CN209460437U - Rain gauge - Google Patents

Abstract

Translated fromChinese

本实用新型公开了一种雨量计，将称重式结构和虹吸式结构结合改进，在虹吸式结构的盛雨器下方增加过滤网，解决了虹吸管清理不便以及虹吸管堵塞的问题；在虹吸位置上方加装水位检测装置和在过滤网下方设置进水电磁阀，避免虹吸过程发生时雨水仍然通过盛雨器流入浮子室影响虹吸效果，提高了测量精度和准确度；通过虹吸过程阶段性的引流进入称重装置，保证了称重传感器感应降水重量变化的连续性，提高了降水测量的准确性和可靠性；在集雨桶底部安装出水管，出水管中部连接出水电磁阀，通过控制器控制进水电磁阀和出水电磁阀，当集雨桶内存水量达到设定的存水上限值后自动排水，解决了雨水长期囤积的问题。

The utility model discloses a rain gauge, which combines and improves the weighing structure and the siphon structure, and adds a filter net under the rain container of the siphon structure, which solves the problems of inconvenient cleaning of the siphon and blockage of the siphon; Install a water level detection device and install a water inlet solenoid valve under the filter to prevent the rainwater from flowing into the float chamber through the rain container to affect the siphon effect when the siphon process occurs, and improve the measurement accuracy and accuracy; through the siphon process, the drainage enters in stages The weighing device ensures the continuity of the weight change of the precipitation sensed by the load cell, and improves the accuracy and reliability of the precipitation measurement; the outlet pipe is installed at the bottom of the rain collecting barrel, and the middle part of the outlet pipe is connected to the outlet solenoid valve, which is controlled by the controller. The water solenoid valve and the water outlet solenoid valve automatically drain water when the water in the rain barrel reaches the set upper limit of water storage, which solves the problem of long-term accumulation of rainwater.

Description

Translated fromChinese

一种雨量计a rain gauge

技术领域technical field

本实用新型属于气象仪器仪表装置技术领域，尤其涉及一种雨量计。The utility model belongs to the technical field of meteorological instruments and meters, in particular to a rain gauge.

背景技术Background technique

准确预报天气是现代社会越来越重要的一个需求，而雨量计是一种用于测量阶段时间内降雨量的仪器，广泛应用在气象、水利、农业生产等领域，可以为各个领域的生产生活提供预报的降水数据。常用的雨量计一般有翻斗式和虹吸式；翻斗式由盛雨器、上翻斗、下翻斗、计数翻斗组成；虹吸式是根据虹吸原理设计，包括进水口、浮子室、自记钟和外壳。Accurate weather forecasting is an increasingly important demand in modern society, and a rain gauge is an instrument used to measure rainfall within a period of time. It is widely used in meteorology, water conservancy, agricultural production and other fields. Provides forecasted precipitation data. Commonly used rain gauges generally have a tipping bucket and a siphon type; the tipping bucket is composed of a rain container, an upper tipping bucket, a lower tipping bucket, and a counting tipping bucket; the siphon type is designed according to the siphon principle, including a water inlet, a float chamber, a self-recording clock and a casing.

在实际使用中，虹吸式雨量计虽然不存在翻斗式的机械结构摩擦老化的影响，但是虹吸式不能够实现自动测量和数据的处理；而且虹吸管清理不方便，当有较多的杂质混入后容易造成虹吸管的堵塞，并且系统误差也比较大。In actual use, although the siphon type rain gauge does not have the influence of friction and aging of the mechanical structure of the tipping bucket type, the siphon type cannot realize automatic measurement and data processing; moreover, it is inconvenient to clean the siphon tube, and it is easy to Cause the blockage of the siphon, and the system error is relatively large.

实用新型内容Utility model content

实用新型目的：针对以上问题，本实用新型提出一种雨量计，有效解决了虹吸式雨量计虹吸管清理不方便，容易造成虹吸管堵塞的问题；可以避免虹吸过程正在发生时雨水仍然通过盛雨器流入浮子室影响虹吸效果，提高了测量精度和准确度。Purpose of the utility model: In view of the above problems, the utility model proposes a rain gauge, which effectively solves the problem that the siphon tube of the siphon type rain gauge is inconvenient to clean and is likely to cause blockage of the siphon tube; it can avoid the rainwater still flowing through the rain container when the siphon process is taking place The float chamber affects the siphon effect, improving the measurement precision and accuracy.

技术方案：为实现本实用新型的目的，本实用新型所采用的技术方案是：一种雨量计，包括盛雨器1、盛雨器1的底部出水口处装有过滤网2、位于过滤网2下方的进水电磁阀3、浮子4、浮子室5、自记笔6、自记钟7、水位检测装置8、虹吸管9、外层防护罩18、称重引流管19、钢板20、引流漏斗21、进水引流管22、第一连接杆23、第二连接杆24、齿轮25、第三连接杆27、第四连接杆28和称重装置26；盛雨器1水平安装在外层防护罩18顶端，并通过进水引流管22与浮子室5侧壁底部相连；浮子4置于浮子室5中，并与第一连接杆23垂直连接；第二连接杆24沿水平方向与第一连接杆 23通过齿轮25相连接，自记笔6位于浮子室5的顶部并与第二连接杆24固定垂直连接；自记钟7一端与第二连接杆24水平连接，另一端与浮子室5的侧壁固定相连；水平安装的第三连接杆27一端与第一连接杆23相连，另一端与垂直固定于浮子室5上的第四连接杆28相连；水位检测装置8位于浮子室5中的虹吸位置上方，虹吸管9一端与浮子室5侧壁相连，虹吸管9另一端连接引流漏斗21，引流漏斗21另一端连接称重引流管19，称重引流管19另一端与称重装置26连接，称重装置26包括一个出水管11，出水管11的中部连接有出水电磁阀12，进水电磁阀3和出水电磁阀12通过驱动电路与控制器10相连接，水位检测装置8与控制器10相连，称重装置26和控制器10位于外层防护罩18底部。Technical solution: In order to achieve the purpose of this utility model, the technical solution adopted by this utility model is: a rain gauge, including a rain container 1, a filter screen 2 is installed at the outlet of the bottom of the rain container 1, and a filter screen is located at the filter screen. 2 Water inlet solenoid valve 3 below, float 4, float chamber 5, self-recording pen 6, self-recording clock 7, water level detection device 8, siphon tube 9, outer protective cover 18, weighing drainage pipe 19, steel plate 20, drainage Funnel 21, water inlet and drainage pipe 22, first connecting rod 23, second connecting rod 24, gear 25, third connecting rod 27, fourth connecting rod 28 and weighing device 26; The top of the cover 18 is connected to the bottom of the side wall of the float chamber 5 through the water inlet and drainage pipe 22; the float 4 is placed in the float chamber 5 and is vertically connected with the first connecting rod 23; the second connecting rod 24 is horizontally connected to the first Connecting rod 23 is connected by gear 25, self-recording pen 6 is positioned at the top of float chamber 5 and is fixedly connected vertically with second connecting rod 24; The side walls are fixedly connected; one end of the third connecting rod 27 installed horizontally is connected with the first connecting rod 23, and the other end is connected with the fourth connecting rod 28 vertically fixed on the float chamber 5; the water level detection device 8 is located in the float chamber 5 Above the siphon position, one end of the siphon tube 9 is connected to the side wall of the float chamber 5, the other end of the siphon tube 9 is connected to the drainage funnel 21, the other end of the drainage funnel 21 is connected to the weighing drainage tube 19, and the other end of the weighing drainage tube 19 is connected to the weighing device 26 , the weighing device 26 includes a water outlet pipe 11, the middle part of the water outlet pipe 11 is connected with a water outlet solenoid valve 12, the water inlet solenoid valve 3 and the water outlet solenoid valve 12 are connected with the controller 10 through a driving circuit, and the water level detection device 8 is connected with the controller 10 is connected, and the weighing device 26 and the controller 10 are located at the bottom of the outer protective cover 18 .

本实用新型是一种上下结构设计，上方是虹吸式结构，下方是称重式结构；当开始降雨时，虹吸式结构进行虹吸过程，通过虹吸管，将降水引入称重式结构中进行再次测量，提高测量精度；在虹吸式结构的盛雨器下方安装有过滤网，可以避免杂物进入浮子室造成虹吸管堵塞，并且能够提高测量精度；在虹吸位置上方加装水位检测装置和在过滤网下方安装进水电磁阀，当水位达到虹吸位置时，水位检测装置发送信号给控制器，当控制器接收到信号后，发送命令给进水电磁阀，进水电磁阀关闭，盛雨器中的雨水将不会进入到浮子室中，当虹吸过程结束后，水位检测装置会再次发送信号给控制器，控制器发送命令给进水电磁阀，进水电磁阀开通，盛雨器中的雨水开始继续流到浮子室；所述虹吸位置是指虹吸管进水口的顶端位置，距离浮子室的底部高度通常是10毫米；所述虹吸过程是利用液面高度差的作用力现象，将液体充满一根倒U形的管状结构内后，将开口高的一端置于装满液体的容器中，容器内的液体会持续通过虹吸管向更低的位置流出。The utility model is an upper and lower structure design, the top is a siphon structure, and the bottom is a weighing structure; when it starts to rain, the siphon structure performs a siphon process, and the precipitation is introduced into the weighing structure through a siphon tube for re-measurement. Improve the measurement accuracy; a filter screen is installed under the siphon structure rain container, which can prevent debris from entering the float chamber and cause the siphon tube to be blocked, and can improve measurement accuracy; install a water level detection device above the siphon position and install it below the filter screen Water inlet solenoid valve, when the water level reaches the siphon position, the water level detection device sends a signal to the controller, when the controller receives the signal, it sends a command to the water inlet solenoid valve, the water inlet solenoid valve closes, and the rainwater in the rain container will It will not enter the float chamber. When the siphon process is over, the water level detection device will send a signal to the controller again, and the controller will send a command to the water inlet solenoid valve. The water inlet solenoid valve will be opened, and the rainwater in the rain container will continue to flow. to the float chamber; the siphon position refers to the top position of the water inlet of the siphon tube, and the height from the bottom of the float chamber is usually 10 mm; After being placed in the shaped tubular structure, the high end of the opening is placed in a container filled with liquid, and the liquid in the container will continue to flow out to a lower position through the siphon.

本实用新型的称重装置是由控制器、称重传感器和外围组件组成，外围组件包括底座的固定组件、法兰盘、集雨桶、保护罩和集雨桶底部的出水管，出水管中部连接有出水电磁阀，出水电磁阀通过驱动电路与控制器相连接，控制称重式结构排水。The weighing device of the utility model is composed of a controller, a weighing sensor and peripheral components. The peripheral components include a fixed component of the base, a flange plate, a rain-collecting barrel, a protective cover, and a water outlet pipe at the bottom of the rain-collecting barrel. The middle part of the water outlet pipe is A water outlet solenoid valve is connected, and the water outlet solenoid valve is connected with the controller through a drive circuit to control the water discharge of the weighing structure.

本实用新型的控制器将称重传感器采集的信号进行数据运算处理，得到降水量，还可以进行数据的传输和存储；控制器采用MSP430系列的单片机，具有超低功耗，当不进行降雨测量时，就会进入低功耗模式；MSP430系列单片机具备TI的先进集成技术，具有比较丰厚的片内外资源；大多数的MSP430系列单片机都具有16位Timer A和Timer B定时器，看门狗定时器，12/14位的ADC(Analog-to-Digital Converter)和12/14位的 DAC(Digital-to-Analog Converter)，六组I/O端口；具有上述结构的MSP430系列的单片机都可以作为本实用新型的实施例，例如MSP430F169型号单片机。The controller of the utility model performs data calculation and processing on the signal collected by the weighing sensor to obtain the precipitation, and can also transmit and store the data; the controller adopts the MSP430 series single-chip microcomputer, which has ultra-low power consumption. , it will enter the low power consumption mode; MSP430 series microcontrollers have TI's advanced integration technology, and have relatively rich internal and external resources; most MSP430 series microcontrollers have 16-bit Timer A and Timer B timers, watchdog timing device, 12/14-bit ADC (Analog-to-Digital Converter) and 12/14-bit DAC (Digital-to-Analog Converter), six groups of I/O ports; MSP430 series microcontrollers with the above structure can be used as Embodiment of the present utility model, for example MSP430F169 model single-chip microcomputer.

过滤网下方的进水电磁阀和出水管中部的出水电磁阀都通过驱动电路和控制器相连；由于控制器的输出功率比较小，不足以驱动进水电磁阀和出水电磁阀动作，因此需要一个驱动电路进行功率放大；所述驱动电路是由三极管或者MOSFET分立元件构成的电路，通过分立元件的作用来驱动进水电磁阀和出水电磁阀的通断。The water inlet solenoid valve under the filter screen and the water outlet solenoid valve in the middle of the water outlet pipe are connected to the controller through the drive circuit; since the output power of the controller is relatively small, it is not enough to drive the water inlet solenoid valve and the water outlet solenoid valve to operate, so a The drive circuit performs power amplification; the drive circuit is a circuit composed of triode or MOSFET discrete components, and drives the water inlet solenoid valve and the water outlet solenoid valve to be turned on and off through the function of the discrete components.

由于控制器输出的是数字量，而电磁阀是用模拟量来驱动的，因此还需要运用控制器的AD(Analog-to-Digital)转换单元。Since the output of the controller is a digital quantity, and the solenoid valve is driven by an analog quantity, it is also necessary to use the AD (Analog-to-Digital) conversion unit of the controller.

有益效果：与现有技术相比，本实用新型的技术方案具有以下有益的技术效果：Beneficial effects: Compared with the prior art, the technical solution of the utility model has the following beneficial technical effects:

(1)本实用新型是虹吸式雨量计和称重式雨量计相结合，可以减小称重式雨量计在强降雨情况下的测量误差，提高了测量的精度；(1) The utility model is a combination of a siphon rain gauge and a weighing rain gauge, which can reduce the measurement error of the weighing rain gauge in the case of heavy rainfall and improve the measurement accuracy;

(2)在盛雨器下方增加过滤网，有效解决了虹吸管清理不方便，容易造成虹吸管堵塞的问题，也减小了测量误差，提高了测量的精度；(2) Adding a filter screen under the rain container effectively solves the problem that the siphon tube is inconvenient to clean and easily causes the siphon tube to be blocked, and also reduces the measurement error and improves the measurement accuracy;

(3)在虹吸位置上方加装水位检测装置和在盛雨器下方安装进水电磁阀，可以避免当虹吸过程发生时雨水仍然通过盛雨器流入浮子室，因此不会影响虹吸效果，提高了测量精度；(3) Installing a water level detection device above the siphon position and installing a water inlet solenoid valve below the rain container can prevent rainwater from flowing into the float chamber through the rain container when the siphon process occurs, so the siphon effect will not be affected and the measurement accuracy;

(4)通过虹吸过程阶段性的引流进入称重装置，保证了称重传感器感应降水重量变化的连续性，提高了降水测量的准确性和可靠性；(4) Through the siphon process, the staged drainage enters the weighing device, which ensures the continuity of the load cell sensing the change of the precipitation weight, and improves the accuracy and reliability of the precipitation measurement;

(5)在集雨桶底部安装出水管，出水管中部连接出水电磁阀，通过控制器控制电磁阀，当集雨桶内存水量达到设定的存水上限值后自动排水，解决了雨水长期囤积的问题；(5) The outlet pipe is installed at the bottom of the rain collecting barrel, and the middle part of the outlet pipe is connected to the water outlet solenoid valve. The solenoid valve is controlled by the controller. When the water in the rain collecting barrel reaches the set upper limit of water storage, it will automatically drain, which solves the long-term accumulation of rainwater The problem;

(6)现有技术中的虹吸式雨量计通过自记钟和自记笔配合绘制出雨量数据，需要人工更换纸张，本实用新型称重式测量的数据可以通过控制器传输到终端上位机进行显示和存储，解决了人工频繁更换纸张的问题。(6) The siphon rain gauge in the prior art draws the rainfall data through the cooperation of the self-recording clock and the self-recording pen, and needs to manually replace the paper. The data of the weighing type measurement of the utility model can be transmitted to the terminal host computer through the controller to carry out Display and storage, solve the problem of manual frequent paper replacement.

附图说明Description of drawings

图1是本实用新型结构示意图；Fig. 1 is a structural representation of the utility model;

图2是本实用新型控制器连接示意图。Fig. 2 is a schematic diagram of the connection of the controller of the present invention.

具体实施方式Detailed ways

下面结合附图和实施例对本实用新型的技术方案作进一步的说明。The technical scheme of the utility model is further described below in conjunction with the accompanying drawings and embodiments.

本实用新型所述的一种雨量计，提高了降雨量的测量精度；在装置结构上了做了改变，将虹吸式和称重式相结合，加入了传感器技术，通信技术，体现了现代技术的应用，是一种可以用于雨量基础测量的装置。The rain gauge described in the utility model improves the measurement accuracy of rainfall; the structure of the device is changed, the siphon type and the weighing type are combined, sensor technology and communication technology are added, which embodies modern technology It is a device that can be used for basic rainfall measurement.

如图1所示，本实用新型所述的一种雨量计，包括外层防护罩18、盛雨器1、位于盛雨器下方的过滤网2、位于过滤网下方的进水电磁阀3、位于浮子室5中的浮子4、自记笔6、自记钟7、位于虹吸位置上方的水位检测装置8、虹吸管9、称重引流管19、钢板20、引流漏斗21、进水引流管22、位于浮子室下方的称重装置26；As shown in Figure 1, a rain gauge described in the utility model includes an outer protective cover 18, a rain container 1, a filter screen 2 located below the rain container, a water inlet solenoid valve 3 located below the filter screen, Float 4 in the float chamber 5, self-recording pen 6, self-recording clock 7, water level detection device 8 above the siphon position, siphon tube 9, weighing drainage tube 19, steel plate 20, drainage funnel 21, water inlet and drainage tube 22 , a weighing device 26 located below the float chamber;

其中，盛雨器1水平安装在外层防护罩18顶端，盛雨器1的上部为圆锥形，下部为圆柱形，底部有出水口，出水口处装有过滤网2，过滤网2的下方安装有进水电磁阀 3，进水电磁阀3通过驱动电路和控制器相连，本实用新型还具备虹吸式雨量计的基本组件，包括浮子室5、自记笔6、自记钟7、虹吸管9，盛雨器1通过进水引流管22与浮子室5侧壁底部相连，浮子4垂直相连一根第一连接杆23，随着水位的上升浮子4 带动第一连接杆23一起升高，浮子4置于浮子室5中，第二连接杆24沿水平方向与第一连接杆23通过齿轮25相接，自记笔6位于浮子室5的顶部并与第二连接杆24垂直固定连接，自记钟7一端与第二连接杆24水平连接，另一端与浮子室5的侧壁固定相连；水平安装的第三连接杆27一端与第一连接杆23相连，另一端与垂直固定于浮子室 5上的第四连接杆28相连，第三连接杆27和第四连接杆28起固定作用，防止与浮子相连的第一连接杆23发生倾斜；虹吸管9一端与浮子室5侧壁相连，在虹吸管9的一端位于虹吸位置上方装有水位检测装置8，可以检测浮子室内的水位情况，水位检测装置 8和控制器10相连，虹吸管9的另一端连接引流漏斗21，引流漏斗21另一端连接称重引流管19，称重引流管19另一端与称重装置26连接；虹吸式结构通过钢板20固定于称重式结构上方，将虹吸过程排出的水直接引入称重装置26的集雨桶17中；Wherein, the rain container 1 is horizontally installed on the top of the outer protective cover 18, the upper part of the rain container 1 is conical, the lower part is cylindrical, the bottom has a water outlet, the water outlet is equipped with a filter screen 2, and the bottom of the filter screen 2 is installed There is a water inlet solenoid valve 3, and the water inlet solenoid valve 3 is connected to the controller through a drive circuit. The utility model also has the basic components of a siphon rain gauge, including a float chamber 5, a self-recording pen 6, a self-recording clock 7, and a siphon tube 9 , the rain container 1 is connected to the bottom of the side wall of the float chamber 5 through the water inlet and drainage pipe 22, and the float 4 is vertically connected to a first connecting rod 23. As the water level rises, the float 4 drives the first connecting rod 23 to rise together, and the float 4 is placed in the float chamber 5, the second connecting rod 24 is connected with the first connecting rod 23 in the horizontal direction through the gear 25, and the self-marking pen 6 is located on the top of the float chamber 5 and is vertically fixedly connected with the second connecting rod 24. One end of the clock 7 is connected horizontally with the second connecting rod 24, and the other end is fixedly connected with the side wall of the float chamber 5; one end of the third connecting rod 27 installed horizontally is connected with the first connecting rod 23, and the other end is vertically fixed to the float chamber. The fourth connecting rod 28 on the 5 is connected, and the third connecting rod 27 and the fourth connecting rod 28 play a fixed role to prevent the first connecting rod 23 connected with the float from tilting; one end of the siphon tube 9 is connected with the side wall of the float chamber 5, One end of the siphon tube 9 is located above the siphon position and is equipped with a water level detection device 8, which can detect the water level situation in the float chamber. The heavy drainage tube 19, the other end of the weighing drainage tube 19 is connected to the weighing device 26; the siphon structure is fixed above the weighing structure through a steel plate 20, and the water discharged during the siphon process is directly introduced into the rain collecting barrel 17 of the weighing device 26 middle;

进一步，称重装置26由控制器10、称重传感器15和外围组件组成，外围组件包括底座的固定组件13、法兰盘14、保护罩16和集雨桶17，在集雨桶17的底部还设有一个出水管11，出水管11的中部连接有出水电磁阀12，出水电磁阀12通过驱动电路和控制器10相连，控制称重装置26排水。Further, weighing device 26 is made up of controller 10, load cell 15 and peripheral assembly, and peripheral assembly comprises the fixing assembly 13 of base, flange plate 14, protective cover 16 and rain-collecting barrel 17, at the bottom of rain-collecting barrel 17 Also be provided with a water outlet pipe 11, the middle part of water outlet pipe 11 is connected with water outlet electromagnetic valve 12, water outlet electromagnetic valve 12 links to each other with controller 10 through driving circuit, controls weighing device 26 to drain water.

本实用新型工作流程如下：The utility model workflow is as follows:

当开始降雨时，雨水汇集在盛雨器1中，通过盛雨器1中的锥形引流从出水口流出，通过过滤网2进行过滤，避免泥沙等杂质进入浮子室5中，此时的进水电磁阀3处于开通状态，雨水直接进入浮子室5，浮子室5中的水位慢慢抬升，浮子4随之上浮，与浮子4垂直相连的第一连接杆23也随之上升并带动齿轮25转动起来，齿轮25带动第二连接杆24动作，自记钟7随着第二连接杆24的动作开始转动，自记笔6在浮子室5上方的圆盘上划出雨量变化情况，当虹吸过程结束后，自记笔6会回到起始位置，重新开始记录；当浮子室5的水位达到虹吸位置，水位检测装置8进行动作，发送信号给控制器10，控制器10接收到水位满的信号后，给进水电磁阀3发送关断命令，此时进水电磁阀3进行阻水，雨水无法进入浮子室5，虹吸过程开始，水位开始慢慢下降，当虹吸过程结束，浮子室5中的水完全排完，此时水位检测装置8会再次给控制器10发送信号，控制器10收到信号以后，发送开通命令给进水电磁阀3，进水电磁阀3阻水结束，雨水通过盛雨器1再次进入浮子室5；When it starts to rain, the rainwater is collected in the rain container 1, flows out from the water outlet through the conical drainage in the rain container 1, and is filtered through the filter screen 2 to prevent impurities such as sediment from entering the float chamber 5. At this time, The water inlet solenoid valve 3 is in the open state, rainwater directly enters the float chamber 5, the water level in the float chamber 5 rises slowly, the float 4 floats up accordingly, and the first connecting rod 23 vertically connected with the float 4 also rises accordingly and drives the gear 25 rotates, and the gear 25 drives the second connecting rod 24 to move, and the self-recording clock 7 begins to rotate along with the action of the second connecting rod 24, and the self-recording pen 6 draws the rainfall change situation on the disk above the float chamber 5, when After the siphon process is over, the self-reporting pen 6 will return to the initial position and start recording again; when the water level in the float chamber 5 reaches the siphon position, the water level detection device 8 will act and send a signal to the controller 10, and the controller 10 will receive the water level After the full signal, send a shut-off command to the water inlet solenoid valve 3. At this time, the water inlet solenoid valve 3 blocks the water, and the rainwater cannot enter the float chamber 5. The siphon process starts, and the water level begins to drop slowly. When the siphon process ends, the float The water in the chamber 5 is completely drained. At this time, the water level detection device 8 will send a signal to the controller 10 again. After the controller 10 receives the signal, it will send an opening command to the water inlet solenoid valve 3, and the water inlet solenoid valve 3 will stop the water. , the rainwater enters the float chamber 5 again through the rain container 1;

所述水位检测装置8安装在虹吸管进水口的上方，是一种超声波测量水位的装置，通过超声波探头发射超声波，超声波探头接触到水面以后产生反射，再通过探头进行接收，通过接收到的时间差计算水位高度，该检测装置集成驱动电路，直接与控制器引脚相连接。The water level detection device 8 is installed above the water inlet of the siphon tube, and is a device for measuring the water level by ultrasonic waves. Ultrasonic waves are emitted by an ultrasonic probe, and reflections are generated after the ultrasonic probe touches the water surface, and then received by the probe, and calculated by the received time difference. Water level height, the detection device integrates a drive circuit and is directly connected to the controller pin.

通过虹吸管9的引流将雨水引入下方的集雨桶17中，称重传感器15进行雨水重量的测量，将测量数据通过串口传输到相连的控制器10进行处理，控制器10处理完成后发送到终端进行显示和保存。Through the drainage of the siphon tube 9, the rainwater is introduced into the rain collecting barrel 17 below, and the load cell 15 measures the weight of the rainwater, and transmits the measurement data to the connected controller 10 for processing through the serial port, and the controller 10 sends it to the terminal after processing to display and save.

当集雨桶17内雨水重量长时间不变化，说明此时无降雨；当集雨桶17内存水量达到设定的上限值时，控制器10通过驱动电路使出水管11中部设置的出水电磁阀12开启，集雨桶17中的积水即可流出；当集雨桶17内存水量低于设定的下限值时，控制器 10通过驱动电路使出水电磁阀12关闭，集雨桶17继续集水；上下限值的设定可以根据集雨桶高度进行计算，例如，上限值设定为集雨桶高度的五分之四，下限值设定为集雨桶高度的五分之一；上限值设定是为了防止强降雨时集满溢出，影响测量精度，下限值设定是为了保证重量，使得称重传感器承受足够的压力，传感器变化更明显，增加测量精度。When the weight of the rainwater in the rain collecting barrel 17 does not change for a long time, it means that there is no rainfall at this time; When the valve 12 is opened, the accumulated water in the rain-collecting barrel 17 can flow out; when the water in the rain-collecting barrel 17 is lower than the set lower limit value, the controller 10 closes the water outlet solenoid valve 12 through the drive circuit, and the rain-collecting barrel 17 Continue to collect water; the setting of the upper and lower limits can be calculated according to the height of the rain barrel, for example, the upper limit is set to four-fifths of the height of the rain barrel, and the lower limit is set to one-fifth of the height of the rain barrel One; the upper limit value setting is to prevent the overflow of the heavy rainfall, which affects the measurement accuracy, and the lower limit value setting is to ensure the weight, so that the load cell can bear enough pressure, the sensor changes more obviously, and the measurement accuracy is increased.

Claims (5)

1. a kind of rainfall gauge, it is characterised in that: the bottom outlet including Sheng Yu device (1), Sheng Yu device (1) is equipped with filter screen(2), the inlet water solenoid valve (3) below filter screen (2), float (4), float chamber (5), recording pen (6), recording clock (7), waterLevel detecting apparatus (8), siphon pipe (9), outer protective cover (18), weighing drainage tube (19), steel plate (20), drainage funnel (21),It intakes drainage tube (22), first connecting rod (23), the second connecting rod (24), gear (25), third connecting rod (27), the 4th connectionBar (28) and weighing device (26)；Sheng Yu device (1) is horizontally arranged at outer protective cover (18) top, and passes through water inlet drainage tube(22) it is connected with float chamber (5) sidewall bottom；Float (4) is placed in float chamber (5), and vertical with first connecting rod (23) is connectedIt connects；Second connecting rod (24) is connected with first connecting rod (23) by gear (25) in the horizontal direction, and recording pen (6) is located at floatingThe top of seed cell (5) is simultaneously connect with the second connecting rod (24) fixed vertical；Recording clock (7) one end and the second connecting rod (24) are horizontalConnection, the other end and the side wall of float chamber (5) are fixedly linked；Third connecting rod (27) one end being horizontally mounted and first connecting rod(23) it is connected, the other end is connected with the 4th connecting rod (28) being perpendicularly fixed on float chamber (5)；Water-level detecting device (8) positionAbove siphon position in float chamber (5), siphon pipe (9) one end is connected with float chamber (5) side wall, siphon pipe (9) other endConnect drainage funnel (21), drainage funnel (21) other end connection weighing drainage tube (19), weighing drainage tube (19) other end withWeighing device (26) connection, weighing device (26) include an outlet pipe (11), and outlet pipe is connected with out water power in the middle part of (11)Magnet valve (12), inlet water solenoid valve (3) and water outlet solenoid valve (12) are connected by driving circuit with controller (10), water level detectingDevice (8) is connected with controller (10), and weighing device (26) and controller (10) are located at outer protective cover (18) bottom.

2. a kind of rainfall gauge according to claim 1, it is characterised in that: the weighing device (26) includes controller(10), weighing sensor (15) and peripheral assembly, weighing sensor (15) are connected by serial ports with controller (10).

3. a kind of rainfall gauge according to claim 2, it is characterised in that: the peripheral assembly includes the fixation kit of pedestal(13), ring flange (14), protective cover (16), water butt (17) and an outlet pipe in the setting of water butt (17) bottom(11)。

4. a kind of rainfall gauge according to claim 1 to 3, it is characterised in that: the controller is using MSP430 seriesSingle-chip microcontroller；The MSP430 series monolithic have 16 Timer A and Timer B timers, WatchDog Timer, 12/14ADC and 12/14 DAC of position, six groups of ports I/O.

5. a kind of rainfall gauge according to claim 1 to 3, it is characterised in that: the controller uses MSP430F169Model single-chip microcontroller.