TP10(示例)

施工图预算示例某住宅平面图和系统图（见图 10 － 5 、 10 － 6 、 10 － 7 所示），该工程为 6 层砖混结构，砖墙、钢筋混凝土预应力空心板，层高 3.2m ，房间均有 0.3m 高吊顶。

电话系统工程内容：进户前端箱 STO — 50 —400 × 650 × 160 与市话电缆 HYQ — 50 （ 2 × 0.5 ）— SC50 — FC 相接，箱安装距地面 0.5m 。

层分配箱（盒）安装距地 0.5m ，干管及到各户线管均为焊接钢管暗敷设。

有线电视系统工程内容：前端箱安装在底层距地 0.5m 处，用 SYV —75 —5 —1 同轴射频电缆、穿焊接钢管 SC20 暗敷设。

电源接自每层配电箱。

两系统工程施工图预算一律从进户各总箱起计算，总箱至室外的进户管线均未计算，各工程见其系统图和平面图（说明：本预算仅用了第二册《电气设备安装工程》定额中相应子目的内容。

未使用第十二册《通信设备及线路工程》专用定额）。

工程量计算表序号工程项目名称单位数量部位提要计算式电话系统1 进户电话交接箱个 1 TP-1-1 尺寸0.4m × 0.65m × 0.16m2 层端子箱暗装个 2 TP-ST010 尺寸0.2m × 0.28m × 0.12m3 用户电话部24 4 × 64 线管暗敷 D25 m 22.60 立管0.6 ＋ 3.6 ＋ 1.2 ＋＋ 5× 3.25 线管暗敷 D15 m 22.27 TP-1-A10.6 ＋ 3.6 ＋ 1.2 ＋＋0.6 ＋ 3.6 ＋2.4 ＋ 1.65 ＋ 2.5 ＋ 4.2＋ 0.66 线管暗敷 D15 m 9.55 TP-1-B1 0.6 ＋ 3.6 ＋ 1.75 ＋ 1.8＋＋ 0.67 线管暗敷 D152F-- —6F 层端箱至 A 户m 64.45（ 0.6 ＋＋ 1.65 ＋ 2.5＋＋4.2 － 1.2 ＋ 0.6 ）× 5 ＋ 3× 3.28 线管暗敷 D152F-- —6F 层端箱至 B 户m 46.85（ 0.6 ＋＋ 1.75 ＋ 1.8＋＋ 0.6 ）× 5 ＋3.2 × 39 管穿 HYV-10X （ 2× 0.5 ）电话电缆m 25.09 22.6 ＋（ 0.4 ＋ 0.650 ）＋（ 0.2 ＋ 0.83 ）× 310 管穿 RVS-2 × 0.5软电话线m 302.32 143.12 ＋（ 0.4 ＋ 0.65 ）×4 ＋（ 0.2 ＋ 0.28 ）× 811 T P 插座暗装个24 4 × 612 T P 插座暗盒个24 4 × 613 端子板外接线头104 10 × 2 × 4 ＋ 2 × 1414 电话系统调试系统1电视系统1 前端放大箱安装个 1 TV-1-1 尺寸0.4m × 0.5m × 0.16m2 二分支器安装个 63 二分支器暗箱个 6 尺寸0.18m × 0.18m × 0.12m4 TV 用户插座暗装个24 4 × 65 TV 插座暗盒安装个24 4 × 66 TV 线管暗敷 D20 m 200.631F T V-1-1 至 L1TV-1-1 至一层分支箱一层分支箱至顶TV-1-1 至 A mmmm8.017.2016.0023.680.6+3.6+1.2+ +1.5=0.6+3.6+1.2+ +0.6=3.2 × 5=0.6+3.6+2.4+1.65+2.5+ +户TV-1-1 至 B 户m9.550.6+0.6+4.2+3.7++0.6=0.6+3.6+1.75+1.8++0.6= 2F 2F — 6F ，分支箱至 A 户2F — 6F ，分支箱至 B 户 m m 100.3535.75（ 0.6+1.2+ +1.65+2.5+ +0.6+0.6+4.2+ +0.6 ）× 5=（ 0.6+ +1.75+1.8++0.6 ）× 5= 7 管穿同轴电缆 SYV-75-5m 201.71192.53+ （ 00.4+0.5 ） +2 ×0.18 × 23 8 管穿电源线 BV=3 × 2.5 m 30[8.1+（0.4+0.5）+（0.5+0.5）]×3 9 系统调试户 126 × 2工程预算表序号定额编号 项目名称 单位 数量综合基价（元） 其中人工费（元）单价 合价 单价 合价一电话系统 1 2-264 进户电话交接箱 台 1 106.96 109.96 39.74 39.742 7-60 楼层端子箱暗装台 2 145.47 290.94 102.23 204.463 2-1010 线管敷设 100M 1.431 302.03 432.20 192.76 275.84123未计价材料表工程预算费用汇总表。

螺纹标准知识归纳螺纹，做机械的天天打交道，时间一长国内的国外的，公制的英制的，直的锥的，密封的非密封的，内的外的，55度的60度的。

总之常常被搞乱，用一次从头到尾查一次，这里也算是归纳总结一下，希望有所帮助，一般做法是常用的打印出来放在桌边，用时随时拿来查看，时间长了就自然记住了。

NPT是一般用途的美国标准锥管螺纹，牙型角为60°PT牙为英制锥螺纹，牙型角为55°，密封中最常用。

英制管螺纹是细牙螺纹，因为粗牙螺纹的牙深大，会严重的降低所切螺纹外径管子的强度。

PF牙是管用平行螺纹。

G 是55度非螺纹密封管螺纹，属惠氏螺纹家族．标记为G代表圆柱螺纹，G是管螺纹的统称(Guan)，55、60度的划分属于功能性的ZG俗称管锥，即螺纹由一圆锥面加工而成，一般的水管接头都是这样的，老国标标注为Rc公制螺纹用螺距来表示，美英制螺纹用每英寸内的螺纹牙数来表示，这是它们最大的区别，公制螺纹是60度等边牙型，加微信：Yuki7557 送宏程序教程一份，英制螺纹是等腰55度牙型，美制螺纹60度。

公制螺纹用公制单位，美英制螺纹用英制单位。

管螺纹主要用来进行管道的连接，其内外螺纹的配合紧密，有直管与锥管两种。

公称直径是指所连接的管道直径，显然螺纹大径比公称直径大。

1/4，1/2，1/8是英制螺纹的公称直径，单位是英寸。

1、英寸制统一螺纹在英寸制国家广泛采用，该类螺纹分三个系列：粗牙系列UNC，细牙系列UNF，特细牙系列UNFF，外加一个定螺距系列UN。

标注方法：螺纹直径—每英寸牙数系列代号—精度等级示例：粗牙系列3/8—16UNC—2A细牙系列3/8—24UNF—2A特细牙系列3/8—32UNFF—2A定螺距系列3/8—20UN—2A第一位数字3/8表示螺纹外径，单位为英寸，转换为米制单位mm要乘以25.4，即3/8×25.4=9.525mm；第二、三位数字16、24、32、20为每英寸牙数(在25.4mm长度上的牙数)；第三位以后的文字代号UNC、UNF、UNFF、UN为系列代号，最后两位2A为精度等级。

武汉体育学院图书馆信息素养大赛竞赛题库1、我校图书馆的图书是按（D）进行排架的A 书名B 出版社C 出版时间D 学科分类2、《中国图书馆图书分类法》共分（D ）大部类（）大类。

A 5，21B 5，20C 6，22D 5，223、在文献检索中，ISBN的含义是 ( A )A 国际标准书号B 国内刊号C 国际标准刊号4、一本书没看完就到期了，还想再看，你应该办理（ B ）手续，才能满足你的需要。

A 预约B 续借C 借书D 预借5、在《中图法》的分类体系结构中,G8类代表（ A ）。

A 体育B 文学C 经济D 语言6、图书馆流通部非开放时间还能够还书吗？（B）A 不能，等流通部上班以后再来。

B 能，使用自助还书箱还书。

7、图书馆每本图书的书脊下端贴有（A）A 索取号B 条形码C 标签8、我校本科生和研究生的借阅册数分别是多少（D）A 3、5B 5、5C 5、10D 5、159、如果你想借阅文学小说，应该在（A）类图书里面查找。

A IB GC KD TP10、图书馆I类文学书能借（ B ）本A 1B 2C 3D 411、我馆采用的图书分类法是( A )。

A 《中国图书馆分类法》B 《科图法》C 《杜威分类法》12、下列任务中哪个人做过图书馆馆员的工作（A）A 毛泽东B 马克思C 恩格斯D 周恩来13、读者使用图书馆馆藏检索系统的用户名是学号，初始密码是（D）A 123456B 111111C 666666D 学号本身14、读者想查阅2005年的某种期刊，应该到图书馆哪个部门查阅（D）A 流通部B 咨询部C 现刊阅览室D 过刊阅览室15、中国于那个朝代有了正式的有文献可考的图书馆—“藏室”（A）A 周朝B 汉朝C 宋朝D 明朝16、我校图书馆期刊阅览室的期刊能外借吗？（B）A 能B 不能C 由馆藏数量决定17、图书馆的外借图书可以续借（A）次A 1B 2C 3D 418、计算机类的图书按《中图法》的分类结构，放在（ A ）类。

地址：上海市虹口区四川北路1851号8楼 邮编：200081 销售热线：(021)51053127/28 传真：(021)51053123TP 系列可编程定时器使用说明书概 述TP 系列数显定时器是我公司推出的新一代预置式定时器。

TP 系列数显定时器采用性能优异的单片微机作为主控部件，具有精度高、定时范围宽、多种定时工作模式（6种）、数字显示、轻触键盘操作、停电预置数据保存永久、抗干扰性能强、外形美观等特点。

TP 系列数显定时器可广泛应用于包装、印刷、制药、食品、纺织、造纸、陶瓷、石油、化工、冶金等行业作延时、定时时间显示和控制，并能实现循环控制输出，满足多种时间控制场合的需要，投放市场以来深受用户欢迎。

:A 、12～42V B 、187～242VAC D 、72×、85～264VAC E 、48×1、1组触点输出 G 、48×、2组触点输出3、1组触点+1组瞬动输出、2组触点+1组瞬动输出1、1路2、2路 4、4路技术参数及功能1.继电器输出组态：1组、2组、带瞬动功能订货确定；2.定时分辨率：10ms ；3.定时精度：±1%+50ms ； 1模式：延时释放(T1定时)；2模式：延时T1吸合，再延时T2后释放，结束； 4模式：延时T1吸合，再延时T2后释放，重复循环；5模式：延时T1释放，再延时T2后吸合，重复循环； 6.复位(清零)方式:复位时显示值、控制输出均复位。

⑴.面板清零键复位(仅计时状态时)；⑵.端子复位(RST,COM 脚短接)：复位信号脉宽≥20ms ，NPN 型无触点信号(0V ≤V L <1V ，2.5V ≤V H ≤5V)或触点信号。

⑶. 断电复位间隔时间≥1s ；7.暂停方式: 暂停时计数显示值保持不变。

端子暂停(PAS,COM 脚短接)：暂停信号脉宽≥20ms ，NPN 型无触点信号(0V ≤V L <1V ，2.5V ≤V H ≤5V)或触点信号。

TILLERPILOT TP10, TP20 & TP30 SERVICE MANUALIssue 4.0 17/09/03SIMRADSimrad Margate LtdStar Lane, Margate, Kent CT9 4NP,UKTelephone +44 (0) 1843 290290Facsimile +44 (0) 1843 290471E-Mail:********************************CONTENTS1 INTRODUCTIONPCBs1.1 ElectronicComponents1.2 Mechanical2 OPERATIONINSTRUCTIONS3 ASSEMBLY4 MECHANICAL ASSEMBLY DRAWINGSDESCRIPTIONS5 CIRCUIT6 CIRCUITDIAGRAMSSchematics6.1 Circuit6.2 Component Lists and Layouts7 PROGRAMMING AND CONFIGURATIONFINDING8 FAULT8.1 Common User Faults8.2 Common Technical Faults9SPARE PARTS DETAIL9.1 SparesAids9.2 Service9.3 AccessoriesNOTES10 TECHNICAL© 2003 Simrad Margate LtdThe technical data, information and illustrations contained in this publication were to the best of our knowledge correct at the time of going to print. We reserve the right to change specifications, equipment, installation and maintenance instructions without notice as part of our policy of continuous development and improvement. No part of this publication may be reproduced, stored in a retrieval system or transmitted in any form, electronic or otherwise without prior permission from Simrad Margate Ltd. No liability can be accepted for any inaccuracies or omissions in the publication, although every care has been taken to make it as complete and accurate as possible.Tiller Pilot TP10, TP20 & TP30Section 1IntroductionIssue 4.0 17/09/03SIMRAD 1INTRODUCTION TO THE TP10, TP20 AND TP30 TILLERPILOTThe TP10, TP20 and TP30 Tillerpilots combine highly sophisticated electronics with advanced software and powerful mechanical drive to provide accurate and reliable steering performance under a variety of different conditions with minimal current consumption.TP10 – is suitable for tiller steered sailing yachts up to 10M (34 Ft) in length.TP20 – offers the same facilities as the TP10 and is fully compatible with the Navico Corus instrument system to provide a complete navigation system. Options offered include connection to an external compass, wind sensor or navigational receiver together with additional remote control facilities.TP30 – offers the same facilities as the TP20 with an improved re-circulating ball screw drive andis suitable for tiller steered sailing yachts up to 12.8M (42 Ft) in length.The main components of the Tiller Pilot are listed below:Electronics PCBsEarly versionsTP10 PCB (TP10 only)TP30 PCB (TP 20 & TP30)Current Versions. The same PCB is used for all products. The wiringloom carrying the NMEA data is left disconnected in the TP10.TP10 / 20 / 30 Re-engineered PCB (Common to all)Mechanical ComponentsGeneral Assy : TP10General Assy : TP20General Assy : TP30Tiller Pilot TP10, TP20 & TP30Section 2OperationIssue 4.0 17/09/03SIMRAD 2OPERATING SIMRADThis Service Manual only contains operating instructions for those features of the Simrad Tiller Pilot range that are not normally available to the end user. For details of normal operation please refer to the appropriate Simrad Instruction Manual.Tiller Pilot TP10, TP20 & TP30Section 3 Assembly Instructions3ASSEMBLY INSTRUCTIONSGeneral Assembly : TP10Motor and Drive Assembly. The Bottom Case Assembly is supplied fitted with appropriate cables. Refer to detail in Drawing Number E03504 and insert the Push Rod Seal E00747, which has a taper inner bore, into the case with the larger bore of the seal facing outwards. Fit “O” Ring 190026, spacer E02870 and End Cap E02495 and push home. Fit Retainer E03084 and secure with 2 screws 200002 to hold the end cap, ensuring it is pushed fully in when the two screws are tightened. Using a small brush, grease the ‘trough’ area and the bore which houses the seal, “O”ring and spacer. Insert the Drive Assembly E03264 ensuring that the bearing slots into the bearing housing and the drive belt 280027 is fitted around the pulley. Insert the Motor Assembly E02788 fitted with front and rear Motor Mounts E02502 and E02503 ensuring that the blue wire is uppermost, the motor sits snugly into the bottom of the retaining slot and the drive belt is engaged over the motor drive pulley. Check that the motor, belt and drive screw assembly move freely. Fit Bearing Clamp E02497 on two Nylon Spacers 200115, one on each screw 200137, into the case bottom and secure the bearing with the two screws. Refer to the sketch below and check that the belt tension is within +/- 3mm.Fit the Tiller Connector E02607 into the end of the Push Rod E02522 and screw in, finger tight.Hall Effect PCB. Fit the Hall effect PCB onto the 2 pillars using 2 nylon washers 200037 as spacers between the pillars and the PCB, and 2 screws 200139. Ensure that the separation distance between the Magnets (E03208), seated in the 71 Tooth Pulley (E02505), and the Hall Effect Devices (140010) does not exceed 1mm.Main PCB. Feed the power, motor and feedback leads through the 2 grommets 190036 and the appropriate grommet in the PCB Assembly cover and solder the connections to the PCB. Refer to drawing and push PCB Assembly firmly onto the four bosses in the PCB Cover E02680. Clip the compass Assembly E02637 into the Drilled PCB Cover E02680, it can only be fitted one way round, ensuring that the lugs on the compass assembly line up with the 2 holes in the PCB cover and push in. Refer to drawing E03504 and ensuring that the wires from the compass to the connector lay over the PCB, insert plug into the socket on the PCB. Ensure all wires are clear of, and not fouling the PCB cover seal, and position the PCB Cover complete with the PCB and compass into the Case Top Assembly E02612. Screw down the PCB cover with 6 screws 200139 and fully tighten. Position the two grommets into case top, and push home into the two slots. Wrap the ‘Wits” fixing 200196 around the cable loom, and using a screw 200139 fix into the top cover.Main Seal. Fit the pivot pin into the square section at the rear of the prepared bottom case ensuring that the pin hangs out of the case with the notch on the pivot facing towards the operating rod of the tillerpilot. Fold the metal pin into its recess in the lower case. Position the Case Seal E02498 onto the case bottom ensuring it is pushed fully into the grooved housing. Carefully lift the case seal from around the area of the pivot pin and using a cotton bud apply Dow Corning 1205 Primer 260029 to the case. Fill a small hypodermic syringe with Dow Corning 3140 Silicone sealant 260001 and run a small bead of sealant completely around the case seal in the area of the square as shown below.Refit the seal onto the case.Final Assembly. Carefully position the case top onto the bottom ensuring that the case seal is correctly located all round, squeeze the top and bottom halves of the case together, and fit the 10 screws 200088. Tighten down evenly all round in the sequence shown below:Post Assembly Test. Remove the Tiller Connector E02607 and push the Tillerpilot Test Syringe Part No. TP-SRY over the end of the Push Rod E02522. Depress the syringe piston and release, the piston should return to its original position indicating that the integrity of the case seal has not been compromised during fitting. Remove the Test Syringe and refit the Tiller Connector. General Assembly : TP20Refer to Drawing No. E03505. Assembly is identical to the TP10 with the following exceptions:Case Bottom. The case bottom includes a third wiring (communications) loom to carry NMEA and CANBUS data.PCB Cover E02681. The PCB Cover is drilled with a third access point and grommet to accept the NMEA and CANBUS data leads.Issue 4.0 17/09/03SIMRAD General Assembly : TP30Refer to Drawing No. E03506. Assembly is identical to the TP20 with the following exception:Drive Assembly E02618. The Drive Assembly employs a re-circulating ball screw. The assembly is held in place by the metal mounting plate sitting in the mounting slots in both top and bottom cases and drive belt tension is adjusted by the inclusion of spacing shims E02754 as required.Tiller Pilot TP10, TP20 & TP30Section 4Mechanical Assembly DrawingsIssue 4.0 17/09/03SIMRAD4MECHANICAL ASSEMBLY DRAWINGSGeneral Assembly : TP10E03504General Assembly : TP20E03505General Assembly : TP30E03506Tiller Pilot TP10, TP20 & TP30Section 5Circuit Descriptions5CIRCUIT DESCRIPTIONSTillerpilot Common PCB AssemblyIntroduction. The PCB Assembly is a common item to all Wheelpilots and Tillerpilots. However, when the PCB is used in the TP10 or WP10 those components concerned with NMEA and CANBUS data are present but not in use, these components are highlighted in Red on the Circuit Diagram Drawing No. E03372.Supply and Regulation. The Tiller Pilots are designed to work from a 12 V source. Protection against incorrect polarity is provided by D1 and D4. Capacitors C1and C3 are used as reservoirs to hold up the supply voltage and reduce any supply dips. Protection against over-voltage spikes is provided by Resistor R2 and Zener Diode ZD1 and Regulator REG1 provides a 5V regulated supply. Transient Voltage Suppresser TVS1 protects the MOSFET drive transistors, TR10 to TR13, from voltage spikes greater than +16V.Microprocessor. Light Emitting Diodes LED1 to LED4 are driven from the microprocessor IC2 Ports P0.0 and P0.2 to P0.4 and turn OFF when the line goes HIGH via the transistor switches TR2 to TR5. When the transistors are off, resistors R32, R34, R36 and R38 provide a low current path for the LEDs to provide low level night illumination. The Audio Resonator AR1 is self resonating and switches ON when Port P0.5 goes HIGH via the transistor switch TR1 and resistors R59 and R60. The control key lines on Ports P4.0 to P4.4, normally pulled to +5V via resistors R7 to R11, are “scanned” by the microprocessor to detect if any of the switches have been operated and pulled the line LOW.NMEA Data In. NMEA data is optically isolated by IC5 and then fed into Port P2.4 of the microprocessor. Transistors TR6, TR7 and TR8 and components D6, D7, D8, R17, R18 and R19 form a switch, protected from high voltages, driven from Port P0.1 of the microprocessor. The switch is used to apply the synchronisation pulse (HR200_SYNC) to the NMEA line for products employing a Hand (Remote) Controller.CANBUS Data. CANBUS data in and out is driven by IC3 directly to and from Ports P2.1 and P2.0 respectively.NB. Components shown in RED on the circuit diagram, Drawing No. E03372, are not in circuit when the PCB is used with WP10 or TP10. The cable loom to connect them is absent from these products.Configuration Links. The Links, L1, L2 and L3, are used to configure the Microprocessor to either Wheelpilot or Tillerpilot operation and to model versions 10, 20 or 30 in accordance with the table below:1 Model Link 1Link 2Link 3TP 10N / C N / C N / CWP 10N / O N /C N / CTP 20N / C N / C N / OTP 30N / C N / O N / OWP 30N / O N / O N / OLEGEND N / C Normally Closed (soldered)N / O Normally Open (unsoldered)Microprocessor Reset. Integrated Circuit IC6 is an integrated reset generator for the microprocessor which produces a reset LOW pulse of approximately 50mS duration at switch on and whenever a 5v supply failure occurs. In addition to the reset provided by IC6, the microprocessor has a built in watchdog timer which will create a reset if a software crash occurs for any reason.Non-Volatile Memory (NVM). Integrated Circuit IC3 provides 1Kbit of E2 memory for the retention of important data after power down.Fluxgate (Compass). Two anti-phase signals are provided from microprocessor Ports P1.7 andP1.6. These signals are buffered by TR15 and TR16 to provide a higher current drive to the excitation coil of the fluxgate. A reference voltage level of +2 volts is provided by R46 and R53 decoupled by C53. The 2 coils, mounted at right angles, provide output signals proportional to the sine and cosine of the Earth’s magnetic field. These signals are fed via the electronic switch IC9,to 2 dual slope integrating analogue to digital converters IC7 and IC 8 plus associated components. The outputs of the comparator IC7 are fed to the microprocessor Ports P1.4 andP1.5 which provide input capture facilities. Accurate timing of the conversion is kept by the microprocessor to provide simultaneous precision analogue to digital conversion of both sine and cosine signals to avoid errors created by multiplexing the inputs.Motor Drive. The motor drive signals (MDRIVE_A and MDRIVE_B) are generated from the microprocessor at Ports P0.7 and P0.6, these lines being LOW when there is no drive and HIGH to drive. The drive outputs control IC10 and IC11 which are comparators set at threshold levels of+4V and +1V produced by the resistor network R71, R72 and R73. The comparators invert the signals and provide the current to switch the MOSFETs in stages which prevents both P and N channel MOSFETs on the same side of the “H-bridge” configuration, (i.e. TR10 and TR11 or TR12 and TR13), being partially switched on at the same time. When there is no drive, both N-channel MOSFETs TR11 and TR13 are switched on giving a direct short across the motor to the 0V linethus providing active brakingEMC. Capacitors with values of 100pF, 100nF and 1nF are extensively used to decouple noise from switched data lines. Two A.C. coupled connections labelled “CHASSIS” , routed via capacitors C63 and C64, were provided for interconnection to the internal metalwork for EMC purposes. Tests have confirmed that connection is not required.Hall Effect PCB.Introduction. The Hall Effect PCB is a generic item which can be used for both Tillerpilots TP10, TP20 and TP30 and Wheelpilots WP10 and WP30. For Tillerpilots, the Hall Effect devices are mounted vertically into the PCB and horizontally for Wheelpilots. The circuit diagram for the Hall Effect PCB is given in Drawing No. E03182.Feedback.Two Hall Effect sensors HE1 and HE2 are mounted on the Hall Effect PCB and sense the rotation of 2 small bar magnets mounted 1800 apart in the pulley wheel. This produces a quadrature feedback output, at logic levels, FB1 and FB2. The PCB is powered from the host unit+5V regulated supply, the line being filtered by C1, and signals FB1 and FB2 are fed back to the microprocessor via pull-up resistors on the host unit PCB.Tiller Pilot TP10, TP20 & TP30Section 6Circuit DiagramsIssue 4.0 17/09/03SIMRAD 6 CIRCUIT DIAGRAMSCircuit SchematicsCommon PCB Circuit Diagram E03372Hall Effect PCB Circuit Diagram E03182Component Lists and LayoutsCommon PCB Assembly Detail E03178Hall Effect PCB Assembly Detail E03184Early Version WP10 / TP10 Assembly Detail E03181Early Version WP30 / TP20/30 Assembly Detail E03178 (Pre Iss. 6)22Tiller Pilot TP10, TP20 & TP30Section 7 Programming and ConfigurationIssue 4.0 19/09/03SIMRAD 7PROGRAMMING AND CONFIGURATIONThis Service Manual only contains programming and configuration information for those features of the autopilot which are not normally available to the end user. For details of normal programming and configuration please refer to the appropriate user manual.Tiller Pilot TP10, TP20 & TP30Section 8Fault FindingIssue 4.0 19/09/03SIMRAD8FAULT FINDINGCommon User Faults. Common user faults are included in the Diagnostics Guide included in the user manual.Common Technical Faults. None yet identified.Tiller Pilot TP10, TP20 & TP30Section 9Spare Parts Detail9SPARE PARTS DETAILSpares PacksTPPK1TP10 / 20 MECHANICAL ASSEMBLY TPPK2TP10 TOP CASETPPK3TP20/30 BOTTOM CASETPPK4TP10 PCB CASETPPK5WITHDRAWNTPPK6FLUXGATE ASSEMBLYTPPK7MOUNTING PIN, CUP AND CONNECTOR TPPK8MOTOR ASSEMBLYTPPK9FEEDBACK KITTPPK10DRIVE BELTTPPK11CASE SCREW PACKTPPK12PUSH ROD SEAL PACKTPPK13CASE SEAL PACKTPPK14TP100 TOP CASETPPK15GREY BOTTOM CASETPPK16TP20 TOP CASETPPK1 7TP20/30 PCB CASETPPK18WITHDRAWNTPPK19WITHDRAWNTPPK20TP30 TOP CASETPPK21COMMON PCB ASSEMBLYTPPK22TP30 MECHANICAL ASSEMBLYTPPK23TP300CX TOP CASETPPK24TP200CX TOP CASETPPK25TP10 BOTTOM CASE9.2AccessoriesTB30TILLER BRACKET 30mmTB60TILLER BRACKET 60mmTB90TILLER BRACKET 90mmTB120TILLER BRACKET 120mmPB30PEDESTAL BRACKET 30mmPB60PEDESTAL BRACKET 60mmPB90PEDESTAL BRACKET 90mmCB1CANTILEVER BRACKETPRE30PUSH ROD EXTENSION 30mmPRE60PUSH ROD EXTENSION 60mmPRE90PUSH ROD EXTENSION 90mmPRE120PUSH ROD EXTENSION 120mmPRE150PUSH ROD EXTENSION 150mmPRE300PUSH ROD EXTENSION 300mm9.3Service AidsTP-SRY TILLERPILOT TEST SYRINGETiller Pilot TP10, TP20 & TP30Section 10 Technical Notes10TECHNICAL NOTESPS 139Identification of Tillerpilot variantsPS 140Improved bonding of drive pulley to motor drive shaft PS 173Positioning of Feedback PCBPS 174Re-engineered Main PCBTechnical NoteFOR THE ATTENTION OF THE SERVICE MANAGER139NUMBER :PSPRODUCT :Tillerpilot – TP100 / TP200CX /TP300C / TP300CX / TP10 / TP20 /TP30SUBJECT:Identification of VariantsDATE: 1 October 1999There are a number of variants of Tillerpilots currently in use which, though similar in appearance, are built and operate differently. Positive identification is therefore essential when ordering spare parts to ensure that the correct item is dispatched.The main aids to identification are:ck of a Hall Effect PCB indicates Back emf, earliest, version.2.Hall Effect PCB with microprocessor mounted in socket indicatesintermediate version.3.Hall Effect PCB with surface mount microprocessor indicateslatest version.A table of variants identified by serial number and drawings, General Assembly, PCB Assembly and Circuit Diagram, to aid identification of the different PCBs, is given below:Issue 4.0 19/09/03 SIMRAD 36TILLERPILOT VARIANTS. The Tillerpilot variants can be conveniently divided into 3 groups:1. Feedback produced from the motor back emf.2. Feedback produced from a Hall Effect PCB.3. Introduction of Surface Mount microprocessor (SMu)TP100Back emf TP200CX Back emf TP300C Back emf TP300CX Back emf TP100Hall Effect TP200CX Hall Effect TP300CX Hall Effect TP200CX SM u TP300CXSM uu No.E02517E02520E02520E02520E03190E03189E03189E03398E03398Man from Start Start Start MK3143PE8818PB1484OD6415Not Yet In Production SerNo.to PE8818PB1483MI2954OD6414Continue Continue ContinueGen Assy E02587Not Issued E02616E02616E03299E03262E03300PCB Assy E02515E02518E02518E02518E03181E03178E03178Cct Diag E02549E02550E02550E02550E03179E03176E03176TP10SM u TP20SM u TP30SM uu No.E03398E03398E03398Man from OL7635OL1384OL7190SerNo.to Continue Continue ContinueGen Assy E03504E03505E03506PCB Assy E03181E03178E03178Cct Diag E03371E03372E03372Issue 4.0 19/09/03SIMRADTechnical NoteFOR THE ATTENTION OF THE SERVICE MANAGER140NUMBER :PSPRODUCT :Tillerpilot – TP100 / TP200CX /TP300C / TP300CX / TP10 / TP20 /TP30SUBJECT:Improved bonding of drive pulleyto motor drive shaft.DATE: 1 October 1999The 20 Toothed Pulley Part No. E02839 is a push fit onto the motor drive shaft, see sketch below, and the bonding is enhanced with Loctite 270 Part No. 260025. Instances have occurred where the bonding has weakened resulting in reduced drive efficiency or operational failure. An improved bonding adhesive Loctite 638 Part No. 260063 has been identified and approved for use. All Tillerpilot repairs should be carried out using the new adhesive.The new bonding agent has been used in the manufacture of all Tillerpilots with the alphabetic prefix PC, 1 March 1999, and subsequent serial numbers. The Product Support Department should be informed of any units found to be slipping post production date 1 March 1999.Issue 4.0 22/09/03SIMRAD。

附件18世界各国螺纹标记检索表在消化引进的国外资料，以及安装和维修引进的外国设备时，经常会在图样（或零件）上和技术文件中遇到各种螺纹标记，有些标记甚至还很不完整。

首先各国的螺纹标记是不完全一致的，另一方面各国螺纹的牙型、公差和标记会随着时间的迁移而发生不同程度的改变，从而给使用者识别不同的螺纹带来许多困难。

本手册根据全国螺纹标准化技术委员会秘书处近年来搜集到的历年在世界各国曾使用过的多种螺纹标记及牙型编制了“世界各国螺纹标记检索表（表B1）及牙型图（表B2）”，表中从各个方面尽可能多地提供有关该标记中所代表之螺纹的信息：如螺纹的名称、用途、来源、各国标准号和牙型等，以满足使用者的需求。

检索表和牙型图的编制目的和方法：1、表中第一栏为螺纹类别代号，为查找方便，基本上是按标记一第一个字母顺序排列的。

2、表中第二栏为标记示例，是本表的核心，也是使用者需要核对的主要内容。

3、表中第三栏为螺纹名称或体系，表明该螺纹的用途或来源，是本表的关键所在。

4、表中第四栏为国别及标准号。

其中标准号后给出年代号者为近年的现行标准，标准号之后无年代号者为早年的标准，有可能与现行标准的规定有所不同，在此仅提供使用者根据资料来源、年代等具体情况自行判断时参考。

5、表中第五栏为牙型号，使用者可根据牙型号在表B2中查到具体的螺纹牙型。

标记中只有极少数螺纹没能给出牙型图。

6、牙型图中的个别牙型在标记中并没有出现，这些牙型图可供仅已知牙型者参考，如图中的50号和124号牙型就属于此种情况。

表B1世界各国螺纹标记检索表螺纹类别代号标记示例螺纹名称或体系国别及标准号牙型号A A99电工螺纹芬兰SFS C.X1.2波兰PN.E.02503瑞士SNV24900(前)苏联OCT403982Acme—C Acme—G 1¾—6Acme-4C1¾—4Acme-2G美国标准对中爱克姆螺纹美国（和英国）的一般用途爱克姆螺纹美国NBS H28(1957)第三章美国NBS H28(1957)第三章加拿大CSA B73英国BS11041636ADMF Aluminium Conduit ¼×24ADMF¾－14AluminiumConduit海军细牙螺纹美国硬铝导管螺纹英国（无国家标准）美国ASA C80.5110AMAMOAN form taper AM8×0.750.800-36AMO¼-28AN form米制细牙螺纹美国标准显微镜物镜螺纹具有美国牙型的锥螺纹德国DIN41282美国NBS H28(1957)第三章英国(无标准)7784162⅜:ftANPTAPL7-thread taper⅜:ft⅜-18ANPT1⅝×2⅝APL7-thread美国航空锥管螺纹美国石油学会绳式顿钻7牙螺纹美国Mil.P7105美国API STD31035BS Conduit BS Conduit英国标准电导线管螺纹英国BS31新西兰NZSS127南非SABS1621螺纹类别代号标记示例螺纹名称或体系国别及标准号牙型号BS Copper Pipe½BS Copper PipePipe英国标准铜管螺纹英国BS61Part29BS Cy BSF ¾-26BS Cy½in.-16BSF(free)bolt英国标准自行车螺纹英国标准细牙螺纹英国BS949英国BS84澳大利亚SAA B47251BSF trune⅝BSF trune平牙顶的英国标准细牙螺纹英国BS84澳大利亚SAA B4713BS Gas Cylinder0.715×14BS GasCylinder 英国标准气瓶螺纹英国BS141澳大利亚SAA CB421BS Insulator⅝BS InsulatorBS16BS InsulatorBS137英国标准(通信机)绝缘体螺纹英国标准(通信机)绝缘体螺栓螺纹英国BS16新西兰NZSS490英国BS137澳大利亚SAA C67英国BS137383749115BS Metric18mm×2.5mm.BS Metric米制螺纹英国BS9193或15 BSMO0.800-36BSMO英国标准显微镜物镜螺纹英国BS1BSP.F½in.BSP.FMed.Ext 英国标准圆柱管螺纹英国BS2779澳大利亚SAA.B1541BSP.F.trunc1in.BSP.F.FreeExt.trunc 英国标准平牙顶圆柱管螺纹英国BS2779澳大利亚SAA.B15413BSP.L¾BSP.L英国标准圆柱外管长螺纹英国BS21-1957澳大利亚SAA.B53新西兰NZSS241BSP(parallel)½BSP(parallel)英国标准圆柱管螺纹英国BS21-1938澳大利亚SAA.B53英国BS9491BSP.P11½BSP.P1英国标准圆柱内管螺纹英国BS21-1957澳大利亚SAA.B53新西兰NZSS241BSP taper for Copper Pipe 1⅛×11BSP taper forCopper Pipe用于铜管的英国标准圆锥管螺纹英国BS61Part29BSP Tr¾BSP Tr.Ext英国标准锥管螺纹英国BS21-1957澳大利亚SAA.B53新西兰NZSS249BS Round for Fire Hose Couplings 3·2378×2tpiBS Roundfor Fire Hose Couplings用于消防软管接头的英国标准圆弧螺纹英国BS33620BSRound forFireHose Couplings 5⅛3tpiBS Round forFire Hose Coupling用于吸力软管接头的英国标准圆弧螺纹32BSRound for Fire Nozzle Type C 2·075×5tpi BS Roundfor Frie Nozzle Type C用于C型消防喷头的英国标准圆弧螺纹英国BS3368Gas pipe paral lel Gas pipe taperGas PI.Gaz conique 1Gas pipe paral lel1Gas pipe taper1Gas pipe taper1⅛-11Gas PI.2Gaz conique英国标准圆柱管螺纹英国标准圆锥管螺纹煤气圆锥管螺纹英国标准圆柱管螺纹英国标准圆锥管螺纹日本JIS B0203日本JIS B0203日本JIS B0203英国(无标准)法国NF PN E03-0041914419续表B1螺纹类别代号标记示例螺纹名称或体系国别及标准号牙型号Gaz cylindrique NH(SPL) NHSNMNPSNPSCNPSFNPSGNPSHNPSINPSLNPSMNPTNPTCNPTF NPTFE NPTFINPTGNPTRNS2Gaz cylindrique4-6NH(SPL)0.8×0.2NHS80NHS1.0×0.25NHS80NM⅛-27NPSNPSC⅛-27NPSF⅛-27NPSG1-11½NPSH⅛-27NPSI⅛-27NPSL⅛-27NPSM⅛-27NPT2/4-14NPTC-2⅛-27NPTF-1¼NPTFE¼NPTFI¾-14NPTG½-14NPTR¼-24NS-1¼-24NS-1A¼-24NS-1AR0.6500-19NS-21-32NS2A英国标准圆柱管螺纹美国国家特殊消防软管接头螺纹米制50º瑞士钟表螺纹米制60°细牙瑞士钟表螺纹美国国家小螺纹美国标准圆柱管螺纹美国管接头的圆柱内螺纹美国标准燃料干密封圆柱内螺纹美国标准加油接头螺纹美国标准软管接头用圆柱螺纹美国管接头的圆柱内螺纹美国标准防松螺母用圆柱管螺纹美国标准机械联结用圆柱管螺纹美国标准锥管螺纹美国标准(氯气用)锥管螺纹美国标准干密封锥管螺纹美国标准燃料干密封锥管外螺纹美国标准燃料干密封锥管内螺纹美国标准煤气罐用锥管螺纹美国标准围栏接头用锥管螺纹美国国家特殊螺纹美国标准特殊统一螺纹照相机螺纹法国NF PN E03-004美国NBS H28(1957)第二章瑞士NHS56100瑞士NHS56100美国NBS H28(1957)第一章美国NBS H28(1957)第二章美国ANSI B1.20.1-83美国ANSI B1.20.3-76美国1961的SAE手册美国ANSI B1.20.1-83美国ANSI B1.20.3-76美国ANSI B1.20.1-83美国ANSI B1.20.1-83美国ANSI B1.20.1-83美国ASA B2.1美国ANSI B1.20.3-76美国ASA B70.1美国ASA B70.1美国ASA B1.2美国ANSI B1.20.1-83美国NBS H28(1957)第一章美国NBS H28(1957)第三章美国ASA PH22.76加拿大CSAZ7.1.4.612523967343422156222462101022222210102444P”PPE Pennszilvaniai1”P”P16P⅝28PP65×1/63/16”PEPennszilvaniai No.102Pennszilvaniai No.159Pennszilvaniai No.191Pennszilvaniai No.229Pennszilvaniai No.267Pennszilvaniai No.305英国标准锥管螺纹电线钢皮管螺纹API抽油杆用螺纹PILFRPROOF螺纹30º圆弧螺纹英国标准惠氏螺纹宾夕法尼亚索绳式顿钻螺纹以色列S150.3(前)捷克斯洛伐克CSN01.4035波兰PN.E02502罗马尼亚STAS997瑞典SIS711049芬兰SFS Z111.1瑞士VSM12000匈牙利MNOSZ31859127898441132Pg PG PGGPg 16PG 4PGG ¾电线钢皮管螺纹API 油管螺纹API 抽油杆用螺纹德国DIN 40430瑞士SNV 24441德国DIN 9514/2德国DIN 9546/2英制螺纹基本尺寸表(㎜)尺寸代号螺距P牙高H每英寸牙数大径(基准直径)中径小径间隙C´间隙E´1⅝ 5.08 3.04540.8538.02234.770.4250.751¾ 5.08 3.038544.0241.19837.9450.430.7551⅞ 5.644 3.3764½47.1544.01140.3970.4750.8332 5.644 3.3744½50.3247.48643.5720.480.8382¼ 6.35 3.801456.6253.08449.0190.530.9412½ 6.35 3.801462.9759.43455.3690.530.9412¾7.257 3.3523½69.2665.20460.5570.59 1.07337.257 3.3523½75.6171.55466.9070.59 1.0733¼7.815 4.6843¼81.9177.54672.5420.64 1.1583½7.815 4.6843¼88.2683.89678.8920.64 1.1583¾7.467 5.071394.5589.8284.4090.7 1.25148.4675.0713100.996.17690.7590.71.251如：2.281"=2+0.281*32/32=29/32TPI 表示粗牙WHIT 表示细牙是为55°的螺纹。

modbus功能码10报文举例说明在Modbus通信协议中，功能码10用于写多个寄存器的操作。

下面是一个功能码10报文的例子，以便更好地理解其结构和用法。

首先，功能码10报文由以下部分组成：1. 从站地址：报文的第一个字节是从站地址，用于指定要操作的从站设备。

该地址通常是一个唯一的标识符，用于区分不同的设备。

2. 功能码：紧接着从站地址的下一个字节是功能码，这里使用功能码10表示要进行写操作。

3. 起始地址：接下来的两个字节表示要写入数据的起始寄存器地址。

通过指定起始地址，我们可以告诉从站设备要写入哪些寄存器的数据。

4. 寄存器数量：紧跟在起始地址后的两个字节表示要写入数据的寄存器数量。

这告诉从站设备要写入多少个连续的寄存器。

5. 字节数：下一个字节表示后续数据的字节数。

在功能码10中，每个寄存器的值需要用两个字节表示，所以字节数等于寄存器数量的两倍。

6. 数据：最后，报文中包含实际要写入的数据。

根据字节数指定的数量，每个数据值占两个字节。

举个例子，假设我们要将5个寄存器的值写入地址为1000的起始地址。

这个报文可以表示为：从站地址 | 功能码 | 起始地址 | 寄存器数量 | 字节数 | 数据------------------------------------------------1 | 10 | 03 E8 | 05 | 0A | 0F A0 21 75 92上述报文的含义是，将数据0x0FA0217592写入从站设备地址为1的寄存器1000至1004。

这是一个简单的功能码10报文的例子，用于说明如何使用Modbus协议的功能码10进行写入操作。

根据实际需求，起始地址、寄存器数量和数据可以根据实际情况进行修改。

Modbus协议提供了丰富的功能码，可以满足不同的通信需求。

TP（触摸屏）事件在多种应用场景中都非常常见，它们通常涉及到用户与设备的交互。

以下是一些常见的TP事件应用场景：
1. 智能手机和平板电脑：在这些设备上，用户通过触摸屏幕来进行操作，如滑动、点击、长按等。

TP事件用于检测和响应用户的触摸行为，实现应用程序的用户界面交互。

2. 计算机操作系统：许多现代操作系统支持触摸屏输入，TP事件用于处理用户在触摸屏上的操作，如窗口管理、应用程序切换等。

3. 汽车导航系统：在现代汽车中，导航系统经常使用触摸屏来提供用户界面。

TP事件用于导航系统的交互，如输入目的地、查看地图、选择音乐等。

4. 信息亭和自助服务终端：这些终端通常使用触摸屏来提供用户交互界面，TP事件用于处理用户的查询和交易，如购票、查询信息等。

5. 游戏控制：一些游戏可能会使用触摸屏作为控制机制，TP事件用于捕捉玩家的触摸输入，实现游戏角色的移动、攻击等操作。

6. 教育工具：在教育领域，触摸屏可以用于互动学习应用程序，TP事件帮助跟踪学生的触摸操作，以评估学习进度和理解程度。

7. 医疗设备：一些医疗设备可能使用触摸屏来允许医护人员进行操作，TP事件用于确保设备的准确响应，如输入患者信息、调整设备设置等。

8. 工业控制系统：在制造业和工业自动化中，触摸屏可以用于控制面板，TP事件用于确保对机器的精确控制，如启动、停止、监控等。

在设计和开发这些应用时，开发者需要考虑TP事件的捕获、处理和响应，以确保用户界面友好、响应迅速且准确无误。

美制螺丝规格（共4篇）以下是网友分享的关于美制螺丝规格的资料4篇，希望对您有所帮助，就爱阅读感谢您的支持。

美规螺丝规格表篇一美制外螺纹（2A）常用规格极限尺寸表（粗牙）公称尺寸和每英寸牙数螺纹系列代号大径极限最小最大中径极限最小最大小径max 0.1248 3.1699 0.1379 3.5027 0.1639 4.1631 0.1876 4.7650 0.2431 6.1747 0.2970 7.5438 0.3485 8.8519 0.4041 10.2641 0.4587 11.6510 0.5119 13.0023 0.6255 15.8877 0.7368 18.7147 0.8446 21.4528螺胚直径最小最大8-32(0.164-32)0.1571 3.9903 0.1818 4.6177 0.2078 5.2781 0.2408 6.11630.3026 7.6860 0.3643 9.2532 UNC 0.4258 10.8153 0.4876 12.3850 0.5495 13.9573 0.6113 15.5270 0.7353 18.6766 0.8592 21.8237 0.9830 24.96820.1631 4.1427 0.1890 4.8006 0.2150 5.4610 0.2489 6.3221 0.3113 7.9070 0.3737 9.4920 0.4361 11.0769 0.4985 12.6619 0.5609 14.2469 0.6234 15.8344 0.7482 19.0043 0.8731 22.1767 0.9980 25.34920.1399 3.5535 0.1586 4.0284 0.1845 4.6863 0.2127 5.4026 0.2712 6.8885 0.3287 8.3490 0.3850 9.7790 0.4435 11.2649 0.5016 12.7406 0.5589 14.1961 0.6773 17.2034 0.7946 20.1828 0.9100 23.11400.1428 3.6271 0.1619 4.1123 0.1879 4.7727 0.2164 5.4966 0.2752 6.9901 0.3331 8.4607 0.3897 9.8984 0.4485 11.3919 0.5068 12.8727 0.5644 14.3358 0.6832 17.3533 0.8009 20.3429 0.9168 23.28673.584.07 4.725.456.94 8.40 9.83 11.34 12.80 14.27 17.28 20.27 23.223.614.10 4.755.486.98 8.44 9.87 11.38 12.84 14.32 17.33 20.32 23.2710-24(0.190-24)12-24(0.216-24)1/4-20(0.250-20)5/16-18(0.3175-18)3/8-16(0.375-16)7/16-14(0.4375-14)1/2-13(0.50-13)9/16-12(0.5625-12)5/8-11(0.625-11)3/4-10(0.750-10)7/8-9(0.875-9)12 5.69 7.17 8.75 10.19 11.78 13.27 14.85 17.91 20.93 23.90 3.67 4.27 4.85 5.71 7.20 8.78 10.23 11.82 13.31 14.89 17.95 20.97 23.9510-32 (0.190-32) 12-28 (0.216-28) 1/4-28 (0.250-28) 5/16-24 (0.3175-24) 3/8-24 (0.375-24) 7/16-20 (0.4375-20) 1/2-20 (0.50-20) 9/16-18 (0.5625-18) 5/8-18 (0.625-18) 3/4-16 (0.750-16) 7/8-14 (0.875-14)10.3950 10.0330 0.4570 11.6078 0.5150 13.0810 0.5780 14.6812 0.6960 17.6784 0.8140 20.6756 0.9280 23.57120.1460 3.7084 0.1697 4.3104 0.1928 4.8971 0.2268 5.7607 0.2854 7.2492 0.3479 8.8367 0.4050 10.2870 0.4675 11.8745 0.5264 13.3706 0.5889 14.9581 0.7094 18.0188 0.8286 21.0464 0.9459 24.02590.1496 3.7998 0.1736 4.4094 0.1970 5.0038 0.2311 5.8699 0.2902 7.3711 0.3528 8.9611 0.4104 10.4242 0.4731 12.0167 0.5323 13.5204 0.5949 15.1105 0.7159 18.1839 0.8356 21.2242 0.9535 24.21893.454.00 4.555.406.85 8.45 9.85 11.40 12.85 14.45 17.40 20.35 23.903.674.27 4.855.71 7.20 8.78 10.23 11.82 13.31 14.89 17.95 20.97 23.9510-32(0.190-32)12-28(0.216-28)1/4-28(0.250-28)5/16-24(0.3175-24)3/8-24(0.375-24)7/16-20(0.4375-20)1/2-20(0.50-20)9/16-18(0.5625-18)5/8-18(0.625-18)3/4-16(0.750-16)7/8-14(0.875-14)1英制螺丝规格对照表篇二名义尺寸BANo. 14No. 11No. 10No. 9No. 8No. 7No. 3No. 2No. 0BABABABABABABABABA() -- (BA)每英寸牙大径螺距数中径小径mmmmtpimm外螺纹10.23110.40.860.721.50.3181.931.3151.131.70.3572.571.491.28 1.90.3965.121.6651.432.20.4359.071.941.682.50.4852.922.211. 924.10.7334.793.663.224.70.8131.354.2153.736125.45.44.8牙型高H10.140.1850.210.2350.260.290.440.4850.6°圆锥管螺纹型式和尺寸5555°（2006-03-13 14:38:47 ）基本尺寸英寸R 1/8R 1/4R 3/8R 1/2R 3/4R 2R 2 1/2R 4R 61/8＂1/4＂3/8＂1/2＂3/42＂ 2 1/246＂大径mm9.72813.15716.66220.95526.44159.61475.184113.03163.83螺距mm0.9071.3371.3371.8141.8142.3092.3092.3092.309每英寸牙数tpi[***********]中径mm9.14712.30115.80619.79325.27958.13573.705111.551162.3 51小径外螺纹8.56611.44514.9518.63124.11756.65672.226110.072160.872牙型高度H10.5810.8560.8561.1621.1621.4791.4791.4791.479名义尺寸Ww1/8＂5/32＂3/16＂7/32＂1/45/16＂3/81/2＂5/8＂7/81 1/2＂1 5/8＂1 3/41 7/8＂22 1/23 1/4＂3 1/2＂3 3/4＂4＂ 4 1/44 1/2＂ 4 3/45 1/4＂ 5 1/2＂6BSWBSWBSWBSWBSWBSWBSWBSWBSWBSWBSWB SWBSWBSWBSWBSWBSWBSWBSWBSWBSWBSWBS WBSWBSWBSW大径mmd=D3.1753.9694.7625.5566.357.9389.52512.715.87622.22 638.141.27744.45247.62750.80263.50282.55388.90395.254101 .604107.954114.304120.665133.355139.705152.406制惠氏螺纹的型式尺寸英制普通螺纹(惠氏螺纹) -- 粗牙(BSW)每英寸牙螺距数中径小径mmtpimm外螺纹pd2=D2d30.635402.7682.3620.793323.4592.9521.058244.084 3.4071.058244.8784.2011.27205.5374.7241.411187.0346.1311. 588168.5097.4922.1171211.3459.992.3091114.39712.9182.822 920.41918.6114.233635.39132.685.08538.02434.7715.08541.19 937.9465.6454 1/244.01240.3985.6454 1/247.18743.5736.35459.43655.377.81631/477.54872.5447.81631/483.89978.8948.467389.83284.418.467396.18290.768.8352 7/8102.29796.6398.8352 7/8108.647102.999.23723/4114.74108.6259.6772 5/8127.159120.9639.6772 5/8133.509127.31310.162 1/2145.9139.394牙型高H10.4060.5070.6770.6770.8130.9041.0171.3551.4791.8072.7 113.2533.2533.6143.6144.0665.0055.0055.4225.4225.6575.657 5.9156.1966.1966.506英制普通螺纹-- 细牙-- BSF英制普通螺纹(惠氏螺纹) -- 细牙(BSW)每英寸牙大径螺距数中径小径mmmmtpimm外螺纹d=Dpd2=D2d35.5560.907284.9754.3946.350.977265.7255.17. 1420.977266.5185.8937.9381.156227.1996.4599.5251.27208.7 127.89911.1131.4111810.2099.30417.4631.8141416.315.13719. 052.1171217.69316.33622.2252.3091120.74719.26928.5752.82 2926.76924.96338.13.175836.06834.03641.2753.175839.24337 .21144.453.629742.12639.80250.83.629748.47646.15257.154.2 34654.4451.7369.854.234667.1464.4382.555.08579.29676.042 88.95.6454 1/285.28581.6795.255.6454 1/291.63588.02101.65.64541/297.98594.37107.956.354103.88699.822名义尺寸BSF7/321/49/325/163/87/1611/163/47/81 1/81 1/21 5/81 3/422 1/42 3/43 1/43 1/23 3/44 4 1/4 BSFBSFBSFBSFBSFBSFBSFBSFBSFBSFBSFBSFBSFBS FBSFBSFBSFBSFBSFBSFBSF牙型高H10.5810.6250.6250.7390.8130.9041.1621.3551.4791.8072.0332.0332.3242.3242.7112.7113.2533.6143.6143.6144.066G 1/81/8°圆柱管螺纹的型式和尺寸5555°British Pipe Thread () -- (BSPP/BSPF)每英寸牙大径螺距数中径小径牙型高度mmmmtpimmH1外螺纹9.7280.907289.1478.5660.581G 7/8G 1G 1 1/8G 1 1/4G 1 1/2G 2 1/4G 2 1/2G 2 3/4G 3G 3 1/4G 3 3/4G 4 1/2G 5G 67/8＂11 1/8＂1 1/41 1/22 1/4＂2 1/2＂ 2 3/43＂ 3 1/43 3/44 1/2＂5＂6＂30.20133.24937.89741.9147.80365.7175.18481.53487.88493.9 8106.68125.73138.43163.831.8142.3092.3092.3092.3092.3092. 3092.3092.3092.3092.3092.3092.3092.[***********][******* *******].03931.7736.41840.43146.32464.23173.70580.05586. 40592.501105.201124.251136.951162.35127.87730.29134.9393 8.95244.84562.75272.22678.57684.92691.022103.722122.7721 35.472160.8721.1621.4791.4791.4791.4791.4791.4791.4791.47 91.4791.4791.4791.4791.479RC2英寸锥管螺纹，每英寸11牙，螺距=25.4/11即2.309，牙高（深）=2.309×0.64即1.479，R等于1/32乘以长度1/32意思是，锥螺纹的锥度是1：16 ，单边就是1：32长度意思是：定位点加有效长度比如我定位 3.0，有效长度是12.0R=1/32 X（3+12）=0.468751、密封管螺纹（R）英制密封管螺纹的基本尺寸及其公差配合方式英制密封管螺纹有两种配合方式：圆柱内螺纹与圆锥外螺纹组成“柱/锥”配合；圆锥内螺纹与圆锥外螺纹组成欧洲国家主要采用“柱/锥”配合螺纹；而欧洲以外国家则主要采用“柱/锥”配合螺纹.两种螺纹的检验量规存在编辑本段密封管螺纹的标记英制密封管螺纹的完整标记由螺纹特征代号、螺纹尺寸代号和旋向代号组成.英制密封圆柱内螺纹的特征代号为：RP；英制密封圆锥内螺纹的特征代号为：RC；英制密封圆锥外螺纹的特征代号为：R1（与英制密封圆柱内螺纹配合使用）；R2（与英制密封圆锥内螺纹配合使用）；左旋螺纹的旋向代号为LH；右旋螺纹的旋向代号省略不标.对密封管螺纹，利用RP/R1，RC/R2分别表示“柱/锥” 和“锥/锥”螺纹副.2、非密封管螺纹英制非密封管的基本尺寸及其极限偏差标记:英制非密封管螺纹的完整标记由螺纹特征代号，螺纹尺寸代号，中径公差等级代号和旋向代号组成.英制非密封圆柱螺纹的特征代号为：G对英制非密封圆柱内螺纹，其中径公差等级代号省略不标；而英制非密封圆柱外螺纹的中径公尺等级代号分左旋螺纹的旋向代号为LH；右旋螺纹的旋向代号省略不标.当表示英制非密封管螺纹的螺纹副时，仅标注外螺纹的标记代号.示例：尺寸代号为2的右旋，非密封圆柱内螺纹：G2尺寸代号为3的A级，右旋，非密封圆柱外螺纹：G3A B-LH 尺寸代号为4的B级，左旋，非密封圆柱外螺纹：G4G4 尺寸代号为2的右旋，非密封圆柱内螺纹与A级圆柱外螺纹组成的螺纹副：G2A加工内孔螺纹的是管螺纹丝锥加工外螺纹的有板牙。

在启动和登录成功以后，浏览器会显示管理员模式的画面。

在左侧菜单栏中，共有“运行状态”、“设置向导”、“网络参数”、“dhcp服务器”、“转发规则”、“安全设置”、“路由功能”和“系统工具”八个菜单。

单击某个菜单项，您即可进行相应的功能设置。

在使用过程中，如果您对本产品的功能有任何疑问，您只需单击该页面的“帮助”按钮，即可获得详细的联机帮助。

下面将详细讲解各个菜单的功能。

运行状态本页显示路由器工作状态1)lan口状态此处显示当前lan口的mac地址、ip地址和子网掩码。

2) wan口状态此处显示当前wan口的mac地址、ip地址、子网掩码、网关和dns服务器。

同时右侧将显示用户上网方式(pppoe/动态ip/静态ip)。

如果用户的上网方式为pppoe(adsl拨号上网)的话，当用户已经连接internet时，此处将会显示用户的上网时间和“断线”按钮，单击此按钮可以进行即时的断线操作，当用户尚未连接internet时，此处将会显示“连接”按钮，单击此按钮可以进行即时的连接操作。

3) wan口流量统计此处显示当前wan口接收和发送的数据流量信息。

网络参数在“网络参数”菜单下面，共有“lan口设置”、“wan口设置”和“mac地址克隆”三个子项。

单击某个子项，您即可进行相应的功能设置，下面将详细讲解各子项的功能。

LAN口设置本页设置lan口的基本网络参数。

1 mac地址：本路由器对局域网的mac地址，此值不可更改。

2 ip地址：本路由器对局域网的ip地址。

该ip地址出厂设置为 192.168.1.1，您可以根据需要改变它。

ATTENTION：如果您改变了本ip地址，您必须用新的ip地址才能登录路由器进行web界面管理，并且局域网中所有计算机的默认网关必须设置为该ip地址才能正常上网。

3子网掩码：本路由器对局域网的子网掩码，可以在下拉列表中选择b类(255.255.0.0)或c类(255.255.255.0)地址的子网掩码。

螺纹规格表英制螺纹规格表螺纹规格表篇(1):螺纹标准大全螺纹标准大全螺纹，做机械的天天打交道，尤其是做液压气动的，时间一长国内的国外的，公制的英制的，直的锥的，密封的非密封的，内的外的，55度的60度的。

总之常常被搞乱，用一次从头到尾查一次，我这里也算是归纳总结一下，希望有所帮助，我的做法是常用的打印出来放在桌边，用时随时拿来查看，时间长了就自然记住了。

一NPT是一般用途的美国标准锥管螺纹，牙型角为60°PT牙为英制锥螺纹，牙型角为55°，密封中最常用。

英制管螺纹是细牙螺纹，因为粗牙螺纹的牙深大，会严重的降低所切螺纹外径管子的强度。

PF牙是管用平行螺纹。

G是55度非螺纹密封管螺纹，属惠氏螺纹家族．标记为G代表圆柱螺纹，G是管螺纹的统称(Guan)，55、60度的划分属于功能性的ZG俗称管锥，即螺纹由一圆锥面加工而成，一般的水管接头都是这样的，老国标标注为Rc公制螺纹用螺距来表示，美英制螺纹用每英寸内的螺纹牙数来表示，这是它们最大的区别，公制螺纹是60度等边牙型，英制螺纹是等腰55度牙型，美制螺纹60度。

公制螺纹用公制单位，美英制螺纹用英制单位。

管螺纹主要用来进行管道的连接，其内外螺纹的配合紧密，有直管与锥管两种。

公称直径是指所连接的管道直径，显然螺纹大径比公称直径大。

1/4，1/2，1/8是英制螺纹的公称直径，单位是英寸。

二1、英寸制统一螺纹在英寸制国家广泛采用，该类螺纹分三个系列：粗牙系列UNC，细牙系列UNF，特细牙系列UNFF，外加一个定螺距系列UN。

标注方法：螺纹直径—每英寸牙数系列代号—精度等级示例：粗牙系列3/8—16UNC—2A细牙系列3/8—24UNF—2A特细牙系列3/8—32UNFF—2A定螺距系列3/8—20UN—2A第一位数字3/8表示螺纹外径，单位为英寸，转换为米制单位mm要乘以25.4，即3/8×25.4=9.525mm；第二、三位数字16、24、32、20为每英寸牙数(在25.4mm长度上的牙数)；第三位以后的文字代号UNC、UNF、UNFF、UN为系列代号，最后两位2A为精度等级。