CN109521503A - A kind of siphoning installation of high-precision response rainfall process - Google Patents

Abstract

The present invention provides a kind of siphoning installation of high-precision response rainfall process, this siphoning installation is installed on inside rainfall gauge between rain container and metering tipping bucket, siphoning installation includes main component, siphon body, middleware, main component is fixedly installed in rain container bottom, siphon body is fixedly installed on main component, siphon body top side has siphon outlet with siphon entrance, bottom, its siphon entrance is located inside main component after the installation of siphon body；Middleware is fixed on siphon body inside main component, the cavity of bottom opening is set inside middleware, siphon entrance is located in cavity, it is used to form on middleware between the inner sidewall of cavity and siphon body, all has gap between middleware lateral wall and main component inner sidewall, and the gap of two sides is connected to by middleware bottom.The variation of natural rain hard real time is stabilized to fixed value and flows into tipping bucket, to greatly improve udometric measurement accuracy by the present invention by the way that the udometric upper tipping bucket of meteorological department's conventional double is replaced with siphoning installation.

Description

A kind of siphoning installation of high-precision response rainfall process

Technical field

The present invention is suitable for the hydrology and meteorological Rainfall estimation technical field, occurs especially for different resolution rainfall gauge Mistake difference problem, be applicable under different raininess realize high-precision respond rainfall process rainfall gauge siphoning installation.

Background technique

The accuracy of precipitation data be always the hydrology and meteorological department concern emphasis and water resource utilize, flood it is pre- The prerequisite in the fields such as alert, Eco-hydrological adjusting, the method that numerous researchers also seek high-acruracy survey rainfall, including introduce External rainfall gauge, comparison different resolution rainfall gauge Precipitation Measurement Errors etc..Though the siphon rainfall recorder of early application can be realized High-precision rainfall record, but need manually to measure, it is more troublesome；Tipping-bucket rain-gauge design principle is simple, property It can stablize, but very sensitive to raininess size, especially error of the different resolution tipping bucket to different raininess.Domestic current is more The rain gage amount device that number precipitation station and Experimental Base are equipped with is tipping-bucket rain-gauge, and this tipping-bucket rain-gauge has GB requirement, And never change in decades.Therefore how to further increase existing udometric measuring accuracy, stability and quickly Response rainfall is particularly important, and is the present hydrology and meteorological department's urgent problem to be solved.

Existing udometric type is more, and the resolution ratio according to tipping bucket can be divided into the rain of 0.1mm, 0.2mm, 0.5mm and 1mm Meter.Meteorological department uses pair anti-bucket rainfall gauges of relatively mostly 0.1mm, and Hydrology department is used compared with mostly 0.2mm single-lens reflex camera bucket rainfall Meter.Tipping-bucket rain-gauge metering enters tipping bucket by the rain container of rain gauge, and left and right bucket tipping bucket number is converted to electric signal, into Row records and transmits.But there are biggish measurement errors for tipping-bucket rain-gauge.The main source of error is raininess, is carried out in tipping bucket When metering, although the time interval of tipping bucket is smaller every time, in this period in Δ T of tipping bucket, the funnel of water inlet still can be to Injected water volume in tipping bucket.Therefore when raininess is larger, it is total that a pipeful of measurement is just more than by the water that influent hopper enters tipping bucket Amount causes measured value error bigger than normal partially negative；When raininess is smaller, the water into funnel is smaller, is likely less than a pipeful of record Water leads to measured value error polarization less than normal.It is less than normal when bigger than normal when in turn resulting under different raininess to Precipitation Measurement Errors, Puzzlement is brought to the precise measurement of rainfall.

The 0.1mm double skip rainfall gauge that meteorological department uses at present, in order to reduce the variation of rainfall raininess for meter Measure the influence of tipping bucket.Its cardinal principle is to add one layer of tipping bucket, and the double-deck tipping bucket again on single-lens reflex camera bucket rainfall gauge upper layer, and rainfall is by upper Entering the metering tipping bucket of lower layer by funnel, it can be achieved that raininess is turned to 4mm/min after layer tipping bucket, metering tipping bucket will be entered Raininess be fixed on constant value, unrelated with natural precipitation raininess, institute is so as to improving measurement accuracy.

But the upper layer tipping bucket due to the double-deck tipping bucket is identical with lower layer's tipping bucket resolution ratio, i.e., upper layer tipping bucket stir water just with The water that lower layer's tipping bucket stirs is identical, therefore after upper layer tipping bucket stirs, and the raininess for flowing into lower layer's funnel is likely less than 4mm/ Min will cause the generation of measurement error in this way.And when natural raininess is smaller, this error will persistently add up, cause into One step error.

The new survey rain equipment first occurred, for example, Chengdu 784 two waveband rain detection radar, ultrasonic type rainfall gauge, the U.S. The weighing type rain gauge of Texas is obtained by way of electromagnetic wave and the weighing of high-precision electronic equipment or by mathematics reckoning Accurate precipitation.But these equipment costs are higher, and maintenance program is cumbersome, generally speaking increase and survey the reliable of rain work Property, imeliness problem.

Therefore prior art condition, and comprehensive different technologies advantage how are overcome the shortcomings of, to realize the hydrology and meteorology portion The rainfall of the high-precision, quick response of door measures work, is one of urgent need to solve the problem.

Summary of the invention

For the deficiency for solving current technology, the present invention combination prior art provides a kind of high-precision from practical application The siphoning installation for responding rainfall process will by the way that the udometric upper tipping bucket of meteorological department's conventional double is replaced with siphoning installation The variation of natural rain hard real time stabilizes to fixed value and flows into tipping bucket, to greatly improve udometric measurement accuracy.

Technical scheme is as follows:

A kind of siphoning installation of high-precision response rainfall process, this siphoning installation are installed on rain container and meter inside rainfall gauge It measures between tipping bucket, the siphoning installation includes

Main component, the main component are fixedly installed in rain container bottom, main component inner hollow,

Siphon body, the siphon body are fixedly installed on main component, and there is siphon entrance, bottom to have for siphon body top side There are siphon outlet, siphon entrance and siphon outlet to be connected to by siphon body inner passage, its siphon entrance position after the installation of siphon body Inside main component；

Middleware, the middleware are fixed on siphon body inside main component, and bottom opening is arranged inside middleware Cavity, siphon entrance is located in cavity, is used to form between the inner sidewall of cavity and siphon body on middleware, on the outside of middleware Gap is all had between wall and main component inner sidewall, and the gap of two sides is connected to by middleware bottom.

Main component inner hollow position is set gradually from top to bottom with a slope twice straightens gauge structure.

Rainfall flows at main component inner hollow after being collected by rain container, and water level rises to main component first time variable diameters At structure, siphon is triggered for the first time, rainwater is injected into the metering tipping bucket of lower section through siphon outlet, when non-siphon for the first time, water level inside It is formed reaching to straighten for the second time at gauge structure.

The edge diameter for straightening gauge structure twice is 25mm, gradient 1:4, and siphon inlet diameter is 4mm, in siphon body Portion channel, siphon outlet diameter are 3mm, the gap between middleware inner sidewall and siphon body be 1mm, middleware lateral wall with The gap that main component straightens the formation of the edge diameter at gauge structure is 6mm.

Pass through spiral shell between the main component and rain container, between siphon body and main component, between middleware and siphon body Line connection.

The main component, siphon body, middleware are brass material.

Beneficial effects of the present invention:

1, the present invention passes through siphon body for the change raininess process of natural precipitation smoothly into regime flow process, therefore enters Stability of flow in tipping bucket, the water that when each tipping bucket enters left and right bucket within flip-flop transition is identical, eliminates tipping bucket and stirs production Raw error, improves measuring accuracy.

2, the present invention straightens gauge structure with acclive by two, solves siphon for the first time and the non-water yield of siphon for the first time not Same problem can will be stablized in 3.4g siphon water yield for the first time, and the water yield of non-siphon for the first time is stablized in 6.8g, that is, turned over a pipeful of Water and the water for turning over two buckets, further increase udometric measuring accuracy, in the variation range of 0.1~6mm/min raininess, The rainfall error of 0.1mm can be made to be reduced to ± 3% from ± 12%.

3, the configuration of the present invention is simple, siphon body is highly reliable, and it is high to flow stability out.

4, the present invention is suitable for the tipping-bucket rain-gauge of each model, and obvious for precision improvement effect.

Detailed description of the invention

Attached drawing 1 is usage mode schematic diagram of the present invention；

Attached drawing 2 is schematic diagram of internal structure of the present invention；

Attached drawing 3 is main component structural schematic diagram of the present invention；

Attached drawing 4 is middleware structure schematic diagram of the present invention；

Attached drawing 5 is siphon part structural schematic diagram of the present invention；

Attached drawing 6 is operation principle schematic diagram of the present invention.

Label shown in attached drawing: 1, rain container；2, siphoning installation；3, tipping bucket is measured；4, water drain funnel；5, main component；6, Middleware；7, siphon body；8, first gradient；9, second gradient；10, cavity；11, siphon entrance；12, siphon outlet.

Specific embodiment

With reference to the drawings and specific embodiments, the invention will be further described.It should be understood that these embodiments are merely to illustrate The present invention rather than limit the scope of the invention.In addition, it should also be understood that, after reading the content taught by the present invention, this field Technical staff can make various changes or modifications the present invention, and such equivalent forms equally fall within range defined herein.

As shown in figs. 1 to 6, siphoning installation 2 of the invention is mainly by main component 5, middleware 6,7 three parts group of siphon body At 5 top of main component is threadedly attached to rain container 1, inner hollow, and the rainwater that rain container 1 is collected can flow into main component 5 Inside, siphon body 7 is by being threaded into 5 bottom of main component, and 7 top of siphon body is located in main component 5, and lower part is located at main component Outside 5, siphon entrance 11 is arranged in 7 top side of siphon body, and the siphon outlet being connected to siphon entrance 12, middleware is arranged in bottom 6 are tightened on 7 top of siphon body, after there is 6 bottom of middleware cavity 10, middleware 6 to install, bottom and main component by screw thread 5 bottom surfaces have gap by a fixed gap, lateral surface and 5 inner wall of main component, between having between 10 side wall of cavity and siphon body 7 The gap of gap, two sides is connected to form linker structure by bottom.

Siphoning installation 2 of the present invention is conducive to siphonage using the chalocopyrite structure of hydrophobic material and internal water is discharged, internal Residual amount is small.It is illustrated in figure 6 the working principle of the invention, mainly triggers siphon using the surface tension of gravity, water, by In water surface, there are tension, therefore are gradually injected siphoning installation 2 in rainwater, and water level constantly rises in main component 5, according to linker Principle, water level can be increased also in gap between middleware 6 and siphon body 7.When water is after entering siphon entrance 11, due to atmosphere It presses and (from becoming upward downwards) is changed to the direction of surface pressure, and due to gravity, theoretically water can be flowed directly out.But by In water surface there are tension force effect, water can be rested at siphon entrance 11, with the continuous rising of the water surface in main component 5, hydraulic pressure Increase, when water level rises the water pressure to be formed greater than the surface tension formed at siphon entrance 11, siphon will be triggered, and by Flow out in-channel water in siphonage, out of, siphon outlet 12 is injected into lower section metering tipping bucket.Therefore regardless of natural raininess It is much, the stability of flow entered in metering tipping bucket can be achieved, to improve udometric measuring accuracy.

As shown in figure 3, main component 5 of the invention is to straighten gauge structure twice, and the bottom surface of variable diameters is band slope every time The inclined-plane of degree, for solving siphon for the first time and the non-water yield different problems of siphon for the first time.When in main component 5 water level it is continuous on It rises, for the first time when siphon, water level reaches to be formed at 5 first time of main component diameter change, is then injected into meter by siphon outlet 12 It measures in tipping bucket 3.Non- siphon for the first time, the problem of being infiltrated due to material and remained water, water level inside reaches main component 5 second directly It is formed at diameter variation, then water is injected into metering tipping bucket 3 by siphon outlet 12.

Since siphon flow calculating is complex, because siphonage time is shorter, and water outlet diameter is smaller, is glued by water Stagnant power is affected, so can carry out accurate numerical simulation using Fluent software when the present invention is implemented.The present invention passes through Many experiments, practice and Simulation, the key dimension relationship of each components after obtaining following optimization:

Wherein, the edge diameter for straightening gauge structure twice is 25mm, is inside diametrically 18mm, and the gradient of bottom surface is 1:4, Gradient vertical height is 1mm, and the total vertical height of first time variable diameters is 6.5mm, and the total vertical height of second of variable diameters is 9mm, Vertical range between first time gradient variable diameter outer edge and second of gradient variable diameter outer edge is 15mm, and variable diameter is separated by twice Spacing is 6mm, and siphon inlet diameter is 4mm, and siphon body inner passage, siphon outlet diameter are 3mm, middleware inner sidewall with Gap between siphon body is 1mm, and the gap that middleware lateral wall straightens the formation of the edge diameter at gauge structure with main component is 6mm.Using the water outlet flow of the invention that can obtain structure of above-mentioned size in 4g/s, being scaled raininess is 7.5mm/ min.China's most area nature raininess condition can be met completely, and the rainfall for injecting tipping bucket can be stabilized to constant, substantially The measuring accuracy for improving tipping bucket, achieves very satisfied experiment and practice effect.In the present invention, it is contemplated that siphoning installation 2 Inner structure size, therefore should be at the funnel angle of rain container 1 and bottom is respectively provided with strainer in millimeter rank, prevents sand and dust Enter in siphoning installation 2 with other particulate matters.

Claims (6)

1. a kind of siphoning installation of high-precision response rainfall process, this siphoning installation are installed on rain container and metering inside rainfall gauge Between tipping bucket, it is characterised in that: the siphoning installation includes

Main component, the main component are fixedly installed in rain container bottom, main component inner hollow,

Siphon body, the siphon body are fixedly installed on main component, and siphon body top side has rainbow with siphon entrance, bottom Suction outlet, siphon entrance and siphon outlet are connected to by siphon body inner passage, its siphon entrance is located at master after the installation of siphon body Inside body part；

Middleware, the middleware are fixed on siphon body inside main component, and the sky of bottom opening is arranged inside middleware Chamber, siphon entrance are located in cavity, be used to form on middleware between the inner sidewall of cavity and siphon body, middleware lateral wall with Gap is all had between main component inner sidewall, and the gap of two sides is connected to by middleware bottom.

2. a kind of siphoning installation of high-precision response rainfall process as described in claim 1, it is characterised in that: the main component Inner hollow position is set gradually from top to bottom with a slope twice straightens gauge structure.

3. a kind of siphoning installation of high-precision response rainfall process as claimed in claim 2, it is characterised in that: rainfall is by holding Rain device flows at main component inner hollow after collecting, and water level rises to main component and straightens at gauge structure for the first time, triggers rainbow for the first time It inhales, rainwater is injected into the metering tipping bucket of lower section through siphon outlet, and when non-siphon for the first time, water level inside reaches second of variable diameters It is formed at structure.

4. a kind of siphoning installation of high-precision response rainfall process as claimed in claim 2, it is characterised in that: variable diameters twice The edge diameter of structure is 25mm, and gradient 1:4, siphon inlet diameter is 4mm, and siphon body inner passage, siphon outlet are straight Diameter is 3mm, and the gap between middleware inner sidewall and siphon body is 1mm, and middleware lateral wall and main component straighten gauge structure The gap that the edge diameter at place is formed is 6mm.

5. a kind of siphoning installation of high-precision response rainfall process as described in claim 1, it is characterised in that: the main component It is connected through a screw thread between rain container, between siphon body and main component, between middleware and siphon body.

6. a kind of siphoning installation of high-precision response rainfall process as described in claim 1, it is characterised in that: the main body Part, siphon body, middleware are brass material.