CCV入门手册

概述Community Core Vision，简称CCV，一个开放源代码的计算机视觉与机器传感的跨平台解决方案。

它需要一个视频输入流用来捕获数据，将数据处理之后，输出追踪数据（如触点坐标和触点大小等）以及触摸事件（如手指按下、移动和按下并保持等），这些都是构建多点触摸应用程序的基本要素。

CCV可以与各种网络摄像头或视频采集设备协同工作，通过支持TUIO/OSC/XML的应用程序进行数据连接，并且支持包括FTIR、DI、DSI和LLP等在内的多种基于光学的多点触摸硬件方案。

CCV具有众多优秀的特性：--简单易用的图形用户界面。

λλ --滤镜（动态的背景相减、高通、缩放、阈值算法），可以与所有的光学硬件设备协同工作，支持自定义滤镜模块。

λ --摄像机切换，如果你有多个视频采集设备，你可以通过动态切换传入的视频信号，不需要重启程序。

λ --输入模式切换，可以使用一段视频录像来代替摄像机。

λ --动态网格校准，因为设备的大小差异，导致触点的移动速度和大小不能更好地与应用程序结合，你可以通过调校，添加/减少触点，增加/减小触点尺寸，以达到最佳性能。

λ --图像翻转，支持图像水平或垂直翻转。

λ --网络广播，支持发送OSC/TUIO协议信息到某一端口，以此让应用程序读取并进行处理。

λ --摄像机和应用程序帧频显示，可以实时显示当前摄像机和应用程序的FPS数值。

--GPU模式，支持GPU硬件加速。

λλ --跨平台，支持Windows、Mac和Linux。

这部分内容将讲述了CCV的使用、配置和校准，了解CCV的各个部分和操作方法对搭建完整的多点触摸技术方案有着重要的作用。

系统要求Intel/AMD 2.0GHz CPU，1GB内存，100MB剩余磁盘空间，nViDIA或AMD独立显卡，Windows XP/Vista/7，Mac OS X Leopard/Snow Leopard(PPC/Intel),Ubuntu/Debian。

中兴C C V版本O L T开局配置手册Standardization of sany group #QS8QHH-HHGX8Q8-GNHHJ8-HHMHGN#中兴C320/C300 V2版本OLT开局配置手册Enable密码：zxr10clock set xxxx (设置系统时间)config terhostname FY_XXXXXXX_OLT_C320 (站点名字改在XXXXX)snmp-server community public view allview rwsnmp-server host xxxxxxxx version 2c public enable NOTIFICATIONS target-addr-name EMS_xxxxxxxxx isnmsserver udp-port 162 trap-report-compatibility v20snmp-server packetsize 8192vlan xx (网管VLAN)exinterface vlan xx (配置网管VLAN IP)ip address XXXXXXXXexXXXX (配置默认路由)add-rack rackno 1 racktype C320Rackadd-shelf rackno 1 shelfno 1 shelftype C320_SHELFadd-card rackno 1 shelfno 1 slotno 1 ETGHadd-card rackno 1 shelfno 1 slotno 3 PRAMadd-subcard rackno 1 shelfno 1 slotno 4 subcardno 1 UCDC/3interface gei_1/4/1（根据现场上联口确定）no shutdownswitchport mode trunkswitchport vlan X,XX,1000-1999 tag(根据实际业务VLAN配置)业务配置1、PON接口下面添加ONU （型号及MAC地址）interface epon-olt_1/1/12、配置ONU上行口interface epon-onu_1/1/1:1admin enableswitchport mode trunk vport 1service-port 1 vport 1 user-vlan 1000 vlan 1000service-port 2 vport 1 user-vlan 1001 vlan 1001service-port 3 vport 1 user-vlan 1002 vlan 1002service-port 4 vport 1 user-vlan 1003 vlan 10033、配置ONU业务端口pon-onu-mng epon-onu_1/1/1:1auto-configvlan port eth_0/1 mode tag vlan 1000 priority 0vlan port eth_0/2 mode tag vlan 1001 priority 0vlan port eth_0/3 mode tag vlan 1002 priority 0vlan port eth_0/4 mode tag vlan 1003 priority 0!ENDWrite (保存配置)网管网元添加：添加网管时选择网元。

To Configure with an Ethernet Cable:Although the CC Vector can be set up from a tablet or a smartphone, it may be easier to use a computer using the included 18” Ethernet cable.Connect the Ethernet cable to your computer’s Ethernet port and to either of the CC Vector’s Ethernet ports on the back of the device. Configure Wirelessly (most popular way):(Internet browser required).1. From your computer, tablet, smartphone or WiFi device, go to the WiFi Settings/Connections and connect to the WiFi Network Name listed on the sticker underneath theCC Vector.2. Enter the WiFi Password when prompted.1WiFi Network Name ORNOTE:Please do not skip any steps. Steps “B1” or “B2” must be done before proceeding.121After plugging in the AC Power cord into the CC Vector Repeater, wait 1 - 2 minutes.Leave this unplugged Attach the small antenna to the CC Vector ™53Connect the 1.5 ft. USB Amplifier cable 4Plug into the CC Vector ™ Connect the CC DX Mile ™to the 30 ft.cable. Make sure to insert cable tip completely inside connector.Connect the AC power plug into a wall outlet 6Attach the large antenna:Please follow the included Antenna Assembly /Mounting guide.See Page 5 for weatherproofing.™Please assemble all items as pictured before proceeding.V15-20222After confirming you have completed Step “B”, open the Internet Browser screen on your device and enter 192.168.18.1 into the Address Bar. Press “Enter” on your keyboard.NOTE: At this point you are connected to the CC Vector but your browser will likely tell you that you are not connected to the internet.This is normal because the CC Vector is not yet setup. Continue with the setup.NOTE: For best performance, your signal should be higher than 50%. For a better signal, try adjusting the orientation and placement of the USB antenna - then click “Rescan” to see if the signal is higher.NOTE: If network in Step “D” does not require a password, then you will not get thisscreen. Proceed to Step “F”.Click onthe WiFinetwork thatyou wantto repeat..3The system will reboot. Please make sure your computer, phone or tablet stays connected to “CCrane” and does not automatically connect to another WiFi network. If no response after 1 minute then close and re-open your web browser screen.If “Status” is “Connected” and “Internet Access” is “Yes”, then you are finished with the setup.Bookmark this page with your web browser in case you need to return to it to check the connection or change networks. You can now close this screen and continue using the internet normally.You should now see a screen similar to this: (Screens may vary on some devices).If “Status” is “Connected” and “Internet Access”is “No”, please wait for 5 to 10 minutes. If no change, please see “Troubleshooting and Tips” #2.Troubleshooting and Tips1. No “Network Names” are showing under the titles for Step “D” under “Pick network to extend” or it continues to show “Scanning”.a. No WiFi networks in range of the USB WiFi Receiver and antenna. Try moving or re-adjust the USB WiFi Receiver (CC DX Mile) and antenna.b. Check to make sure that the small USB end of the cable is properly inserted fully into the USB WiFi receiver’s (CC DX Mile) connector.c. Make sure to use the main USB connector of the USB cable and that it is inserted into the USB Port of the USB Amplifier Cable. After above is checked, click Rescan. Call C. Craneat (800) 522-8863 if you are still not able to see any “Network Names” in Step “D”.4Troubleshooting and Tips - Continued2. The “Status” shows “Connected” and “Internet Access” shows “No”In some cases, if you are at a public WiFi such as an RV Park, Hotel, Hospital, coffee shop, etc. that requires a Username & password, or to accept the User’s Terms and Agreement, open your internet browser and follow their instructions.3. If your CC Vector WiFi Repeater is not working as it should, dropping connections or not being responsive, you should first do a reset of the repeater to see if the problems persist. Other scenarios where you might want to reset your repeater is if you've forgotten the password or mis-configured it and can't get access anymore.To reset your CC Vector WiFi Repeater please follow these steps:- Power up your CC Vector. - Press and hold the reset button on the bottom of the unit for 15 seconds (Use a paper clip or a non-sharp object). - Repeat Steps A1 through G.This process usually works for resetting the CC Vector WiFi Repeater to its factory setting.4. Error Messages “WiFi Connection Failed” - Most likely the password entered for the selected Network to repeat is incorrect. Re-enter correct password.“Connection lost – The Device connection lost” - Your device has lost connection with the CCRANE Network. Most likely your computer, laptop or smartphone re-connected to another nearby network instead of the CCRANE network. Please check your connection to the CCRANE network.Additional Tips• For best performance we recommend 5 to 15 feet of separation between the CC Vector and the USB Antenna.• In some cases you may receive faster WiFi by rotating the USB Antenna horizontally, making sure to aim the broad side towards the distant WiFi network.• It is normal to receive some speed reduction when repeating a WiFi network (because it has to deliver the signal twice).• Some devices such as smartphones, tablets, printers, etc. offerWPS as an alternate form of WiFi connection which does not require a password.To connect devices to the CC Vector without entering a password, press the “WPS ” button when prompted by your device to connect. or WiFi device. •Check the WPS instructions for your computer“WPS” buttonPlease visit our website at for additional information or call 800-522-8863.5WeatherproofingOnce the antenna is securely screwed onto the CC DXMile, use the supplied coaxial seal to completely coverthe connection.We also recommend coating the USB connection withsilicone grease and wrapping with the supplied coaxial seal for added protection.2Before connecting the CC DX Mile to the antenna, coatthe threads of the antenna with the supplied siliconegrease.This will help protect the threads from rust and water incursion.1Cold Weather Protection – Below 32⁰ for the CC DX MileThe CC DX Mile can become intermittent at about 32 degrees F. Hereis a simple suggestion to give it another 10 degrees of protection downto about 22 degrees. The CC DX Mile creates a small amount of heatthat can be retained by using a 10” long piece of pipe insulation madefor 1-1/2” outside diameter pipe. The insulation shown has an “outsidediameter” of about 3”. Three layers of electric tape can be used tocompress and seal the top. It is best to leave the bottom open fordrainage.We suggest removing the insulation when the weather has warmed forthe season or when it approaches 75⁰ F. The unit can be damaged orits lifetime reduced if operated at high temperatures. For temperaturesbelow 22 degrees F you could add another layer of pipe insulationmade for 3 inch pipe. One may be able to find on Amazon by carefullysearching: “Pipe Insulation Tubing 3 inch Water Resistant” andselecting the “.75 inch thickness“ size. These suggestions are forexperimentation at your own risk.21For More Speed connect a WiFi Router - (Not Required)WiFi speed is variable and depends on distance and other conditions. The CC Vector provides enough speed for browsing the Internet with several devices or streaming video on one device.To improve the WiFi speed on all your devices connect a WiFi router (not included) to the #2LAN port of the CC Vector.1) Setup the CC Vector normally using the included directions.2) Confirm that the CC Vector is working by browsing the Internet while wirelessly connected to it.3) Connect the included 18” network cable (or use your own longer network cable) to the #2 LAN port of the CC Vector.4) Connect the other end of the network cable to the “Internet” or “WAN” port on the back of your WiFi router.5) Test the setup by wirelessly connecting your computer or other device to the router’s WiFi signal and browse the Internet.6Back of CC VectorWireless RouterSpecificationsCC DX Mile Long Range General SpecificationsWireless Standard: Frequency Band: Chipset Gain:****************: ****************: ****************: *****************: Certifications: Operating Temperature: Storage Temperature:802.11 B, G, N, AC2.4 & 5 GHz23 dBm11 Mbps54 Mbps150 Mbps433 MbpsFCC, ROHS32° F - 122° F (see weatherproofing on page 5) 14° F - 149° FCC Vector WiFi Repeater General SpecificationsStandards Interface Security Power Frequency Warranty:Wired: IEEE 802.3/802.3uWireless: 802.11b, 802.11g, 802.11nWAN: 10/100BASE-TX Port * 1LAN: 10/100BASE-TX Port * 1USB 2.0 Port * 1WEP EncryptionWPA/WPA2-PSK (Pre-Shared Key)WPA/WPA2 AESWiFi Protected Setup (WPS)Input:100-240V~50/**********Output: 12V, 1A2412~2462MHz (FCC)2412~2472MHz (ETSI)2412~2484MHz (Japan)1-Year Limited7Before UsePlease read these IMPORTANT SAFETY WARNINGS before use. It is important to read and understand all instructions.Lightning You may need to ground your antenna if you live in an area prone to lightning.Power Lines Never mount an antenna near power lines. If a power line falls and comes into contact with your antenna, DO NOT TRY TO REMOVE IT. Call your local power company.Wind Installing an antenna on windy days can be dangerous. Slight winds can create strong forces against the antenna equipment. If you have any doubts about your ability to install the antenna safely, please hire a licensed, bonded professional to do the work. C. Crane is not responsible or liable for damage or injury resulting from antenna installations.1. Read and understand all safety and operating instructions prior to installing the antenna. Retain Instructions: The safety and operating instructions should be retained for future reference.2. Water and Moisture: Coaxial sealant around openings and connections of device and antenna will prevent damage when used outdoors. Use device in a vertical position.3. Never use a utility pole to mount the device and antenna or to use as a support. Never climb a utility pole.4. Antenna installations can be dangerous because many times it involves the use of a ladder and a possible fall. Do Not install antenna on a wet, snowy or windy day or if a thunderstorm is approaching especially when on top of a building or ladder.5. The antenna can be struck by lightning, which can be fatal. We recommend a licensed and insured installation by a qualified person.6. In the event of storms, disconnect the antenna from your device. This will prevent damage caused by lightning.7. The installation or dismantling of any antenna near power lines is dangerous. Each year hundreds of people are killed or injured while attempting to install or dismantle an antenna.Tips to protect your house and contents from lightning: /nlsi_lhm/lEEE_Guide.pdfCopyright ©2022 by C. Crane172 Main Street, Fortuna, CA 95540 • Phone: 1-800-522-8863 • Web: All rights reserved. No part of this booklet may be reproduced, in any form or means whatsoeverwithout permission in writing from C.Crane.。

广州致远电子有限公司类别 内容关键词 CCS v4.x ，快速入门摘 要本文档主要针对刚刚使用CCS v4.x 的用户，力图从基本的操作演示指导用户建立针对Piccolo DSC 系统的CCS 工程应用。

电子发烧友 电子技术论坛图1.13 CCS v4.x启动界面图1.15 CCS v4.x开始启动图1.16 CCS v4.x注册界面图1.18 加载注册文件退回到注册界面，单击【OK】就完成了注册，如图1.19所示。

图1.19 确认注册图1.20 成功注册1.5 升级由于CCS v4.0.2版本的Flash下载存在Bug，所以需要升级。

运行CCS，选择【Help | Software Updatas | Find and Install…】，如图1.21所示。

图2.5 新建工程(截图5)图2.8 选择路径图2.16 配置工程(截图4)单击图2.20 配置工程(截图8)图2.23 配置工程(截图11)图2.24 配置工程(截图12)其他选项卡的保留默认配置。

如果需要更改生成的.out文件的文件名，可以在【build，此文件就图标图3.2 编译工程(截图2)3.2 调试工程接上EasyDSP28035，或者XDS100仿真器。

选择【Debug | Launch TI Debugger】，如图3.3所示。

或者单击图标旁边的小箭头，在下拉菜单中选择【Launch TI Debugger】，如图3.4所示，或者直接单击图标。

图3.5 调试工程(截图5)为方便调试，有必要对调试环境进行设置。

选择【Target | Debug】，按如图3.6所示进行设置。

设置完之后单击图标的小箭头，选择【Terminate and Remove】，退出调试环境。

重新单击图标进入调试环境，这时CCS会自动连接并复位目标板。

单击图标连接或断开目标板，该图标凹下去说明目标板已经正确连接。

直接单击图标可以退出调试环境。

图3.6 调试工程(截图6)图标直接加载，而不用再选择加载路径。

Closed Crankcase Ventilation (CCV)Installation Instructions for CCV4500, CCV6000,CCV8000, and CCV12000 Series FiltersContact Information:Parker Hannifin Corporation Racor Division P .O. Box 32083400 Finch Road Modesto, CA 95353phone 800 344 3286209 521 7860fax 209 529 3278****************/racorOverview:Contaminated crankcase emissions are a serious problem for dieselengine owners and the environment. These emissions are a result of gas escaping past piston rings due to high cylinder pressures into the crankcase. In the crankcase, gases are contaminated with oil mist, water, etc. These contaminated emissions escape through the engine breather into the engine compartment and engine intake system.Racor CCV Systems offer an effective solution to reducecontaminated crankcase emissions. CCV systems remove crankcase emissions, providing protection for the engine and the environment.Instruction Part Number 55021 Rev DProduct Features:• Keeps engine compartmentsand components clean• Prevents clogging of engineintakes, turbochargers, and intercoolers• Improves reliability andmaintainability of diesel engines.• More efficient than other products available on the market• Reduces environmentalpollution from crankcase emissions• Reduces smoke and odor in theimmediate environmentTable of ContentsInstallation Information ....................................3-8Mounting Details (3)Installation Diagram (4)Installation Guidelines (5)Filter Replacement (5)Hose and Fitting Kits (6)Hose and Fitting Installation (7)Air Intake Connections (7)Hose Adapters (8)Hose Barb (8)CCV Conversion Kit (8)Heavy-Duty Wear Spacers (9)Electronic Remote Filter Gauge (9)Remote Filter Gauge (9)Heater Kits .................................................10-11Specifications (12)Replacement Parts .......................................13-16CCV4500 Replacement Parts (13)CCV6000 Replacement Parts (14)CCV8000 Replacement Parts (15)CCV12000 Replacement Parts (16)Engine Application Guide .............................17-23Caterpillar ..................................................17-18Cummins (19)Detroit Diesel .............................................20-21Hercules (22)Volvo (22)John Deere (23)Mack (23)2Mounting Details2D imension “J” is not applicable on CCV4500 assemblies because there are only two (2) mounting holes. All other units have four (4) mounting holes.BDepthEJHCCV Dimensions3Installation DiagramRacorMarine ApplicationsCCV UnitIndustrial/Mobile Power ApplicationsCCV Unit4Note: Check valve installs into engine block on most applications.Note: Check valve installs into engine block on most applications.Installation GuidelinesCCV is available as left-hand • or right-hand inlet to facilitate V must be mounted upright • (± 10°) and may be engine mounted or remote mounted.Ensure enough clearance• underneath for servicing filter. Minimum clearance is: CCV4500 - 2.25”CCV6000 - 4.00”CCV8000 - 5.00”CCV12000 - 11.00”Avoid mounting locations in • areas of extreme temperatures (exhaust manifold).Avoid low spots or valleys in • hoses to prevent restriction. Keep hoses clear of hot spots.CCV must be mounted level • with or higher than engine. This allows oil to flow to oil pan.Locate an unused dipstick boss • or other access to crankcase. Install drain check valve as low as possible into crankcase, preferably above oil level. Note: Check valve must be oriented between vertical and horizontal (±45°).CAUTION: Drilling into block or oil pan is not recommended. Consult with engine manufacturer for proper hookup of drain valve.Connect drain hose from sump • fitting to drain check valve with hose and fittings provided. CONTINUOUS DUTY • APPLICATIONS – If usinga marine air filter; vertical distance (in inches) from assembly sump drain fitting to drain check valve must be equal to or greater than the max. marine air filter inlet restriction (in inches of water). If not, then accumulated oil in sump will not return to oil pan properly.Example: Air filter inletrestriction is 6.0 in inches water. Vertical distance from sump drain fitting to drain check valve should be min. of 6.0 in.INTERMITTENT DUTY • APPLICATIONS - The sump capacity will allow for 24 hours of operation and will drain at idle or shutdown.The only routine maintenance for the CCV system is replacement of the filter media. Typical service life of filters for diesel application is 750 hours. Some variations in this occur, depending on load profile, engine wear condition, flow and aerosol mass concentration of crankcase emissions, soot concentration, etc.The CCV is equipped with the red filter service indicator. If the filter becomes plugged prior to normal service interval, increased pressure against regulator valve lifts the diaphragm, causing the filter service indicator to appear. Indicating the need to change the filter. Change the filter and re-set the indicator by unsrewing the clear plastic cover and pushing indicator button down. Replace cover.Filter ReplacementCAUTION: Shut down engine before servicing. If not possible, avoid moving parts, engine hot spots, and electrical connections. Wear safety glasses and hearing protectors. Note: vacuum in filter canister during engine operation may make it difficult to seperate.Realease latches which hold • canister to filter head assembly.Drop canister down to expose • filter. Note: A light amount of oil may be seen in bottom. Use caution to avoid spillage.Remove filter by pulling down, • dispose properly, according to local regulations. Be sure o-ring on top of filter cap and o-ring on bottom of head assembly are removed.Install new o-ring on bottom of • head assembly.Be sure new o-ring is on top of • new filter cap; push filter up in place, locating top end cap into hole in bottom center of head assembly.Replace canister. Align latches • in canister with catches on filter head assembly. Clamp and snap latches closed. Servicing is complete.Visually check system for signs • of excessive rubbing or any leaks. Correct as necessary.CCV Filters5SELECT A FITTING/HOSE KIT: Fitting/Hose Kits come with both fittings and enough hose for inlet and outlet sides of the Racor CCV assembly. Racor CCV assembliesrequire fittings available only from Racor. In order to determine the correct application, you need to know the quantity and the outside diameter of engine breather(s)/hose connection. Fitting/Hose Kits are available in various sizes and configurations.Hose and Fitting KitsCCV4500 Series AssembliesHump Hose Fitting Kits6Tap Sleeve - for Industrial/Mobile Power Applications: Tap sleeves provide for connection of Racor CCV outlet to engine’s air intake. Determine inside diameter of hose between turbocharger and air filter. This will determine outside diameter of tap sleeve required for installation.Marine Air Filter Assembly To determine correct marine air filter application, marine air filter rating (AFR) is required. Choose correct marine air filter application per guideline: 4 cycle engines AFR = HP x 2.02 cycle engines AFR = HP x 2.5Examples:2 cycle - twin turbo826 HP x 2.5 = 1032.5 AFR per turbo; select (2) AFM5010124 cycle - single turbo660 HP x 2.0 = 1320.0 AFR;select (1) AFM601212Note: Customer provides hoseconnection to turbocharger. Determine flow direction of CCV Assembly.Install fitting into outlet port, 1. torque to 50 in. lbs.Install remaining fitting into 2. inlet port, torque to 50 in. lbs.Select appropriate hose from 3. kit and secure to CCV inlet fitting with clamp provided.Locate engine breather4. connection and cut inlet hose to required length.CAUTION! When cutting hose, exercise extreme caution. Hose is wire reinforced and protruding sharp edge can result in bodily injury!Secure hose to engine breather 5. connection with clamp provided. Note: If enginebreather connection is smaller than hose ID, use appropriate size rubber bushing on breather.Select appropriate hose from 6. kit and secure to CCV outlet fitting with clamp provided.Locate air intake connector 7. fitting barb and cut hose to required length.Secure hose to air intake 8. connector barb with clamp provided.Secure hose(s) to convenient 9. location, away from engine hotspots, with ties provided. Note: Avoid low spots or valleys in hoses to prevent flow restriction.Attaching Multiple Breathers - Use tee fitting provided to a. branch to both breathers.Extra hose has been provided b. to accommodate installation of multiple breathers.Verify inlet and outlet distance c. before cutting any hose.Hose and Fitting InstallationAir Intake Connectors7890°Hose AdaptersHose BarbsAccessoriesPart Number:CCV55613-08 (High Density)CCV55613-10 (Ultra Density)The CCV55613-08 andCCV55613-10 allow the CCV8001 to be converted to a CCV12001.The CCV12001 series offers 60%additional media. The CCV12001 series is great for applicationswhere extra capacity is desired and immediate engine accessibility is not available. It allows for increased efficiency and longer service intervals. Kit includeselement, wear spacer, o-rings, and CCV12001 bowl.CCV Conversion Kit9Heavy-Duty Wear SpacersThese Heavy-Duty Spacers are an optional accessory for engine applications/installations that have excessive vibration. Excessive vibration causes abnormal wear on the CCV assembly and could compromise integrity. The spacer is placed in the CCV canister, below the filter,The CCV55615-01 Lightbox Kit is designed to inform the user that the filter being monitored has become restricted.During normal vehicleoperation, the green light stays illuminated indicating the filter is performing properly. The red light iluminates when the filter becomes restricted and stays on until the engine is shut down. The light box is reset when the engine is shut down and the red light will not illuminate until filter restriction is again seen inthe system.Electronic Remote Filter Gauge• Constant monitoringof filter condition while engine is on • 12Vdc operating supply voltage• Operating temperature:-40°F to +257°F (-40°C to +125°C)• 5 amp max current draw • Filter switch threads are3/8”-24 straight thread• Rugged construction• Filter switch closure at 8inches of waterPart Number:CCV55012This Vacuum Indicator was designed to inform the user that the filter being monitored has becomerestricted.• Green and red lightillumination to show filter conditionRemote Filter GaugeIncluded in Kit:Gauge and Bracket (shown), 1/8”-27 NPT fitting , 40 micron filter, and 10 foot of 1/4” OD EPDM hose.protecting the assembly from vibration and wear by cradling the filter.10Closed Crankcase Ventilation (CCV) Systems are used to prevent emissions fromcontaminating internal surfaces of the engine air inductionsystem and prevent engine room environments from being coated with oily residue. Both functions maintain engine performance and improve operatingenvironment over the life of the engine. In cold weatherapplications, gases and vapors processed by the CCV system are affected by ambient conditions. The canister is cooled to ambient temperature and oil mist and water vapor particles traveling through the CCV system will then coalesce against the cold interior surfaces of the CCVcanister. This process introduces microscopic particles of oil and water to each other. When they mix, an emulsification of the two liquids occurs. This emulsification turns the two particles into a creamy jelly-like substance. The mixture slowly builds up as cold air continually cools the canister and the process repeats itself. The emulsified oil-watermixture collect to a point where element life is compromised and crankcase pressure will rise.These heater kits prevent this build-up and ensure filter life by warming the canister surfaces. The temperature of the canister is raised near to that of the crankcase gases entering theCCV assembly. If the canister surfaces are as warm as thecrankcase gases, then the oil and water mixture will not coalesce on the interior walls. Since no oil or water coalesces, no emulsification occurs.Heater KitsClean exterior of CCV canister 1. thoroughly. Adhesive is used to bond insulating sleeve to canister. Oily film present on canister surfaces will affect adhesion.Wrap heater band around 2. CCV assembly and secure Velcro closure to fasten to canister. Align plug with center of CCV product label.Slide insulation sleeve over 3. heater band. Secure sleeve to CCV assembly with adhesive strips located on top of sleeve.For AC models – Connect 4. power cord to appropriate power source with 15 amp circuit.For DC models – See Wiring 5. Diagram on next page for proper installation. Allow enough slack in power 6. cord for element removal (servicing). When routing power cord, avoid rubbing areas and hot surfaces.Note: These heaters arethermostatically controlled andwill turn ON when the canister falls below 156°F (69°C) and will tun OFF when the canister reaches 174°F (79°C). It will take approximately 4 minutes for heater to warm CCV canister to maximum temperature.Installation GuidelinesCCV4500CCV6000CCV8000CCV12000Installation DiagramWiring DiagramHeater BandGreen Green/WhiteRed/WhiteFuse BoxIgnition SwitchBattery+-FuseBlackRedResistor (See Notes)Notes:Use resistor with 24V only1. Use 25 AMP fuse for 12V applications2. Use 15 AMP fuse for 24V applications3. 87868530Replacement KitsCCV SpecificationsABCDEFGHInlet/Outlet Fitting KitsHose and Fitting KitsA B CDE F GHHose and Fitting KitsInlet/Outlet Fitting KitA B CD E FGHHose and Fitting KitsInlet/Outlet Fitting KitHose and Fitting KitsInlet/Outlet Fitting KitA B C DEFG HCaterpillar - Industrial/Mobile Power ApplicationsNote: Most engines come with elephant-ear air cleaners. Air intake configurations vary considerably and customer should verify outside diameter size of turbo inlet and ability to use tap sleeves or marine air filters. If not, customer can weld a fitting to the clean side of filter element on the back of the housing.Always verify outside diameter size of breathers for hose applications.Caterpillar - Marine ApplicationsCummins - Industrial/Mobile Power ApplicationsCummins - Marine ApplicationsCCV Engine Applications Detroit Diesel - Industrial/Mobile Power ApplicationsDetroit Diesel - Marine Applications21CCV Engine ApplicationsHercules - Industrial/Mobile Power ApplicationsVolvo - Industrial/Mobile Power ApplicationsVolvo - Marine Applications22John Deere - Industrial/Mobile Power ApplicationsJohn Deere - Marine ApplicationsMack - Industrial/Mobile Power ApplicationsMack - Marine Applications2355021 Rev D January 201008/19/16 edit 10/13/16 edit© 2010 Parker Hannifin CorporationAll products manufactured or distributed by Racor are subject to the following, and only the following, LIMITED EXPRESS WARRANTIES, and no others: For a period of one (1) year from and after the date of purchase of a new Racor product, Racor warrants and guarantees only to the original purchaser-user that such a product shall be free from defects of materials and workmanship in the manufacturing process. The warranty period for pumps and motors is specifically limited to ninety (90) days from date of purchase. A product claimed to be defective must be returned to the place of purchase. Racor, at its sole option, shall replace the defective product with a comparable new product or repair the defective product. This express warranty shall be inapplicable to any product not properly installed and properly used by the purchaser-user or to any product damaged or impaired by external forces. THIS IS THE EXTENT OF WARRANTIES AVAILABLE ON THIS PRODUCT. RACOR SHALL HAVE NO LIABILITY WHATSOEVER FORCONSEQUENTIAL DAMAGESFLOWING FROM THE USE OF ANY DEFECTIVE PRODUCT OR BY REASON OF THEFAILURE OF ANY PRODUCT. RACOR SPECIFICALLY DISAVOWS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED INCLUDING, WITHOUT LIMITATION, ALL WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE (EXCEPT FOR THOSE WHICH APPLY TO PRODUCT OR PART THEREOF THAT IS USED OR BOUGHT FOR USE PRIMARILY FOR PERSONAL, FAMILY, OR HOUSEHOLDPURPOSES), WARRANTIES OF DESCRIPTION, WARRANTIES OF MERCHANTABILITY, TRADE USAGE ORWARRANTIES OR TRADE USAGE.WarningFailure or improper selectionor improper use of the products and/or systems described herein or related items can cause death,personal injury and property damage. This document and other information from Parker Hannifin Corporation, its subsidiaries and authorized distributors provide productand/or system options for further investigation by users having technical expertise. It is important that you analyze all aspects of your application and review the information concerning the product or system in thecurrent product catalog. Due to the variety of operating conditions and applications for these products or systems, the user, through its own analysis and testing, is solely responsible for making the final selection of the products and systems and assuring that all performance, safety and warning requirements of the applications are met. The products described herein, including withlimitation, product features, specifications, designs,availability and pricing, are subject to change by Parker Hannifin Corporation and its subsidiaries at any time without notice.The following statement is required pursuant to proposition 65, applicable in the State of California: ‘This product may contain a chemical known to the State of California to cause cancer or reproductive toxicity’.Limited Warranties Statement。

CVS操作手册CVS操作管理手册1.安装篇所需文件cvsnt-2.5.03.2382.msi、wincvs.exe、Python-2.2.3.exe安装步骤因为CVS中文版需要Python语言支持所以我们需先安装Python-2.2.3.exe 默认安装即可安装CVSNT服务器：双击CVSNT-2.503 点击NEXT->同意协议->NEXT->点击Typical->Install->Finish安装WinCvs客户端：双击wincvs.exe 默认安装即可2. 配置篇2.1 配置CVS服务器开始->所有程序->CVSNT->CVSNT Control Panel2.1.1在About页确认CVSNT、CVSNT Lock服务正常和稳定运行如下图2.1.2选择Repository configuration页面点按Add按钮，选择已经准备好的模块根目录，如：E:\htfz这个目录(没有的话也可以直接在location中写路径)，确认，OK，Yes，这时会在E:\htfz下面建立CVSROOT目录，这是CVS默认的管理目录（默认模块）。

详细步骤如下图2.1.3选择ServerSeting页面，Run as 选择第二个，其他默认确认即可。

2.1.4 用户管理采用windows系统用户管理机制即每个开发者用一个系统用户作为CVS的管理用户注：在添加系统用户（仅针对win2003）时应注意用户名和登录名之间的区别以免出现登录失败2.2 CVS客户端配置：开始->所有程序->WinCVS中文版->CVS1.3 打开客户端界面在使用WinCvs工作前，我们需要对它进行一些基本设置。

2.2.1 登录首选项设置（1）首先，我们点击主菜单【管理】选择菜单项【设置】, 见下图：在【设置】对话框中，我们先进行【普通】设置：这里的设置有：【认证方式】。

CVS提供多种认证方式，例如pserver、rhosts、gserver、local等。

目录第1章 Comware介绍.............................................................................................................1-11.1 Comware概述....................................................................................................................1-11.2 Comware体系结构.............................................................................................................1-11.3 Comware V3功能特性列表及产品特性差异列表...............................................................1-2第2章用户配置接口..............................................................................................................2-12.1 配置环境搭建.....................................................................................................................2-12.1.1 通过Console口搭建.................................................................................................2-12.1.2 通过Telnet搭建........................................................................................................2-32.1.3 通过AUX口拨号搭建................................................................................................2-42.1.4 通过SSH方式搭建...................................................................................................2-52.2 命令行接口.........................................................................................................................2-62.2.1 命令行视图..............................................................................................................2-62.2.2 命令行在线帮助.......................................................................................................2-92.2.3 命令行错误信息.....................................................................................................2-102.2.4 历史命令................................................................................................................2-112.2.5 编辑特性................................................................................................................2-112.2.6 显示特性................................................................................................................2-122.2.7 正则表达式的使用..................................................................................................2-132.3 快捷键..............................................................................................................................2-152.3.1 快捷键的分类.........................................................................................................2-152.3.2 快捷键的使用.........................................................................................................2-162.3.3 快捷键使用举例.....................................................................................................2-172.3.4 配置命令行别名.....................................................................................................2-17第3章 Comware的基本配置...................................................................................................3-13.1 Comware基本配置.............................................................................................................3-13.1.1 进入和退出系统视图................................................................................................3-13.1.2 设置路由器名...........................................................................................................3-13.1.3 设置系统时钟...........................................................................................................3-13.1.4 设置欢迎信息...........................................................................................................3-23.1.5 显示设备制造信息....................................................................................................3-23.1.6 切换用户级别...........................................................................................................3-23.1.7 console口和aux口的互相切换.................................................................................3-53.1.8 锁定用户界面...........................................................................................................3-53.1.9 设置命令级别...........................................................................................................3-53.1.10 设置命令日志分级记录..........................................................................................3-63.1.11 设置命令分级计数.................................................................................................3-63.1.12 配置不需要发往TACACS服务器记录的命令关键字...............................................3-7 3.1.13 释放已删除接口占用的porttag资源........................................................................3-7 3.1.14 打开/关闭CCHK任务运行开关...............................................................................3-8 3.1.15 打开/关闭配置恢复日志功能..................................................................................3-8 3.1.16 显示系统状态信息.................................................................................................3-8第1章 Comware介绍1.1 Comware概述Comware是H3C公司数据通信产品的通用操作系统平台，它以IP业务为核心，实现组件化的体系结构，在提供丰富功能特性的同时，提供基于应用的可裁剪能力和可伸缩能力。

第11章自定义零件库本章重点内容：⏹如何使用软件提供的标准设计元素库⏹如何自定义用户自己的常用零件库⏹如何定义参数化的零件库⏹其它高级内容设计元素库CAXA实体设计提供了大量的标准设计元素库，包括常用的“图素”，“高级图素”等。

灵活使用这些图素是用好软件的基础。

而要深入发掘软件的潜力，需要用户能够自定义自己的零件库和常用图素。

1.软件安装成功以后会自动打开常用的设计元素库，而要打开更多的软件提供的设计元素，只需要通过菜单“设计元素”，“打开”。

在软件的安转目录下找到\CAXASolid\Catalogs子目录，找到相应的文件打开。

如“金属”，“石头”等在标准安装时没有打开的图素。

2.如果要关闭一个已经打开的图素，只需先用鼠标在屏幕左侧选中要关闭的图素，然后选择菜单“设计元素”。

“关闭”。

3.如果您对设计元素库的内容进行了修改，并希望将这些修改内容保存起来。

可以通过选择菜单“保存”，“另存为”，“保存所有”来进行保存。

4.您在进行不同内容的产品设计时，可能需要使用不同的设计元素库。

如果同时打开要占用大量的屏幕显示区域，而一项项的打开或关闭又过于麻烦。

这时您可以使用软件提供的配置功能。

通过菜单“设计元素”，“配置”，打开配置对话框。

新建不同的设计元素组合并保存，这样以后就可以一次打开或关闭这些配置好的设计元素。

自定义零件库任何用户认为有重复利用需要的设计都可以作为一种设计元素在自定义的零件库中保存起来。

这些内容可以是一个设计好的零件，一个图标或一种特殊的图案等等。

例如我们希望将下图所示的茶杯作为一个标准零件保存起来；1.选择菜单“设计元素”，“新建”。

这时在屏幕右侧的设计元素列表上回自动生成“设计元素1”的新图库。

2.选择菜单“设计元素”，关闭“自动隐藏”功能，使右侧的图库内容永久显示。

3.鼠标选中“设计元素1”，打开这个目前内容为空的图库。

4.点击设计环境中的茶杯，进入零件编辑状态。

用鼠标左键拖住一直拖到右侧的图库当中去再释放鼠标。

本篇文章介绍的是Community Core Vision(CCV) 1.4版本，1.3版本指南可移步至此链接。

以《About MT》系列文集：Community Core Vision(CCV) 1.3 全指南为基础，所以建议先阅读完前者之后，再来此阅读本篇文章。

概述Community Core Vision，简称CCV，一个开放源代码的计算机视觉与机器传感的跨平台解决方案。

它需要一个视频输入流用来捕获数据，将数据处理之后，输出追踪数据（如触点坐标和触点大小等）以及触摸事件（如手指按下、移动和按下并保持等），这些都是构建多点触摸应用程序的基本要素。

CCV可以与各种网络摄像头或视频采集设备协同工作，通过支持TUIO/OSC/XML的应用程序进行数据连接，并且支持包括FTIR、DI、DSI 和LLP等在内的多种基于光学的多点触摸硬件方案。

下载地址：/projects/ccv/files，根据自己的操作系统下载对应版本。

更新日志升级UI。

完整的Fiducial支持（在图像处理学中，Fiducial Marker技术是一种有效的依照基准点模式的图像处理方案）。

解决了传送XML格式信息时的bug。

多通讯模式（XML+TUIO UDP）。

CCV调试模式。

可根据Fiducial模式或Objects/Finger模式选择不同的过滤器。

在config.xml文件可以对基准点（Fiducial）进行设置。

将物体的加速度计算在内。

重新整理了键盘快捷键。

为Finger、Objects和Fiducials单独计数。

界面变化1. 是否使用摄像机作为图像源（将原来的“使用摄像机”和“使用视频”两个按钮合并为一个）。

2. 模板操作区，用于控制选中的模板的溢出范围。

第一个滑块控制选中的模板的往外溢出范围，第二个滑块控制选中的模板的往内的溢出范围。

这是CCV 1.4版本新增的重点功能——自定义对象捕捉，下文会将讲解。

3. 保存与加载模板。

[2011年]TKLCHCODEV初级入门用的指导手册CODEV用户入门手册CODE V Introductory User’s Guide目录第一章概述 (1)1.1 何为CODEV (2)1.1.1 光学设计的得力工具 (2)1.1.2 初始设计并非随意设计 (3)1.1.3 保持设计简单 (3)1.2 手册和使用者 (4)1.2.1 使用对象 (4)1.2.2 关于手册 (5)1.2.3 如何掌握更多的信息？ (5)1.2.4 在线帮助和有关文件 (6)1.3 假设和术语 (7)1.4 CODEV的界面 (9)1.4.1 捷径 (9)1.4.2 命令和宏指令 (11)1.4.3 宏+语言 (12)1.5 CODEV的程序结构 (12)1.6 开始，结束和技术支持 (13)1.6.1 安装CODEV (13)1.6.2 开始运行CODEV (14)1.6.3 保存文件 (14)1.6.4 退出CODEV (14)1.6.5 获得技术支持 (14)1.7 手册中的一些假定设置 (15)第二章数码相机物镜设计 (16)2.1 实践中学习 (17)2.1.1 一个简单的数码相机物镜 (17)2.1.2 设计技术条件 (17)2.1.3 定焦距VGA数码相机物镜的技术条件 (18)2.1.4 该技术条件意味着什么？ (18)2.2 新镜头的设计（New Lens Wizard） (20)2.2.1 开始一个新镜头的设计 (20)2.2.2 专利数据库 (21)2.2.3 确定系统数据 (23)2.3 对透镜表面的设计 (25)2.3.1 透镜数据管理表 (25)2.3.2 面形设计的具体内容 (26)2.3.3 改变和提交数据 (28)2.3.4 成功提交 (29)2.3.5 绘图 (30)2.3.6 对透镜进行缩放 (31)2.3.7 新建标题和开始“保存镜头” (34)2.4 分析起始数据 (35)2.4.1 快速绘制像差曲线 (36)2.4.2 快速绘制点列图 (37)2.4.3 畸变 (38)2.4.4 MTF（锐度） (41)2.4.5 渐晕／照度 (43)2.4.6 确定可行性 (44)2.5 结论 (47)第三章优化设计 (49)3.1 概述 (50)3.1.1 优化的目的 (50)3.1.2 优化方法 (50)3.1.3 默认值 (50)3.1.4 AUTO（自动优化）过程 (51)3.1.6 局部优化和全局优化 (53)3.1.7 多处理器支持 (53)3.2 操作规则 (53)3.3 变量 (54)3.3.1 定义变量 (54)3.3.2 使用LDM (55)3.3.3 虚拟玻璃 (56)3.4 自动设计的设置 (58)3.4.1 一般约束 (59)3.4.2 输出控制 (64)3.4.3 误差函数的定义和控制 (65)3.4.4 保存设置（选项Set），运行AUTO (66)3.5 认识AUTO的输出 (66)。

竭诚为您提供优质文档/双击可除tuio协议,中文篇一：ccV入门教程ccV入门教程一、简介ccV是一个建立在opencV基础上的一个开源的架构，其全称是communitycoreVision。

它是一个开源的跨平台计算机视觉和机器感知解决方案。

它以视频作为输入流，从中捕捉跟踪到的触点信息，包括事件（手指下压、移动、释放等）及触点坐标，这些信息是构建一个多点触控系统所必须。

ccV 可以以网络摄像机和视频设备作为输入，也支持基于tuio/osc/xml等协议的各种应用，以及很多多点触控技术，如FtiR,di,dsi,和llp等等。

ccV更是为支持未来的视觉应用（客户模块/滤波器）作了前瞻性的扩展。

特性：[1]简单的用户界面。

新界面更加直观，易于理解和使用[2]滤波器（动态背景提取、高通、放大器/标定器（scaler）、阀值）。

这意味着它可以为各种光学设备提供支持，包括FtiR、di、llp、dsi等。

以后还会陆续增加更多的滤波器模块。

[3]相机开关。

当用户电脑同时连了好几个相机的时候，只需一个按钮操作就可以搞定相机切换，无需退出程序，重新连接外设。

[4]输入开关。

只需按钮操作，就可以把视频输入流从在线相机切换为本地录像，反过来也一样。

[5]动态网格校正。

对于桌面过小或者过大的用户来说，可以通过设置校准点或者创建更小点来保持正常的处理速度和系统性能。

[6]图像投射。

你可以对视频做水平或垂直翻转，如果视频显示的方向不对。

[7]网络广播。

你可以通过直接从配置的程序发送osctuio消息来快速调试程序。

[8]跨平台。

在windows，mac,linux上都可以使用参考资料1、/forums2、/二、ccV相关概念tuiotuio是一个为可触多点表面定义了标准协议与应用编程接口的开放架构。

tuio协议允许交互式表面上的抽象描述的传输，例如传输触摸和接触物体的状态。

这个协议对跟踪应用者的控制数据编码并将它传送到任何可以解码的客户端应用程序。

SIMATIC HMI WinCC V7.4 WinCC：组态系统手册在线帮助的打印02/2016法律资讯警告提示系统为了您的人身安全以及避免财产损失，必须注意本手册中的提示。

人身安全的提示用一个警告三角表示，仅与财产损失有关的提示不带警告三角。

警告提示根据危险等级由高到低如下表示。

危险表示如果不采取相应的小心措施，将会导致死亡或者严重的人身伤害。

警告表示如果不采取相应的小心措施，可能导致死亡或者严重的人身伤害。

小心表示如果不采取相应的小心措施，可能导致轻微的人身伤害。

注意表示如果不采取相应的小心措施，可能导致财产损失。

当出现多个危险等级的情况下，每次总是使用最高等级的警告提示。

如果在某个警告提示中带有警告可能导致人身伤害的警告三角，则可能在该警告提示中另外还附带有可能导致财产损失的警告。

合格的专业人员本文件所属的产品/系统只允许由符合各项工作要求的合格人员进行操作。

其操作必须遵照各自附带的文件说明，特别是其中的安全及警告提示。

由于具备相关培训及经验，合格人员可以察觉本产品/系统的风险，并避免可能的危险。

按规定使用Siemens 产品请注意下列说明：警告Siemens 产品只允许用于目录和相关技术文件中规定的使用情况。

如果要使用其他公司的产品和组件，必须得到Siemens 推荐和允许。

正确的运输、储存、组装、装配、安装、调试、操作和维护是产品安全、正常运行的前提。

必须保证允许的环境条件。

必须注意相关文件中的提示。

商标所有带有标记符号 ® 的都是西门子股份有限公司的注册商标。

本印刷品中的其他符号可能是一些其他商标。

若第三方出于自身目的使用这些商标，将侵害其所有者的权利。

责任免除我们已对印刷品中所述内容与硬件和软件的一致性作过检查。

然而不排除存在偏差的可能性，因此我们不保证印刷品中所述内容与硬件和软件完全一致。

印刷品中的数据都按规定经过检测，必要的修正值包含在下一版本中。

Siemens AGDivision Digital FactoryPostfach 48 4890026 NÜRNBERGA5E37536940-AA Ⓟ 03/2016 本公司保留更改的权利Copyright © Siemens AG 2016.保留所有权利目录1多用户系统 (7)1.1WinCC 中的多用户系统 (7)1.2WinCC 中的客户机/服务器系统 (8)1.3组态和数量结构 (10)1.4客户机/服务器方案 (13)1.5服务器组态 (16)1.5.1服务器组态 (16)1.5.2在服务器上创建新项目 (18)1.5.3如何在计算机列表中注册客户机 (20)1.5.4如何组态操作员授权 (21)1.5.5如何组态数据包导出 (23)1.5.6在服务器项目中组态客户机 (27)1.6客户机组态 (30)1.6.1客户机组态 (30)1.6.2在客户机上创建新项目 (32)1.6.3组态导入数据包 (34)1.6.4如何组态标准服务器 (38)1.6.5如何组态首选服务器 (40)1.6.6组态客户机的起始画面 (43)1.6.7显示来自不同服务器的画面 (46)1.6.8组态客户机上的画面变化 (48)1.6.9使用来自不同服务器的数据 (50)1.6.10显示来自不同服务器的消息 (52)1.6.11组态多个服务器消息的消息顺序报表 (53)1.7运行系统中的系统特性 (55)1.7.1运行系统中的系统特性 (55)1.7.2启动服务器 (57)1.7.3启动客户机 (59)1.7.4使用具有多个网卡的服务器时的特殊通讯特性 (60)1.7.5关闭服务器 (62)1.7.6关闭客户机 (62)1.8远程组态 (64)1.8.1远程组态 (64)1.8.2如何访问子网外的计算机 (66)1.8.3从多个客户机访问项目 (69)1.8.4如何打开一个要进行编辑的项目 (71)WinCC：组态目录1.8.5如何编辑服务器项目画面 (73)1.8.6如何激活项目 (74)1.8.7如何取消激活项目 (76)1.9使用客户机/服务器系统中的 OPC 接口 (78)2文件服务器 (81)2.1安装文件服务器 (81)3WinCC 服务模式 (83)3.1WinCC 服务模式 (83)3.2标准项目和服务项目 (84)3.3服务项目的组态 (85)3.4使用服务项目及限制 (86)3.5系统托盘中的 WinCC 状态和控件 (88)3.6功能和先决条件 (90)3.6.1服务项目的操作模式 (90)3.6.2运行服务项目的要求 (91)3.7组态 WinCC 服务模式 (93)3.7.1如何将一个项目定义为服务项目 (93)3.8运行系统中的服务项目 (96)3.8.1运行系统中的服务项目 (96)3.8.2如何激活服务项目 (96)3.8.3如何登录与注销已激活的服务项目 (97)3.8.4如何激活出于维护目的的交互式操作 (98)4冗余系统 (99)4.1冗余 (99)4.2WinCC 冗余 (100)4.3冗余系统的要求 (103)4.4冗余如何工作 (105)4.5组态冗余系统 (109)4.5.1冗余系统安装指南 (109)4.5.2组态相同功能 (111)4.5.3如何组态冗余服务器 (112)4.5.4如何组态用户归档的同步 (114)4.5.5如何为冗余服务器复制项目 (116)4.5.6如何在运行期间复制冗余项目 (119)4.6使用 WinCC Redundancy 的各种情况 (120)4.6.1过程连接出错时切换客户端 (120)4.6.2故障情况 (124)WinCC：组态目录4.6.2.1故障情况 (124)4.6.2.2情况 1：服务器计算机上的项目未处于运行系统中 (125)4.6.2.3情况 2：与伙伴服务器的连接出现故障 (127)4.6.2.4情况 3：与客户机的网络连接出现故障 (129)4.6.2.5情况 4：过程连接出现故障 (129)4.6.2.6情况 5：软件出错 (130)4.6.3WinCC 冗余系统变量 (131)4.6.4WinCC 冗余系统消息 (132)索引 (137)WinCC：组态目录WinCC：组态多用户系统1 1.1WinCC 中的多用户系统内容WinCC 通过组态客户机/服务器系统，可以将系统操作和监控的功能分配到多个客户机和服务器上。

CVC-V8/V16Alarm Systems__________________________________________________________ 铁盒多功能报警控制主机安装手册快速操作指南 (3)电话控制命令 ................................................................................................................. 错误！未定义书签。

使用者须知 .. (6)第一章简介 (7)1.0 概况 (7)2.0 系统功能介绍 (7)3.0 系统性能指标和出厂默认值 (8)3.1 性能指标 (8)第二章安装接线说明 (9)2.1 电池 (9)2.2 交流电源 (9)2.3 警号的连接 (9)2.4 监听头的连接 (9)2.5 辅助电源输出 (9)2.6 键盘的安装与接线 (9)2.6.1键盘的打开： (9)2.6.2键盘的连接 (10)2.6.3键盘地址 (10)2.7有线探测器的连接 (10)2.7.1 有线探测器信号线的连接： (10)2.7.2 有线探测器电源的连接： (10)2.7.3 没有用到的有线防区 (10)2.8 电话线的连接 (10)2.9 八防区扩展板安装接线图（扩展十六个有线防区有此板） (10)2.10 仅用无线防区,不接有线防区的安装（有线无线兼容的有此功能） (11)2.11 八路继电路输出模块接线图 (11)2.11.1八路继电器输出模块的连接 (11)2.11.2 八路继电器输出模块地址 (12)第三章系统操作 (13)3.1系统操作 (13)3.2遥控器的使用（无线有此功能） (13)3.3 键盘面板及声光指示 (13)3.4布防 (15)3.5撤防：解除警戒状态 (16)3.6电话控制： (16)3.6.2远程监听在远程控制状态下：按‘4’即可听到现场的声音；按‘9’返回 (17)3.6.3远程控制警号响在远程遥控状态下, 按下‘5’为打开警号响, 按下‘6’为停止警号响。

CATIA TrainingCOPYRIGHT DASSAULT SYSTEMESC o r e & C a v i t yD e s i g nD e t a i l e d S t e p sTable of ContentsMaster Exercise : The Pan Handle (3)Step (1): Importing the Part to mold (3)Step (2): Defining the Main Pulling Direction (6)Step (3): Creating a Slider Direction (11)Step (4): Working on Mold Areas (14)Step (5): Creating the Parting Surface (23)Additional Exercise : The Support (37)Step (1): Import a set of loose Surfaces and define a consistent orientation (37)Step (2): Defining the main Pulling Direction (39)Step (3): Creating a Bounding Box (42)Step (4): Comparing two versions of a Part (44)23Master Exercise : The Pan HandleStep (1): Importing the Part to moldIn this step, you will:• Create a new Product• Access workbench Core & Cavity Design • Select the Part to import• Select the relevant surface inside this Part • Define an Axis System • Apply a shrinkage factor1. Enter workbench Assembly Design to create a new Product.2. Make sure that this Product is active (double-click it in the specification tree) and enter workbenchCore & Cavity Design:3. Click icon Import Model4 4. Select file \MasterExercise\Step1\PanHandle.CATPartIf you have a connection to a Smarteam or Enovia database choose File option:5. Make sure that the selected body is Geometrical Set.1 and selected surface is Surface.16. Select Bounding box center as origin of the Local Axis System and define shrinkage as Scalingwith Ratio = 1.0557. Click OKto validate Import operation. Check the result in the tree.8. Close the document without saving it if you want to use existing prepared data for the next step.6Step (2): Defining the Main Pulling DirectionIn this step, you will define the Main Pulling direction for the Part.1. If you have not kept the results of the previous step, open existing Product\MasterExercise\Step2\Product1.CATProduct, make its Part active (double click part in specification tree) and select workbench Core & Cavity Design.2. Click icon Define pulling direction3.Click anywhere on the Part in the 3D viewer74. Move the compass in various directions to see the effect on the result.5. Change the value of the draft angle to see the effect on the result.6. Activate option Facets to ignore to see its effect, then turn it off.7. Activate option Facets displayand check the location of the Reflect Line.8. Click button Reset in dialog box Main Pulling Direction Definition. 9. Click button Locked in dialog box Main Pulling Direction Definition. 10. Click button Local Transferin dialog box Main Pulling Direction Definition.11. Select Other as Local Transfer destination.812. Pick individually the pink, green and red faces located in the undercut area (pocket) at theextremity of the Part. These faces are now displayed in blue.13. Do a little more rework : now select Cavity as target destination.14. Pick the pink and blue faces located on the top of the pocket as shown. These faces are nowdisplayed in green.15. Click button Explode in dialog box Main Pulling Direction Definition.916. Set Explode distance to 100mm. Click keyboard button Tab to validate this input. You can seethat further rework will be necessary to tune the definition of Core and Cavity areas.17. Click OK to validate the creation of Mold areas. The result must be as shown:18. Close the document without saving it if you want to use existing prepared data for the next step.10Step (3): Creating a Slider DirectionIn this step, you will:•Create an additional Pulling Direction to locate a Slider at the extremity of the handle.1. If you have not kept the result of the previous step, open existing Product\MasterExercise\Step3\Product1.CATProduct, make its Part active and select workbench Core & Cavity Design.2. Click icon Define slider lifter direction.3. Drag and drop the compass along the axis of the hole located at the extremity of the part.11124. Click button Reverse and button Switch, if necessary, to ensure that the compass is orientedtowards the outside of the Part and that the faces are colored in yellow as shown.5. Validate. The result must be as shown:6. Close the document without saving it if you want to use existing prepared data for the next step.13Step (4): Working on Mold AreasIn this step, you will:•Transfer faces between mold areas.•Aggregate faces•Split mold areas•Check the mold areas with Explode View1. If you have not kept the results of the previous step, open existing Product\MasterExercise\Step4\Product1.CATProduct, make its Part active and select workbench Core & Cavity Design2. Click icon Transfer an element3. Select Cavity as Destination, activate option Propagation type : Tangent continuity and pick oneof the blue faces located on the top side of the handle. Validate.144. Validate and review the Part. You can see that some remaining faces need to be redistributedbetween mold areas : some green faces on the sides should be transferred from Cavity to Core and some faces on the bottom (pink) should be transferred from NoDraft to Core.5. Select Core as Destination and pick individually the green faces located on the sides below theparting line.6. Now select Propagation type = Point continuity and pick one of the pink faces located on thelower side of the part.157. Validate.8. Click icon Aggregate.9. Select Geometrical Set Core in the specification tree or pick anywhere in the red area in the 3Dviewer.1610. Click OK to validate. You can see that the Surfaces in Geometrical Set Core have beenaggregated into a single Surface.11. Repeat Aggregate operation on Cavity. Validate.12. Now we need to refine the separation between the Core and Cavity sides of the part to fit theReflect line, which will be used to split the Cavity area.13. Create a new Geometrical Set in the part.1714. Hide Geometrical Sets Core, Cavity and Slider. Show Body PartBody and its content.15. Click icon Reflect Line. Select Direction : Z axis of Main Pulling direction axis system. SelectAngle : 0 deg. Select Support : cyan surface. Uncheck Normal option. Validate.1816. In dialog box Multi Result Management : choose option Keep all sub-elements1917. Click icon Split Mold Area. Select Destination : Core18. Select Propagation type : Tangent continuity. Pick one of the faces impacted by the splitting curveas Element to cut. Pick the previous Join as Cutting Element. Click Apply.202119. If necessary, click button Switch Destination to revert the distribution of resulting split facesbetween Core and Cavity areas. Validate.222320.Repeat the same operation for the last 2 faces to split21. Close the document without saving it if you want to use existing prepared data for the next step.Step (5): Creating the Parting SurfaceIn this step, you will:• Create the surface elements constituting the outer Parting surface for the Cavity Side of the Mold.1. If you have not kept the results of the previous step, open existing Product\MasterExercise\Step5\Product1.CATProduct, make its Part active and select workbench Core & Cavity Desig n.2. We will first create the bounding sketch of the external Parting Surface.3. Create a new Geometrical Setin the Part.4. Hide all mold areas except Cavity. Hide the splitting Join used previously.5. Select plane xOy of axis system Main Pulling Direction. Click icon Sketcher6. Click icon Rectangle. Define a bounding rectangle around the Part. Exit Sketcher.24257. Click icon Parting Surface.8. Select a boundary of area Cavityin the 3D viewer.9. Pick two vertices as shown. The corresponding portion of the Cavity boundary is then displayed.10. Select the side of the bounding Sketch as shown. The boundary to be extruded is then displayed.262711. Proceed similarly to create three other Extrude surfaces as shown. Use button Complementary ifnecessary to define the right portion of boundary.12. Now activate icon Loft in dialog box Parting Surface Definition .2813. Successively select the two vertex points, then the two Section curves as shown. Take care ofthe orientation of the section curves (red arrow).14. Create a second Loft Surface as shown.2915. Click OK in dialog box Parting Surface Creation to validate the creation of the Extrude and Loftelements. You can see that all surface elements have been created as features and automatically put into a Join.16. Now we will complete the definition of the Parting Surface by using standard Sweep operations.17. Click icon Sweep. Select the Profile curve and Guide curve as shown. Validate.3018.Create a second sweep as shown.19. Use the Parting Surface command again to create an extrusion on the boundary of the slidersurface.20. Create the bottom of the hole in the slider by Fill313221. Create the boundary of the hole in the cavity and use Fill to create the corresponding surface22. Use Join to assemble the surfaces as shown (release the tolerance to avoid unwanted internalboundaries).33Core surface:Cavity surface:Slider surface:22. Rename the surfaces as CoreSurface, CavitySurface, SliderSurface1.23. Select Tools/Publications, then select the 3 surfaces in the specification tree; confirm to publishthe final mold surfaces.34The final result is available as \MasterExercise\End\Product1.CATProduct.3536Additional Exercise : The SupportStep (1): Import a set of loose Surfaces and define a consistent orientationIn this step, you will:•Import a part as a set of loose surfaces•Define a consistent orientation for the surfaces1. Create a Part in a Product and enter the workbench Core & Cavity Design2. Click icon Import Modeland select \AdditionalExercise\Step1\Support.CATPart as aset of surfaces:3. Define Shrinkage as Scaling with Ratio = 1.1 and keep Bounding box center as the Axissystem4. Click OK to validate.37385. Click icon Face Orientation6. Select all the surfaces with a trap and set the Reference Direction as shown below (it will bethe pulling direction). Click Apply. The two groups of faces (faces to invert and other faces) areidentified.7. You can check the orientation of each face by activating options Lock and Fly Analysis8. Confirm with OK. Now the faces have a consistent orientation with regard to the pullingdirection to be used later. Notice that two Geometrical Sets have automatically been created toseparate the two groups of faces.9. Close the document without saving it if you want to use existing prepared data for the nextstep.Step (2): Defining the main Pulling DirectionIn this step, you will define the main pulling different of the part in order to separate the different areas.1. If you have not kept the results of the previous step, open existing Product\AdditionalExercise\Step2\Product1.CATProduct, make its Part active and select workbench Core & Cavity Design.2. Click on the icon Main Pulling Direction Definition39403.Set the Main Pulling Direction to (DX =0, DY =1, DZ = 0).4.Multi-select all the Surfaces by using a trap.5.Activate option Facets to Ignore and keep maximum value = 15%.6. Now we have to transfer the remaining surfaces into the relevant areas. First, activate the Lockoption.7. Activate option Local Transfer, select Destination = Cavity and No propagation.8. Pick all the faces to transfer to the cavity side.9. Select Destination = Core and pick all faces to transfer to the core side.10. Idem for area OtherThe result must be as shown:11. Close the document without saving it if you want to use existing prepared data for the next step.41Step (3): Creating a Bounding BoxIn this step, you will create a Bounding Box around the part1. If you have not kept the results of the previous step, open existing Product\AdditionalExercise\Step3\Product1.CATProduct, make its Part active and select workbench Core & Cavity Design.. Select all the Surfaces by using a trap.2. Click icon Bounding Box3. Click OK to confirm. The bounding box is created (Join feature).424. Close the document without saving it if you want to use existing prepared data for the next step.43Step (4): Comparing two versions of a PartIn this step, you will compare two versions of a Part to identify the geometric differences.1. If you have not kept the results of the previous step, open existing Product\AdditionalExercise\Step4\Product1.CATProduct, make its Part active and select workbench Core & Cavity Design.Hide the Bounding Box.2.3. Click icon Compare. Select file \AdditionalExercise\Step4\NewSupport.CATPart. Click in thedialog box the type icon to select type “Set of loose surfaces”. Check that selected Body =Scaling Ratio = 1.1.GeometricalSet.3, Axis System = Main Pulling Direction and4. Click OK. Dialog box Comparison is displayed. Keep tolerance 0.01mm and click Apply.445. The faces of the first and of the second Part are compared and classified into 3 groups : identicalfaces, faces specific to version no.1, faces specific to version no.2.6. Check/uncheck the buttons to visualize the 3 categories in the 3D viewer.457. Click OK to validate. Two new Geometrical Sets have automatically been created : Addedsurfaces and Removed surfaces. Geometrical Set Removed surfaces can be deleted. Surfaces in Geometrical Set Added surfaces should be analyzed to complete the definition of the existingMold Areas.468.User Transfer an Element to send added surfaces to their proper destination (cavity and other).47The final result is available as \MasterExercise\End\Product1.CATProduct.48。