CN105987834A - Integrated sampling method used for coal sample detection and integrated sampling system - Google Patents
Integrated sampling method used for coal sample detection and integrated sampling system Download PDFInfo
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Abstract
The invention relates to an integrated sampling method used for coal sample detection and an integrated sampling system. The method comprises the following steps: S1) sampling; sampling is carried out in stacking or transport equipment; S2) viscosity determination; by determining the viscosity of the coal sample, whether an automatic sampling and sample production link is introduced or not is selected; if the viscosity requirement cannot be satisfied, drying is carried out, and then the coal sample is sent to automation sampling and sample production equipment, or is directly output for artificial sampling and sample production; and S3) sampling and sample production; through viscosity determination of the coal sample in the step 2), if the requirement is satisfied, the sampling and sample production are automatically carried out. The system is used for carrying out the above method. The system has the advantages of principle and simple operation, and the reliability of the automation work and flow process smooth degree can be greatly increased.
Description
Technical field
Present invention relates generally to coal analysis technical field, refer in particular to a kind of suitable coal sample detection integration and gather and process method and integration
Gather and process system.
Background technology
For the analysis of ature of coal, the process of a kind of sampling analysis.Coal is a kind of uneven material (granularity, matter
Flow characteristic distribution etc.), maternal general bigger (tens tons Dao several ten thousand tons) being sampled, it is extracted into greatest extent and can represent
The process of the representative sample of whole maternal quality and characteristic is " sampling ".At present, there are mechanical sampling, artificial sample, half machine
The various ways methods such as tool sampling.Every country all has pressure standard, it is necessary to carry out sampling work in accordance with standard.Adopt by standard
After sample, next process is " sample preparation ", and the criterion of sample making course is on the premise of not destroying sample representativeness, sample granularity
Being gradually reduced, quality also gradually reduces, until meeting laboratory assay to the granularity of sample and quality (weight) requirement.
In recent years, the startup built along with Ge great electricity power group fuel intelligent management, reduces fuel sampling, sample preparation, chemical examination three
The manual intervention of individual link, promote its integration, automatization level day by day cause Ge great electricity power group and subordinate thermal power plant thereof
Attention.
From the point of view of current technology realizes, although the automatization of sampling, sample preparation and the single link of chemical examination realizes the most substantially, but by
There is some technical barriers being difficult to and overcoming in gathering and processing sample link, coal need nonetheless remain for manual intervention before entering sampling and sample preparation link,
The short slab of this becomes automatically " adopt, make, change " integrated design the most whole fuel intelligent management.
Owing to coal product is naturally occurring, although through processing, remain uneven product.It is a kind of to form complexity
Mixture, in coal, the free existence of mineral, varigrained distribution and physics segregation effect make Coal Quality characteristic exist very
Big variability, as based on variance, sampling error accounts for 80%, and sample preparation accounts for 16%, and chemical examination accounts for 4%, and therefore coal sample preparation work is non-
The most important.Owing to coal source, the kind of coal, grade are different with batch, some coal enters sampling, sample preparation link is possible to go out
Now glue coal, phenomenon waited indefinitely by chute blockage, equipment card.For that purpose it is necessary to by the resolution of some early stages can make sampling, sample preparation and
Process between sampling and sample preparation can smooth and easy be carried out, and is ensureing on the premise of automaticity, improve gather and process sample reliability and
Accuracy.Traditional mode is all not based on what gathering and processing entire roboticized work designed, so it has the disadvantage that
In whole sampling, sample making course, the most all remain the artificial character being distinguished coal by naked eyes identification, enter back into
Sampling and sample preparation link.But, owing to the subjectivity of artificial cognition is too strong, often occur failing to judge, the phenomenon such as erroneous judgement.Therefore,
Coal needs staff on duty before entering sampling and preparing system, special messenger judges, the coal that cannot process automatic sampling collection equipment, must
Must by workman's manual separation out, this has resulted in the deficiencies such as its labor intensity height, cycle length, poor accuracy.
Summary of the invention
The technical problem to be solved in the present invention is that the technical problem existed for prior art, and the present invention provides a kind of principle
Simply, coal sample detection integration easy and simple to handle, that can be greatly improved automated job reliability and line production smooth degree is adopted
System is gathered and processed in method processed and integration.
For solve above-mentioned technical problem, the present invention by the following technical solutions:
Method is gathered and processed in a kind of coal sample detection integration, the steps include:
S1: sampling;Windrow or transporting equipment are sampled;
S2: viscosity judges;By differentiating the viscosity of coal sample, to choose whether to enter sampling sample preparation link automatically;As being unsatisfactory for gluing
Degree requirement, is the most first dried, is re-fed into automatic sampling sample making apparatus, or directly coal sample output is carried out artificial sample system
Sample link;
S3: sampling sample preparation;Judged by viscosity in step s 2 in coal sample, on the premise of meeting viscosity requirement, carry out automatically
Sampling sample preparation and sample preparation link afterwards.
Further improvement as the inventive method: concretely comprising the following steps of described step S2:
S201: make the coal sample collected fall, falls to, on sample dish, be then fed in next stage processing equipment;
S202: utilize the fall adhered area that stays on sample dish of coal sample to differentiate the viscosity of coal sample on sample dish;
S203: choose whether to enter sampling sample preparation link automatically by the viscosity of coal sample;As being unsatisfactory for viscosity requirement, the most first carry out
It is dried, is re-fed into automatic sampling sample making apparatus, or directly coal sample output is carried out artificial sample sample preparation link.
Further improvement as the inventive method: carry out viscosity in described step S2 when judging, be preset with for carrying out
Coal sample standard adhered area S of multilevel iudgeMark:
WhenCoal sample cannot enter sample making apparatus of automatically sampling;
WhenCoal sample can be directly entered sample making apparatus of automatically sampling;
Wherein: M is that coal sample falls sample amount, and h is the sample height that falls, v is the initial velocity before coal sample falls, and w is coal sample moisture,
T is coal sample performance index, and φ is coal sample size;M, h, v are systemic presupposition value, are arranged by system and regulate, w, T,
φ is coal sample parameter value, and the different each parameter of coal sample is different, is measured by online detection instrument or by assembling laboratory to identical
The result of laboratory test of the coal sample in coal source determines;Adhered area meansigma methods for the sample that repeatedly falls.
Further improvement as the inventive method: described coal sample standard adhered area SMarkIn
f1(M, h, v)=0.6a+0.2b+0.2c, described f1In function, M, h, v are systemic presupposition value, and three systemic presupposition values are to f1
The proportion of weights is 6:2:2.
Further improvement as the inventive method: when described coal sample fall sample amount M be 0 < M≤100g time, coefficient a is 0.2;
When described coal sample fall sample amount M be 100g < M≤500g time, coefficient a is 0.1;When described coal sample sample amount M that falls is 500g <
During M≤1000g, coefficient a is 1.2;When described coal sample falls sample amount M > 1000g, coefficient a is 0.8.
Further improvement as the inventive method: when described fall sample height h be 0 < h≤100mm time, coefficient b is 0.2;
When described fall sample height h be 100mm < h≤300mm time, coefficient b is 0.5;When described fall sample height h be 300mm <
During h≤500mm, coefficient b is 1;When described fall sample height h be 500mm < h≤1000mm time, coefficient b is 1.5;
When described fall sample height h > 1000mm time, coefficient b is 5.
Further improvement as the inventive method: the initial velocity v before described coal sample falls is that 0 < v≤1m/s, coefficient c is
0.5;Initial velocity v before described coal sample falls is 1m/s < v≤2m/s, and coefficient c is 1;At the beginning of before described coal sample falls
Speed v is 2m/s < v≤3m/s, and coefficient c is 1.5;Initial velocity v before described coal sample falls is 3m/s < v≤4m/s,
Coefficient c is 1;Initial velocity v before described coal sample falls is 4m/s < v≤5m/s, and coefficient c is 0.5;When under described coal sample
Initial velocity v > 5m/s, coefficient c before falling are 0.2.
Further improvement as the inventive method: in described coal sample standard adhered area S markAbove-mentioned f2In function, w, T, φ are coal sample parameter value, and three parameter values are to f2Power
The proportion of value is 7:2:1, and three parameter values come from the laboratory result of laboratory test to the coal sample in identical coal source.
Further improvement as the inventive method: when described coal sample size φ is 0 < φ≤3mm, coefficient e is 1;When
When described coal sample size φ is 3mm < φ≤6mm, coefficient e is 0.8;When described coal sample size φ is 6mm < φ≤20mm
Time, coefficient e is 0.5;When described coal sample size φ is 20mm < φ≤50mm, coefficient e is 0.2;When described coal sample
When granularity φ is 50mm < φ≤100mm, coefficient e is 0.1;As described coal sample size φ > 100mm, coefficient e is
0。
Further improvement as the inventive method: after completing the sampling sample preparation of step S3, before entrance automatic sample, carry out
Viscosity judges for the second time, it is judged that process is consistent with step S2;As being unsatisfactory for viscosity requirement, the most first it is dried, is re-fed into automatically
Change sample making apparatus, or directly coal sample output is carried out artificial sample preparation link.
The present invention further provides a kind of coal sample detection integration and gather and process system, it is characterised in that including:
Sampling unit, for being sampled in windrow or transporting equipment;
Viscosity judging unit, including defeated sample assembly, sample dish assembly, adhered area detection components and processing unit, described defeated sample group
Part, for making the coal sample collected fall, falls to, on sample dish assembly, be then fed in next stage processing equipment;Described adhesive face
Long-pending detection components is used for detecting the adhered area stayed on sample dish after coal sample falls;Described processing unit is for gluing by coal sample
Attached area differentiates the viscosity of coal sample, to choose whether to enter sampling sample preparation link automatically;As being unsatisfactory for viscosity requirement, the most first carry out
It is dried, is re-fed into automatic sampling sample making apparatus, or directly coal sample output is carried out artificial sample sample preparation link;
Automatically sampling sample preparation unit, for after coal sample is judged by viscosity, on the premise of meeting viscosity requirement, is carried out automatically
Sampling sample preparation.
Further improvement as present system: also include: viscosity judging unit before automatic sample unit and automatic sample, institute
Before stating automatic sample, viscosity judging unit judges for carrying out second time viscosity after sampling sample preparation, before entrance automatic sample,
After meeting viscosity requirement, send into automatic sample unit carry out automatic sample.
Compared with prior art, it is an advantage of the current invention that: the gathering and processing integral method of the present invention and system, through viscosity certainly
After dynamic detection judges, satisfactory sample side enters this system, it is ensured that system is run steadily in the long term, and error is low, precision is high.
Whole method and system is stable, improves efficiency, has saved human cost, it is achieved that coal sampling, sample preparation and the full mistake of chemical examination
Process automation controls, and can hold marketable coal and enter factory pass, eliminate anthropic factor impact, it is possible to make the sample of coal as received more from source
Representative, reliability is high.
Accompanying drawing explanation
Fig. 1 is the schematic flow sheet of the inventive method.
Fig. 2 is the schematic flow sheet that the present invention carries out viscosity judgement in concrete application example.
Detailed description of the invention
Below with reference to Figure of description and specific embodiment, the present invention is described in further details.
As depicted in figs. 1 and 2, method is gathered and processed in the coal sample detection integration of the present invention, the steps include:
S1: sampling;
It is sampled in windrow or transporting equipment by the way of conventional;According to actual needs, mechanical sampling, people can be selected
One or more modes in work sampling, half mechanical sampling are sampled.
S2: viscosity judges;
S3: sampling sample preparation;
In concrete application example, concretely comprising the following steps of above-mentioned steps S2:
S201: make the coal sample collected fall, falls to, on sample dish, be then fed in next stage processing equipment;
S202: utilize the fall adhered area that stays on sample dish of coal sample to differentiate the viscosity of coal sample on sample dish;
S203: choose whether to enter sampling sample preparation link automatically by the viscosity of coal sample;As being unsatisfactory for viscosity requirement, the most first carry out
It is dried, is re-fed into automatic sampling sample making apparatus, or directly coal sample output is carried out artificial sample sample preparation link.
Judged by viscosity in step s 2 in coal sample, on the premise of meeting viscosity requirement, the sample preparation and afterwards of automatically sampling
Sample preparation link.Automatically sampling sample making apparatus and automatic sample equipment generally comprise disintegrating machine, reduction device, drying machine, defeated model machine
Structure etc..
As preferred embodiment, after completing the sampling sample preparation of step S3, before entrance automatic sample, carry out second time viscosity
Judge, it is judged that process is consistent with step S2;As being unsatisfactory for viscosity requirement, the most first it is dried, is re-fed into automatization's sample making apparatus,
Or directly coal sample output is carried out artificial sample preparation link.
The present invention is by increasing the judgement of viscosity, it is possible to coal sample bigger for viscosity directly exported, and enters artificial sample sample preparation link,
Avoid automatic sampling sample making apparatus is resulted in blockage or stuck problem;Or, after being dried in advance by drying equipment,
Viscosity requirement can be met.And met the coal sample of viscosity requirement, then can be by sample making apparatus system of automatically sampling
Sample.Owing to coal sample meets viscosity requirement, then do not have bigger in broken, the division etc. of automatic sampling sample making apparatus operates
Loss, it is possible to ensure the representativeness of sample of coal sample to a certain extent, meet coal sample detection required precision and reliability requirement.
More it is essential that will not result in blockage in follow-up broken, division equipment, whole assembly line work is made to go wrong.
In concrete application example, in step 2, coal sample standard adhered area S preset will first be carried outMarkDemarcation, default
Coal sample standard adhered area SMarkObtained by following formula:
WhenCoal sample cannot enter sampling sample making apparatus and/or automatic sample automatically and set
Standby.;
WhenCoal sample can be directly entered sampling sample making apparatus and/or automatic sample automatically
Equipment.;
Wherein: M is that coal sample falls sample amount, and h is the sample height that falls, v is the initial velocity before coal sample falls, and w is coal sample moisture,
T is coal sample performance index, and φ is coal sample size.M, h, v are systemic presupposition value, can be arranged by system and regulate, and w,
T, φ are coal sample parameter value, and the different each parameter of coal sample is different, can be measured by online detection instrument, it is also possible to by assembling
Test room the result of laboratory test of the coal sample in identical coal source is determined.For the adhered area meansigma methods of the sample that repeatedly falls, number of times can basis
It is actually needed and arranges.
Wherein:
f1(M, h, v)=0.6a+0.2b+0.2c
From above formula, for f1A kind of analog function, above-mentioned f1In function, M, h, v are systemic presupposition value, three systems
Preset value is to f1The proportion of weights is 6:2:2, and span and the most corresponding coefficient a, b, c of M, h, v are as follows:
M is to f1Weights:
When sample amount M that falls less (such as: 0 < M≤< 100g), adhered area S is less, sample amount M pair that falls in the range of this
The coefficient a answered is 0.2;When fall sample amount M within the specific limits (such as: 100g < M≤500g), the sample amount that falls is to adhered area
The impact of S is relatively big, thus fall sample amount in this range time corresponding coefficient a be 1, be more than to fall sample amount M at 0 < M≤100g model
Enclose corresponding coefficient;And when sample amount M that falls (such as: 500g < M≤1000g) is bigger, part coal sample may not fall within sample dish
In the range of, although sample amount M that falls increases, but the impact on adhered area S no longer significantly increases, so the sample amount that falls in scope
Parameter a corresponding for M is 1.2;When sample amount M that falls excessive (such as: M > 1000g), then adhered area S will be no longer with the sample that falls
The increase of amount and increase, this is owing to sample amount M that falls is excessive, and major part is not in the range of coal sample falls within sample dish, and unnecessary coal sample meeting
The coal sample having been adhered on sample dish is shot down from sample dish, so coefficient corresponding to the sample amount that falls in scope is 0.8.
Fall sample amount M/g | Coefficient a |
0 < M≤100 | 0.2 |
100 < M≤500 | 1 |
500 < M≤1000 | 1.2 |
M > 1000 | 0.8 |
H is to f1Weights: height h is the biggest for the sample that falls, coal sample hit sample dish impulsive force the biggest, adhered area S is the biggest.
Fall sample height h/mm | Coefficient b |
0 < h≤100 | 0.2 |
100 < h≤300 | 0.5 |
300 < h≤500 | 1 |
500 < h≤1000 | 1.5 |
H > 1000 | 5 |
V is to f1Weights: v is the initial velocity before coal sample falls, and as the less v of initial velocity (0 < v≤3m/s), initial velocity is more
Greatly, the impulsive force that coal sample hits sample dish is the biggest, and adhered area S of coal is the biggest;And speed v reaches certain limit (v > 3m/s) originally
After, initial velocity v is the biggest, and adhered area S diminishes.This is owing to speed is relatively big, and sample is relatively big to the impulsive force of sample dish, sample dish
The biggest to the counteracting force of sample, major part coal sample falls bounce-back after on sample dish, falls down from sample dish.
Initial velocity v/m/s before coal sample whereabouts | Coefficient c |
V=0 | 0 |
0 < v≤1 | 0.5 |
1 < v≤2 | 1 |
2 < v≤3 | 1.5 |
3 < v≤4 | 1 |
4 < v≤5 | 0.5 |
V > 5 | 0.2 |
Additionally in formula:
Formula 3 is f2A kind of analog function, above-mentioned f2In function, w, T, φ are coal sample parameter value, and three parameter values are to f2Power
The proportion of value is 7:2:1, and three parameter values come from the laboratory result of laboratory test to the coal sample in identical coal source, the value of w, φ
Scope and respectively corresponding coefficient d thereof, e are as follows:
W is to f2Weights:
Owing to moisture w is to f2Weights closely related with coal (moisture w is close with coal with the relation curve of viscosity in other words
Cut is closed), as a example by bituminous coal, anthracite brown coal and mud coal, the coefficient that bituminous coal, anthracite, brown coal are corresponding with mud coal moisture
As shown in table 1~3:
Table 1 bituminous coal moisture and coefficient corresponding relation
Bituminous coal moisture w/% | Coefficient d |
0 < w≤3 | 0.5 |
3 < w≤8 | 1 |
8 < w≤12 | 1.5 |
12 < w≤15 | 2 |
15 < w≤20 | 3 |
20 < w≤30 | 4 |
30 < w≤40 | 5 |
40 < w≤50 | 8 |
50 < w≤100 | 10 |
Table 2 anthracite moisture and coefficient corresponding relation
Anthracite moisture w/% | Coefficient d |
0 < w≤3 | 0.2 |
3 < w≤8 | 0.5 |
8 < w≤12 | 1 |
12 < w≤15 | 1.5 |
15 < w≤20 | 2 |
20 < w≤30 | 2.5 |
30 < w≤40 | 3 |
40 < w≤50 | 4 |
50 < w≤100 | 8 |
Table 3 brown coal moisture and coefficient corresponding relation
Brown coal moisture w/% | Coefficient d |
0 < φ≤25 | 0.5 |
25 < φ≤35 | 1 |
35 < φ≤50 | 1.5 |
50 < φ≤75 | 3 |
75 < φ≤100 | 5 |
T is to f2Weights: coal is different on the impact of viscosity, as a example by bituminous coal, anthracite, brown coal and mud coal, at coal sample water
In the case of dividing content, granularity identical, the viscosity size of coal sample is mud coal > bituminous coal > anthracite > brown coal, and wherein coal slime is viscous
Property is extremely strong, will stick on sample dish as long as contacting with sample dish, and be difficult to drop.
Coal | T |
Bituminous coal | 1 |
Anthracite | 0.8 |
Brown coal | 0.25 |
Coal slime | 10 |
φ is to f2Weights: the coal sample that obtains of sampling, it is however generally that, granularity φ is 0 < φ≤100mm, and most common of which is
0 < φ≤50mm, granularity is in the range of 0 < φ≤50mm, and granularity φ is relatively big on the impact of viscosity, and granularity φ is the least, coal sample
The surface area of granule is the biggest, the biggest with effective contact area of sample dish, is more easily adhered, and viscosity is the biggest;And when coal sample size φ is
During 50mm < φ≤100mm, coal sample is bulk, and granularity is less on the impact of viscosity;And as coal sample size φ > 100mm,
Coal sample is in big block, and the impact of adhered area S almost can be ignored by coal sample size φ.
Table 4 coal sample size and coefficient corresponding relation
Granularity φ/mm | Coefficient e |
0 | 0 |
0~3 | 1 |
3~5 | 0.8 |
6~20 | 0.5 |
20~50 | 0.2 |
50~100 | 0.1 |
> 100 | 0 |
In a concrete application example, the flow process of demarcation is:
Measure S;In debugging, being carried out the experiment of dropping of coal sample by many group experiments, application image is measured technology and is utilized shooting to set
After the standby video data gathering measurand, digital image processing techniques are used automatically to calculate its surface area to record each sample dish
Upper coal sample adhered area S;As a example by three groups, obtain table 5 below:
Table 5:
In above-mentioned debugging, measure S by 3 times and obtainDrop in the middle of experiment every time, preset systematic coal sample single and fall
Sample amount M and the sample speed v that falls, then coal sample falls from h eminence, can detect coal sample T, φ, w% in real time, be calculated mMark。
Data see table 6:
Table 6:
Above-mentioned data are substituted into formula 1, formula 2, formula 3, is calculated SMark=35.4cm2。
Therefore, gluing the flow process sentenced in the present invention is:
After falling on sample dish, detecting the area S adhered on sample dish, repeat to fall sample 3 times, takes the flat of the sample amount that falls 3 times
Average, willCompare with S mark, it determines the viscosity of coal sample.
Adhered area adhered area adhered area the present invention further provides a kind of coal sample detection integration and gathers and processes system, including:
Sampling unit, for being sampled in windrow or transporting equipment;
Viscosity judging unit, including defeated sample assembly, sample dish assembly, adhered area detection components (such as: image capture device) and
Processing unit, described defeated sample assembly, for making the coal sample collected fall, falls to, on sample dish assembly, be then fed at next stage
In reason equipment;Described adhered area detection components is used for detecting the adhered area stayed on sample dish after coal sample falls;Described process
Unit for differentiating the viscosity of coal sample by the adhered area of coal sample, to choose whether to enter sampling sample preparation link automatically;As discontented
Foot viscosity requirement, is the most first dried, is re-fed into automatic sampling sample making apparatus, or directly coal sample output manually adopted
Sample sample preparation link;
Automatically sampling sample preparation unit, for after coal sample is judged by viscosity, on the premise of meeting viscosity requirement, is carried out automatically
Sampling sample preparation.
Equally, as presently preferred embodiments of the present invention, also include: viscosity judging unit before automatic sample unit and automatic sample,
Before described automatic sample, viscosity judging unit judges for carrying out second time viscosity after sampling sample preparation, before entrance automatic sample,
After meeting viscosity requirement, send into automatic sample unit carry out automatic sample.
Below being only the preferred embodiment of the present invention, protection scope of the present invention is not limited merely to above-described embodiment, all belongs to
Technical scheme under thinking of the present invention belongs to protection scope of the present invention.It should be pointed out that, the ordinary skill for the art
For personnel, some improvements and modifications without departing from the principles of the present invention, should be regarded as protection scope of the present invention.
Claims (12)
1. method is gathered and processed in a coal sample detection integration, it is characterised in that step is:
S1: sampling;Windrow or transporting equipment are sampled;
S2: viscosity judges;By differentiating the viscosity of coal sample, to choose whether to enter sampling sample preparation link automatically;As being unsatisfactory for gluing
Degree requirement, is the most first dried, is re-fed into automatic sampling sample making apparatus, or directly coal sample output is carried out artificial sample system
Sample link;
S3: sampling sample preparation;Judged by viscosity in step s 2 in coal sample, on the premise of meeting viscosity requirement, carry out automatically
Sampling sample preparation and sample preparation link afterwards.
Method is gathered and processed in coal sample detection integration the most according to claim 1, it is characterised in that in described step S2
Concretely comprise the following steps:
S201: make the coal sample collected fall, falls to, on sample dish, be then fed in next stage processing equipment;
S202: utilize the fall adhered area that stays on sample dish of coal sample to differentiate the viscosity of coal sample on sample dish;
S203: choose whether to enter sampling sample preparation link automatically by the viscosity of coal sample;As being unsatisfactory for viscosity requirement, the most first carry out
It is dried, is re-fed into automatic sampling sample making apparatus, or directly coal sample output is carried out artificial sample sample preparation link.
Method is gathered and processed in coal sample detection integration the most according to claim 2, it is characterised in that in described step S2
Carry out viscosity when judging, be preset with coal sample standard adhered area S for comparing judgementMark:
WhenTime, coal sample cannot enter sample making apparatus of automatically sampling;
WhenTime, coal sample can be directly entered sample making apparatus of automatically sampling;
Wherein: M is that coal sample falls sample amount, and h is the sample height that falls, v is the initial velocity before coal sample falls, and w is coal sample moisture,
T is coal sample performance index, and φ is coal sample size;M, h, v are systemic presupposition value, are arranged by system and regulate, w, T,
φ is coal sample parameter value, and the different each parameter of coal sample is different, is measured by online detection instrument or by assembling laboratory to identical
The result of laboratory test of the coal sample in coal source determines;Adhered area meansigma methods for the sample that repeatedly falls.
Method is gathered and processed in coal sample detection integration the most according to claim 3, it is characterised in that described coal sample standard adheres to
Area SMarkMiddle f1(M, h, v)=0.6a+0.2b+0.2c, described f1In function, M, h, v are systemic presupposition value, and three systems are pre-
If value is to f1The proportion of weights is 6:2:2.
Method is gathered and processed in coal sample detection integration the most according to claim 4, it is characterised in that when described coal sample falls sample amount
When M is 0 < M≤100g, coefficient a is 0.2;When described coal sample fall sample amount M be 100g < M≤500g time, coefficient a is
0.1;When described coal sample fall sample amount M be 500g < M≤1000g time, coefficient a is 1.2;When described coal sample falls sample amount M > 1000g
Time, coefficient a is 0.8.
Method is gathered and processed in coal sample detection integration the most according to claim 4, it is characterised in that when described fall sample height h
When being 0 < h≤100mm, coefficient b is 0.2;When described fall sample height h be 100mm < h≤300mm time, coefficient b is
0.5;When described fall sample height h be 300mm < h≤500mm time, coefficient b is 1;When described fall sample height h be 500mm
During < h≤1000mm, coefficient b is 1.5;When described fall sample height h be > 1000mm time, coefficient b is 5.
Method is gathered and processed in coal sample detection integration the most according to claim 4, it is characterised in that before described coal sample falls
Initial velocity v be 0 < v≤1m/s, coefficient c be 0.5;Initial velocity v before described coal sample falls is 1m/s < v≤2m/s,
Coefficient c is 1;Initial velocity v before described coal sample falls is 2m/s < v≤3m/s, and coefficient c is 1.5;When under described coal sample
Initial velocity v before falling is 3m/s < v≤4m/s, and coefficient c is 1;Initial velocity v before described coal sample falls is 4m/s < v
≤ 5m/s, coefficient c are 0.5;Initial velocity v > 5m/s, coefficient c before described coal sample falls are 0.2.
Method is gathered and processed in coal sample detection integration the most according to claim 3, it is characterised in that described coal sample standard adheres to
Area SMarkInAbove-mentioned f2In function, w, T, φ are coal sample parameter value, three parameters
Value is to f2The proportion of weights is 7:2:1, and three parameter values come from the laboratory result of laboratory test to the coal sample in identical coal source.
Method is gathered and processed in coal sample detection integration the most according to claim 8, it is characterised in that when described coal sample size φ is
During 0 < φ≤3mm, coefficient e is 1;When described coal sample size φ is 3mm < φ≤6mm, coefficient e is 0.8;When
When described coal sample size φ is 6mm < φ≤20mm, coefficient e is 0.5;When described coal sample size φ is 20mm < φ≤50
During mm, coefficient e is 0.2;When described coal sample size φ is 50mm < φ≤100mm, coefficient e is 0.1;When described
During coal sample size φ > 100mm, coefficient e is 1.
10. gather and process method according to the coal sample detection integration described in any one in claim 1~9, it is characterised in that
After completing the sampling sample preparation of step S3, before entrance automatic sample, carry out second time viscosity and judge, it is judged that process and step S2
Unanimously;As being unsatisfactory for viscosity requirement, be the most first dried, be re-fed into automatization's sample making apparatus, or directly coal sample is exported into
Pedestrian's work sample preparation link.
System is gathered and processed in 11. 1 kinds of integrations for coal sample, it is characterised in that including:
Sampling unit, for being sampled in windrow or transporting equipment;
Viscosity judging unit, including defeated sample assembly, sample dish assembly, adhered area detection components and processing unit, described defeated sample group
Part, for making the coal sample collected fall, falls to, on sample dish assembly, be then fed in next stage processing equipment;Described adhesive face
Long-pending detection components is used for detecting the adhered area stayed on sample dish after coal sample falls;Described processing unit is for gluing by coal sample
Attached area differentiates the viscosity of coal sample, to choose whether to enter sampling sample preparation link automatically;As being unsatisfactory for viscosity requirement, the most first carry out
It is dried, is re-fed into automatic sampling sample making apparatus, or directly coal sample output is carried out artificial sample sample preparation link;
Automatically sampling sample preparation unit, for after coal sample is judged by viscosity, on the premise of meeting viscosity requirement, is carried out automatically
Sampling sample preparation.
System is gathered and processed in 12. integrations for coal sample according to claim 11, it is characterised in that also include: automatically make
Viscosity judging unit before sample unit and automatic sample, before described automatic sample, viscosity judging unit is used for after sampling sample preparation, enters
Carry out second time viscosity before entering automatic sample to judge, after meeting viscosity requirement, send into automatic sample unit carry out automatic sample.
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