CN204595248U

CN204595248U - A kind of Intelligent hyetometrograph

Info

Publication number: CN204595248U
Application number: CN201420859960.9U
Authority: CN
Inventors: 罗天娇; 张亚萍; 杨文明
Original assignee: Kunming University of Science and Technology
Current assignee: Kunming University of Science and Technology
Priority date: 2014-12-31
Filing date: 2014-12-31
Publication date: 2015-08-26
Anticipated expiration: 2024-12-31

Abstract

The utility model relates to a kind of Intelligent hyetometrograph, belongs to meteorological observation technical field.The utility model comprises staving, fly net, rain container, filter screen, micro valve one, L shape pipeline, micro valve two, drainage arrangement, poidometer, base, solar panel, instrument chamber, wire one, wire two, wire three, auto-controller, data link, electric supply installation.The utility model can select different patterns according to rainfall intensity, thus avoids causing measuring error; The electronic scales that the utility model is arranged, according to different rainfall amount, fast by the monitoring weight of rainwater out, can improve udometric monitoring accuracy and measurement range; The utility model possesses radio data communication mode, data and state can be sent to monitor station in real time, ensure udometric real-time and reliability; And long-term unattended operation can be realized.

Description

A kind of Intelligent hyetometrograph

Technical field

The utility model relates to a kind of Intelligent hyetometrograph, belongs to meteorological observation technical field.

Background technology

Rain gage is that a kind of meteorologist and hydrologist are used for the instrument of the rainfall amount measuring somewhere in a period of time, gathers rainfall amount majority at present both at home and abroad and adopts hydrocone type, tipping bucket type and weighing type rain gauge.Siphon rainfall recorder by rain container, float chamber, certainly count clock, U trap etc. and form, main operational principle is when the rainfall in float chamber reaches a certain amount of, produces siphonic effect, is automatically discharged by rainwater.As the siphon rainfall recorder proposed in patent 201220178204.0, need every day and change from counting paper, more loaded down with trivial details; During draining, inevitably the rainfall amount of that a period of time of draining is also together discharged, cause error.The structure of tipping-bucket rain-gauge is made up of rain container, bucket-tipping device, water receiver, shell.During work, rainwater falls into bucket-tipping device by rain container, when ponding reaches a certain amount of, and tipping bucket out of trim and stirring.As the tipping-bucket rain-gauge proposed in patent 201220479403.5, stir at every turn and all can touch tongue tube and carry a pulse signal to register, but when running into heavy rain and extra torrential rain, the slewing rate of bucket-tipping device is slow, even have little time to stir, cause rainfall data to be lost; When rainfall amount is very little in addition, tipping-bucket rain-gauge cannot be measured, and the measurement range of rainfall amount is restricted.Current weighing type rain gauge is weigh to the rainfall in bucket mostly, and pattern is single, not intelligence.

Summary of the invention

The technical problems to be solved in the utility model is: the utility model provides a kind of Intelligent hyetometrograph, solve the problem being sent to monitor station, reliability and poor accuracy that existing rain gage measuring error is large, data message can not be real-time, solve simultaneously existing rain gage can not monitor out rainfall amount less time the problem of rainfall value.

Technical solutions of the utility model are: a kind of Intelligent hyetometrograph, comprise staving 1, fly net 2, rain container 3, filter screen 4, micro valve 1, L shape pipeline 6, micro valve 27, drainage arrangement 8, poidometer 9, base 10, solar panel 11, instrument chamber 12, wire 1, wire 2 14, wire 3 15, auto-controller 16, data link 17, electric supply installation 18;

The upper inner of described staving 1 is provided with rain container 3, rain container 3 mouthfuls is provided with fly net 2, rain container 3 inside is also provided with filter screen 4, the water outlet of described rain container 3 lower end is provided with micro valve 1, micro valve 1 realizes its switch by auto-controller 16, and be connected with auto-controller 16 by wire 3 15, L shape pipeline 6 is provided with immediately below described rain container 3, L shape pipeline 6 one end mouth of pipe is positioned at below micro valve 1, the other end is near drainage arrangement 8, drainage arrangement 8 is positioned at the lower right of staving 1 inside, be connected with staving 1, the corner of L-type pipeline 6 controls its switch by micro valve 27, micro valve 27 is connected with auto-controller 16 by wire 2 14, described L-type pipeline 6 is provided with poidometer 9 below, poidometer 9 is connected to auto-controller 16 by wire 1, described instrument chamber 12 is positioned at the lower left inside staving 1, auto-controller 16 is provided with in instrument chamber 12, data link 17 and electric supply installation 18, described solar panel 11 is positioned at the lower left outside staving 1.

Described rain container 3 is detachable rain container, and the fly net 2 that rain container is 3 mouthfuls and the filter screen 4 of the inside are all detachable, and rain container 3 device mouth is interior straight outer oblique blade-like, availablely hardly copperly to make.

Described electric supply installation 18 is accumulator, and being its charging by solar panel 11, also can be other power supplys.

Described poidometer 9 is per mille electronic scale.

Described data link 17 adopts GPRS data to transmit, and also can be other data transfer modes, for rainfall data is sent to external inspecting center timely.

Described instrument chamber 12 surrounding is sealing state, for moistureproof, anticorrosion.

The course of work of the present utility model is:

First judge whether to rain, when rainy, rainwater enters L-type pipeline 6 through rain container 3, poidometer 9 is also weighed to it, when the weight of rainwater in L-type pipeline 6 reaches the value M=120g of setting poidometer 9, auto-controller 16 closes micro valve 1, the micro valve 27 of L-type pipeline 6 corner is opened, auto-controller 16 and writing time T, water is closed by micro valve 27 after drainage arrangement 8 emptying, micro valve 1 is opened, by data link 17, the time T recorded and rainfall M is sent to data monitoring platform, rainfall value can be calculated by time T and rainfall M, circulate and so forth.

Described auto-controller 16 can be PLC, and the switch of PLC by-pass valve control is the application of automatic field routine techniques means.

When rainfall amount is very little, when reaching △ T=5min time, rainfall reaches M not yet, now poidometer 9 can be transferred to auto-controller 16 the registration M1 of quality in poidometer, auto-controller 16 can control micro valve 1 simultaneously and close, the micro valve 27 of L-type pipeline 6 corner is opened, and carries out draining.By data transmitter 17, the time △ T recorded and rainfall M1 is sent to data monitoring platform, mass M 1 and time △ T according to monitoring calculate rainfall value.

When the registration of poidometer 9 continue for some time be 0 time, whole device quits work.

The beneficial effects of the utility model are:

1, the utility model can select different patterns according to rainfall intensity, thus avoids causing measuring error;

2, the electronic scales of the utility model setting, according to different rainfall amount, fast by the monitoring weight of rainwater out, can improve udometric monitoring accuracy and measurement range;

3, the utility model possesses radio data communication mode, data and state can be sent to monitor station in real time, ensure udometric real-time and reliability; And long-term unattended operation can be realized.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation;

Fig. 2 is the schematic diagram of the utility model apparatus.

Each label in Fig. 1-2: 1-staving, 2-fly net, 3-rain container, 4-filter screen, 5-micro valve one, 6-L shape pipeline, 7-micro valve two, 8-drainage arrangement, 9-poidometer, 10-base, 11-solar panel, 12-instrument chamber, 13-wire one, 14-wire two, 15-wire three, 16-auto-controller, 17-data link, 18-electric supply installation.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Embodiment 1: as shown in Figure 1-2, a kind of Intelligent hyetometrograph, comprises staving 1, fly net 2, rain container 3, filter screen 4, micro valve 1, L shape pipeline 6, micro valve 27, drainage arrangement 8, poidometer 9, base 10, solar panel 11, instrument chamber 12, wire 1, wire 2 14, wire 3 15, auto-controller 16, data link 17, electric supply installation 18;

Embodiment 2: as shown in Figure 1-2, a kind of Intelligent hyetometrograph, comprises staving 1, fly net 2, rain container 3, filter screen 4, micro valve 1, L shape pipeline 6, micro valve 27, drainage arrangement 8, poidometer 9, base 10, solar panel 11, instrument chamber 12, wire 1, wire 2 14, wire 3 15, auto-controller 16, data link 17, electric supply installation 18;

Described rain container 3 is detachable rain container, and the fly net 2 that rain container is 3 mouthfuls and the filter screen 4 of the inside are all detachable, and rain container 3 device mouth is interior straight outer oblique blade-like.

Embodiment 3: as shown in Figure 1-2, a kind of Intelligent hyetometrograph, comprises staving 1, fly net 2, rain container 3, filter screen 4, micro valve 1, L shape pipeline 6, micro valve 27, drainage arrangement 8, poidometer 9, base 10, solar panel 11, instrument chamber 12, wire 1, wire 2 14, wire 3 15, auto-controller 16, data link 17, electric supply installation 18;

Described electric supply installation 18 is accumulator, is its charging by solar panel 11.

Embodiment 4: as shown in Figure 1-2, a kind of Intelligent hyetometrograph, comprises staving 1, fly net 2, rain container 3, filter screen 4, micro valve 1, L shape pipeline 6, micro valve 27, drainage arrangement 8, poidometer 9, base 10, solar panel 11, instrument chamber 12, wire 1, wire 2 14, wire 3 15, auto-controller 16, data link 17, electric supply installation 18;

Described poidometer 9 is per mille electronic scale.

Embodiment 5: as shown in Figure 1-2, a kind of Intelligent hyetometrograph, comprises staving 1, fly net 2, rain container 3, filter screen 4, micro valve 1, L shape pipeline 6, micro valve 27, drainage arrangement 8, poidometer 9, base 10, solar panel 11, instrument chamber 12, wire 1, wire 2 14, wire 3 15, auto-controller 16, data link 17, electric supply installation 18;

Described poidometer 9 is per mille electronic scale.

Described data link 17 adopts GPRS data to transmit, for rainfall data is sent to external inspecting center timely.

Embodiment 6: as shown in Figure 1-2, a kind of Intelligent hyetometrograph, comprises staving 1, fly net 2, rain container 3, filter screen 4, micro valve 1, L shape pipeline 6, micro valve 27, drainage arrangement 8, poidometer 9, base 10, solar panel 11, instrument chamber 12, wire 1, wire 2 14, wire 3 15, auto-controller 16, data link 17, electric supply installation 18;

Described poidometer 9 is per mille electronic scale.

By reference to the accompanying drawings specific embodiment of the utility model is explained in detail above, but the utility model is not limited to above-described embodiment, in the ken that those of ordinary skill in the art possess, various change can also be made under the prerequisite not departing from the utility model aim.

Claims

1. an Intelligent hyetometrograph, is characterized in that: comprise staving (1), fly net (2), rain container (3), filter screen (4), micro valve one (5), L shape pipeline (6), micro valve two (7), drainage arrangement (8), poidometer (9), base (10), solar panel (11), instrument chamber (12), wire one (13), wire two (14), wire three (15), auto-controller (16), data link (17), electric supply installation (18);

The upper inner of described staving (1) is provided with rain container (3), rain container (3) mouth is provided with fly net (2), rain container (3) inside is also provided with filter screen (4), the water outlet of described rain container (3) lower end is provided with micro valve one (5), micro valve one (5) realizes its switch by auto-controller (16), and be connected with auto-controller (16) by wire three (15), L shape pipeline (6) is provided with immediately below described rain container (3), L shape pipeline (6) one end mouth of pipe is positioned at micro valve one (5) below, the other end is near drainage arrangement (8), drainage arrangement (8) is positioned at the inner lower right of staving (1), be connected with staving (1), the corner of L-type pipeline (6) controls its switch by micro valve two (7), micro valve two (7) is connected with auto-controller (16) by wire two (14), described L-type pipeline (6) is provided with poidometer (9) below, poidometer (9) is connected to auto-controller (16) by wire one (13), described instrument chamber (12) is positioned at the lower left of staving (1) inner side, auto-controller (16) is provided with in instrument chamber (12), data link (17) and electric supply installation (18), described solar panel (11) is positioned at the lower left in staving (1) outside.

2. Intelligent hyetometrograph according to claim 1, it is characterized in that: described rain container (3) is detachable rain container, the fly net (2) of rain container (3) mouth and the filter screen (4) of the inside are all detachable, and rain container (3) device mouth is interior straight outer oblique blade-like.

3. Intelligent hyetometrograph according to claim 1, is characterized in that: described electric supply installation (18) is accumulator, is its charging by solar panel (11).

4. Intelligent hyetometrograph according to claim 1, is characterized in that: described poidometer (9) is per mille electronic scale.

5. Intelligent hyetometrograph according to claim 1, is characterized in that: described data link (17) adopts GPRS data transmission, for rainfall data is sent to external inspecting center timely.

6. Intelligent hyetometrograph according to claim 1, is characterized in that: described instrument chamber (12) surrounding is sealing state, for moistureproof, anticorrosion.