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1、T J E B K S各型热电偶分度表优质资料(可以直接使用,可编辑 优质资料,欢迎下载)镍铬-镍硅热电偶(K型)分度表 (参考端温度为0)温 度 0102030405060708090热 电 动 势 mV00.0000.3970.7981.2031.6112.0222.4362.8503.2663.6811004.0954.5084.9195.3275.7336.1376.5396.9397.3387.7372008.1378.5378.9389.3419.74510.15110.56010.96911.38111.79330012.20712.62313.03913.45613.87414
2、.29214.71215.13215.55215.97440016.39516.81817.24117.66418.08818.51318.93819.36319.78820.21450020.64021.06621.49321.91922.34622.77223.19823.62424.05024.47660024.90225.32725.75126.17626.59927.02227.44527.86728.28828.70970029.12829.54729.96530.38330.79931.21431.21432.04232.45532.86680033.27733.68634.09
3、534.50234.90935.31435.71836.12136.52436.92590037.32537.72438.12238.91538.91539.31039.70340.09640.48840.879100041.26941.65742.04542.43242.81743.20243.58543.96844.34944.729110045.10845.48645.86346.23846.61246.98547.35647.72648.09548.462120048.82849.19249.55549.91650.27650.63350.99051.34451.69752.04913
4、0052.39852.74753.09353.43953.78254.12554.46654.807 铂铑30-铂铑6热电偶(B型)分度表(参考端温度为0)温 度 0102030405060708090热 电 动 势 mV0-0.000-0.002-0.0030.0020.0000.0020.0060.110.0170.0251000.0330.0430.0530.0650.0780.0920.1070.1230.1400.1592000.1780.1990.2200.2430.2660.2910.3170.3440.3720.4013000.4310.4620.4940.5270.5160.
5、5960.6320.6690.7070.7464000.7860.8270.8700.9130.9571.0021.0481.0951.1431.1925001.2411.2921.3441.3971.4501.5051.5601.6171.6741.7326001.7911.8511.9121.9742.0362.1002.1642.2302.2962.3637002.4302.4992.5692.6392.7102.7822.8552.9283.0033.0788003.1543.2313.3083.3873.4663.5462.6263.7083.7903.8739003.9574.04
6、14.1264.2124.2984.3864.4744.5624.6524.74210004.8334.9245.0165.1095.2025.29975.3915.4875.5835.68011005.7775.8755.9736.0736.1726.2736.3746.4756.5776.68012006.7836.8876.9917.0967.2027.0387.4147.5217.6287.73613007.8457.9538.0638.1728.2838,3938.5048.6168.7278.83914008.9529.0659.1789.2919.4059.5199.6349.7
7、489.8639.979150010.09410.21010.32510.44110.58810.67410.79010.90711.02411.141160011.25711.37411.49111.60811.72511.84211.95912.07612.19312.310170012.42612.54312.65912.77612.89213.00813.12413.23913.35413.470180013.58513.69913.814 镍铬-铜镍(康铜)热电偶(E型)分度表 (参考端温度为0)温 度 0102030405060708090热 电 动 势 mV00.0000.591
8、1.1921.8012.4193.0473.6834.3294.9835.6461006.3176.9967.6838.3779.0789.78710.50111.22211.94912.68120013.41914.16114.90915.66116.41717.17817.94218.71019.48120.25630021.03321.81422.59723.38324.17124.96125.75426.54927.34528.14340028.94329.74430.54631.35032.15532.96033.76734.57435.38236.19050036.99937.80
9、838.61739.42640.23641.04541.85342.66243.47044.27860045.08545.89146.69747.50248.30649.10949.91150.71351.51352.31270053.11053.90754.70355.49856.29157.08357.87358.66359.45160.23780061.02261.80662.58863.36864.14764.92465.70066.47367.24568.01590068.78369.54970.31371.07571.83572.59373.35074.10474.85775.60
10、8100076.358 铁-铜镍(康铜)热电偶(J型)分度表 (参考端温度为0)温 度 0102030405060708090热 电 动 势 mV00.0000.5071.0191.5362.0582.5853.1153.6494.1864.7251005.2685.8126.3596.9077.4578.0088.5609.113966710.22220010.77711.33211.88712.44212.99813.55314.10814.66315.21715.77130016.32516.87917.43217.98418.53719.08919.64020.19220.74321.
11、29540021.84622.39722.94923.50124.05424.60725.16125.71626.27226.82950027.38827.94928.51129.07529.64230.21030.78231.35631.93332.51360033.09633.68334.27334.86735.46436.06636.67137.28037.89338.51070039.13039.75440.38241.01341.64742.28842.92243.56344.20744.85280045.49846.14446.79047.43448.07648.71649.354
12、49.98950.62151.24990051.87552.49653.11553.72954.34154.94855.55356.15556.75357.349100057.94258.53359.12159.70860.29360.87661.45962.03962.61963.199110063.77764.35564.93365.51066.08766.66467.24067.81568.39068.964120069.536 铜-铜镍(康铜)热电偶(T型)分度表 (参考端温度为0)温 度 0102030405060708090热 电 动 势 mV-200-5.603 -100-3.3
13、78-3.378-3.923-4.177-4.419-4.648-4.865-5.069-5.261-5.43900.0000.383-0.757-1.121-1.475-1.819-2.152-2.475-2.788-3.08900.0000.3910.7891.1961.6112.0352.4672.9803.3573.8131004.2774.7495.2275.7126.2046.7027.2077.7188.2358.7572009.2689.82010.36010.90511.45612.01112.57213.13713.70714.28130014.86015.44316.03
14、016.62117.21717.81618.42019.02719.63820.25240020.869 铂铑10-铂热电偶(S型)分度表(ITS-90) (参考端温度为0)温 度 0102030405060708090热 电 动 势 mV00.0000.0550.1130.1730.2350.2990.3650.4320.5020.5731000.6450.7190.7950.8720.9501.0291.1091.1901.2731.3562001.4401.5251.6111.6981.7851.8731.9622.0512.1412.2323002.3232.4142.5062.599
15、2.6922.7862.8802.9743.0693.1644003.2603.3563.4523.5493.6453.7433.8403.9384.0364.1355004.2344.3334.4324.5324.6324.7324.8324.9335.0345.1366005.2375.3395.4425.5445.6485.7515.8555.9606.0656.1697006.2746.3806.4866.5926.6996.8056.9137. 7.1287.2368007.3457.4547.5637.6727.7827.8928.0038.1148.2558.3369008.44
16、88.5608.6738.7868.8999.0129.1269.2409.3559.47010009.5859.7009.8169.93210.04810.16510.28210.40010.51710.635110010.75410.87210.99111.11011.22911.34811.46711.58711.70711.827120011.94712.06712.18812.30812.42912.55012.67112.79212.91213.034130013.15513.39713.39713.51913.64013.76113.88314.00414.12514.24714
17、0014.36814.61014.61014.73114.85214.97315.09415.21515.33615.456150015.57615.69715.81715.93716.05716.17616.29616.41516.53416.653160016.77116.89017.00817.12517.24317.36017.47717.59417.71117.826170017.94218.05618.17018.28218.39418.50418.612 目 录第一章 绪论1第二章 总体设计方案22.1 实现的功能22.2 总体思路2第三章 硬件系统设计33.1 温度传感器及调理
18、电路33.1.1 热电偶工作原理33.2 热电偶的选型43.2.1 J型电偶53.2.2 E型电偶53.2.3 K型电偶53.2.3 N型电偶6第四章 LabVIEW的软件设计64.1 前面板设计64.2 框图程序设计74.2.1 数据采集模块84.2.2 数据转换模块8第五章 实验结果与分析95.1实验结果95.2 实验分析9第六章 小结10参考文献11附录1 热电偶温度表程序图12附录2 实验电路图12第一章 绪论虚拟仪器的技术基础是计算机技术,核心是计算机软件技术。LabVIEW使用了“所见即所得”的可视化技术建立人机界面,提供了许多仪器面板中的控制对象,如表头、旋钮、开关及坐标平面图等
19、。所谓虚拟仪器就是以计算机作为仪器统一的硬件平台,充分利用计算机的运算、存储、回放、调用、显示及文件管理等智能化功能,同时把传统仪器的专业化功能和面板控件软件化,使之与计算机结合构成一台从外观到功能都完全与传统硬件仪器相同,同时又充分享用了计算机智能资源的全新仪器系统。与传统仪器相比,它的最大特点就是把由仪器生产厂家定义仪器功能的方式转变为由用户自己定义仪器功能,满足多种多样的应用需求。由于虚拟仪器的测试功能、面板控件都实现了软件化,任何使用者都可通过修改虚拟仪器的软件来改变它的功能和规模,这充分体现了“软件就是仪器”的设计思想。虚拟仪器最有代表性的图形化编程软件是美国NI公司推出的LabVI
20、EW(laboratory virtual instrument engineering workbench即实验室虚拟仪器工作平台)。LabVIEW使用了“所见即所得”的可视化技术建立人机界面,提供了许多仪器面板中的控制对象。如表头、旋钮、开关及坐标平面图等。用户可以通过使用编辑器将控制对象改变为适合自己工作领域的控制对象。就是LabVIEW提供了多种强有力的工具箱和函数库,并集成了很多仪器硬件库。以LabVIEW支持多种操作系统平台,在任何一个平台上开发的LabVIEW应用程序可直接移植到其它平台上。以LabVIEW为软件平台,通过热电偶冷端补偿的方法进行温度测量。有效的运用了LabVIE
21、W虚拟仪器技术。将诸多重要步骤都在配备硬件的普通PC电脑上完成,是得整个测量的重点转向软件的设计,是虚拟仪器技术应用与温度测量领域的一个典型范例。第二章 总体设计方案2.1 实现的功能本次课程设计要完成一个热电偶虚拟温度表的设计,这个温度表能通过电偶的测量来显示温度的变化。温度表通过测出电偶两端的电压,在利用温度与电压之间的关系,将它转化成温度,在温度表上显示。使用不同型号的热电偶J型、K型、E型、N型,观察温度的变化。2.2 总体思路 虚拟仪器测温系统是用虚拟仪器技术改造传统的测温仪,使其具有更强大的功能。系统框架如图所示,仪器系统通过前端感温装置的传感元件,将被测对象的温度转换为电压或电流
22、等模拟信号,经信号调理电路进行功率放大、滤波等处理后,变换为可被数据采集卡采集的标准电压信号。在数据采集卡内将模拟信号转换为数字信号,并在数据采集指令下将其送入计算机总线,在PC机内利用已经安装的虚拟仪器软件对采集的数据进行所需的各种处理。总体流程如图2-1所示:图2-1温度测量系统原理框第三章 硬件系统设计3.1 温度传感器及调理电路3.1.1 热电偶工作原理热电偶是由两种金属(或合金) 材料构成的温度传感器。热电偶具有热电效应, 当两种金属A和B 构成闭合回路、并且在两个结点存在温度差时, 就会产生温差热电势。有公式:e= EAB(T1)EAB(T0) kq (T1T0) A BEAB (
23、T1)、EAB (T0) 分别为热端(T1)、参考端(T0) 的热电势。习惯上将参考端称作冷端, 此端温度即测温仪表所处环境的温度, k 为波耳兹曼常数, q 是电子电量, AB依次为金属A、B 中自由电子的密度。显然, 当T1 T0 时, 热电势e 为正; T 1340,cm343353349357347346100%3沟槽边坡1:0.330.330.330.320.350.340.3683.3%施工单位检查评定结果专业工长(施工员)施工班组长经检查,各项符合给排水管道工程施工及验收规范GB50268-2021规范及设计相关要求,合格率94.4%,自评合格质量检查员: 年 月 日监理单位验收结论专业监理工程师: 年 月 日钢筋混凝土箱涵沟槽块石垫层报验申请表工程名称:星光大道北侧水系(红东路西-秀山湖西二路)整治工程致:安徽天翰工程咨询有限责任公司我单位已完成了K0+930-K0+95