安印钞⼚) HY(⽯家庄印钞⼚) HZ(南昌印钞⼚)第四⼤组：XS(南昌印钞⼚) XT(⽯家庄印钞⼚) XU(成都印钞公司) XW(北京印钞⼚) XX(上海印钞⼚) XY(保定五四三印刷⼚) XZ(西安印钞⼚)第五⼤组：UO(⽯家庄印钞⼚) YK(成都印钞公司) YL(北京印钞⼚) YM(上海印钞⼚) YN(保定五四三印刷⼚) YO(西安印钞⼚)第六⼤组：MS(南昌印钞⼚) MU(成都印钞公司) MY(保定五四三印刷⼚) MZ(西安印钞⼚)第七⼤组：JK(保定五四三印刷⼚) JM(上海印钞⼚) JO(西安印钞⼚)第⼋⼤组：ME(南昌印钞⼚) MF(⽯家庄印钞⼚) MG(西安印钞⼚) MH(上海印钞⼚) MI(北京印钞⼚) MJ(成都印钞公司)第九⼤组：OL(西安印钞⼚) OM(上海印钞⼚) ON(北京印钞⼚) OO(成都印钞公司)第⼆轮冠号第⼀⼤组：A*B(南昌印钞⼚) A*C(西安印钞⼚) A*D(上海印钞⼚) A*E(北京印钞⼚) A*G(成都印钞公司) A*H(保定五四三印刷⼚) A*J(⽯家庄印钞⼚)第⼆⼤组：U*C(南昌印钞⼚) U*D(⽯家庄印钞⼚) U*E(西安印钞⼚) U*F(上海印钞⼚) U*G(成都印钞公司) U*H(北京印钞⼚) U*J(保定五四三印刷⼚)第三⼤组：H*S(西安印钞⼚) H*T(上海印钞⼚) H*U(北京印钞⼚) H*W(成都印钞公司) H*X(保定五四三印刷⼚) H*Y(南昌印钞⼚) H*Z(⽯家庄印钞⼚)第四⼤组：X*S(南昌印钞⼚) X*T(⽯家庄印钞⼚) X*U(上海印钞⼚) X*W(北京印钞⼚) X*X(西安印钞⼚) X*Y(成都印钞公司) X*Z(保定五四三印刷⼚)第五⼤组：U*L(成都印钞公司) U*M(保定五四三印刷⼚) U*N(南昌印钞⼚) Y*L(西安印钞⼚) Y*M(上海印钞⼚) Y*N(北京印钞⼚) 第六⼤组：M*U(⽯家庄印钞⼚) M*W(西安印钞⼚) M*X(上海印钞⼚) M*Y(北京印钞⼚) M*Z(成都印钞公司)第七⼤组：J*L(保定五四三印刷⼚) J*M(南昌印钞⼚) J*N(⽯家庄印钞⼚)第⼋⼤组：M*G(上海印钞⼚) M*H(北京印钞⼚) M*J(成都印钞公司)第九⼤组：L*M(西安印钞⼚) L*N(上海印钞⼚)第三轮冠号第⼀⼤组：A**E(保定五四三印刷⼚) A**G(南昌印钞⼚) A**H(⽯家庄印钞⼚) A**J(西安印钞⼚)第五套⼈民币壹元券（1999年版）第⼀轮补票冠字投放发⾏资料991补票冠字补⼊情况001 AD 成都印钞公司印制的第⼀⼤组补票冠字，补在：GI、GJ、DB、BE、BH中。

2000b h 连接孔9×202000b h b L h b L h XQJ-T-1型梯架XQJ-T-1 Stair Frame XQJ-P-1型托盘式桥架XQJ-P-1 Tray Bridge Frame XQJ-T-2 型水平弯通XQJ-T-2 Horizontal Bend XQJ-P-2 型水平弯通XQJ-P-2 Horizontal BendE E K K //" " # # K K E E //K E /K E /92+ 5 "nj# 92+ 5 " nj# 7FSUJDBM #FOE 92+ 1 "nj# 92+ 1 " nj# 7FSUJDBM #FOE 92+ 5 $ ү 92+ 5 $ 7FSUJDBM 5VSOJOH #FOE 92+ 1 $ ү 92+ 1 7FSUJDBM 5VSOJOH #FOE / / ///// / K KE E 92+ 5 ʼ92+ 5 )PSJ[POUBM 5FF 92+ 1 ʼ 92+ 1 )PSJ[POUBM 5FF 92+ 5 92+ 5 )PSJ[POUBM $SPTT 92+ 1 92+ 1 )PSJ[POUBM $SPTT EE EE K K K K92+ $ 5SPVHI UZQF IPSJ[POUBM CFOE 92+ $ " c 5SPVHI UZQF cIPSJ[POUBM CFOE +%+%/ / / / e e 92+ $ 5SPVHI UZQF TUSBJHIU 92+ $ ' 5FSNJOB TFBM /%+%+92+ $ " ʽ 7FSUJDBM DQVBM TFDUJPOBM VQXBSE CFOE 92+ $ # ʾ 7FSUJDBM FQVBM TFDUJPOBM EPXOXBSE CFOE - - ))##- - ))#92+ $ ʼ 5SPVHI UZQF IPSJ[POUBM UFF (%2 $ 5SPVHI UZQF IPSJ[POUBM DSPTT - - )#))####- -92+ $ ʽ ʼ 6QXBSE TJEF WFSUJDBM FRVBM TFDUJPOBM UFF 92+ $ ʾ ʼ %PXOXBSE TJEF WFSUJDBM FRVBM TFDUJPOBM UFF - - )))##- - )###92+ $ ʽ ʼ 6QXBSE WFSUJDBM FRVBM TFDUJPOBM UFF 92+ $ ʾ ʼ %PXOXBSE WFSUJDBM FRVBM TFDUJPOBM UFF - - )))##--)#))))####92+ $ ʾ 7FSUJDBM FRVBM TFDUJPOBM MFGU EPXOXBSE CFOE 92+ $ Կʾ 7FSUJDBM FRVBM TFDUJPOBM SJHIU EPXOXBSE CFOE - - - - ))))####92+ $ ʽ 7FSUJDBM FRVBM TFDUJPOBM MFGU VQXBSE CFOE 92+ $ Կʽ 7FSUJDBM FRVBM TFDUJPOBM SJHIU VQXBSE CFOE - - - -) ) ))##### # 92+ $ ʽ 6QXBSE WFSUJDBM FRVBM TFDUJPOBM DSPTT 92+ $ "ԫ 3FEVDFS -- - ##))- - - - - ###)))92+ $ ʽ ʼ 6QXBSE DPSOFS WFSUJDBM FRVBM TFDUJPOBM UFF 92+ $ ʾ ʼ %PXOXBSE DPSOFS WFSUJDBM FRVBM TFDUJPOBM UFF))# ###)) #) #))) ##92+ $ $ ʽ'MBU UPQ SFEVDFS92+ $ # ʽ'MBU UPQ SFEVDFS92+ $ % ʽ'MBU CPUUPN SFEVDFS92+ $ &ʾ 'MBU CPUUPN SFEVDFS---水平弯通、三通组装示意图Sketch Map of Installing Horizontal Elbow joint & T-joint ofCombination type Cable Tray组合式电缆桥架水平四通、垂直三通组装示意图Sketch Map of Installing Horizontal Cross & VerticalT-joint of Combination type Cable Tray组合式电缆桥架垂直弯通及几种锯切示意图Sketch Map of Vertical Elbow Joint of Commbination TypeCable Tray & ways of Sawing vertical Flbow Jointh/*KE/型号Model规格b×h Size重量 kg WeightZH-01A-100100×25 6.74ZH-01A-150150×258.99ZH-01A-200200×2511.24型号Model规格b×h Size重量 kg WeightZH-01B-100100×25 6.74ZH-01B-150150×258.99ZH-01B-200200×2511.24型号Model规格Size支撑距离“×”时电缆负载能力Load Capacity for different spans重量 kg Weight1.5m 2m2.5m 3m3.5m 4m ZH-02A 50×505030199538.53ZH-02B50×5060331810648.53型号Model 规格Size支撑距离“×”时电缆负载能力Load Capacity for different spans重量 kg Weight1.5m 2m2.5m 3m3.5m 4m ZH-03A 100×50673820127510.78ZH-03B 100×508350281610710.78型号Model 规格Size 重量 kgWeight 备注RemarksZH-0450×254.50型号Model规格Size参考价 元/只Refernce price yuan/piece备注RemarksZH-0525×25型号Model规格Size参考价 元/只Refernce price yuan/piece备注RemarksZH-0624×70XQJ-ZH-02A、B 型配线桥架Model XQJ-ZH-02A、B Model Cabling SupportXQJ-ZH-04 型配线桥架Model XQJ-ZH-04 Cabling SupportXQJ-ZH-05 型连接板Model XQJ-ZH-05 Connection plateXQJ-ZH-06 型连接片Model XQJ-ZH-06 connection pieceA型 A Type A型 A Type B型 B TypeB型 B TypeXQJ-ZH-03A、B 型配线桥架Model XQJ-ZH-03A、B Model Cabling SupportXQJ-ZH-07 型连接板Model XQJ-ZH-07 connection plateXQJ-ZH-08 型管接头Model XQJ-ZH-08 pipe connectorXQJ-ZH-10 型盖板Model XQJ-ZH-10 cover plateXQJ-ZH-09 U 型管卡Model XQJ-ZH-09 U pipe clampXQJ-ZH-11 型扣锁Model XQJ-ZH-11 lock 型号Model参考价 元/只Refernce price yuan/piece备注RemarksZH-07配管Connected Pipe 安装尺寸 L×H Size of InstallationG1/2"、G3/4"、G1"、G1'/2"、G2"122×74、122×124、122×174型号Modelb (mm)重量 kg Weight备注RemarksZH-10-5055 3.39订货时请注明配套使用的组合式电缆桥架的组合形式：A、B、C、D、E b宽度根据组合形式：A型加3mm、B、C型加6mm、D型加56mm、E型ZH-10-100105 5.26ZH-10-1501557.21ZH-10-2002059.01)#------))##)#-)#-)#-92+ : 592+ : 5 BSD DBMCF MBEEFS UZQF IPSJ[POUBM CFOE92+ : 192+ : 1 BSD DBMCF USBZ UZQF IPSJ[POUBM CFOE92+ : $92+ : $ BSD DBMCF USBZ UZQF IPSJ[POUBM CFOE92+ : 5 ʼ92+ : 5 BSD DBMCF MBEEFS UZQF IPSJ[POUBM UFF92+ : 1 ʼ92+ : 1 BSD DBMCF MBEEFS UZQF IPSJ[POUBM UFF92+ : $ ʼ92+ : 5 BSD DBMCF MBEEFS UZQF IPSJ[POUBM UFF-#)-#)--#)------###)))#)##))#)##)))#-)#--)#XQJ-Y-T-6 梯级式圆弧型垂直凹弯通XQJ-Y-T-6 arc cable ladder type vertical downward bendXQJ-Y-P-6 托盘式圆弧型垂直凹弯通XQJ-Y-P-6 arc cable tray type vertical downward bendXQJ-Y-C-6 槽式圆弧型垂直下弯通XQJ-Y-C-6 arc cable tray type vertical downward bendXQJ-DJ钢制大跨距桥架XQJ-DJ Wide Span Cable Ladder大跨距电缆桥架是一种较一般电缆桥架的支撑跨度大，且由于结构上设计合理，因而又比一般电缆桥架具有承载能力大的特点，所以它不仅适用于炼油、化工、纺织、机械、冶金、电力、电视、广播等工矿企业的室内外电缆架空的敷设，也可作为地铁、人防工程等地下工事电缆的敷设。

1.4000 X6Cr131.4001 X7Cr141.4002 X6CrAl131.4003 X2Cr11/X2CrNi12 1.4005 X 12 CrS131.4006 X10Cr131.4008 G-X8CrNi131.4011 GX12Cr12-B1.4016 X6Cr171.4021 X20Cr131.4024 X15Cr131.4027 G-X20Cr141.4028 X 30 Cr 131.4034 X46Cr131.4057 X20CrNi1721.4059 G-X22CrNi171.4085 G-X70Cr291.4086 G-X120Cr291.4104 X12CrMoS171.4106 G-X10CrMo13 1.4112 X 90 CrMoV 18 1.4113 X6CrMo1711.4117 X38CrMoV151.4120 G-X20CrMo13 1.4122 G-X35CrMo17 1.4125 X 105 Cr Mo 17 1.4136 G-X70CrMo29-2 1.4138 G-X120CrMo29-2 1.4300 X12CrNi18-81.4301 X5CrNi18-101.4303 X 5 CrNi 18.12 1.4305 X10CrNiSi89 1.4306 G-X2CrNi19-11 1.4308 G-X6CrNi18-9 1.4308 GX5CrNi19-10 1.4309 GX2CrNi19-11 1.4310 X12CrNi1771.4311 X2CrNiNb1810 1.4312 G-X10CrNi18-8 1.4313 G-X5CrNi13-4 1.4317 GX4CrNi13-41.4335 X 1 CrNi 25.21 1.4336 G-X20CrNi248 1.4339 G-X30CrNi28 101.4340 G-X40CrNi27-41.4347 G-X8CrNi26-71.4347 GX6CrNiN27-61.4350 X5CrNi1891.4361 X 1 CrNiSi 18.151.4362 2 CrNiN 23.41.4401 X5CrNiMo17121.4404 G-X2CrNiMo18-101.4405 G-X5CrNiMo16-51.4406 GX4CrNiMo16-5-1 1.4407 G-X5CrNiMo13 41.4408 G-X6CrNiMo18-10 1.4408 GX7CrNiMo12-11.4408 GX5CrNiMo19-11-2 1.4409 GX2CrNiMo19-11-2 1.4410 G-X10CrNiMo18-9 1.4411 GX4CrNiMo16-5-2 1.4412 GX5CrNiMo19-11-3 1.4413 G-X3CrNiMo13 41.4414 G-X4CrNiMo13 41.4416 GX2NiCrMoN25-20-5 1.4417 GX2CrNiMoN25-7-3 1.4418 X4CrNiMo16-51.4429 X2CrNiMoN18121.4435 X2CrNiMo18 14 31.4436 X5CrNiMo17 13 31.4438 X2CrNiMo17-13-31.4439 G-X3CrNiMoN17-13-9 1.4446 G-X2CrNiMoN17-13-4 1.4446 GX2CrNiMoN17-13-4 1.4448 G-X6CrNiMo17-13 1.4449 X 5 CrNiMo 17.131.4458 GX2CrNiMo28-20-2 1.4460 X8CrNiMo27-51.4460 X 3 CrNiMoN 27.5.2 1.4462 X 2 CrNiMoN 22.5.31.4463 G-X6CrNiMo24-8-22.4464 G-X40CrNiMo27 5 1.4465 G-X2CrNiMoN25-25 1.4466 X2CrNiMoN25221.4468 GX2CrNiMoN22-6-3 1.4469 GX2CrNiMoN26-7-4 1.4470 GX2CrNiMoN22-5-3 1.4500 G-X7NiCrMoCuNb25201.4501 X 2 CrNiMoCuWN 25.7.4 1.4505 X 4 NiCrMoCuNb 20.18.2 1.4506 X2CrNiMoN17 13 31.4507 X 2 CrNiMoCuN 25.6.31.4510 X6CrTi171.4517 GX2CrNiMoCuN25-6-3-31.4525 GX5CrNiCu16-41.4527 GX4NiCrCuMo30-20-41.4531 G-X2NiCrMoCuN20-181.4536 G-X2NiCrMoCuN25-201.45391.4540 G-X4CrNiCuNb16-41.4541 X6CrNiTi18101.4542 X5 CrNiCuNb 16.41.4548 X5 CrNiCuNb 16.41.4550 X6CrNiNb18101.4552 G-X5CrNiNb18-91.4552 GX5CrNiNb19-111.45631.4565 X 2 CrNiMnMoNbN 25.18.5.41.4568 X 7 CrNiAl 17.71.4571 X6CrNiMoTi171221.4577 X 3 CrNiMoTi 25.251.4580 X6CrNiMoNb171221.4581 G-X5CrNiMoNb18-101.4581 GX5CrNiMoNb19-11-21.4582 X 10 CrNiMoNb 18.121.4583 G-X10CrNiMoNb18-121.4584 GX2NiCrMoCu25-20-51.4585 G-X7CrNiMoCuNb18-18 1.4587 GX2NiCrMoCuN29-25-5 1.4588 GX2NiCrMoCuN25-20-51.4593 GX2NiCrMoCuN20-18-6 1.4710 GX30CrSi61.4713 X 10 CrAl 71.4718 X45CrSi931.4724 X10CrAl131.4729 GX40CrSi131.4740 GX40CrSi171.4742 X10CrAl181.4745 GX40CrSi231.4749 X 18 CrN 281.4757 X80CrNiSi201.4762 X10CrAl241.4776 GX40CrSi291.4777 GX130CrSi291.4821 X 20 CrNiSi 25.41.4823 GX40CrNiSi27 4 1.4825 GX25CrNiSi18 91.4826 GX40CrNiSi22 91.4828 X15CrNiSi20121.4832 X25CrNiSi20141.4833 X 6 CrNi 22.131.4837 X40CrNiSi25121.4841 X 15 CrNiSi 25.201.4845 X12CrNi25211.4848 GX40CrNiSi25 20 1.4849 GX40CrNiSiNb38 18 1.4852 GX40CrNiSiNb35 25 1.4855 GX30CrNiSiNb24 24 1.4857 GX40CrNiSi35 251.4859 GX10NiCrNbSi32-20 1.4864 X12NiCrSi36161.4865 G-X40NiCrSi3818 1.4868 GX50CrNiSi30-30 1.4871 X53CrMnNiN219 1.4876 X 10 NiCrAlTi 32.20 1.4878 X12CrNiTi1891.4893 X 8 CrNiSiN 21.11 1.4919 X 6 CrNiMo 17.13 1.4948 X 6 CrNi 18.111.4958 X 5 NiCrAlTi 31.20 1.4959 X 8 NiCrAlTi 31.21 1.6900 X 12CrNi18 91.6902 G-X6CrNi18101.6905 X10CrNiNb18-102.0872 CuNi 10 Fe2.0882 CuNi 30 Fe2.4066 Ni 99,22.4068 LC - Ni 992.4360 NiCu 30 Fe2.4375 NiCu 30 AI2.4537 G-NiMo16CrW2.4602 NiCr 21 Mo 14 W 2.4603 NiCr 30 FeMo2.4603 NiCr 22 Fe 18 Mo2.4605 NiCr 23 Mo 16 Al2.4610 NiMo 16 Cr 16 Ti2.4617 NiMo 282.4618 NiCr 22 Mo 6 Cu2.4619 NiCr 22 Mo 7 Cu2.4630 NiCr 20 Ti2.4631 NiCr 20 TiAl2.4632 NiCr 20 Co 18 Ti2.4633 NiCr 25 FeAl2.4634 NiCo 20 Cr 15 Mo Al Ti 2.4642 NiCr 29 Fe2.4660 NiCr 20 CuMo2.4663 NiCr 23 Co 12 Mo2.4665 NiCr 22 Fe 18 Mo 2.4668 NiCr 19 NbMo2.4669 NiCr 15 Fe 7 TiAl 2.4778 G-CoCr 282.4810 G-NiMo302.4816 NiCr 15 Fe2.4819 NiMo 16 Cr 15 W2.4851 NiCr 23 Fe2.4856 NiCr 22 Mo 9 Nb2.4858 NiCr 21 Mo2.4879 G-NiCr28W2.4951 NiCr 20 Ti2.4952 NiCr 20 TiAl2.4969 NiCr 20 Co 18 Ti3.70253.70353.70553.70653.71643.71653.7225 Ti Pb3.7235 Ti II Pb0.6010 GG100.60120.6015 GG150.60170.6018 GG180.6020 GG200.6022 GG220.6025 GG250.60270.6030 GG300.60320.6035 GG350.60370.6652 GGL-NiMn13 7 0.6655 GGL-NiCuCr15 6 2 0.6656 GGL-NiCuCr15 6 3 0.6660 GGL-NiCr20 20.6661 GGL-NiCr20 30.6667 GGL-NiSiCr20 5 3 0.6676 GGL-NiCr30 30.6680 GGL-NiSiCr30 5 5 0.7033 GGG-35.30.7040 GGG-400.7042 GGG-420.7043 GGG-40.30.7050 GGG-500.7060 GGG-600.7070 GGG-700.7080 GGG-800.7652 GGG-NiMn13 7 0.7659 GGG-NiCrNb20 2 0.7660 GGG-NiCr20 20.7661 GGG-NiCr20 30.7665 GGG-NiSiCr20 5 2 0.7670 GGG-Ni220.7673 GGG-NiMn23 40.7676 GGG-NiCr30 30.7677 GGG-NiCr30 10.7679 GGG-NiSiCr30 5 2 0.7680 GGG-NiSiCr30 5 5 0.7683 GGG-Ni350.7685 GGG-NiCr35 30.7688 GGG-NiSiCr35 5 2 0.8035 GTW35-040.8040 GTW40-050.8038 GTW45-070.8040 GTW38-120.8135 GTS-35-100.8145 GTS-45-060.8155 GTS-55-040.8165 GTS-65-020.8170 GTS-70-020.9610 G-X300NiMo3Mg0.9620 G-X260NiCr420.9625 G-X330NiCr0.9630 G-X300CrNi9520.9635 G-X300CrMo1530.9640 G-X300CrMoNi1520 0.9645 G-X260CrMoNi20210.9650 G-X260Cr270.9655 G-X300CrMo2711.0420 GS-38.31.0443 GS-451.0446 GS-45.31.0552 GS-521.0558 GS-601.06191.1118 GS-24Mn61.1120 GS-8Mn7/GS-8MnMo7 4 1.1121 Ck101.1131 GS-16Mn5/GS-20Mn5 1.1136 GS-24Mn41.1138 GS-24Mn51.1141 Ck151.1142 Ck161.1151 Ck221.1155 Ck251.1156 Ck241.1157 40Mn41.1158 Ck251.1159 GS-46Mn41.1165 GS-30Mn51.1167 GS-36Mn51.1168 GS-40Mn51.1181 Ck351.1191 Ck451.1221 Ck601.2311 GS-48CrMnMo71.2323 GS-48CrMoV6 71.2590 GS-80CrVW4 31.2713 GS-55NiCrMoV61.2778 GS-20MoNi33 131.2887 GS-34CoCrMoV14 12 1.2888 GS-20CoCrWMo10 9 1.3401 G-X120Mn121.3402 G-X110Mn14 1.3802 G-X120Mn131.3940 G-X2CrNiN18 131.3952 G-X2CrNiMoN18 141.3955 G-X12CrNi18 111.3964 G-X2CrNiMnMoNb21 16 5 31.3966 G-X25MnCrNi8 8 61.5015 GS-13MnNi641.5120 GS-38MnSi41.5121 GS-46MnSi41.5122 GS-37MnSi51.5406 GS-20MnMo5 31.5418 GS-20MoV8 51.5430 GS-8MnMo7 41.5431 GS-12MnMo7 41.5475 GS-20MnNb51.5485 GS-20MnNiTi5 31.5621 GS-10Ni61.5633 GS-24Ni81.5638 GS-10Ni141.5681 GS-10Ni191.5919 GS-15CrNi61.6219 GS-22MnNi51.6221 GS-13MnNi641.6309 GS-20MnMoNi5 51.6511 GS-36CrNiMo41.6515 GS-25CrNiMo41.6552 GS-24CrNiMo3 2 51.6570 GS-30NiCrMo8 51.6582 GS-34CrNiMo61.6740 GS-33NiCrMo7 4 41.6741 GS-38NiCrMo8 4 41.6748 GS-40NiCrMo6 5 61.6750 GS-20NiMoCr3 71.6759 GS-18NiMoCr3 61.6760 GS-22NiMoCr5 61.6779 GS-14NiCrMo10 61.6781 GS-18NiCrMo12 61.6783 GS-19NiCrMo12 61.6916 GS-12MnCrNiMo5 31.7131 GS-16MnCr51.7147 GS-20MnCr51.7218 GS-25CrMo41.7219 GS-26CrMo41.7220 GS-34CrMo41.7225 GS-42CrMo41.7228 GS-50CrMo41.7341 GS-34CrMo4 41.7354 GS-22CrMo5 41.7355 GS-17CrMnMo5 51.7363 GS-12CrMo19 51.7377 GS-17CrMo9 101.7380 GS-12CrMo9 101.7382 GS-19CrMo9 101.7725 GS-30CrMoV6 41.7755 GS-35CrMoV10 41.7756 GS-36CrMoV10 41.7903 GS-18MnCrMo6 31.7906 GS-19MnCrMo6 31.7909 GS-20MnCrMo6 31.8159 GS-50CrV 4不绣耐蚀铸钢: 铁素体G-S8CrNi13 1.4008G-X20Cr14 1.4027 G-X22CrNi17 1.4059G-X5CrNi134 1.4313奥氏体:G-X6CrNi1891.4308 G-X5CrNiNb189 1.4552G-X6CrNiMo18-10 1.4408 G-X3CrNiMoN17-13-5 1.4439 医疗机械用不绣铸钢: X20Cr131.4021 X38CrMoV15 1.4117 G-X20CrMo131.4120 G-X35CrMo17 1.4122德国非标准不绣耐蚀铸钢: G-X70Cr29 1.4085 G-X120Cr29 1.4086G-10CrMo13 1.4106 G-X70CrMo292 1.4136G-X120CrMo292 1.4138 G-X2CrNi189 1.4306G-X10CrNi188 1.4312 G-X40CrNi274 1.4340G-X8CrNi267 1.4347 G-X2CrNiMo1810 1.4404G-X5CrNiMo165 1.4405 G-X10CrNiMo1891.4410 G-X6CrNiMo1812 1.4437G-X2CrNiMoN17134 1.4446 G-X6CrNiMo17131.4448 G-X6CrNiMo2482 1.4463G-X2CrNiMoN2525 1.4465G-X2NiCrMoCuN2518 1.4531G-X2NiCrMoCuN2520 1.4536 G-NiMo16CrW2.4537 G-X10CrNiMoNb1812 1.4583G-X7CrNiMoCuNb1818 1.4585 G-NiMo302.4810 耐热铸钢和热强铸钢: GX30CrSi6 1.4710GX40CrSi13 1.4729 GX40CrSi17 1.1740GX40CrSi23 1.4745 GX40CrSi29 1.4776GX130CrSi29 1.4777 GX40CrNiSi27-4 1.4823 GX25CrNiSi18-9 1.4825 GX40CrNiSi22-9 1.4826 GX25CrNiSi20-14 1.4832 GX40CrNiSi25-12 1.4837 GX40CrNiSi25-20 1.4848 GX40NiCrSi38-18 1.4865 GX40NiCrSi35-25 1.4857 GX30CrNiSiNb24-24 1.4855 GX-40NiCrSiNb35-25 1.4852 G-CoCr28 1.4778 G-NiCr28W 2.4879 铁素体热强铸钢: GS-C25 1.0619 GS-22Mo4 1.5419 GS-17CrMo55 1.7357 GS-18CrMo910 1.7379 GS-17CrMoV511 1.7706 G-X8CrNi12 1.4107 G-X22CrMoV121 1.4931 高锰钢和耐磨蚀:G-X120Mn12 13401 G-X110Mn14 13402 G-X120Mn13 13802 G-X25MnCrNi886 13966 G-X12CrNi1811 13955 G-X2CrNiN1813 13940 G-X2CrNiMoN1814 13952 G-X2CrNiMnMoNb21 G-X2CrNiMnMoNb16 G-X2CrNiMnMoNb5 G-X2CrNiMnMoNb3 13964 德国,灰铸铁:GG-10 0.6010 GG-15 0.6015 GG-20 0.6020 GG-25 0.6025 GG-30 0.6030 GG-35 0.6035。

用于蝶阀的可配置的角行程执行器• 运行扭矩 最大 90 Nm• 额定电压 AC/DC 24 V• 控制方式 调节型 2...10 V 可调• 位置反馈 2...10 V 可调• 电机运行时间 35 s• 可用于室外技术数据电气参数额定电压AC/DC 24 V额定电压频率50/60 Hz额定电压范围AC 19.2...28.8 V / DC 21.6...28.8 V运行功耗9 W保持功耗 3 W变压器容量12 VA连接方式接线端子并联运行否功能参数运行扭矩最大 90 Nm (非恒定扭矩)运行范围 Y 2...10 V输入阻抗100 kΩ运行范围 Y 可调起点 0.5...30 V终点 2.5...32 V运行模式可选开关型三态(仅限AC)调节型 (DC 0...32 V)位置反馈信号U 2...10 V位置反馈信号U说明最大 0.5 mA位置反馈信号U可调起点 0.5...8 V终点 2.5...10 V位置精确度±5%手动操作按下手动操作钮，执行器齿轮机构解锁电机运行时间35 s / 90°电机运行时间可调35...150 s自适应设置手动按下“自适应”按钮 (默认第一次通电时自动进行自适应)自适应设置可调无动作每次通电时进行自适应按下手动操作按钮后进行自适应超驰控制MAX (最大位置) = 100%MIN (最小位置) = 0%ZS (中间位置, 仅AC) = 50%超驰控制范围MAX = (MIN + 33%)...100%MIN = 0%...(MAX – 33%)ZS = MIN...MAX噪音等级（电机）45 dB(A)位置指示机械式，内置型安全参数防触电保护等级IEC/EN III ，安全特低电压 (SELV)电源 UL 认证Class 2 Supply 电气防护等级IEC/EN IP66/67NEMA/UL 防护等级NEMA 4X附件UL Enclosure Type 4X EMC CE 遵循 2014/30/EUIEC/EN 认证IEC/EN 60730-1 和 IEC/EN 60730-2-14运行方式类型 1额定冲击电压0.8 kV 污染等级4环境湿度最大 95% 相对湿度，无结露环境温度-30...50°C [-22...122°F]存储温度-40...80°C [-40...176°F]维护免维护机械参数连接法兰F05重量重量 5.5 kg••••••••••••安全注意事项该设备是专为供热、通风及空调行业所设计。

电力系统分析习题集华北电力大学前言本书是在高等学校教材《电力系统稳态分析》和《电力系统暂态分析》多次修改之后而编写的与之相适应的习题集。

电力系统课程是各高等院校、电气工程专业的必修专业课，学好这门课程非常重要，但有很大的难度。

根据国家教委关于国家重点教材的编写要求，为更好地满足目前的教学需要，为培养出大量高质量的电力事业的建设人材，我们编写了这本《电力系统分析习题集》。

力求使该书具有较强的系统性、针对性和可操作性，以便能够使学生扎实的掌握电力系统基本理论知识，同时也能够为广大电力工程技术人员提供必要的基础理论、计算方法，从而更准确地掌握电力系统的运行情况，保证电力系统运行的可靠、优质和经济。

全书内容共分十五章，第一至第六章是《电力系统稳态分析》的习题，第七至第十四章是《电力系统暂态分析》的习题，第十五章是研究生入学考试试题。

本书适用于高等院校的师生、广大电力工程技术人员使用，同时也可作为报考研究生的学习资料。

由于编写的时间短，内容较多，书中难免有缺点、错误，诚恳地希望读者提出批评指正。

目录第一部分电力系统稳态分析第一章电力系统的基本概念第二章电力系统的元件参数及等值电路第三章简单电力系统的计算和分析第四章电力系统潮流的计算机算法第五章电力系统的有功功率和频率调整第六章电力系统的无功功率和电压调整第二部分电力系统暂态分析第七章电力系统故障分析的基本知识第八章同步发电机突然三相短路分析第九章电力系统三相短路的实用计算第十章对称分量法及元件的各序参数和等值电路第十一章不对称故障的分析、计算第十二章电力系统各元件的机电特性第十三章电力系统静态稳定第十四章电力系统暂态稳定第十五章研究生入学考试试题附录第一部分电力系统稳态分析电力系统稳态分析，研究的内容分为两类，一类是电力系统稳态运行状况下的分析与潮流分布计算，另一类是电力系统稳态运行状况的优化和调整。

第一章电力系统的基本概念1-1 什么叫电力系统、电力网及动力系统？电力系统为什么要采用高压输电？1-2 为什么要规定额定电压？电力线、发电机、变压器和用电设备的额定电压是如何确定的？1-3 我国电网的电压等级有哪些？1-4 标出图1-4电力系统中各元件的额定电压。

目录序号名称页码1.BS 3146 Part1-1992 精密铸钢和精密铸造合金 (2)2.BS 3146 Part21992耐蚀、耐热精密铸钢和NiCo基精密铸造合金的钢号与化学成分［再确认］ (3)3.BS 3100 Part 4—1991耐蚀、耐热和高合金铸钢 (5)4.BS EN 102132—1995承压铸钢 (7)5.BS EN 102133-1995低温用承压铸钢 (7)6.BS EN 102134-1995奥氏体型和奥氏体铁素体型承压铸钢 (8)7.KS D4103-1995不锈、耐蚀铸钢韩国标准 (11)8.JB/T 6405—1992中国标准大型铸件用不锈铸钢 (12)9.GB/T 2100-1980不锈、耐蚀铸钢 (13)10.JIS G5122—1991耐热铸钢 (16)11.JIS G5131-1991高锰铸钢日本标准 (17)12.JIS G5121-1991不锈耐蚀铸钢 (18)13.ASTM A732/A732M-1998精密铸钢和精密铸造合金 (20)14.ASTM A732/A732M-1998钴基精密铸造合金 (21)15.ASTM A297/A297M—1998耐热铸钢和高温用铸钢 (22)16.ASTM A297/A297M-2000美国ASTM标准与UNS系统高温用奥氏体铸钢 (22)17.ASTM A216M-1998美国ASTM标准与UNS系统适合于熔焊的高温用碳素铸钢 (24)18.ASTM A447/A447M—1998美国ASTM标准高温用镍铬合金铸钢 (25)19.ASTM A560/A560M-1998美国ASTM标准抗高温腐蚀的镍铬铸造合金 (25)20.ASTM A27/A27M-2000工程与结构用铸钢 (25)21.ASTM A487/A487M—1998承压铸钢 (26)22.ASTM A128/A128M—1998高锰铸钢 (29)23.KS D4101—1995工程与结构用铸钢 (29)24.KS D4107—1991承压铸钢 (31)25.KS D4104-1995高锰铸钢 (32)26.KS D4105-1995耐热铸钢 (33)27.DIN SEW395—1998高锰铸钢和耐磨蚀铸钢 (34)28.DIN 17245-1987铁素体热强铸钢 (34)29.DIN 17465—1993耐热铸钢 (35)30.DIN 17445-1984不锈、耐蚀铸钢德国标准 (37)31.DIN 1681—1985工程与结构用铸钢 (41)32.JIS G5******* 工程与结构用铸钢 (45)33.JIS G5201-1991离心铸钢管 (48)34.GB/T 1503—1989轧辊用铸钢 (49)35.JB/T 6402-1992工程与结构用铸钢 (50)36.GB/T 11352—1989工程与结构用铸钢 (52)37.GB/T 7659—1987焊接结构用碳素铸钢 (53)38.GB/T 16253—1996承压铸钢 (54)39.GB/T 5680—1998高锰铸钢 (58)40.YB/T 036。