LK-3100_激光位移传感器使用手册

Timing Photo-Eye Kit,Adjustable Mount (75-33)The Adjustable Mount Timing Photo-Eye Kit is a pre-pack-aged and pre-wired electronic sensing and signalling assemblythat can be installed on a Dorner 2100 or 3100 Series Conveyor.Positions of both the Photo-Eye and Reflector can be adjustedvertically and laterally to improve the sensing of tall or elon-gated objects, as required. Use of the Timing Photo-Eye Kitallows selecting and presetting timed action and/or reactioncontrol delays.Figure 1: Photo-Eye Kit (75-33) InstalledE111–01Supply Voltage: 12-240 V olts DC (24-240 V olts AC), 2 WattsOutput Configuration: SPDT Relay OutputOutput Rating: 90 Watts (75 V olt-Amperes)Output Status: LED “ON” when Photo-Eye beam is blockedLight-emitting Element: Visible RedMaximum Sensing Distance: 15 ft (4.6 m)Detection Height Range: 1/2 to 7″ (13 to 178 mm)Above BeltHousing: Non Metallic, NEMA 6P/IP67Response Time: 20 millisecondsBCD ACovered under patent numbers 156,260 & 174,435 and corre-sponding patents and patent applications in other countries.Adjustable Mount Timing Photo-Eye Installation/Testing/Operation1.Verify all kit parts are present.Disconnect power to the Conveyor and to the impac Conveyor Controller. Due to the wide variety of setups & applications, guard-ing is the responsibility of the end user. NOTE:For shipping, the two Single Drop-in T-bars (D) and the Spacers (C) are pre-assembled to both the Photo-Eye (E) and Reflector (B) and mounting bracket assemblies with their respective fasteners. Detach the T-bars, Spacers and Refer to Figure 5 and attach Reflector with Mounting Bracket and Spacer to Single Drop-in T-bars using two M6 x 30 mm Socket Head Cap Screws. Tighten Screws with 5 mm Hex Key Wrench provided.CB ADFigure 7: Closure Strip Mounting Detail HE111–07aE111–07bd.To route Cable over a previously mounted component or to anchor the Cable, use the Zip Tie Mounts (G)and Single Drop-in T-bars (N), (Figure 8). Secure each Zip Tie Mount with an M6 x 10 mm Button Figure 8: Zip Tie Mounting DetailE111–08bFigure 9 shows a typical wire routing of a Photo-Eye anchor the extra Cable to the Zip Tie bel both ends of the Photo-Eye Cable using blank Labels (N) provided (Figure 10), using a permanent The Label should be wrapped around the Cable near the Photo-Eye and inside the impac Conveyor Controller to identify the Cable. When multiple Kits are used, make sure all Cables are uniquely labelled. (i.e., K1 for Kit #1,K2 for Kit #2,... etc.).NFigure 10: Cable Labeling (Detail providedonly on Photo-Eye End of Cable)Green Wire #3(T aped)Photo-EyeGreen #3Brown #4White #5Red #1Black #2Black RedGreenBrown White The C1 & C2 contacts are shown when the Photo-Eye Beam is blocked.C1C2Shown here is a sample application using a Photo-Eye to stop a normally running conveyor when a part blocks the Photo-Eye beam (Figure 12).When no part is present, the Photo-Eye contacts are closed which causes the conveyor to run.When a part is present, the Photo-Eye contacts are open which causes the conveyor to stop.Turn impac On/Off Switch to ON.The conveyor should run and the Photo-Eye’s status LED should be OFF.Dorner Mfg. Corp. reserves the right to change or discontinue products without notice. All products and。

课程设计（报告）题目：LK-031激光位移传感器数据采集系统设计学院：专业班级：指导教师：职称：学生姓名：学号：摘要利用激光的高方向性、高单色性和高亮度等特点可实现无接触远距离测量。

激光位移传感器(磁致伸缩位移传感器)就是利用激光的这些优点制成的新型测量仪表，它的出现，使位移测量的精度、可靠性得到极大的提高，也为非接触位移测量提供了有效的测量方法。

激光位移传感器因其较高的测量精度和非接触测量特性，广泛应用于高校和研究机构、汽车工业、机械制造工业、航空与军事工业、冶金和材料工业的需要精密测量检测的行业。

激光位移传感器是可以精确进行非接触位置、位移测量的精密传感器，主要应用于位置、位移、厚度、振动、距离等几何量的工业测量。

按照测量原理，激光位移传感器原理分为激光三角测量法和激光回波分析法，激光三角测量法一般适用于高精度、短距离的测量，而激光回波分析法则用于远距离测量。

本文对LK-031激光位移传感器数据采集系统进行了设计，该系统是利用CCD激光位移传感器来的两物体的微小形变量，再利用AD7705芯片进行A/D转换和用AT89C51作为处理器，最后用LED显示出测量的位移值。

该测量系统量程为-5mm～+5mm，精度为1μm。

该测量装置显示清晰明了，反应快，灵敏度高，性能稳定，结构简单且设计廉价，可以得到广泛的推广和使用。

关键词：位移传感器，AD7705，AT89C51，LED显示目录第1章绪论 (1)第2章系统总体方案设计 (3)2.1系统技术指标 (3)2.2系统电路框图 (3)2.3数据采集与处理方案 (3)第3章系统硬件设计 (4)3.1A/D电路选择 (4)3.1.1AD7705引脚说明 (4)3.1.2AD7705内部转换原理 (5)3.1.3AD7705的数字接口 (6)3.1.4AD7705的接口电路 (7)3.2单片机的选择 (8)3.2.1AT89C51主要特性 (8)3.2.2管脚说明 (9)3.3AD7705与AT89C51接口电路 (11)3.4放大电路的设计 (11)3.5调整电路与滤波电路设计 (12)3.6显示电路设计 (13)第4章系统软件设计 (18)第5章电路原理图 (19)总结 (20)致谢 (21)参考文献 (22)第1章绪论激光测距技术按照测程可以分为绝对距离测量法和微位移测量法；按照测距方法细分，绝对距离测距法主要有脉冲式激光测距和相位式激光测距，微位移测量法主要有三角法激光测距和干涉法激光测距。

Quick Start GuideLaser displacement sensor that supports IO-Link communication with analog and discrete (switched) outputs.This guide is designed to help you set up and install the L-GAGE LM Analog/Discrete Laser Sensor. For complete information on programming, performance, troubleshooting, dimensions, and accessories, please refer to the Instruction Manual at . Search for p/n 205812 to view the manual. Use of this document assumes familiarity with pertinentindustry standards and practices.WARNING:•Do not use this device for personnel protection•Using this device for personnel protection could result in serious injury or death.•This device does not include the self-checking redundant circuitry necessary to allow its use inpersonnel safety applications. A device failure or malfunction can cause either an energized (on) or de-energized (off) output condition.Features and Indicators132Three LED indicators provide ongoing indication of the sensing status.1. Analog Output LED IndicatorSolid Amber = Displayed distance is within the taught analog output window Off = Displayed distance is outside the taught analog output window 2. Power LED IndicatorSolid Green = Normal operation, power On and laser OnFlashing Green (1 Hz) = Power On and laser Off (laser enable mode)3. Discrete Output LED IndicatorSolid Amber = Discrete Output is On Off = Discrete Output is OffLaser Description and Safety InformationCAUTION:•Return defective units to the manufacturer.•Use of controls or adjustments or performance of procedures other than those specified herein mayresult in hazardous radiation exposure.•Do not attempt to disassemble this sensor for repair. A defective unit must be returned to themanufacturer.Class 2 Laser Models (LM150 Models)CAUTION:•Never stare directly into the sensor lens.•Laser light can damage your eyes.•Avoid placing any mirror-like object in the beam. Never use a mirror as a retroreflective target.For Safe Laser Use - Class 2 Lasers•Do not stare at the laser.•Do not point the laser at a person’s eye.•Mount open laser beam paths either above or below eye level, where practical.•Terminate the beam emitted by the laser product at the end of its useful path.Reference IEC 60825-1:2007, Section 8.2.L-GAGE ® LM Series Laser SensorOriginal Document 205811 Rev. D27 July 2020205811Class 2 LasersClass 2 lasers are lasers that emit visible radiation in the wavelength range from 400 nm to 700 nm, where eye protection is normally afforded by aversion responses, including the blink reflex. This reaction may be expected to provide adequate protection under reasonably foreseeable conditions of operation, including the use of optical instruments for intrabeam viewing.LASER LIGHTDO NOT STARE INTO BEAMCLASS 2 LASER PRODUCTAcc to IEC 60825-1:2007.λ=640-670nm; P=0.45mWPW: 45-1,750msComplies with 21 CFR 1040.10 and 1040.11Except for deviations pursuant to laser noticeNo. 50, Dated June 24, 2007.Figure 1. FDA (CDRH) warning label (Class 2)Class 2 Laser Safety NotesLow-power lasers are, by definition, incapable of causing eye injury within the duration of ablink (aversion response) of 0.25 seconds. They also must emit only visible wavelengths(400 to 700 nm). Therefore, an ocular hazard may exist only if individuals overcome theirnatural aversion to bright light and stare directly into the laser beam.Class 1 Laser Models (LM80 Models)Class 1 lasers are lasers that are safe under reasonably foreseeable conditions ofoperation, including the use of optical instruments for intrabeam viewing.Figure 2. FDA (CDRH) warning label (Class 1) Laser wavelength: 655 nm Output: < 0.33 mW Pulse Duration: 45 µs to 1750 µsInstallation InstructionsSensor InstallationNote: Handle the sensor with care during installation and operation. Sensor windows soiled by fingerprints,dust, water, oil, etc. may create stray light that may degrade the peak performance of the sensor. Blow thewindow clear using filtered, compressed air, then clean as necessary using 70% isopropyl alcohol and cottonswabs or water and a soft cloth.Install the Safety LabelThe safety label must be installed on or near the LM sensors.Note:Position the label on the cable or near the sensor in a location that has minimal chemical exposure.Figure 3. Typical installation; other mounting options are possible.1.Remove the protective cover from the adhesive on the label.2.Wrap the label around the LM cable, as shown.3.Press the two halves of the label together. - Tel: + 1 888 373 6767P/N 205811 Rev. DSensor OrientationCorrect sensor-to-object orientation is important to ensure proper sensing. See the following figures for examples of correct and incorrect sensor-to-object orientation as certain placements may pose problems for sensing distances.Figure 4. Orientation by a wall IncorrectCorrect Figure 5. Orientation in an openingIncorrectCorrectFigure 6. Orientation for a turning objectIncorrectCorrectFigure 7. Orientation for a height difference IncorrectCorrectFigure 8. Orientation for a color or luster difference Figure 9. Orientation for a highly reflective targetApplying tilt to sensor may improve performance on reflective targets. The direction and magnitude of the tilt depends on the application, but a 15° tilt is often sufficient.Mount the Device1.If a bracket is needed, mount the device onto the bracket.2.Mount the device (or the device and the bracket) to the machine or equipment at the desired location. Do not tighten themounting screws at this time.3.Check the device alignment.4.Tighten the mounting screws to secure the device (or the device and the bracket) in the aligned position.Wiring Diagrams+–* Push-Pull output. User-configurable PNP/NPN setting.*Key 1 = Brown 2 = White 3 = Blue 4 = Black 5 = Gray+–* Push-Pull output. User-configurable PNP/NPN setting.*The bare shield wire is connected internally to the sensor housing and should be connected as follows:•If the sensor housing is mounted so that it is in continuity with both the machine frame and earth ground, connect the barewire (also) to earth ground.•If the sensor housing is mounted so that it is insulated from the machine frame and you are experiencing noise, connectingthe bare wire to -V dc (together with the blue wire), may help.•If the sensor is mounted so that it is in continuity with the machine frame, but not with earth ground, do not connect thebare wire (e.g. cut off the bare wire).P/N 205811 Rev. D - Tel: + 1 888 373 67673Configuration InstructionsSensor ProgrammingProgram the sensor using the buttons on the RSD1 remote sensor display accessory, via IO-Link, or the remote input (limited programming options).If you are using the RSD1 for programming, from Run mode, use the buttons to access the Quick Menu and the Sensor Menu. See the instruction manual (p/n 205812) for more information on the options available from each menu. For TEACH options, follow the TEACH instructions in the instruction manual.In addition to programming the sensor, use the remote input to disable the buttons for security, preventing unauthorized or accidental programming changes. See the instruction manual for more information.from Run Mode> 4 sec.Access Sensor Menu Access RSD1 MenuFigure 10. Accessing the MenusRemote Display Buttons and the LMUse the RSD1 buttons Down , Up , Enter , and Escape to view or change RSD1 settings and information and to program a connected sensor.Down and Up Buttons Press Down and Up to:•Access the Quick Menu from Run mode •Navigate the menu systems •Change programming settings•Change individual digit values in distance based settings When navigating the menu systems, the menu items loop.Press Down and Up to change setting values. Press and hold the buttons to cycle through numeric values. After changing a setting value, the value slowly flashes until the change is saved using the Enter button.Enter Button Press Enter to:•Access the Sensor Menu from Run mode •Access the submenus•Move right one digit in distance based settings •Save changesIn the RSD1 Menu, a check mark in the lower right corner of the display indicates that pressing Enter accesses a submenu.Press Enter to save changes. New values flash rapidly, and the sensor returns to the parent menu. - Tel: + 1 888 373 6767P/N 205811 Rev. DEscape ButtonPress and hold Escape for 4 seconds to:•Access the RSD1 Menu while in Run modePress Escape to:•Leave the current menu and return to the parent menuImportant: Pressing Escape discards any unsaved programming changes.In the RSD1 Menu, a return arrow in the upper left corner of the display indicates that pressing Escape returns to the parent menu.Press and hold Escape for 2 seconds to return to Run mode from the RSD1 Menu.Quick MenuThe sensor includes a Quick Menu with easy access to view and change the analog and discrete output switch points.Access the Quick Menu by pressing Down or Up from Run mode. When in the Quick Menu, the current distance measurement displays on the first line and the menu name and the analog value alternate on the second line of the display. Press Enter to access the switch points.Press Down or Up to change the switch point to the desired value.Press Enter to save the new value and return to the Quick Menu.* In Setpoint mode, SPt1 Pt is replaced by SPt and SPt2 Pt is not available.In Dual mode, SPt1 is replaced by DualSPt and SPt2 Pt is not available.Sensor Menu (MENU)Access the Sensor Menu by pressing Enter from Run mode. The Sensor Menu is also accessible from the Quick Menu: navigate to MENU and press Enter. The Sensor Menu includes several submenus that provide access to view and change sensor settings and to view sensor information.P/N 205811 Rev. D - Tel: + 1 888 373 67675SensorMenu Full MapFrom Run mode, press Enter to enter the top-level menu system (A_OUT, D_OUT, INPUT, MEASURE, etc).Top Menu* Factory default setting - Tel: + 1 888 373 6767P/N 205811 Rev. DSpecificationsSupply Voltage (Vcc)10 V dc to 30 V dcUse only with a suitable Class 2 power supply (North America) Power and Current Consumption, exclusive of loadNormal Run Mode: 1.5 W, Current consumption < 62 mA at 24 V dc Supply Protection CircuitryProtected against reverse polarity and transient overvoltages Ambient Light Immunity10,000 luxConstructionHousing: stainless steelWindow: acrylic Sensing BeamVisible red, 655 nmSensing RangeLM80: 40 to 80 mmLM150: 50 mm to 150 mmDelay at Power Up2.1 sMeasurement/Output Rate0.25 ms to 4 ms; user selectable from the Speed menu Output ConfigurationAnalog output: 4 to 20 mA (LM...I Models) or 0 to 10 V DC (LM...U Models)Discrete output: Push/Pull, IO-LinkOutput RatingsDiscrete Output: 50 mA maximum (protected against continuous overload and short circuit)Output saturation voltage (PNP): < 3 V at 50 mAOutput saturation voltage (NPN): < 2.5 V at 50 mAAnalog current output (LM...I Models): 500 Ω maximumAnalog voltage output (LM...U Models): 1000 Ω minimum Maximum Torque1.5 N·mRemote InputAllowable Input Voltage Range: 0 to VccActive Low (internal weak pullup—sinking current):High State: > 3.6 VLow State: < 2.4 VActive High (internal weak pulldown—sourcing current): High State: > Vcc - 2.9 VLow State: < Vcc - 4.6 VMinimum Window Size, Analog and DiscreteLM80:Analog: 1 mmDiscrete: 0.024 mmLM150:Analog: 1 mmDiscrete: 0.1 mm Analog ResolutionLM80: 0.002 mmLM150: 0.004 mmRepeatabilityLM80: ± 0.001 mm1LM150: ± 0.002 mm 2Analog and IO-Link LinearityLM80:40–70 mm: ± 0.02 mm70–80 mm: ± 0.03 mmLM150:50–120 mm: ± 0.06 mm120–150 mm: ± 0.07 mmIO-Link Accuracy3LM80: ± 0.175 mmLM150: ± 0.2 mmTemperature Effect, TypicalLM80: ± 0.006 mm/°CLM150: ± 0.008 mm/°CResponse TimeTotal response speed varies from 0.5 ms to 2048 ms, depending on base measurement rate and averaging settings.See Instruction Manual for more information.Minimum Object SeparationLM80:Uniform targets (6% to 90% reflectivity) 40–70 mm: 0.04 mmUniform targets (6% to 90% reflectivity) 70–80 mm: 0.06 mmNon-uniform targets (6% to 90% reflectivity): 0.4 mmLM150:Uniform targets (6% to 90% reflectivity) 50–120 mm: 0.120 mmUniform targets (6% to 90% reflectivity) 120–150 mm: 0.140 mm Non-uniform targets (6% to 90% reflectivity): 0.8 mm Environmental RatingIEC IP67Operating Conditions–10 °C to +55 °C (+14 °F to +131 °F)90% at +55 °C maximum relative humidity (non-condensing) Storage Temperature–35 °C to 60 °C (–31°F to 140 °F)Boresighting± 0.70 mm at 40 mm± 0.87 mm at 50 mm± 1.40 mm at 80 mm± 2.62 mm at 150 mmVibration/Mechanical ShockMeets IEC 60947-5-2 (10 to 60 Hz max., double amplitude 0.06 in, max acceleration 10G. 30G 11 ms duration, half sine wave) Application NoteFor optimum performance, allow 10 minutes for the sensor to warm upCertificationsUL Type 1with 128× averaging. With 1× averaging, repeatability of ± 0.004 mm from 40 to 80 mm.with 128× averaging. With 1× averaging, repeatability of ± 0.005 mm from 50 to 120 mm and ± 0.010 mm from 120 to 150 mm.3The accuracy specification refers to the possible absolute offset when installing a sensor without taking any reference measurement.Linearity is the more relevant specification for most applications.P/N 205811 Rev. D - Tel: + 1 888 373 67677Typical Beam Spot Size4Required Overcurrent ProtectionWARNING: Electrical connections mustbe made by qualified personnel inaccordance with local and nationalelectrical codes and regulations.Overcurrent protection is required to be provided by endproduct application per the supplied table.Overcurrent protection may be provided with external fusing orvia Current Limiting, Class 2 Power Supply.Supply wiring leads < 24 AWG shall not be spliced.For additional product support, go to.FCC Part 15 and CAN ICES-3 (B)/NMB-3(B)This device complies with part 15 of the FCC Rules and CAN ICES-3 (B)/NMB-3(B). Operation is subject to the following two conditions:1.This device may not cause harmful interference, and2.This device must accept any interference received, including interference that may cause undesired operation.This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules and CAN ICES-3 (B)/NMB-3(B). These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:•Reorient or relocate the receiving antenna.•Increase the separation between the equipment and receiver.•Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.•Consult the manufacturer.Banner Engineering Corp. Limited WarrantyBanner Engineering Corp. warrants its products to be free from defects in material and workmanship for one year following the date of shipment. Banner Engineering Corp. will repair or replace, free of charge, any product of its manufacture which, at the time it is returned to the factory, is found to have been defective during the warranty period. This warranty does not cover damage or liability for misuse, abuse, or the improper application or installation of the Banner product.THIS LIMITED WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES WHETHER EXPRESS OR IMPLIED (INCLUDING, WITHOUT LIMITATION, ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE), AND WHETHER ARISING UNDER COURSE OF PERFORMANCE, COURSE OF DEALING OR TRADE USAGE. This Warranty is exclusive and limited to repair or, at the discretion of Banner Engineering Corp., replacement. IN NO EVENT SHALL BANNER ENGINEERING CORP. BE LIABLE TO BUYER OR ANY OTHER PERSON OR ENTITY FOR ANY EXTRA COSTS, EXPENSES, LOSSES, LOSS OF PROFITS, OR ANY INCIDENTAL, CONSEQUENTIAL OR SPECIAL DAMAGES RESULTING FROM ANY PRODUCT DEFECT OR FROM THE USE OR INABILITY TO USE THE PRODUCT, WHETHER ARISING IN CONTRACT OR WARRANTY, STATUTE, TORT, STRICT LIABILITY, NEGLIGENCE, OR OTHERWISE.Banner Engineering Corp. reserves the right to change, modify or improve the design of the product without assuming any obligations or liabilities relating to any product previously manufactured by Banner Engineering Corp. Any misuse, abuse, or improper application or installation of this product or use of the product for personal protection applications when the product is identified as not intended for such purposes will void the product warranty. Any modifications to this product without prior express approval by Banner Engineering Corp will void the product warranties. All specifications published in this document are subject to change; Banner reserves the right to modify product specifications or update documentation at any time. Specifications and product information in English supersede that which is provided in any other language. For the most recent version of any documentation, refer to: .For patent information, see /patents.© Banner Engineering Corp. All rights reserved。

光透过型激光传感器IG 系列操作手册在使用 IG 系列 CCD 光透过型激光传感器之前，请仔细阅读本操作手册。

阅读之后，请妥善保管本手册，以便随时查阅。

IG系列的安全信息⏹一般注意事项•在启动时和操作期间，请务必监视本产品的功能与性能，并确认是否正常工作。

•建议您采取有效的安全措施，以避免万一发生问题时造成任何损坏。

•如果按照规格中未描述的任何方式改装或使用产品，则产品的功能与性能不予保证。

•请勿将本产品用于保护人体。

•请勿使本设备经受剧烈的温度变化，否则可能会发生产品故障。

*此分类基于 IEC60825-1 标准，该标准符合 FDA 的 Laser Notice No. 50（50 号激光通知）(CDRH)。

⏹激光发射停止输入激活激光发射停止输入之后，可以通过将外部输入设为 ON（2 ms 或更长时间）来停止激光发射。

外部输入为 ON 时，激光发射将一直处于停止状态。

外部输入设为 OFF 时，激光将在 2 ms 内发射出来。

有关激光发射停止输入期间不连续输出或模拟输出条件的详细信息，请参照“用户手册”的“11. 外部输入”。

异常情况使用注意事项⏹安装环境为了确保安全使用本产品，请勿将本产品安装在以下位置。

•湿度高、多尘以及通风不良的位置。

•装置会受到阳光直射的高温位置。

•存在腐蚀性气体或易燃气体的位置。

•本装置可能会直接受到振动或冲击的位置。

•水、油或化学品可能会溅到本装置上的位置。

•容易产生静电的位置。

⏹脏污的影响•灰尘、水、油等可能会导致发生测量误差。

•使用吹气装置除去粘在发射器与接收器上的脏污；对于严重的脏污，请使用蘸有酒精的软布进行擦拭。

如果发射器与接收器有划痕，则可能会发生测量误差。

•使用吹气装置除去附着在目标上的脏污，或是将脏污擦拭掉。

•如果脏污在测量范围内漂浮，请采取充分的措施，如安装防尘盖或是进行吹气。

⏹抗噪防护将本装置安装在噪声源（如发电机或高压线）附近时，可能会发生操作误差或产品故障。

激光测距传感使用手册前言尊敬的客户：衷心的感谢您选择了深圳市南方测控技术有限公司的激光测距传感器！为了让您更好的使用本激光测距传感器与防止意外事故的发生，请您在使用本激光测距传感器前仔细的阅读本说明书。

本说明书的版权归属深圳市南方测控技术有限公司所有，如在不影响本激光测距传感器整体性能的前提下所作的修改或更新，恕不另行通知。

激光测距传感器系统说明术语解释➢激光测距：利用激光对目标的距离进行准确测定。

激光测距一般采用两种方式来测量距离：脉冲法和相位法。

➢脉冲激光测距：基于激光脉冲反射时差法原理，测距仪器发射出的激光经被测量目标反射后，激光束被测距仪器接收，测距仪器记录激光往返的时间。

光速和往返时间的乘积的一半，就是测距仪器和被测量物体之间的距离。

➢激光测距传感器：为工业测量之产品，采用工业标准设计、生产和检测，可在线24小时连续实施测量，有的可以多台组网测试。

➢激光安全等级：国际上对激光有统一的分类，激光器分为四类（Class1、Class2、Class3、Class4）。

Class1激光器对人是安全的，Class2激光器对人有较轻的伤害，Class3以上的激光器对人有严重伤害，使用时需特别注意，避免对人眼直射。

➢Class2激光器：指激光器的出口光功率小于1mw，一般认为对人的眼睛是安全的，正常暴露在这种激光器的光束下不会对眼睛的视网膜造成永久性的伤害。

尽管此种激光器是安全的，但也不能长时间的直视激光光束。

如偶尔照射到人眼还不至于引起伤害，但连续观察激光束时能损伤眼睛。

此是对第二级激光器的最重要控制措施。

➢系统概述LPS系列激光测距传感器是一种功能强大的测量精确、无接触式的工业用距离测量设备，它可广泛地被集成用于各种工业用途的控制和监测系统上。

使用图例如下：LPS系列激光测距传感器是一款使用方便的工业应用激光测距仪表，特别为交通、炼钢、仓储、建筑、码头等需要自动进行距离和位置控制的应用而设计研发，具有很高地实用性。

哈尔滨工业大学工学硕士学位论文摘要滚动轴承在工业领域有非常广泛的应用，随着工业现代化的发展和国防工业的振兴，滚动轴承的精度要求也越来越高。

轴承球是滚动轴承的关键零件之一，为了提高轴承生产中轴承球尺寸检测的精度，本文在总结国内外轴承球直径测量技术的基础上，研制了基于激光位移传感器测量的全自动直径测量与分级设备。

该设备采用了精密激光位移传感器、精密电控转台和精密手动调整台等光学部件，并设计了机械本体结构，以及完成控制器的与机械部分的集成等，实现了非接触高精密测量及分组。

在研究现有轴承轴承球的尺寸检测方法的基础上，确定以标准球与待测球直径的相对误差作为轴承球检测和分组的依据。

对轴承球直径测量方法进行了分类分析，研究了误差来源和方法误差的存在形式。

最终确定采用激光三角位移测量法对轴承球进行直径相对测量，并以测量结果作为轴承球分组依据。

设计了三种轴承球直径检测及分组装置方案，包括运动测量和静止测量，基于V型槽轨道的测量和基于球窝的固定测量，并分别进行了三维建模和分析了各个方案的优缺点，最终确定了二自由度旋转臂上料机构和电控转台定位及自动分组机构的总体方案。

该方案结构紧凑，精度较高，测量和分组过程无需手动操作，从而避免了人为误差。

同时，机械系统采用了可更换零部件和可调整结构，能适用于检测3.5mm-25mm范围的轴承球和对轴承球的分组。

通过整体系统的控制方案的分析，确定以工业控制计算机作为控制主机，并集成四轴步进电机运动控制卡和智能型激光位移传感器，组成了控制系统。

联机调试表明该系统能够自动完成一批轴承球的尺寸检测和分组工作，检测的重复精度可以达到0.5μm，达到了课题的设计要求。

关键词：陶瓷球；测量；直径；误差；分组哈尔滨工业大学工学硕士学位论文AbstractWith the development of industrial modernization and the prosperity of defense industrys, ball bearing is widely used in the industrial circle and the precision of ball bearing is under a higher requirement. Rolling ball is one of the most crucial components of ball bearing. In order to promote the precision of testing rolling ball during the production process, in this essay, based on measuringtechnique on diameter of rolling element both at home and abroad, the device which can measure the diameter and classify automatically has been developed based on the measurement of LDS. During the research, with the application of precision laser displacement sensor, precision electronic control turntable and precision manual adjustment Taiwan, which has been designed, was mechanical body structure and the integration of complete controller and machine. Consequently, on-contact high precision measurement and classification can be realized. Specific studies in this essay are as follows:The relative error of diameter measurement was defined as the foundation of rolling test and grouping through the recent ball bearings detection. It has been developed that three diameter detections and grouping device programs for the rolling ball. Then final decision was to consider the2 degrees of freedom arm of the feeding mechanism and Turntable positioning with automatic electric control group institutions as the overall program after the three-dimensional analysis of every program has been given. As a result, the program which has been proved to be compact, more precious and needless to operate manually, avoid personal error. Meanwhile, it can be used to detect and classify the rolling ball ranging from 3.5mm to 25mm owing to its removable components and adjustable structure.By analyzing the integrative controlling program, the industrial control computer was used as the host controlling computer. Additionally, the four-axis stepper motor motion control card and intelligent laser displacement sensor was integrated. Finally the measuring and control system is assembled.It is no longer impossible to have a better understanding of the size error due to the detailed introduction and reasonable classification which have been done.The final online debugging showed that the system can complete a serious of detections of rolling elements and classify them automatically with a sub-micron level precision.Keywords: Ceramic balls ; measurements ; diametre ; errors ; grouping哈尔滨工业大学工学硕士学位论文目录摘要 (I)Abstract (II)第1章绪论 (1)1.1 课题的研究目的和意义 (1)1.2 国内外研究现状 (3)1.2.1轴承球检测技术的现状 (3)1.2.2轴承球分组技术的现状 (4)1.3 本课题主要研究的内容 (5)第2章轴承球尺寸检测方案及误差分析 (6)2.1 引言 (6)2.2 轴承球直径检测的主要依据 (6)2.3轴承球直径检测的方法 (6)2.3.1 垂直入射式测量法 (8)2.3.2 斜入射式测量法 (9)2.4 误差分析 (10)2.5 本章小结 (15)第3章机械系统设计 (16)3.1 引言 (16)3.2机械系统的总体要求 (16)3.3轴承球测量方案的设计 (17)3.4机械系统的方案分析 (19)3.5本章小结 (27)第4章控制系统设计 (28)4.1 引言 (28)4.2 总体控制原理及控制器选择 (29)4.3 驱动部分设计 (31)4.4 软件实现 (35)4.5本章小结 (37)结论 (38)参考文献 (39)哈尔滨工业大学硕士学位论文原创性声明 (42)哈尔滨工业大学硕士学位论文使用授权书 (42)致谢 (43)哈尔滨工业大学工学硕士学位论文第1章绪论装备制造业是工业化的核心和基础，也是一个国家综合国力强大与否的重要标志之一，而一个国家装备工业的发达程度又直接关系到国家工业和科技的发达水平，因此装备制造业对于一个国家现代化的发展非常重要。

使用说明书CMOS激光位移传感器LC-S 系列●NPN输出型～24V DC10%●PNP 输出型～24V DC 10%点教导●。

法方导教的本基背景物体检测物体1. 在有背景物体的状态下，按下SET 键。

2. 在有检测物体的状态下，按下SET 键。

可稳定检测的情况下无法稳定检测的情况下●。

利便分十则，法方导教该用使如，下况情的体物景背和体物小微有＜背景物体为基准的情况下＞＜检出物体为基准的情况下＞1.在有背景物体的状态或者在有检测物体的状态下，按下SET 键。

2.3. 教导结束。

●用使请，时品产本装安M3螺丝(请另行准备)。

请使用05N m .∙的拧紧力矩。

●用使请也，时品产本装安）售另（架支装安器感传用使05N m .∙的拧紧力矩。

安装孔尺寸●相对于移动体的方向＜材质、有色差的情况下＞• 材的物象对量测的动移，时量测质、颜色极端不同的情况下，按照下图所示方向进行安装，从而可将测量误差控制在最小限度。

＜对旋转的对象物进行测量＞• 按，时量测行进物象对的转旋对照下图所示方向进行安装，从而可抑制对象物的上下振动和位置偏移等的影响。

＜有段差的情况下＞• 情的差段在存物象对量测的动移况下，按照下图所示方法进行安装，从而可抑制段差边缘的影响。

●在狭隘场所和凹陷部分进行测量点教导(窗口比较模式)●值限下和值限上置设行实而，导教点1施实不时离距的间之面准基体物测检与对针的方法。

在上下限范围内进行判别时，使用该功能。

●实施1点教导(窗口比较模式)的情况下，请事先在PR O 模式的检测输出设定中设为[1点教导(窗口比较模式)]。

关于设定方法，请参考“ ”9PRO 模式操作说明。

2SL_1SL_1.在有检测物体的情况下，按下SET 键次。

2(第1次：SET 模式、第次：教导)22. 教导结束。

点教导(窗口比较模式)●执行2点教导，设定基准值范围的方法。

● 实施2点教导(窗口比较模式)的情况下，请事先在PRO 模式的检测输出设定中设为[2点教导(窗口比较模式)]。

3B SCIENTIFIC ® PHYSICS1Instruction sheet05/18 TLE/UD1 Connecting cable, miniDIN2 Push-button for distant zone3 Light transmitter and lightreceiver4Push-button for near zoneThe laser reflection sensor meets the safety regulations for Class 2 lasers. It emits light in the visible region of the spectrum (400 – 700 nm). The radiation power is less than 1 mW. Provided that the instrument is used in accord-ance with the instructions, safe operation is ensured.In schools and other places of education or training, the instrument must only be used under the supervision of a trained and respon-sible person.Do not look into the light beam - that is not necessary when using the sensor.∙ If the housing of the instrument showsvisible signs of damage, it must be taken out of use immediately. ∙ Do not use any optical equipment that nar-rows the light beam. ∙Do not open the instrument housing.The instrument emits a laser beam at 630 nm wavelength and measures the reflected light. Two sensitivity ranges (near zone and distant zone) are provided, to adjust the instrument parameters for different operating conditions. The near-zone setting adjusts the instrument pa-rameters for operating distances of 5 to 50 mm. The experiment should be chosen so that there are widely different reflectivities (e.g. matt black markings on a white or diffusely reflecting background). With reflecting foils or microprism mirrors, a larger fraction of the light is reflected in the incident direction, and one can then work with a beam box up to 5 m long without special adjustments to the mirror. In such cases one should use the distant-zone setting.By connecting the instrument to other external technical aids, one can measure physical quantities related to the motions of bodies, such as rate of rotation, angle of rotation, an-3B Scientific GmbH ▪ Rudorffweg 8 ▪ 21031 Hamburg ▪ Germany ▪ Subject to technical amendments © Copyright 2018 3B Scientific GmbHgular acceleration, distance travelled, velocity and linear acceleration.The sensor is compatible with the VinciLab (1021477), the €Lab (1021478) and the digital counter (1001032 or 1001033). To perform experimen ts using the VinciLab and the €Lab the connection cable MiniDIN8-BT (1021688) is additionally required. Through the connec-tion box (1009954 or 1009955) it is possible to link the sensor to any of the other instrument technologies via 4 mm sockets.A magnet in the base of the sensor provides a convenient means of locating it firmly.1 Laser reflection sensor 1 MiniDIN connecting cable 1 Piece of reflecting foilLight source: Laser module, 630 nm wavelength Beam divergence: approx. 1 mrad Max. light power: 500 µW Laser class: II Dimensions: 40 x 25 x 90 mm 3 Mass: approx. 0.05 kgNo special maintenance procedures are nec-essary. ∙ Do not use any aggressive cleaning agents or solvents to clean the equipment. ∙ Use a soft, damp cloth for cleaning.∙ The packaging should be disposed of at local recycling points. ∙Should you need to dispose of the equip-ment itself, never throw it away in normal domestic waste. If be-ing usedin private households it can be disposed of at the local public waste disposal authority.∙ Comply with the applicable regulations for the disposal of electrical equipment.。

激光位移传感器操作手册V3.0目录第1章：产品概要......................................................................... 1-11.1 包装内容 ......................................................................................... 1-11.2 各部件名称及功能........................................................................... 1-21.3 安装................................................................................................. 1-3 第2章：设定与测量 ..................................................................... 2-1 第3章：软件操作......................................................................... 3-13.1 通信设置 ......................................................................................... 3-13.2 位置读取与归零设定 ....................................................................... 3-2 第4章：通讯指令......................................................................... 4-14.1 通讯参数列表 .................................................................................. 4-14.2 通讯协议 ......................................................................................... 4-4 第5章：产品规格......................................................................... 5-1 第6章：安全注意事项.................................................................. 6-1 第7章：保固 ................................................................................ 7-1版本更新历程激光位移计操作手册V3.0版本更新历程版本更新日期V1.0 第一版发行2018/09/03V2.0 新增「反应速度设定」与「中值滤波器设定」功能说明与通讯地址设定方式。

激光传感器说明书篇一：激光测距仪使用说明激光测距仪使用说明一、使用前的准备（一）电池的装入/更换打开仪器尾部的固定挡板。

向前推卡钮，向下将底座取下。

按住红色的卡钮推开电池盒盖。

安装或更换电池。

关闭电池盒盖，安装底座和卡扣。

当电池的电压过低时，显示屏上将持续闪烁显示电池的标志{B，21}。

此时应及时更换电池。

1、按照极性正确装入电池。

2、使用碱性电池（建议不要使用充电电池）。

3、当长时间不使用仪器时，请取出电池，以避免电池的腐蚀。

更换电池后，设置和储存的值都保持不变。

（二）多功能底底座固定挡板可以在下面的测量情况下使用：1、从边缘测量，将固定挡板拉出，直到听到卡入的声音。

2、从角落测量，将固定挡板拉出，直到听到卡入的声音，轻轻将固定挡板向右推，此时固定挡板完全展开。

仪器自带的传感器将辨认出固定挡板的位置，并将自动设置测量其准点。

（三）内置的望远镜瞄准器在仪器的右部有一个内置的望远镜瞄准器。

此望远镜瞄准器为远距离测量起到辅助的作用。

通过瞄准器上的十字丝可以精确地观察到测量目标。

在30米以上的测量距离，激光点会显示在十字线的正中。

而在30米以下的测量距离，激光点不在十字线中间。

（四）气泡一体化的水泡使仪器更容易调平。

（五）键盘1、开/测量键2、第二级菜单功能3、加+键4、计时（延迟测量）键5、等于[=]键6、面积/体积键7、储存键8、测量基准边键9、清除/关键10、菜单键11、照明键12、间接测量（勾股定律）键13、减-键14、BLUETOOTH（六）显示屏1、关于错误测量的信息2、激光启动3、周长4、最大跟踪测量值5、最小跟踪测量值6、测量基准边7、调出储存值8、储存常数9、主显示10、单位，包括乘方立方（2/3）11、顶的面积12、墙面积13、3个额外显示（如：测量中间值）14、BLUETOOTH蓝牙开/关15、第二级菜单功能开16、硬件故障17、间接测量-利用勾股定律18、间接测量-利用勾股定律-部分高度19、面积/体积20、带常数的测量21、电池充电量显示二、菜单功能（一）设置在菜单中可以改变设置，并将其长久保存，并在关机和更换电池后不改变。

INSTALLATION GUIDELaser Displacement Sensor Series LAWFor further information please see the data sheet at /products/laser-sensors/WayCon Positionsmesstechnik GmbH would like to thank you for the trust you have placed in us and our products. This manual will make you familiar with the installation and operation of our laser sensors. Please read this manual carefully before initial operation!Unpacking and checking:Lift the device out of the box by grabbing the housing. Please pay attention not to touch the laser window. After unpacking the device, check it for any visible damage as a result of rough handling during the shipment. Check the delivery for completeness. If necessary consult the transportation company, or contact WayCon directly for further assistance.• These instructions are an integral part of the product and must be kept on hand for the entire duration of its service life.• Read the operating instructions carefully before using the product.• Installation, initial start-up and maintenance of the product may only be carried out by qualified personnel.• Tampering with or modifying the product is impermissible.• Protect the product from contamination during initial start-up.• Not a safety component in accordance with the EU machinery directive.Measurement Conditions:Measuring Range 4 mmSurface MaterialPossible objects to be measured include all sorts of materials such as metal, plastic, ceramic, rubber and paper. Suitability for use only needs to be tested individually for highly reflective surfaces and liquids.Surface Damage on the Object to be MeasuredA scratch on the surface of the object to be measured which runs perpendicular to the axis of the lens may cause stronger light emissions, whose maxima are located next to the centre of the spot. An incorrect distance is simulated as a result.If a moving object is involved, the mean (integral) measured value remains constant when the damaged surface is scanned, i.e. the positive and negative edges cancel each other out due to the damage. Undesired deflection can be minimized by selecting a suitable average filter.Extraneous LightWhen installing the sensor, it must be assured that no direct or reflected sunlight can shine into the receiver optics. Where difficult applications are involved, this “extraneous light” may interfere with measured value recording. The measuring point should be correspondingly shaded in such cases. Changes in RemissionThe sensors are equipped with luminous intensity control which is automatically adjusted to the level of remission from the object to be measured. If remission from the surface changes during measurement, the sensor compensates for any fluctuation. By selecting a fixed sampling rate, measured values remain accurate even if surface remission changes.Dependence of Measurement on AngleMeasurement is minimally dependent on angle if the sensor is not aligned at a right angle to the object to be measured. Tilting the sensor results in a greater distance to the object. This change in distance can be set to zero by means of a corresponding offset shift.INITIAL START-UPTwo connector plugs are integrated into the sensor’s housing. The 8-pin plug supplies the sensor with +24 V operating voltage, whereas communication for parameters configuring and process data is conducted via the 4-pin socket. We recommend the exclusive use of Ethernet switches in order to optimize data communication.Please note: If Gigabit Ethernet cards are used, the polarity of the Tx and Rx conductors might not be correctly detected. Connecting sensors directly may result in complications. With an Ethernet crossover cable (crosslink), the sensor functions flawlessly via a PC network card. As an alternative, acommercially available 100 Mbit Ethernet switch can also be used.SETTINGSThere are several different ways to enter settings to the device:• Via the integrated website, with which LAW Sensors are equipped. This website functions independent of the operating system and the sensor can be configured via a standard browser. The web-based configuration interface is not required for normal operation with a controller.• Using the function block for simplified incorporation of LAW Sensors into an S7 controller available for download at /downloads.Attention!If the sensor is connected to a controller, the settings which have been selected via the website are overwritten by the controller.Accessing the WebsiteStart the web browser. Enter the sensor’s manually selected IP address (standard: 192.168.0.225) to the address line in your browser and press the enter key. In order to ensure that the browser displays the current settings on the website, the website has to be reloaded whenever changes are made. Otherwise, changes might not be correctly displayed via the website.Settings are explained below based on the descriptive example provided by the website which is integrated into the sensor.SETTINGSDevice Settings (website)1. Network settings:The IP address and the addresses for the subnet mask and the gateway can be changed in the respective fields. Changes are activated by entering the “admin” password and by restarting the device. Please make sure that the selected subnet mask is actually available within the network. Otherwise you might not be able to find the sensor in the network.2. Measured value settings• Evaluation method: functions description• Average filter: Adjustable, rolling average filter from 1 to 1000 measured values.• The smaller the selected value, the faster the measured value reacts to jumps.• The larger the selected value, the more smoothed the measured value becomes.• Sampl ng rate: Possible settings include “Auto” (the sampling rate is adjusted automatically) or “=output rate” (sampling rate = output rate). Values can be selected within a range of 900 to 30,000 Hz as well.• Output rate: Values can be selected within a range of 10 to 30,000 Hz. The measured values are compiled individually as an Ethernet data packet at the selected rate. Example: Using the “extended continuous measurement” evaluation method with 150 distance values and a selected output rate of 1 kHz (corresponds to 1 ms), you get the entire data packet every 150 ms.• Laser: Laser power adjustable from 0.1 to 1 mW, or automatic• Offset: If desired, a zero-point offset can be entered here.• Screening Grid: When activated, the effects of the screening grid on the measured distance value and linearity are compensated for by this option.3. General settings• Encoder reset: Resets the encoder input to zero.• Default values: Resets all values to their default settings.Exception: network settings1. Analog output:Selection of 0 to 10 V or 4 to 20 mA.2. I/O settings:Various pin functions can be selected for the individual inputs/outputs.Depending on the selected setting, context menus offer corresponding selection options.Pin function:Switching output: The selected output functions as a switching output.External teach-i n: One of the sensor’s switching inputs can be taught in anew by applying an electrical signal to this input.Encoder E1+E2: A 2-channel rotary encoder with HTL square-wave signal must be used. ChannelSETTINGSSETTINGS2 mA input load:• Input load is set to 2 mA as a default value, but it can be switched off in the dropdown menu (e.g. if the PLC has a high-impedance PNP output).Input setting:• Operating voltage active: Pending tasks are executed when input voltage is on.• Operating voltage inactive: Pending tasks are executed when input voltage is off.MAINTENANCE• This sensor is maintenance-free.• It is advisable to clean the lens and the display, and to check the plug connections at regular intervals.• Do not clean with solvents or cleansers which could damage the product.DECLARATION OF EU-CONFORMITYWayCon Positionsmesstechnik GmbH4Mehlbeerenstraße82024 Taufkirchen / GermanyWe declare that the products to which the present declaration relates comply with the essential requirements of the given directive(s) and have been evaluated on the basis of the listed standard(s).Classification Laser SensorsSeries LAWDirective(s) 2014/30/EUStandard(s) EN 60947-5-2:2007+A1:2012 and EN 60947-5-7:2003The declaration of conformity loses its validity if the product is misused or modified without proper authorisation.AndreasTäger18.08.2020Taufkirchen,CEO。

Vevo 3100 成像系统TOUCH|CUSTOMIZE|VISUALIZEPN 51257 Quick Start Guide for the Vevo 3100 Imaging Platform Rev 1.0INTRODUCTION开始之前，请：✓确保已将探头连接到台车的外部探头端口。

✓如果您要对动物进行成像，请将动物放置于成像平台上，开启生理数据监控器，并确保其与系统正确连接，且正常运转。

WARNING: 在使用VEVO 3100之前，任何操作员必须阅读并遵守本文档末的“安全警告和注意事项”。

获取和分析B模式图像并导出分析：1.按下位于系统背面的主电源开关“ON”启动系统。

注意：确保系统已插上电源。

2.登录，或点击“Guest”按钮。

3.在探头界面中选择一个“Application”，即出现B模式成像窗口，并开始自动获取B模式图像。

4.创建一个“New Study”和“Series”。

你可以改变Study或Series名称，或通过Study Browser向Study 或Series添加信息。

5.从“Mode Presets”弹出窗口中选择“Preset”，然后做各种图像优化处理，如“Image Depth”，“Gain”或“Dynamic Range”。

6.点击“Freeze”以停止数据采集。

7.点击“Save Clip”将Cineloop保存在Series中。

8.滑动“Slide to Scan”可恢复图像采集。

9.重复“Freeze”和“Slide to Scan”以获得满意的图像。

10.点击“Current Series”导航按钮以查看当前所有已保存的图像系列。

您还可以在“Study Browser”中查看这些图像。

11.点击缩略图，此时会出现B模式窗口并播放存储的图像。

您可以使用下一个/上一个箭头按钮浏览存储在系列中的图像。

12.暂停图像播放，并找到需要进一步测量分析的那一帧。