CN204630926U - A kind of laser radio sand meter that there is side direction and compensate - Google Patents

Abstract

A kind of laser radio sand meter that there is side direction and compensate, comprise light source and Fibre Optical Sensor, described Fibre Optical Sensor is made up of light transmitting fiber and light sensing element, described light transmitting fiber comprises the first light transmitting fiber and the second light transmitting fiber, described first fibre-optic bearing of trend is consistent with irradiation light direction, and described second fibre-optic bearing of trend becomes an angle of 90 degrees with irradiation light direction.The utility model adds the measurement of 90 degree of direction scattered light intensities, under the change of the size of sand and the condition of the length of working time change, can obtain very accurate result, the detecting device sand meter device being compared to single transmitted light intensity is more suitable for long-term work under the such environment of large-scale river model.

Description

A kind of laser radio sand meter that there is side direction and compensate

Technical field

The utility model relates to a kind of sand-carrying capacity measuring method and surveying instrument, is specially adapted to river model test and on-the-spot surveying instrument.

Background technology

In large-scale river model test, the husky content measured in water is absolutely necessary one and tests, and on domestic market, existing a lot of sand meter device is all the husky content judged by the transmitted light intensity of measuring beam in water.Because in the experimentation surveying husky content in water, when light beam is after water sample, only some only can project on the optical fiber of 180 degree, all the other loss parts some absorbed by the sand etc. in water, some is then by husky scattering, can not be very high so measure by original technology the silt content result precision come, the requirement of experiment cannot be met.Existing sand meter device mainly contains some reason following cannot meet the test request in large-scale river model test:

(1) in the water that the content of sand is lower, the change being compared to incident intensity due to transmitted intensity is too little, so just cannot measure more accurate result.

(2) in the water that the content of sand is higher, itself certain absorption is had to light, so the husky content results measured is inaccurate due to husky.

(3) light beam is directly got in transmission detector through sand, the temperature produced on the detector due to light beam and the drift of electronic devices and components, cause the subtle change of signal, can affect the measuring accuracy of detecting device, therefore this also can have influence on the measurement result of husky content in water.

(4) a small amount of silt particles is attached on Transmission light or scattering wall, causes effective transmitted light and scattered light intensity to reduce, affects the result that in water, silt content detects.

Because the method for the direct measurement transmitted light intensity that the sand meter device on domestic market adopts cannot meet the test of large-scale river model completely, so the utility model proposes the measuring method increasing by 90 degree of direction scattered light intensities on the basis of the method, scattered light intensity on 90 degree of directions is compared the husky content calculating and measure in water outlet with transmitted light intensity, improve the measurement range and accuracy of measurement of measuring result greatly.Again because light intensity detector can because light beam heating causes the sensitivity decrease of detecting device and has influence on measurement result, optical fiber is adopted to replace detectors measure 90 degree of scatterings and transmitted light intensity so the utility model proposes, to improve the measuring accuracy of light intensity, the final measuring accuracy improving experimental result.

Utility model content

The purpose of this utility model is the defect overcoming prior art, provides the laser radio sand meter with side direction compensation that a kind of measuring accuracy is high.

The technical scheme realizing the utility model object is: a kind of laser radio sand meter having side direction and compensate, comprise light source and Fibre Optical Sensor, described Fibre Optical Sensor is made up of light transmitting fiber and light sensing element, described light transmitting fiber comprises the first light transmitting fiber and the second light transmitting fiber, described first fibre-optic bearing of trend is consistent with irradiation light direction, and described second fibre-optic bearing of trend becomes an angle of 90 degrees with irradiation light direction.

As further improvement of the utility model, described light sensing element is photodiode, comprise first, second, and third photodiode, first photodiode is for receiving the first fibre-optic signal, second photodiode is for receiving the first fibre-optic signal, and the 3rd photodiode is for receiving the spectroscopic signal from light source.

As further improvement of the utility model, described light source comprises LED and is arranged on the lens in LED front, and LED light is parallel rays through lens reflection.Adopt LED cold light source, luminescence efficiency is high, good stability, irradiates for a long time, and temperature rise is little, good temp characteristic.

As further improvement of the utility model, described in there is laser radio sand meter that side direction compensates also comprise data acquisition and procession unit and computing machine and control and data analysis set-up; The simulating signal that described data acquisition and procession unit exports for gathering described light sensing element, carries out digital-to-analog conversion by simulating signal and modulation is amplified, and transfers to the control of described computing machine and data analysis set-up by wireless network module; Described computing machine controls and data analysis set-up, for carrying out data acquisition by wireless network control data acquisition circuit, and calculates the data gathered, according to result of calculation display silt content.

As further improvement of the utility model, described LED is also connected with the power control circuit being controlled by the control of described computing machine and data analysis set-up, forms adjustable LED lamp.

The optical fiber of increase by the 90 degree of direction scattered light intensities that the utility model proposes, parallel beam is formed after LED light source scioptics in sand meter device, parallel beam in transmitting procedure after the absorption of measured object (i.e. sandstone in water), reflection and scattering, some transmitted ray can be irradiated on the optical fiber in 180 ° of directions, and some light scattering is mapped on the optical fiber in 90 ° of directions.Husky content in the beam intensity that the optical fiber in 90 ° and 180 ° directions receives and tested water has certain relation, and the light intensity therefore by measuring transmitted light and scattered light just can calculate the husky content in water outlet.

Through the test of large-scale river model, to the data comparative analysis that each group in two greatly group experiment measures, can find that the measurement result of the detecting device sand meter device of single measurement transmitted light intensity can be subject to husky size and the impact of light beam temperature, but according to design of the present utility model, add the laser radio sand meter device with side direction compensation of the measurement of 90 degree of direction scattered light intensities, it is no matter the change of husky size, or the length change of working time, very accurate result can be obtained, the detecting device sand meter device being compared to single transmitted light intensity is more suitable for long-term work under the such environment of large-scale river model.So propose to increase measurement 90 degree of scattered light intensities and method detecting device being changed into optical fiber is desirable, having very large practical value, is also to one of sand meter device performance very large lifting.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of the utility model embodiment 1;

Fig. 2 is the husky sensor construction block diagram of survey of the utility model embodiment 1.

Embodiment

Be described further below in conjunction with drawings and Examples.

Embodiment 1

As shown in Figure 1, a kind of laser radio sand meter 100 having side direction and compensate, to be controlled and data analysis set-up 9 forms in processing unit 7 and computing machine by Fibre Optical Sensor 1, data acquisition.

As shown in Figure 2, Fibre Optical Sensor 10 is made up of light source, light transmitting fiber and light sensing element, light transmitting fiber 5 comprises the first light transmitting fiber 5a and the second light transmitting fiber 5b, the bearing of trend of the first light transmitting fiber 5a is consistent with source light 6 direction, and the second light transmitting fiber 5b becomes 90 degree with source light 6 direction.Light source 2 comprises LED and is arranged on the lens in LED front, and the light that LED is launched is parallel source light 6 through lens reflection.

As shown in Figure 1, there is laser radio sand meter 100 that side direction compensates also comprise data acquisition and procession unit 7 and computing machine and control and data analysis set-up 9, data acquisition and procession unit 7, for gathering the simulating signal that light sensing element 4 exports, simulating signal is carried out digital-to-analog conversion and modulation amplification, and transfer to computing machine control and data analysis set-up 9 by wireless network module 8; Computing machine controls and data analysis set-up 9, for carrying out data acquisition by wireless network control data acquisition circuit, and calculates the data gathered, according to result of calculation display silt content.

The light intensity magnitude of light source 2 and break-make are controlled by computing machine and data analysis set-up 9 is controlled by emission control circuit 1, incident light is divided into two-way through spectroscope, incide in tested silt fluid 3 by light transmitting fiber one tunnel, a road is incided on the 3rd photodiode 4c as with reference to light.Tested silt fluid 3 carries out transmission and scattering to light, and transmitted light detects through the first photodiode 4a, and 90 degree of scattered lights detect through the second photodiode 4b.Three road photodiode detection signals turn lattice network 8 by wireless after data acquisition and procession unit 7 processes, and enter computing machine and control and data analysis set-up 9, to be controlled and data analysis set-up 9 three road signal is analyzed by computing machine.

It is of the present utility model that to have the measuring principle of laser radio sand meter that side direction compensates as follows:

According to Tyndall effect:

In formula: scattered light intensity, incident intensity, lambda1-wavelength, refer to the sandstone content number in unit volume, the volume of sandstone, it is constant.

Visible, in stable incident intensity and fixed wave length when, contain husky total amount in scattered light intensity and water be directly proportional, be namely directly proportional to the silt content in water.

Fibre optic test instrument transmitted beam irradiates arsenicbearing gold ores sample, according to the power of light beam irradiation to the transmitted light intensity on optical fiber and scattered light intensity, just the real-time change of silt content in water can be converted into the electric signal of different size.The electric signal being loaded with silt content outputs in single-chip microcomputer in signals collecting and modulation circuit after filtering, amplification etc. process.Data are sent to through wireless module and wirelessly turn in the circuit of network by single-chip microcomputer, the method of what wireless module adopted in the process of transceiving data is exactly multi-channel adaptive wireless receiving and dispatching, finally by netting twine connection, data are transferred in computing machine by mixed-media network modules mixed-media, and host computer is exactly the control center of whole system, carries and send instruction and the task of processing data.

In order to check the performance with the laser radio sand meter that side direction compensates adding 90 degree of scattered light intensities and measure, test in water model.Any shading measure is not taked in experiment, is completely to carry out under the condition of natural light and general lighting light.

Kind and the size grouping of sand grain is pressed under identical lighting conditions, the silt of one species is often organized and is done single-measurement transmitted light intensity respectively and calculate silt content and measure transmitted light intensity and be combined with 90 degree of scattered light intensities and calculate silt content these two and test, in a computer this experimental data of several groups is kept and every two groups of experimental datas are compared analysis, when sand grain size is less, husky content in the water that these two kinds of methods are measured is more or less the same, but the result that the sand meter device being the increase in 90 degree of scattered light intensities calculates is more accurate; When the size of sand grain is larger, the husky content that these two kinds of methods are measured then differs comparatively large, the silt content that the sand meter adopting transmitted light intensity to combine with 90 degree of scattered light intensities calculates more accurate.

Done again the experiment with laser radio sand meter device that side direction compensates and detecting device sand meter device that a group adds 90 degree of scatter measurement methods simultaneously, to experimental data compare of analysis, can find when the sand meter device working time is shorter, husky content results in the water that both measure is basically identical, but it is slightly long when operating, will find that the result that detecting device sand meter device is measured significantly can be different from the laser radio sand meter device having side direction and compensate, again through experimental verification, find that the result with the laser radio sand meter device that side direction compensates is accurately, the result of detecting device sand meter device due to be subject to light beam temperature and electronic devices and components itself affect result slowly become inaccurate.So visible, the laser radio sand meter device with side direction compensation can adapt to various test environment more, has certain advantage.

Claims (5)

1. the laser radio sand meter that there is side direction and compensate, comprise light source and Fibre Optical Sensor, described Fibre Optical Sensor is made up of light transmitting fiber and light sensing element, it is characterized in that, described light transmitting fiber comprises the first light transmitting fiber and the second light transmitting fiber, described first fibre-optic bearing of trend is consistent with irradiation light direction, and described second fibre-optic bearing of trend becomes an angle of 90 degrees with irradiation light direction.

2. the laser radio sand meter that there is side direction and compensate according to claim 1, it is characterized in that, described light sensing element is photodiode, comprise first, second, and third photodiode, first photodiode is for receiving the first fibre-optic signal, second photodiode is for receiving the first fibre-optic signal, and the 3rd photodiode is for receiving the spectroscopic signal from light source.

3. the laser radio sand meter having side direction and compensate according to claim 1, is characterized in that, described light source comprises LED and is arranged on the lens in LED front, and LED light is parallel rays through lens reflection.

4. the laser radio sand meter having side direction and compensate according to claim 1, is characterized in that, described in there is laser radio sand meter that side direction compensates also comprise data acquisition and procession unit and computing machine and control and data analysis set-up; The simulating signal that described data acquisition and procession unit exports for gathering described light sensing element, carries out digital-to-analog conversion by simulating signal and modulation is amplified, and transfers to the control of described computing machine and data analysis set-up by wireless network module; Described computing machine controls and data analysis set-up, for carrying out data acquisition by wireless network control data acquisition circuit, and calculates the data gathered, according to result of calculation display silt content.

5. the laser radio sand meter having side direction and compensate according to claim 3, is characterized in that, described LED is also connected with the power control circuit being controlled by the control of described computing machine and data analysis set-up, forms adjustable LED lamp.