人民黄河
人民黃河
인민황하
Yellow River
2014年
3期
73-75
,共3页
水位流速法%明渠%流量%机械传动装置
水位流速法%明渠%流量%機械傳動裝置
수위류속법%명거%류량%궤계전동장치
water level-velocity method%open channel%discharge%mechanical transmission device
为了提高检测精度,实现水位、流量测量的自动化,减少人力的投入,研制了流量自动检测系统。该系统以水位-流速法为基本测流原理,将水位、流速检测技术与机械传动机构结合起来。整个系统选用低功耗的16位单片机MSP430F149为控制单元,采集到的水位和流速信号经过其内部的算法可得出流量值;而且还能控制x-y直角坐标机械传动装置,可在整个矩形断面范围内自动改变流速测杆的位置,使渠道流量的测量工作自动化程度高。试验结果表明:使用该系统检测矩形断面流量具有准确性和适用性,测量结果与采用明渠超声波流量计测得的流量值相比,相对误差在±4%以内。
為瞭提高檢測精度,實現水位、流量測量的自動化,減少人力的投入,研製瞭流量自動檢測繫統。該繫統以水位-流速法為基本測流原理,將水位、流速檢測技術與機械傳動機構結閤起來。整箇繫統選用低功耗的16位單片機MSP430F149為控製單元,採集到的水位和流速信號經過其內部的算法可得齣流量值;而且還能控製x-y直角坐標機械傳動裝置,可在整箇矩形斷麵範圍內自動改變流速測桿的位置,使渠道流量的測量工作自動化程度高。試驗結果錶明:使用該繫統檢測矩形斷麵流量具有準確性和適用性,測量結果與採用明渠超聲波流量計測得的流量值相比,相對誤差在±4%以內。
위료제고검측정도,실현수위、류량측량적자동화,감소인력적투입,연제료류량자동검측계통。해계통이수위-류속법위기본측류원리,장수위、류속검측기술여궤계전동궤구결합기래。정개계통선용저공모적16위단편궤MSP430F149위공제단원,채집도적수위화류속신호경과기내부적산법가득출류량치;이차환능공제x-y직각좌표궤계전동장치,가재정개구형단면범위내자동개변류속측간적위치,사거도류량적측량공작자동화정도고。시험결과표명:사용해계통검측구형단면류량구유준학성화괄용성,측량결과여채용명거초성파류량계측득적류량치상비,상대오차재±4%이내。
In order to improve the accuracy of the detection and achieve the automatic measurement of water level and discharge,as well as to re-duce the manpower,the flow automatic detection system was studied.“water level-velocity method”was the basic principle of flow measurement for this system,which included both the detection technology of water level and velocity and mechanical transmission. The 16 bit MCU MSP430F149 with low power consumption was the control unit of this system. Using the algorithm,the flow value could be obtained through the collected signals of the water level and velocity. The MCU could also control the x-y Cartesian coordinate mechanical transmission,and then change the position of the velocity measuring rod in the whole range of the rectangular cross section. This system made the work of channel flow measurement become more automatic. Experimental results show that using this system to detect a rectangular cross section flow has the accuracy and applicability. The relative error between measurement results and the flow value of ultrasonic flow meter of open channel is only within ± 4%.