-
公开(公告)号:KR101833543B1
公开(公告)日:2018-03-02
申请号:KR1020170115154
申请日:2017-09-08
Applicant: 한국환경공단 , 자인테크놀로지(주)
Abstract: 저탄소에부합하는비만관하수유량측정장치가개시된다. 본발명에따른비만관하수유량측정장치는하수관로의바닥면에근접한최저수심으로부터최고수심미만까지일정간격을가지고서로마주보게형성되는것으로유속방향을따라나란하게내주면을따라돌출되어형성되는복수조의유체유도부(10)와, 상기유체유도부(10)의돌출측면단부에형성되는것으로한 쌍의초음파트랜스듀서(14)가매립되는한 쌍의센서매립공(12), 및상기센서매립공(12)에매립되는것으로어느하나의초음파트랜스듀서로부터방사된초음파가마주보는유체유도부에의하여반사되어다른하나의초음파트랜스듀서에도달하도록 V법으로설계되고저수심에서고수심으로갈수록이격간격이증가되도록이루어진한 쌍의초음파트랜스듀서(14)를포함한다. 본발명에따른저탄소에부합하는비만관하수유량측정장치는강수량이적어갈수기에는매우적은유량만흐르는하수관거에서정밀하고실제유량을정확하게측정함으로써불필요한에너지소모를줄일수 있어저탄소에부합할뿐만아니라종래방식에서모래나슬러리의쌓임으로인하여측정오류가발생하는가능성을줄이고흐르는물속의돌 등에의한센서손상도줄일수 있다.
-
公开(公告)号:KR101060665B1
公开(公告)日:2011-08-30
申请号:KR1020110053745
申请日:2011-06-03
Applicant: 자인테크놀로지(주)
IPC: G01F1/66 , G08C17/02 , H01L31/042 , E03F5/20
CPC classification number: Y02E10/50 , G01F1/662 , G01F15/063 , G01F15/065
Abstract: PURPOSE: An inverted siphon based integrated flow rate system for flow measurement using a solar battery is provided to prevent the accumulation of sludge in a sewage pipe and continuously perform the measurement function without separate power supply. CONSTITUTION: An inverted siphon based integrated flow rate system for flow measurement using a solar battery comprises a stirrer(102), a flowmeter(104), a solar battery module(110), a flowmeter battery, a stirrer battery, a solar battery controller, a charge capacity monitoring part, a drive controller, a wireless modem, and a vertical pole(15). The stirrer is installed in an inverted siphon outlet part(100) and agitates the flow in a flow rate measurement path in order to prevent the accumulation of sludge. The flowmeter is installed in an inverted siphon part and creates flow rate data. The solar battery module converts solar energy into electrical energy being provided as power. The flowmeter battery is charged with the power provided from the solar battery module and supplies power to the flowmeter. The stirrer battery is charged with the power provided from the solar battery module and supplies power to the stirrer. The solar battery controller controls the power supply from the flowmeter battery or the stirrer battery to the flowmeter and the stirrer and charge of the flowmeter battery and the stirrer battery. The charge capacity monitoring part monitors the charge of the stirrer battery and outputs a charge insufficiency signal. The drive controller halts the stirrer until the charge capacity monitoring part does not output the charge insufficiency signal. The wireless modem transmits the data outputted from the flowmeter to a central management center.
Abstract translation: 目的:提供一种用于使用太阳能电池进行流量测量的反向虹吸式综合流量系统,以防止污泥在污水管中积聚,并在不分开供电的情况下连续执行测量功能。 构成:使用太阳能电池的用于流量测量的反相虹吸式集成流量系统包括搅拌器(102),流量计(104),太阳能电池模块(110),流量计电池,搅拌器电池,太阳能电池控制器 ,充电容量监视部分,驱动控制器,无线调制解调器和垂直极(15)。 将搅拌器安装在倒置的虹吸出口部分(100)中,并且在流量测量路径中搅动流动,以防止污泥积聚。 流量计安装在反相虹吸部分,并产生流量数据。 太阳能电池模块将太阳能转换为作为动力提供的电能。 流量计电池由太阳能电池模块提供的电力充电,并向流量计供电。 搅拌器电池由太阳能电池模块提供的电力充电并向搅拌器供电。 太阳能电池控制器控制从流量计电池或搅拌器电池到流量计和搅拌器的电源以及流量计电池和搅拌器电池的充电。 充电容量监视部分监测搅拌器电池的电量并输出充电不足信号。 驱动器控制器停止搅拌器,直到充电量监测部分不输出充电不足信号。 无线调制解调器将从流量计输出的数据发送到中央管理中心。
-
公开(公告)号:KR1020170109506A
公开(公告)日:2017-09-29
申请号:KR1020170115154
申请日:2017-09-08
Applicant: 한국환경공단 , 자인테크놀로지(주)
Abstract: 저탄소에부합하는비만관하수유량측정장치가개시된다. 본발명에따른비만관하수유량측정장치는하수관로의바닥면에근접한최저수심으로부터최고수심미만까지일정간격을가지고서로마주보게형성되는것으로유속방향을따라나란하게내주면을따라돌출되어형성되는복수조의유체유도부(10)와, 상기유체유도부(10)의돌출측면단부에형성되는것으로한 쌍의초음파트랜스듀서(14)가매립되는한 쌍의센서매립공(12), 및상기센서매립공(12)에매립되는것으로어느하나의초음파트랜스듀서로부터방사된초음파가마주보는유체유도부에의하여반사되어다른하나의초음파트랜스듀서에도달하도록 V법으로설계되고저수심에서고수심으로갈수록이격간격이증가되도록이루어진한 쌍의초음파트랜스듀서(14)를포함한다. 본발명에따른저탄소에부합하는비만관하수유량측정장치는강수량이적어갈수기에는매우적은유량만흐르는하수관거에서정밀하고실제유량을정확하게측정함으로써불필요한에너지소모를줄일수 있어저탄소에부합할뿐만아니라종래방식에서모래나슬러리의쌓임으로인하여측정오류가발생하는가능성을줄이고흐르는물속의돌 등에의한센서손상도줄일수 있다.
Abstract translation: 公开了一种用于测量符合低碳的肥胖饲料量的设备。 肥胖suyuryang根据本发明的测量gwanha,形成流体的多组,以沿着由沿流动速度方向与预定距离侧的内周侧突出,以小于从邻近最低深度最大深度形成为彼此面对hasugwanro的底表面,该引导部 一对传感器嵌入孔12形成在流体引导部分10的突出侧端部中并嵌入一对超声换能器14, 一种制成,使得任一个由所述流体引导部分反射被从超声波换能器表面设计成V法到达超声换能器,并增加朝着中高水深度的间隔中的另一个在该深度处发射的超声波观察将被填充 和一对超声换能器14。 肥胖suyuryang测量gwanha到通过精确地按照本发明满足了低碳和精确地测量在污水管的实际流量向下旱季流经一个非常小的流率也能够降低不必要的能量消耗,以及满足低碳,以常规的方式沉淀 可以减少由于砂或泥浆积聚引起的测量误差的可能性,并减少由于流水等导致的传感器损坏。
-
-
Search Results
3
records
(took 0.017 seconds)
