CN106019353A - Environmental radiation detection method - Google Patents

Abstract

The invention provides an environmental radiation detection method which is achieved through an environmental radiation detection device. The environmental radiation detection device comprises five radiation detection sensors (S1-S5) and a control processor connected with the five radiation detection sensors separately, wherein the S1-S5 are located on the same plane. The environmental radiation detection method sequentially comprises the steps of environmental radiation detection device arranging, radiation detection sensor parameter measuring, control processor calculation treating and the like. The environmental radiation detection device is simple in structure, low in cost, convenient to carry and reliable in data measuring.

Description

A kind of environmental radiation detection method

Technical field

The present invention relates to fields of measurement, be specifically related to a kind of environmental radiation detection method.

Background technology

At present, along with the development of society, it is more and more prominent that environmental problem becomes, and people more come for the requirement of environmental quality The highest, the detection for undesirable elements various in environment is the most increasingly subject to people's attention.Radiation is as a kind of important ring Environment pollution, is flooded with entire society, either the radioprotective in experimental situation, or the ultraviolet radiation etc. in natural environment, All living environment, the working environment of people is produced impact in various degree.

But, the environment measuring equipment volume about radiation is relatively big at present, and cost of manufacture is high, expensive, it has not been convenient to take Band, and the sensor of environmental radiation is single, and detection numerical value reliability is the highest.

Summary of the invention

It is an object of the invention to overcome the deficiencies in the prior art, it is provided that a kind of simple in construction, with low cost, the side of carrying And the environmental radiation detection method of reliable measuring data just,.

The invention provides a kind of environmental radiation detection method, use environmental radiation detection device to realize, wherein environment Radiation detecting apparatus includes five emission detecting sensor S1-S5, and wherein S1-S5 is generally aligned in the same plane, and also includes respectively with five The control processor that individual emission detecting sensor connects, in turn includes the following steps:

(1) arranging emission detecting sensor S1-S3 and lay respectively at three summits of the equilateral triangle that the length of side is a, S4 is positioned at The center of gravity of described equilateral triangle, S5 be positioned at the described equilateral triangle that constituted with S2 and S3 for summit as base and with h For the apex of another high isosceles triangle, o point is environmental radiation test point, is positioned at described in being constituted with S2 and S3 for summit The midpoint on one side of equilateral triangle, arranges the control processor being connected with five emission detecting sensor respectively at o point, its Middle h=1.4a；

(2) measure radiancy once by S1, be designated as F₁；Measure radiancy twice by S2, be designated as F respectively₂₁, F₂₂；Logical Cross S3 and measure radiancy three times, be designated as F respectively₃₁, F₃₂, F₃₃；Measure radiancy once by S4, be designated as F₄；Spoke is measured by S5 Degree of penetrating three times, is designated as F respectively₅₁, F₅₂, F₅₃；

(3) the radiancy data that emission detecting sensor S1-S5 measures are transmitted to controlling processor, controlling processor In calculate:

$F_2=\frac{F_{21}+F_{21}}{2},F_3=\frac{F_{31}+F_{32}+F_{33}}{2};F_5=\frac{F_{51}+F_{52}+F_{53}}{2};$

(4) by F₂₁, F₂₂Respectively with F₂Compare, by F₃₁, F₃₂, F₃₃Respectively with F₃Compare, by F₅₁, F₅₂, F₅₃Point Not and F₅Compare, if any one error is more than 1%, then it is assumed that measure radiancy data inaccurate, repeat step (2)-(3)；

(5) calculate in controlling processor:

$F_c=\frac{F_1}{6}+\frac{F_2}{3}+\frac{F_3}{2};$

F_On=0.6F₄+0.4F_c；

F_Under=F₅；

F=F_On+F_Under；

F is then the emittance value at o point.

Preferably, emission detecting sensor can dismounting and change.

Preferably, emission detecting sensor is arranged at same panel and puts fixing or by the way of support connects accordingly Fixing.

Preferably, the mode medium-height trestle that described support connects can be dismantled.

Preferably, also include that emittance value F is sent to monitor terminal by step (6).

Preferably, monitor terminal be mobile phone, panel computer, PC and/or notebook computer one or more.

The environmental radiation detection method of the present invention, it is possible to achieve:

1) structure after optimizing and structural parameters, environmental radiation detection parameter is more accurately and reliably；

2) simple in construction, easy to carry；

3) multi-level data verification, correction make measurement data make mistakes probability reduce；

4) being easy to carry, sensor can update, and flexibility ratio is high.

Accompanying drawing explanation

Fig. 1 environmental radiation structure of the detecting device schematic diagram

Detailed description of the invention

Being embodied as the following detailed description of the present invention, it is necessary to it is pointed out here that, below implement to be only intended to this Bright further illustrates, it is impossible to be interpreted as limiting the scope of the invention, and this art skilled person is according to above-mentioned Some nonessential improvement and adjustment that the present invention is made by summary of the invention, still fall within protection scope of the present invention.

The invention provides a kind of environmental radiation detection method, use environmental radiation detection device to realize, such as Fig. 1 institute Showing, wherein environmental radiation detection device includes five emission detecting sensor S1-S5, and wherein S1-S5 is generally aligned in the same plane, S1- S3 lays respectively at three summits of the equilateral triangle that the length of side is a, and S4 is positioned at the center of gravity of described equilateral triangle, S5 be positioned at S2 and S3 be summit constitute described equilateral triangle while being base, the apex being another high isosceles triangle with h；O point is Environmental radiation test point, be positioned at the described equilateral triangle that constituted with S2 and S3 for summit midpoint, arrange at o point There is the control processor being connected respectively with five emission detecting sensor.Positive the three of five emission detecting sensor S1-S5 compositions Dihedral and isosceles triangle, here the form of the composition does not limits, it is preferred that in constituted mode, can cross together and be arranged at together One panel or by being configured to, its medium-height trestle constituted mode can be dismountable mode.Environmental radiation detection method depends on Secondary comprise the steps:

(1) arranging emission detecting sensor S1-S3 and lay respectively at three summits of the equilateral triangle that the length of side is a, S4 is positioned at The center of gravity of described equilateral triangle, S5 be positioned at the described equilateral triangle that constituted with S2 and S3 for summit as base and with h For the apex of another high isosceles triangle, o point is environmental radiation test point, is positioned at described in being constituted with S2 and S3 for summit The midpoint on one side of equilateral triangle, arranges the control processor being connected with five emission detecting sensor respectively at o point, its Middle h=1.4a；

(2) measure radiancy once by S1, be designated as F₁；Measure radiancy twice by S2, be designated as F respectively₂₁, F₂₂；Logical Cross S3 and measure radiancy three times, be designated as F respectively₃₁, F₃₂, F₃₃；Measure radiancy once by S4, be designated as F₄；Spoke is measured by S5 Degree of penetrating three times, is designated as F respectively₅₁, F₅₂, F₅₃；

(3) the radiancy data that emission detecting sensor S1-S5 measures are transmitted to controlling processor, controlling processor In calculate:

$F_2=\frac{F_{21}+F_{21}}{2},F_3=\frac{F_{31}+F_{32}+F_{33}}{2};F_5=\frac{F_{51}+F_{52}+F_{53}}{2};$

(4) by F₂₁, F₂₂Respectively with F₂Compare, by F₃₁, F₃₂, F₃₃Respectively with F₃Compare, by F₅₁, F₅₂, F₅₃Point Not and F₅Compare, if any one error is more than 1%, then it is assumed that measure radiancy data inaccurate, repeat step (2)-(3)；

(5) calculate in controlling processor:

$F_c=\frac{F_1}{6}+\frac{F_2}{3}+\frac{F_3}{2};$

F_On=0.6F₄+0.4F_c；

F_Under=F₅；

F=F_On+F_Under；

F is then the emittance value at o point.

In addition, it can include emittance value F is sent to monitor terminal by step (6), preferably monitor terminal in mode For mobile phone, panel computer, PC and/or notebook computer one or more.

It should be appreciated that the formula in technical scheme, and technical scheme and parameter, it is all reasonably Use under expection and rational applicable cases, the extreme or formula that is unsatisfactory in technical scheme, and technical scheme and parameter Situation, those skilled in the art can reasonably reject.

Although for illustrative purposes, it has been described that the illustrative embodiments of the present invention, but those skilled in the art Member, can be in form and details it will be appreciated that in the case of without departing from the scope and spirit of the invention disclosed in claims On carry out various amendment, add and the change of replacement etc., and all these change all should belong to claims of the present invention Each step in protection domain, and each department of claimed product and method, can in any combination Form is combined.Therefore, the description to the embodiment that disclosed in this invention is not intended to limit the scope of the present invention, But be used for describing the present invention.Correspondingly, the scope of the present invention is not limited by embodiment of above, but by claim or Its equivalent is defined.

Claims (6)

1. an environmental radiation detection method, it is characterised in that: use environmental radiation detection device to realize, wherein environmental radiation Detection device include five emission detecting sensor S1-S5, wherein S1-S5 is generally aligned in the same plane, also include respectively with five spokes Penetrate the control processor that detection sensor connects, in turn include the following steps:

(1) arranging emission detecting sensor S1-S3 and lay respectively at three summits of the equilateral triangle that the length of side is a, S4 is positioned at described The center of gravity of equilateral triangle, S5 be positioned at the described equilateral triangle that constituted with S2 and S3 for summit as base and with h as height The apex of another isosceles triangle, o point is environmental radiation test point, is positioned at described positive three constituted with S2 and S3 for summit The midpoint on one side of dihedral, arranges the control processor being connected with five emission detecting sensor respectively, wherein h at o point =1.4a；

(2) measure radiancy once by S1, be designated as F₁；Measure radiancy twice by S2, be designated as F respectively₂₁, F₂₂；Pass through S3 Measure radiancy three times, be designated as F respectively₃₁, F₃₂, F₃₃；Measure radiancy once by S4, be designated as F₄；Radiancy is measured by S5 Three times, it is designated as F respectively₅₁, F₅₂, F₅₃；

(3) the radiancy data that emission detecting sensor S1-S5 measures are transmitted to controlling processor, enter in controlling processor Row calculates:

$F_2=\frac{F_{21}+F_{21}}{2},F_3=\frac{F_{31}+F_{32}+F_{33}}{2};F_5=\frac{F_{51}+F_{52}+F_{53}}{2};$

(4) by F₂₁, F₂₂Respectively with F₂Compare, by F₃₁, F₃₂, F₃₃Respectively with F₃Compare, by F₅₁, F₅₂, F₅₃Respectively with F₅ Compare, if any one error is more than 1%, then it is assumed that measure radiancy data inaccurate, repeat step (2)-(3)；

(5) calculate in controlling processor:

$F_c=\frac{F_1}{6}+\frac{F_2}{3}+\frac{F_3}{2};$

F_On=0.6F₄+0.4F_c；

F_Under=F₅；

F=F_On+F_Under；

F is then the emittance value at o point.

2. the method for claim 1, it is characterised in that: emission detecting sensor can dismounting and change.

3. the method for claim 1, it is characterised in that: emission detecting sensor is arranged at same panel and puts solid accordingly Determine or fix by the way of support connects.

4. method as claimed in claim 3, it is characterised in that: the mode medium-height trestle that described support connects can be dismantled.

5. method as claimed in claim 5, it is characterised in that: also include that emittance value F is sent to monitoring end by step (6) End.

6. method as claimed in claim 5, it is characterised in that: monitor terminal is mobile phone, panel computer, PC and/or notebook Computer one or more.