3D-NLS非线性健康检测设备使用操作手册

QMS3D-M测量软件使用说明书版本:1.0.1.6注意事项一:开机,关机顺序1:开机顺序(1):启动电脑旳电源及显示屏电源开关;(2):确认 X ╱Y 轴全程正常无杂物和障碍物;(3): 系统将进入Windows 7 原则画面;(4): 打开仪器开关(电源,光源开关);(5):在桌面按QMS3D-M图案二下，软件将自动执行QMS3D-M 软件;2:关机顺序(1): 到软件主画面作上方选档案后再点选关闭按钮 (要离开QMS3D-M操作软件，记得先储存量测档案。

)(2):关闭仪器开关(电源,光源开关)(3):在Windows7左下方点选关机(4):关闭电脑旳电源和显示屏电脑。

二:QMS3D-M测量软件运营旳必要条件1．满足对计算机配备需求:。

软件需求：Windows7 32位操作系统硬件需求：解决器：Intel(R) Celeron(R) CPU内存：2.00GB显卡：1GB独立显存卡硬盘: 500GB转速7200RPM显示屏:宽屏支持1440*900辨别率CD-ROM：用于安装软件鼠标：带有三键鼠标键盘：104-原则键盘PCI 槽：至少两个USB端口：至少四个COM端口：视需求而不同2．配备我司提供旳USB303专用接口装置.3．配备一只由我司提供旳专用加密锁.三:影像测量元素之前一定要像素校正,探针测量元素之前一定要探针校正.第一章QMS3D-M软件概要QMS3D-M软件是我公司自主开发手动影像加探针测量应用软件，可以对二维测量旳坐标进行可视化分析解决和检测，也可以使用探针进行三维几何元素测量。

应用于多种精密制造业，如手机组件,模具,电子,通信,机械,五金,塑料,仪表,钟表,PCB,LCD等行业。

可测量旳材料涉及金属,塑料,橡胶,玻璃,PCB,陶瓷等;1:几何元素测量可以测量十五种几何元素(点,直线,平面,圆,圆弧,椭圆,矩形,键槽,圆环,圆柱,圆锥,球,开曲线,闭曲线和焦面)，并且可以测量高度,也可以预置基本几何元素。

WAVES NLS NON-LINEAR SUMMER USER GUIDETable of ContentsChapter 1 – Introduction (3)1.1 Welcome (3)1.2 Product Overview (3)1.3 Concepts and Terminology (4)1.4 Components (7)1.5WaveSystem Toolbar (7)Chapter 2 – Quick Start Guide (8)Chapter 3 – Interface and Controls (10)3.1 NLS Channel Interface (10)3.2 NLS Channel Controls (11)3.3 NLS Buss Interface (13)3.4 NLS Buss Controls (14)3.5 NLS VCA Groups Console Interface (16)3.6 NLS - VCA Group Console Controls (17)Chapter 1 – Introduction1.1 WelcomeThank you for choosing Waves! In order to get the most out of your new Waves plugin, please take a moment to read this user guide.To install software and manage your licenses, you need to have a free Waves account. Sign up at . With a Waves account you can keep track of your products, renew your Waves Update Plan, participate in bonus programs, and keep up to date with important information.We suggest that you become familiar with the Waves Support pages: / support. There are technical articles about installation, troubleshooting, specifications, and more. Plus, you’ll find company contact information and Waves Support news.1.2 Product OverviewWaves, together with three of today’s leading producer/engineers, brings you the analog summing sound of three legendary consoles∙The SSL 4000G belonging to Mark ‘Spike’ Stent (Radiohead, Björk, Muse, Maroon 5, Madonna).∙The EMI TG12345 Mk 4 desk owned by Mike Hedges (The Cure, Siouxsie and the Banshees, Dido, Faithless, Manic Street Preachers, U2), heard on suchtimeless recordings as Pink Floyd’s The Dark Side of the Moon.∙The Neve 5116console custom-made for Yoad Nevo (Bryan Adams, Pet Shop Boys, Sugababes, Goldfrapp, Air).In all, Waves meticulously modeled over 100 individual channels, analyzing and emulating the distinctive color, character, and behavior of each and every input and summing bus amp.One of the great things about the digital environment is also one of its greatest drawbacks: Its linearity, while utterly transparent, often results in sterile tracks that lack warmth and harmonic depth. NLS delivers the richness and complexity that only analog gear has been able to provide—until now.1.3 Concepts and TerminologyAnalog Console SummingEver since the dawn of the digital audio revolution, engineers the world over have tried to replicate the sound of analog summing, in the box. Many top engineers add an analog hardware console or summing box to their setup, and route multitrack audio from the DAW to the analog device, and back again as stereo, in order to get analog summing coloration.With that in mind, Waves began exploring the mysteries of analog summing with the help of Mark ‘Spike’ Stent, who generously lent us his SSL 4000G desk. Our research suggested that its individual channel preamps, working together with one another in conjunction with the master buss preamp, are responsible for its indefinable yet highly desirable sound. Furthermore, we concluded that perceived depth and image—what we’ve come to know as ‘non-linearity’—are the result of minor differences in frequency response, harmonic distortion and noise between the channels.Analog CharacterAnalog devices produce electrical artifacts that affect frequency response, add harmonics, cause signal clipping and increase noise. These artifacts, which sound engineers often consider the ‘character’ of a particular device, result from a combination of factors such as component grade, technology type (i.e., vacuum tubes vs. transistors), power supply specifications, equipment casing and other variables. Waves modeled these artifacts for each individual console channel.Frequency ResponseDepending on the circuit, input signal frequency response varies. Some circuits cut frequencies; others boost them. This behavior is part of the overall device character, and should not be confused with user-adjustable EQ.Harmonics (THD/Total Harmonic Distortion)THD is low-level distortion based on the levels of the odd and even harmonics of an input signal, usually at a level much lower than the fundamental level. Normally, eachharmonic is at a lower level than its predecessor, creating a natural decay. THD balance and decay are circuit dependent, and thus differ from device to device.ClippingClipping is high-level distortion that adds harmonics to the input signal at a level that is very close to the fundamental level, with each harmonic remaining at a level close to its predecessor. Clipping occurs when a device such as a preamp is fed with a signal too strong for it to handle, and the device ‘chops’ the waveform to fit its power limitations. For example, when a sine wave is driven hot into a preamp, it almost becomes a square wave.NoiseNoise occurs in analog devices due to the interaction between the power supply and the device’s electrical and magnetic shielding properties, resulting in random low level signals. The noise level defines the dynamic depth of the usable signal, what we call Signal-to-Noise Ratio or SNR. For example, in a 16-bit audio file, the noise level is -95 dBFS, which translates into 95 dB of depth. In an analog console, where noise is set at about -80 dBu and the clipping point is 20 dBu, the depth is 100 dB.Session SetupSince analog console coloration is created by the console’s individual channel and buss amplifiers, the NLS includes both Channel and Buss components. To faithfully reproduce the DAW to analog console (and back again) signal chain and workflow, we recommend using the NLS in one of two following session setup configurations.1.As a virtual summing box or summing console: The NLS Channel is inserted on the last insert of the DAW audio tracks, like a direct out routed to an analog console. The NLS Buss is placed on the first insert of the master track (or any other buss), just as the stereo return would be routed from the analog console back to the DAW.2.To simulate console preamp coloration: The NLS Channel is placed on the first insert of your DAW audio tracks, and the NLS Buss can then be inserted at any point on the buss or master track.The NLS automatically ensures channel variation by loading a different channel model for each instance of the NLS Channel component, chosen from the pool of 32 modeled channels per console.VCA GroupsIn the analog world, VCA is an acronym for Voltage Controlled Amplifier. On many analog consoles, there is a physical distance between channels that makes it difficult to move them simultaneously. Therefore, many consoles are equipped with VCA group faders which are used to control the output amplifiers of multiple channels.In the NLS plugin, VCA stands for Virtual Control Aggregator which, similar to its analog counterpart, provides simultaneous control over multiple NLS Channel instances. For easy access, the NLS VCA Groups Console can be opened from any NLS instance. Each NLS instance must be assigned, from within its GUI, to a VCA Group. Please note: VCA Group Consoles do not process your signal in any way; rather, they serve as remote control surfaces for groups of NLS instances.PresetsThere are 32 channels and master buss presets per Studio console. User presets are comprised of two parts: one for the Channel or Buss section, and one for the VCA Groups Console section. Each section may be loaded independently using the Waves preset system; they may not be loaded independently using your host’s preset system.NLS Channel components open different modeled presets for each instance. However, if a channel instance is duplicated, the same model will be duplicated as well. Therefore, we recommend that each NLS Channel instance is opened directly from your DAW drop-down menu, or using the shortcuts described below.Waves NLS1.4 ComponentsWaveShell technology enables us to split Waves processors into smaller plugins, which we call components. Having a choice of components for a particular processor gives you the flexibility to choose the configuration best suited to your material.Waves NLS includes two components each in two channel configurations: ∙NLS Channel Mono∙NLS Channel Stereo∙NLS Buss Mono∙NLS Buss StereoAll NLS components have IRXU VDPSOHV RI latency.1.5 WaveSystem ToolbarUse the bar at the top of the plugin to save and load presets, compare settings, undo and redo steps, and resize the plugin. To learn more, click the icon at the upper-right corner of the window and open the WaveSystem Guide.Chapter 2 – Quick Start GuideAs a starting point, we recommend using the NLS in one of the two configurations described above.Quick Start▪Open the NLS Channel at the last insert point on every track.▪Open the NLS Buss on your master or other buss.VCA Group Usage▪By default, all NLS instances are assigned to VCA Group 1.▪For global control over all NLS instances in the session, open the VCA Group Console via one of the Channel or Buss instances.▪Set the VCA Group Drive which affects all instances in the group.▪Set the VCA Group Trim, if required.▪Select the VCA Group Studio setting. Selecting INDIV leaves each NLS instance with its selected Studio setting; selecting SPIKE, MIKE or NEVO changes all NLS instances in the group to the selected Studio.▪Set the VCA Group Noise, if required.Advanced VCA Group Usage▪Set all NLS Channel instances on drum tracks (for example) to VCA 1.▪Set all NLS Channel instances on guitar tracks (for example) to VCA 2.▪Set all NLS Channel instances on vocal tracks (for example) to VCA 3, and so on.▪Set all NLS Buss instances to VCA 8.▪Open the VCA Groups Console.▪Using the VCA Tab, rename the groups according to their assignments by double-clicking on the text field, typing the new name, and clicking Enter: Grp1renamed to Drums (for example), Grp 2 renamed to Guitars (for example), etc.▪Open the VCA Groups Console in the Master track NLS instance, and turn on Auto, enabling VCA write/read automation.▪Use the VCA Groups Console as your main stem control.Host-Specific ShortcutsPro ToolsTo create multiple plugin instances for the entire session:▪Hold Alt/Option + select NLS on a Mono track.▪Hold Alt/Option + select NLS on a Stereo track*.To create multiple plugin instances for selected tracks▪Select multiple channels.▪Hold Shift + Alt/Option + select NLS on a Mono track.▪Hold Shift + Alt/Option + select NLS on a Stereo track*.*This is to ensure that Stereo tracks receive NLS stereo components rather than two NLS mono components (multi-mono).Setting NLS VCA Groups for Grouped Tracks▪Create Pro Tools Edit/Mix groups.▪In the Group menu, select Modify Groups, open the Globals tab, and check the Control box next to the Insert point (a or j) where NLS will be instantiated.▪Instantiate NLS for the Pro Tools group.▪Open one NLS instance and assign the NLS VCA group; this selection will be duplicated to all NLS instances in the Pro Tools group.Cubase / NuendoTo create multiple plugin instances for selected tracks:▪Select multiple channels.▪Hold Alt/Option + Shift and insert NLS on the first channel.LogicTo create multiple plugin instances for selected tracks:▪Select multiple channels.▪Insert NLS on one of the Mono tracks in the selection.▪Insert NLS on one of the Stereo tracks in the selection.Chapter 3 – Interface and ControlsNLS graphic user interface comprises three elements, the Channel controls, the Buss controls, and the VCA Group Console section available as a Tab in the Channel instances or as a foldable GUI extension in the Buss instances.3.1 NLS Channel Interface3.2 NLS Channel Controls1)STUDIO sets the console type.Range: Spike, Mike, NevoSpikeDefault:2)DRIVE controls the amount of harmonic distortion, increasing the input signaland decreasing the internal headroom. At lower Drive levels, the added distortion is quite subtle; at moderate and high Drive levels, the amount of added distortion and compensation gain is much more intense.Range: 0 to +12Default:3)OUTPUT controls gain adjustment.Range: -12 dB to +12 dBDefault: 0 dB4)VCA GROUP assigns the NLS instance to a VCA Group, for global control viathe VCA Groups Console.Range: None, 1 to 8Default: 1 (Grp 1)5)LINK toggles between Dual Mono mode, where the left and right channels arenot identical models, and Stereo mode, where left and right are identical.Range: Dual Mono, StereoDefault: Dual Mono6)MIC changes the headroom by simulating mic input levels.OffRange:On,OffDefault:7)BYPASS deactivates analog harmonics, noise and frequency response effects.Please note: The Bypass setting of the VCA Group Console overrides theBypass settings of specific NLS instances.Range: Bypass, Not BypassedDefault: Not Bypassed8)NOISE activates modeled analog noise. Please note: The noise setting of theVCA Group Console overrides the Noise settings of specific NLS instances.Range: On, OffOnDefault:9)VCA TAB shows and hides the VCA Groups Console section.Range: VCA Tab, Channel TabDefault: Channel Tab10)METER displays output signal peak dBFS values.Range: -24 dBFS to 0 dBFS3.3 NLS Buss Interface3.4 NLS Buss Controls1)STUDIO sets the console type.Range: SPIKE, MIKE, NEVOSPIKEDefault:2)DRIVE controls the harmonic distortion ratio, increasing the input signal anddecreasing the internal headroom. At lower Drive levels, the added distortion is quite subtle; at moderate and high Drive levels, the amount of added distortion and compensation gain is much more intense.Range: 0 to +12Default:3)TRIM controls output gain adjustment.Range: -12 dB to +12 dBDefault: 0 dB4)VCA GROUP assigns the NLS instance to a VCA Group, for global control viathe VCA Groups Console.Range: None, 1 to 8NoneDefault:5)BYPASS deactivates analog harmonics, noise and frequency response effects.Please note: The Bypass setting of the VCA Group Console overrides theBypass settings of specific NLS instances.Range: Bypass, Not BypassedDefault: Not Bypassed6)NOISE activates modeled analog noise modeling. Please note: The noise settingof the VCA Group Console overrides the Noise settings of specific NLSinstances.Range: On, OffDefault:On7)SHOW VCA shows and hides the VCA Groups Console section.Range: Show, HideDefault:Show8)METER displays output signal peak dBFS values.Range: -24 dBFS to 0 dBFS3.5 NLS VCA Groups Console Interface3.6 NLS - VCA Group Console Controls∙VCA Group Console settings are the same in all NLS instances across the session.∙VCA Group Controls do not support Undo/Redo functions.∙VCA Group Console settings are the same for plugin Setups A and B.∙VCA Group Console settings can be loaded independently from the Waves preset system.∙To bounce tracks when VCA Group Console controls have been automated, use your audio host’s “real-time” bounce function.1) AUTO enables automation writing and reading for the VCA Groups Console. To change the NLS instance used as your VCA Group automation master, disable AUTO on the currently enabled instance, and enable AUTO on a different instance.Please note: Automation writing may only be activated from the AUTO-enabled instance; only one instance can be AUTO-enabled per session. Only the AUTO-enabled instance can be controlled using an external control surface.Range: On, OffDefault: Off2) GROUP BYPASS deactivates the NLS effect on all instances assigned to that VCA Group. Please note: The VCA Group Console Bypass setting overrides the Bypass settings of specific NLS instances.Range: Bypass, Not BypassedDefault: Not Bypassed3) GROUP NOISE controls the noise for all the NLS instances assigned to that VCA Group. Please note: The Noise setting of the VCA Group Console overrides the Noise settings of specific NLS instances.Range: On, OffDefault: On4) GROUP DRIVE sets the drive offset value for all NLS instances assigned to that VCA Group. The VCA Group Drive value will be added or deducted from that of each NLS instance in the group. For example, if an instance of NLS Channel is set to Drive +8, and is part of VCA Group 2 which has a Drive setting of +5, the total Drive value for that NLS Channel will be +13. At lower Drive levels, the added distortion is quite subtle; at moderate and high Drive levels, the amount of added distortion and compensation gain is much more intense. Negative Drive values affect THD levels, but do not change the makeup gain.Range: - 12 to +12Default: 05) GROUP TRIM sets the output gain offset value for all NLS instances assigned to that VCA Group. This value is added or subtracted from that of each NLS instance in the group.Range: -12 dB to +12 dBDefault: 0 dB6) GROUP STUDIO sets the studio type for all NLS instances assigned to that VCA Group. Please note: The Studio setting of the VCA Group Console overrides the Studio settings of specific NLS instances. When the VCA Group Studio is set to INDIV (Individual), each NLS instance in the VCA Group retains its original Studio setting, allowing different Studio consoles to be used within the same VCA Group.Range: INDIV, SPIKE, MIKE, NEVODefault: INDIV7) GROUP NAME is a text field which allows you to customize the name (up to seven characters) of each VCA Group, automatically updating the name in all NLS instances.Default: Grp1 to Grp8。

madVR Labs Introduces Another Industry first,with NLS+We are excited to share with you that the new non-linear stretch (NLS+) feature is now available!What is non-linear stretch?Non-linear stretch is used to fill a scope screen so there are no black bars when watching content with a smaller aspect ratio. For instance, you can use NLS+ to remove the vertical black bars when watching 16:9 content on a 2.40 screen.How about an example?You got it. In the first image, 16:9 content is shown on a 2.37 aspect ratio screen. Notice the black bars on the side (which appear here as a very dark grey, so you may have to look carefully).Looks great, but how does NLS+ look in motion?Well, glad you asked. How about some baseball with fast motion and panning? Click below and give it a try (30 MB download). Please pardon the way the video is narrower on the top than bottom - this is just due to the camera angle when recording.So, what's the secret??NLS+ is the first non-linear stretch algorithm to combine horizontal expansion with vertical compression. This innovation (yet another madVR Labs industry first) "shares the load" for the stretch both horizontally and vertically, resulting in a more natural looking stretched image than may be achieved otherwise.Here are some more examples of NLS+. Note that these images have been cropped to fit this email better, but not otherwise modified. Again, please look hard to spot the black bars, which closely blend in with the email background. Also note that the slant of the images is just from the camera being off axis. These pics were taken casually, just for fun, to show you some more examples of NLS+ in action.Is NLS+ right for everyone?NLS+ was one of the most asked for and anticipated Envy features over the past year, and the preliminary feedback has been outstanding. That said, some people prefer viewing the original, non-stretched content, with the full black bars. Even within madVR Labs, we have different thoughts on it.So for the purists out there, please note we are not advocating that NLS+ is for everyone. Rather, if you're in the camp that really enjoys such a feature, you now have yet another fun and exciting way to get even more enjoyment out of your Envy!Likewise, NLS+ is new to us too, and we continue to look for ways to squeeze even more out of it (see what we did there?).How do I try NLS+?Well, first you will need an Envy. :) If you don't already have one, visit our website and click the Where to Buy button. Go to the Firmware Configuration menu and choose either Test Builds or Experimental Builds for the Build Type. Download the latest Envy firmware version shown there.Then go to the new "Custom Zoom" page in the Settings menu while viewing 16:9 content and play with the controls. It's self-explanatory, but there's always the in-menu context sensitive help to guide you.After experimenting there, head to the new "Custom Zoom Configuration" page in the Configuration menu. It offers the same settings as above, but with options for each possible aspect ratio (14 different ones!). Envy even provides test images for each AR, so you don't have to find content in every AR to configure each one.We hope you enjoyed learning about NLS+. If you've found this interesting, please share this email with a friend. Stay tuned for more exciting announcements from madVR Labs. Thank you for your interest in the madVR Envy.Additional ResourcesSee the NLS+ Setup Guide for more information on this exciting topic.。

智慧医疗健康监测设备使用手册第一章智慧医疗健康监测设备概述 (3)1.1 设备简介 (3)1.2 功能特点 (3)1.2.1 实时监测 (3)1.2.2 数据同步 (3)1.2.3 智能提醒 (3)1.2.4 个性化定制 (4)1.2.5 数据存储与云端同步 (4)1.2.6 专业服务 (4)1.2.7 简单易用 (4)1.2.8 安全可靠 (4)第二章设备安装与调试 (4)2.1 安装步骤 (4)2.1.1 开箱检查 (4)2.1.2 设备安装位置 (4)2.1.3 连接电源 (5)2.1.4 安装附件 (5)2.1.5 设备固定 (5)2.2.2 调试方法 (5)2.2.1 设备自检 (5)2.2.2 功能测试 (5)2.2.3 参数设置 (5)2.3 注意事项 (5)2.3.1 设备安装过程中，应保证设备与电源电压相符，避免设备损坏。

(5)2.3.2 设备安装位置应避免阳光直射、潮湿、强电磁干扰等环境，以保证设备正常工作。

(5)2.3.3 设备调试过程中，应按照设备使用说明进行操作，避免误操作导致设备损坏。

52.3.4 设备使用过程中，应定期检查设备运行状态，及时处理设备故障。

(5)2.3.5 设备维护保养过程中，应使用专业工具，避免损坏设备。

(6)第三章设备操作指南 (6)3.1 开机与关机 (6)3.1.1 开机操作 (6)3.1.2 关机操作 (6)3.2 主界面操作 (6)3.2.1 主界面布局 (6)3.2.2 主界面操作指南 (6)3.3 功能模块使用 (6)3.3.1 患者信息模块 (6)3.3.2 监测数据模块 (7)3.3.3 报警提示模块 (7)3.3.4 设置模块 (7)第四章心电监测 (7)4.1 心电监测原理 (7)4.2 心电监测操作 (7)4.2.1 准备工作 (7)4.2.2 操作步骤 (7)4.3 数据分析与解读 (8)4.3.1 心率 (8)4.3.2 心律 (8)4.3.3 ST段 (8)4.3.4 T波 (8)第五章血压监测 (8)5.1 血压监测原理 (8)5.2 血压监测操作 (9)5.3 数据分析与解读 (9)第六章血氧饱和度监测 (9)6.1 血氧饱和度监测原理 (9)6.2 血氧饱和度监测操作 (10)6.3 数据分析与解读 (10)第七章温度监测 (10)7.1 温度监测原理 (11)7.2 温度监测操作 (11)7.3 数据分析与解读 (11)第八章呼吸监测 (12)8.1 呼吸监测原理 (12)8.1.1 传感器原理 (12)8.1.2 信号处理原理 (12)8.1.3 数据传输原理 (12)8.2 呼吸监测操作 (12)8.2.1 设备准备 (12)8.2.2 设备佩戴 (12)8.2.3 数据监测 (12)8.3 数据分析与解读 (13)8.3.1 呼吸频率分析 (13)8.3.2 呼吸深度分析 (13)8.3.3 呼吸模式分析 (13)8.3.4 呼吸波形分析 (13)8.3.5 数据对比分析 (13)第九章设备维护与保养 (13)9.1 清洁与消毒 (13)9.1.1 清洁 (13)9.1.2 消毒 (13)9.2 定期检查与维护 (14)9.2.1 定期检查 (14)9.2.2 维护 (14)9.3 常见故障处理 (14)9.3.1 设备无法开机 (14)9.3.2 设备显示异常 (14)9.3.3 设备测量数据不准确 (14)第十章安全与隐私 (15)10.1 数据安全 (15)10.1.1 数据加密 (15)10.1.2 数据存储 (15)10.1.3 数据访问权限 (15)10.1.4 数据安全审计 (15)10.2 个人隐私保护 (15)10.2.1 隐私政策 (15)10.2.2 数据脱敏 (15)10.2.3 数据删除 (15)10.3 法律法规遵守 (15)10.3.1 法律法规遵循 (16)10.3.2 用户权益保护 (16)10.3.3 监管部门合规 (16)第一章智慧医疗健康监测设备概述1.1 设备简介智慧医疗健康监测设备是一款集成了现代信息技术、生物医学工程及物联网技术的智能监测系统。

Health Inspector – User GuideOverview (3)Health Inspector Installation (4)Health Inspector App (4)Health Inspector Results (4)Files (5)Health Inspector Configuration (6)Test Class Audit Parameter (Test_Class_Audit_Parameters__mdt) (6)Global Settings (Global_Settings__c) (12)Scheduling Health Inspector (14)Create Custom Class to Schedule (14)Create Schedule (14)Additional Configuration Options (16)Executing Batch Manually (16)Implement Extension Class (16)Re-Run Last Test Generated (17)Best Practices (18)Page | 2The Health Inspector application was designed to notify a defined set of users of the general “health” of your Salesforce instance’s test classes and code coverage. The Health Inspector is an extremely lightweight application that sends an email notification, at a customizable interval, which documents: •Any test class failures•Confirmation of test classes running longer than a configurable second count•The overall code coverage of the environment and whether it is below a user defined threshold •Flow code coverageLastly it documents the long running Apex Classes & Methods which can be used not only as a reference but also as a baseline for future executions.The Health Inspector app not only notifies a defined set of users but it can also generate a file which contains the results of the execution so you can monitor your results over time or refer back to any previous executions.The application was designed to be administered with simple configuration updates, rather than via code, and can be completely managed via the Salesforce setup menu.Page | 3Page | 4Health Inspector InstallationThe Health Inspector package can be installed from the following AppExchange listing:https:///appxListingDetail?listingId=a0N3A00000FMkhsUAD During the installation process, leave all selected defaults and install for Administrators only. Health Inspector AppAfter installing Health Inspector, you will be able to select the Health Inspector app from the App Launcher:There are two tabs by default in this app – ‘Health Inspector Results ’ & ‘Files ’.Health Inspector ResultsThe Health Inspector Results tab is designed to be the “one stop shop” for managing the application. This screen provides information relevant to:• The last execution of the Health Inspector app (pass or fail)• The resulting status of the last execution• Easy way to view all available configurations• Quick links to manage all configurations or edit individually• Ability to run a one-off execution of a configuration• Quick access to any files generated from executionsPage | 5FilesThis is the native Salesforce Files tab. If you have set Health Inspector to generate files on success/failure, you will be able to see those records on this tab.Health Inspector ConfigurationUpon installation of the Health Inspector application, one Custom Metadata Type record is created: •Test Class Audit Parameter (Test_Class_Audit_Parameters__mdt)Additionally, there is one Custom Setting that can be configured to store details around the last execution of the application:•Global Settings (Global_Settings__c)Below is a summary of the Custom Metadata Type & Custom Setting and how they are used in conjunction with the application.Test Class Audit Parameter (Test_Class_Audit_Parameters__mdt)The ‘Test Class Audit Parameter’ Custom Metadata Type (CMDT) is used to drive the core functionality of the Health Inspector application. Within this CMDT, the following can be configured: •Cadence of the app’s execution•Recipients of the email notifications•Code coverage tolerance amount•Contents of the success & failure email alerts•Code coverage running user•Generation of success or failure File creationUpon installation of the application, two entries will be created: ‘Default’& ‘DefaultWithFlow’. The difference between these two are that the ‘DefaultWithFlow’ entry contains language in the template to support the Flow Code Coverage functionality. Whereas the ‘Default’ entry has language specific to standard code coverage – not including flow. These entries are fully customizable so they can be modified to your exact use case. There is also the option of creating a new entry to support your individual requirements.To create a new or update the existing CMDT entries, na vigate to the Setup menu and type in ‘Custom Metadata Types’ in the search box and select that from the menu. In the resulting screen, find the ‘Test Class Audit Parameter’custom metadata type and click the ‘Manage Records’ link next to it:From the resulting screen, to create a new entry click the New button or to edit one of the existing, click the Edit link to the left of the ‘Default’ or ‘DefaultWithFlow’ entry. For most organizations, one of the Default entries should be used, as it contains the HTML for both the Health Inspector success and failure email templates. For users who are comfortable with HTML, you can feel free to create a new CMDT record and create your own email content.Page | 6Page | 7In the next screen, the following field should be populated based on your requirements:•Information Section o Label - (Required )▪ Enter an intuitive name for the Health Inspector entryo Test Class Audit Parameter Name – (Required )▪ This will default based on the Label value that was provided▪ Note: you will need this value to schedule the Health Inspector in a subsequentstepo Duration Tolerance (seconds)▪ This should be the number of seconds the test should run – for example, if thetest runs longer than X seconds, include it in the notification▪ For reference, 10 seconds is usually a baseline that can be used to determine ifthere is a long running classo Email Distribution▪ Enter the email address or addresses (comma delimited) that should receive theHealth Inspector email resultso Ignore Errors▪ Enter any errors that should be ignored by the Health Inspector logic. Forexample, NO_MAIL_PERMISSION, NO_MASS_EMAIL, etc.o Check Audit Increments – (Required )▪ Enter the minute(s) on the hour that the Health Inspector should be run▪ For example, a value in this field of “1;15;30;45” during the 12:00 hour willexecute at 12:01, 12:15, 12:30 & 12:45o Code Coverage Tolerance*** Important Note ***When upgrading Health Inspector, it will not add newly created fields to existing page layouts. If you don’t see any of the fields listed below on your CMDT setup, it’s likely because they just need to be added via the page layout.▪Enter a numeric value (up to 100) that indicates the code coverage percentage that should be used as a baseline to compare the org’s overa ll test class coverageagainst.▪For example, a value of “90” in this field would mean that if the overall code coverage of the org falls below 90%, this will also show as a notification in theHealth Inspector email alerto Flow Code Coverage Tolerance▪Only applicable if ‘Flow Code Coverage’ is enabled▪Enter a numeric value (up to 100) that indicates the flow code coverage percentage that should be used as a baseline to compare the org’s overall flowcode coverage against.▪For example, a value of “90” in this field would mean that if the overall flow code coverage of the org falls below 90%, this will also show as a notification in theHealth Inspector email alerto Extension Class▪If desired, an extension class can be referenced here which allows the data that is collected as part of the execution can be used in a post process o Administrator Email▪Enter the email address of your primary Salesforce administrator. This information will appear in the footer of the email message that is sent.o Administrator Name▪Enter the name of your primary Salesforce administrator. This information will appear in the footer of the email message that is sent.o Administrator Title▪Enter the title address of your primary Salesforce administrator. This information will appear in the footer of the email message that is sent.o Save File on Success▪If checked, when the app runs, it will create a date & time stamped Salesforce File which includes the contents of the success email that is generated on the specificexecutiono Save File on Failure▪If checked, when the app runs, it will create a date & time stamped Salesforce File which includes the contents of the failure email that is generated on the specificexecutiono Protected Component▪Leave the default value of false/unchecked•Failure Email Sectiono Fail Email Subject▪Enter the Subject line of the email that is sent with the Health Inspector failure resultso Send Email on FailurePage | 8▪Indicates whether an email should be sent if a failure is foundo Fail Email Template▪Contains the HTML body of the failure email message that will be sent via the Health Inspector app▪The ‘Default’ CMDT record contains a preconfigured template howev er this can be adjusted to meet your specific needs•Success Email Sectiono Success Email Subject▪Enter the Subject line of the email that is sent with the Health Inspector success resultso Send Email on Success▪Enter the Subject line of the email that is sent with the Health Inspector failure resultso Success Email Template▪Contains the HTML body of the success email message that will be sent via the Health Inspector app▪The ‘Default’ CMDT record contains a preconfigured template however this can be adjusted to meet your specific needs•Code Coverage Section (optional)o Calculate Flow Code Coverage▪Indicates whether a calculation of flow code coverage should be done as part of the Health Inspector execution▪Important Note: Requires a Connected App, Auth Provider & Named Credentials to be created to work as intended•Creating a Connected App:https://sforce.co/2D71HWd•Setup an Auth Provider:https://sforce.co/333ZZQ3•Create Named Credentials: https://sforce.co/37mxpwLo Calculate Code Coverage▪Indicates whether a calculation of code coverage should be done as part of the Health Inspector execution▪Important Note: Requires a Connected App, Auth Provider & Named Credentials to be created to work as intended•Creating a Connected App:https://sforce.co/2D71HWd•Setup an Auth Provider:https://sforce.co/333ZZQ3•Create Named Credentials: https://sforce.co/37mxpwLo Named Credential▪Enter the name of the Named Credential that was created to support the Calculate Code Coverage functionality▪Only required if using this functionalityOnce all the information has been entered, click the Save button.Page | 9Page | 10If you are creating more than one configuration for the Health Inspector app, simply repeat these steps until a custom metadata type record has been created for each individual scenario.Sample email result when using the ‘DefaultWithFlow’ option provided within the app:Page | 11Page | 12Global Settings (Global_Settings__c)The ‘Global Settings ’ Custom Setting is used to house the last successful run date/time and status of the Health Inspector application.T he application will automatically create a Custom Setting record on its initial run however if you’d like to set initial values, navigate t o the Salesforce Setup menu and type in ‘Custom Settings’ in the search box and select that from the menu. In the resulting screen, click on the Manage link to the left of the ‘Global Settings’ entry:Next, click on the ‘New’ button at the top of the screen. Do not click the ‘New’ button found right above the list view as these two buttons result in varying setups.After clicking ‘New’, you will be brought to a screen that shows a ‘Last Run Date/Time’ field and a ‘Last Run Status’ field. You can leave both fields null and just click the ‘Save’ button.Page | 13As you finalize the Health Inspector setup and the app runs, the values from your execution will write back to this Custom Setting. In doing so, those values will then be shown on the ‘Health Inspector Results’ tab found within the application.Scheduling Health InspectorCreate Custom Class to ScheduleIn order to schedule the Health Inspector application to run on a custom CMDT entry: •Go to the Developer Console → File → New → Apex Class•Enter a name for the classo For example, if you’re CMDT entry is called ‘MyTest’, then perhaps give it a name of ‘HealthInspector_MyTest’•Click OK•Overwrite the default class text with the following:*The “HealthInspector_MyTest’ value should be replaced with the name you gave the class in the second step**The “Default” value in the above snippet should be replaced with the name of the CMDT that was configured as part of the setup process.Create ScheduleTo schedule the ‘Default’or ‘DefaultWithFlow’ entry:•Go to the Salesforce Setup menu•Search for ‘Apex Classes’ in the left-hand navigation and select it•Click on the ‘Schedule Apex’ button•From the resulting screen, enter the following information:o Job Name = <Enter intuitive name for the schedule>Page | 14o Class Name▪If you are using the ‘Default’ CMDT, then se lectHealthInspectorScheduler_Default▪Else, if you are using the ‘DefaultWithFlow’ CMDT, then selectHealthInspectorScheduler_DefaultWithFlow▪Otherwise, you’ll want to select the class that was defined/deployed in the ‘Create Custom Class to Schedule’ section.o Select the appropriate frequency for executiono Click SavePage | 15Additional Configuration OptionsThere are a few additional configuration options available in the Health Inspector application – executing the batch manually, implementing an extension class and re-running the last test that was generated.Executing Batch ManuallyIn some instances, you may want to manually execute the Health Inspector app to verify your configuration before putting it on a scheduled frequency. In order to do this, simply go to the Developer Console → Debug → Open Execute Anonymous Window and paste the following:*The “CMDT Name” value in the above snippet should be replaced with the name of the CMDT that was configured as part of the setup steps.Implement Extension ClassIn some instances, you may want to take the data collected by the Health Inspector application and use that in a secondary process. The application allows you to do this by referencing an Extension Class which is configured in the Test Class Audit Parameter CMDT. The Extension Class should reference the processResults method to return this information. For example:*The “SAMPLE DEBUG” value in the above snippet can be replaced with any debug information that should be written out at the time of its executionPage | 16Re-Run Last Test GeneratedIn some instances, you may want to re-rerun the last test that was generated. In order to do this, you can simply run the following snippet via the Developer Console:*The “Default” value in the above snippet should be replaced with the name of the CMDT that was configured as part of the setup process.Page | 17Best PracticesIn some cases, you may find that the Health Inspector executions result in a ‘UNABLE_TO_LOCK_ROW’ error which is caused by tests attempting to run in parallel and ultimately caused by record contention between more than one test. To alleviate this issue, follow the steps found at the following link under the ‘Best Practices for Parallel Test Execution’ section:•https:///docs/atlas.en-us.apexcode.meta/apexcode/apex_testing_best_practices.htmPage | 18。

第三代主板的3DNLS检测仪与NKVLFT国际上，这个系统的名称，统一叫“NLS”，是非线性分析系统的英文缩写。

这个设备系统，因为采用标准的解剖图做背景，很直观很形象，又称“3DNLS。

扫描方式很特别，有点类似于“核磁共振”的深入扫描，又称之为“3DMRA”。

所以，这个设备简称为“3D”，3D就是这个系统的总称——3DNLS该系统经过多年的不断发展和升级，研发出了不同的版本和型号。

版本型号主要特点相关词汇标准版4D 具体为V4.0.0.0开始采用第一代主板3DCELL4DCELL4DMRA 5D 具体为V5.0.0.0开始采用第一代主板5DMRA5D-MRA5D-NLS 6D 具体为V6.0.0.0开始采用第二代主板，加了肿瘤指标，加了几个全身部位。

6DMRA6D-NLS 7D 具体为V7.0.0.0开始采用第三代主板扫描速度快，数据库更完善，实用性更好我们公司采用的3DNLS就是这款7DNLS/7DMRA3DNLS-PLUSNLS+专业版8D 具体为V8.0.0.0开始采用第四代主板和软件，扫描方式不同，数据库不同40214021 9D 具体为V9.0.0.0开始我们公司采用的9D版本10D 具体为V10.0.0.0开始增加灵气部分11D 具体为V11.0.0.0开始12D 具体为V12.0.0.0开始13D 具体为V13.0.0.0开始14D 具体为V14.0.0.0开始15D 具体为V15.0.0.0开始16D 具体为V16.0.0.0开始17D 具体为V17.0.0.0开始旗舰版18D 具体为V18.0.0.0开始全新的硬件和软件，扫描方式不同，数据库不同4025猎人版19D 具体为V19.0.0.0开始20D具体为V20.0.0.0开始28D 具体为V28.0.0.0开始4025钻石版29D 具体为V29.0.0.0开始4026红龙版30D 具体为V30.0.0.0开始4027临床版接下来，我们区分一下第三代主板的3DNLS和第四代主板的NKVLFT-9D仪器有什么差别：专业版：NKVLFT-9D仪器软件操作界面标准版：3D-NLS-PLUS仪器软件操作界面标准版：选择以前检测的客户需要按键盘上的ALT+CTRL，点击'Person Free'才可以显示专业版：只需要点击选择客户就可以弹出客户列表方便快速专业版：创建好客户后可以输入客户基本资料和一些信息标准版：不支持输入资料专业版：采用断层扫描模式，每个项目扫描时间为3秒，全身快速扫描只需要12-15分钟标准版：采用定点扫描模式，每个项目扫描时间为12-45秒（按照扫描点决定时间），全身快速扫描需要一个小时左右专业版：一键批量修复功能，不用单选修复标准版：每次只能点击修复一个器官，修复结束后再选择修复下一个器官，不方便专业版：可以自定义检测项目，不需要每次给客户检测一个个选择项目标准版：系统默认先自动全身检测，暂停停止后才能选择检测想检测的项目专业版：可以自动计算E值（热力学分析）不用一个个选择病症经行分析，快速高效标准版：只能一个个病症进行热力学分析，不能一次性计算专业版：全面兼容32位和64位的windows XP，7，8，10系统，对电脑显示屏无要求标准版：全面兼容32位和64位的windows XP，7，8，10系统，电脑显示屏必须是14寸或14寸以上的，屏幕分辨率为1024*768或1280*1024 专业版：采用第四代主板，翻译更完善，准确率更高，达到80%左右的准确率，操作更简单（支持简体中文，繁体中文，英文，俄文，日文，韩文）标准版：采用第三代主板，翻译完整，准确率达到70%，操作简单（支持简体中文，繁体中文，英文，俄文，日文，韩文）专业版：操作教程标准版：操作教程更多详情请联系微信/电话：1896768942。

AXIS P8815-23D People Counter 用户手册解决方案概述解决方案概述•AXIS P8815-23D People Counter计算计数区域内的深度以测量物体的高度和尺寸。

AXIS P8815-23D People Counter适用于拥挤的场景和光照条件不佳的场景，例如强烈的阳光、眩光及阴影。

开始开始开始使用AXIS P8815-23D People Counter：1.连接、查找和访问设备：将设备连接到网络4,在网络上查找设备4,2.升级固件63.安装设备64.配置计数器9将设备连接到网络您可以将设备连接到网络，而无需将其从盒中取出：1.打开此盒。

开始在网络上查找设备若要在网络中查找Axis设备并为它们分配Windows®中的IP地址，请使用AXIS IP Utility或AXIS设备管理器。

这两种应用程序都是免费的，可以从/support上下载。

有关如何查找和分配IP地址的更多信息，请转到如何分配一个IP地址和访问您的设备。

浏览器支持您可以在以下浏览器中使用该设备：Chrome TM Firefox®Edge®Windows®推荐x xmacOS®推荐其他操作系统x x打开设备的网页界面1.打开一个浏览器，键入Axis设备的IP地址或主机名。

如果您不知道IP地址，请使用AXIS IP Utility或AXIS Device Manager在网络上查找设备。

2.键入用户名和密码。

如果是首次访问设备，则必须创建管理员账户。

请参见创建管理员账户5。

验证没有人篡改过固件要确保设备具有其原始的Axis固件，或在安全攻击之后控制设备，请执行以下操作：1.重置为出厂默认设置。

请参见重置为出厂默认设置22。

重置后，安全启动可保证设备的状态。

2.配置并安装设备。

创建管理员账户首次登录设备时，您必须创建管理员账户。

1.请输入用户名。

2.输入密码。

3B SCIENTIFIC ®PHYSICS1Instructions d ’utilisation03/18 SD1 Pince de mesure2 Capteur de température 3Câble de raccordementL'appareil répond aux dispositions de sécurité relatives aux appareils électriques de mesure, de commande, de réglage et de laboratoire, selon DIN EN 61010 partie 1.∙ Afin d'éviter des dégradations durables dela sonde à capteur NTC, veillez à ne dé-passer en aucun cas la température maxi-male de 140 C !∙ N'exposez jamais la poignée en PVC ou lecâble de raccordement à des températuresdépassant 80 C ! La sonde de température NTC avec pince de mesure permet de mesurer des températures de -40°C à +140°C et est utilisée avec l'inter-face VinciLab (1021477) et avec l'interface €Lab (1021478).La sonde de température est conçue pour mesu-rer la température au niveau des tubes en cuivre de la pompe à chaleur (1000820 ou 1000819). L'extrémité de la sonde de température est équi-pée d'une pince en cuivre d'une forme adaptéeaux tubes d'un diamètre de 6 mm.Plage de mesures : entre - 40 C et 140 C Type de capteur : Capteur à résistance 20 k Ω NTC Précision : ±2°C à -40°C ±0,6°C à 30°C ±1,8°C à 140°C Résolution : de 0,1 C Délai de retardement (Temps pour une modi- fication de la valeurde mesure de 90 %) : 10 s (dans l'eau, néces-site de mélanger)270 s (dans l'air calme) 80 s (dans l'air en mou-vement) Câble capteur :isolé PVC, 1,4 m ∙ Brancher le capteur de température à l'enre-gistreur de données.∙ Démarrer l'appli « Coach ».∙La suite de la procédure est décrite dans le mode d'emploi.3B Scientific GmbH • Rudorffweg 8 • 21031 Hambourg • Allemagne • Sous réserve de modifications techniques© Copyright 2018 3B Scientific GmbHMesures de la température au niveau des ori-fices des tubes en cuivre de la pompe à chaleur (1000820 ou 1000819). Voir Fig. 1 et Fig. 2. Détermination de la température des tubes métalliques de l'appareil de dilatation thermique (1000830)Observation des points de congélation et d'ébullition et de la chaleur de réactionDispositifs nécessaires : 1 VinciLab 1021477 ou1 €Lab (+ l ogiciel « Coach ») 1021478 1 Sonde de température NTC 100 avec pince de mesure 1021797∙ Séparer l'appareil de l'enregistreur de don-nées avant de le nettoyer.∙Utiliser un chiffon doux et humide.∙ L'emballage doit être déposé aux centres de recyclage locaux.∙Si l'appareil doit être jeté, ne pas le jeter dans les ordures ménagères. Il est important de res-pecter les con-signes locales re-latives au traite-ment des déchets électriques.Fig. 1 : M esure de la température avant la soupapede détente de la pompe à chaleurFig. 2 : M esure de la température après la soupapede détente de la pompe à chaleur。

圣宏体控智能生物仪使用说明一、前言圣宏体控智能生物仪是一款用于监测和记录人体生理参数的智能设备。

它采用先进的传感器技术和智能算法，能够准确测量和分析用户的心率、血压、血氧饱和度等生理指标。

本文将详细介绍圣宏体控智能生物仪的使用方法，以帮助用户正确地使用该设备。

二、设备介绍圣宏体控智能生物仪外观小巧，携带便捷。

设备内置了高精度的传感器，能够实时监测用户的生理参数。

通过连接智能手机或其他移动设备，用户可以通过专属的APP查看和分析监测数据。

三、使用步骤1. 下载并安装APP用户需要先在智能手机或其他移动设备上下载并安装与圣宏体控智能生物仪配套的APP。

用户可以在应用商店中搜索“圣宏体控”进行下载。

2. 绑定设备打开APP后，按照提示进行账号注册和登录。

登录成功后，点击“设备管理”进入设备绑定页面。

将圣宏体控智能生物仪与手机进行蓝牙连接，绑定成功后，设备即可与APP实现数据传输。

3. 佩戴设备在测量前，请确保圣宏体控智能生物仪的传感器与皮肤接触良好。

将设备佩戴在手腕上，并确保扣带牢固。

4. 测量生理参数打开APP后，点击“测量”按钮即可开始测量生理参数。

在测量过程中，请保持安静，将手臂放置在桌面上，尽量避免移动。

测量完成后，APP会自动显示测量结果。

5. 数据分析与记录APP会将每次测量的数据进行存储，并生成相应的图表进行展示。

用户可以通过查看这些数据和图表，了解自己的生理状态和变化趋势。

同时，用户还可以设置提醒功能，定期对生理参数进行测量和记录。

6. 数据分享与导出用户可以将测量数据分享给医生或其他人士，以便获得更专业的建议和指导。

同时，用户还可以导出数据到本地存储设备，方便进行长期的跟踪和分析。

四、注意事项1. 在测量前，请确保设备电量充足，以免影响测量准确性。

2. 测量时，请保持安静，避免身体活动或情绪波动对测量结果产生影响。

3. 测量过程中，保持手臂放松，避免用力握紧拳头或过度移动。

4. 如需测量血压，请在测量前放松身体，避免饮酒、吸烟或饱食。

健康监测设备操作指南健康监测设备是我们日常生活中非常重要的工具，它能够帮助我们监测身体健康状况，并及时发现潜在的健康问题。

然而，想要充分利用健康监测设备的功能，我们需要正确地操作和使用它们。

本文将为您提供一份健康监测设备的操作指南，以帮助您更好地使用这些设备。

1. 设备准备在使用健康监测设备之前，首先需要确保设备是处于正常工作状态。

检查设备的电池电量是否充足，以及显示屏是否清晰。

同时，还需要清洁设备，以确保测量结果的准确性。

如果设备需要通过连接电脑或手机来传输数据，确保设备与相应的设备已正常连接。

2. 设备使用不同的健康监测设备有不同的使用方法，请根据具体设备的说明书进行操作。

以下是一些常见健康监测设备的操作步骤：2.1 血压监测仪（1）坐姿放松，将袖口系在上臂，确保袖口与血管之间没有皱褶。

（2）按下启动按钮，血压监测仪会开始充气。

（3）设备开始检测血压时，保持静止，不要说话或移动手臂。

（4）待设备完成测量后，结果会显示在屏幕上。

2.2 血糖仪（1）用酒精棉球擦拭手指，以确保皮肤清洁。

（2）将试纸插入血糖仪，然后用手指刺破清洁后的皮肤。

（3）将取得的血液滴于试纸上，等待数秒钟，血糖仪会自动显示测量结果。

2.3 心率监测器（1）将心率监测器佩戴于胸部，确保传感器与皮肤贴合良好。

（2）启动心率监测器，等待设备连接到蓝牙或者无线网络。

（3）待获得心率数据后，设备会显示当前的心率数值。

3. 结果解读在获得测量结果后，我们需要正确解读这些数据。

不同的设备可能会采用不同的方式来显示和解读数据，请参照设备说明书进行解读。

如果您对结果有任何疑问或担忧，应及时咨询专业医生或健康顾问，以便获得准确的解释和建议。

4. 数据管理一些健康监测设备配备了数据管理软件或应用程序，方便我们存储和管理测量结果。

使用这些软件或应用程序可以追踪自己的健康状况，并与专业医生分享数据。

在使用这些软件或应用程序之前，我们需要根据设备说明书进行正确的设置和配置。

一、操作说明：
1．打开电脑，然后打开3D量测仪，让电脑与3D量测仪连接。

2．打开3D量测仪页面，呼出坐标。

3．将需测量的产品放于工作台，找到所需测量的产品，并自动调光，自动对焦。

4．在同一直线上手动取2点或多点并将取的点连接起来。

5．XYZ归零，点击第一个点，显示箭头即可，然后进行轴补正，点击直线。

6．画一条直线与一条竖线，找到交叉点，接着点击直线与竖线。

7．XYZ归零，点击交叉点，轴补正最长的一条线段即可。

8．把整个产品画出，根据图纸所要求的尺寸来进行测量，输出标签与公差。

9．测量后的结果可以用EXL等界面导出并显示结果。

10．储存测量程序。

11．测量程序结束，关掉3D量测仪及电脑，停止作业。

确认：制作：。

三坐标测量机操作规范一、设备操作规范1.开机前，确定仪器平稳后方可进行操作。

2.检查三坐标测量机的各项功能是否正常，如触发系统、软件程序、测头、示波器等。

3.检查三坐标测量机的各个运动轴是否存在松动或卡滞现象。

4.启动三坐标测量机，进行系统自检，确保设备处于良好工作状态。

5.准确安装待测物体并调整固定夹具，保证测量物体稳固及正确放置。

6.保证工作环境干净整洁，禁止将杂物置于测量平台。

二、操作流程规范1.启动三坐标测量机后，根据待测物体的特点选择合适的测量方案。

2.在测量软件中输入测量参数，包括待测物体的尺寸、形状等信息。

3.选择合适的测量模式，例如点测量、线测量、面测量等。

4.对待测物体进行初步定位，使其位于测量范围内，并保持稳定。

5.进行标定操作，根据测量物体的特性，选择适当的标定体进行设定。

6.在测量软件中设置合适的测量参数，包括测量精度、测量点数等。

7.通过示波器观察测量结果，保证测量结果的稳定性和准确性。

8.进行实际测量操作，将测量头顶点精确地放置在测量物体的测量点上。

9.对测量过程中产生的异常值进行品质判断，如判断是否超过了预设公差范围。

10.保证测量物体的环境温度稳定，以免产生测量误差。

11.将测量结果导出或打印，保存相关测量信息。

三、操作注意事项1.在操作过程中，保持工作区域整洁，避免杂物干扰操作。

2.定期清洁测量机的测头和平台，并定期检查仪器的运动轴是否正常。

3.在操作过程中，避免使用过大的力量，以免损坏设备和待测物体。

4.在测量的前后，要确保待测物体的表面干净。

如有需要，可以进行清洗处理。

5.操作过程中，应避免用手直接触摸待测物体，以免影响测量的精确性。

6.调整夹具时，要保证夹具与测量平台的平行度和垂直度，以免产生偏差。

7.在进行形位公差测量时，要注意进行正确的坐标轴设置和坐标系转换。

8.操作人员在进行测量时应佩戴合适的防静电设备，并注意观察周围环境的静电情况。

9.操作人员需要熟悉并掌握测量机的操作手册，并遵循操作流程进行测量。