CN114705835A

CN114705835A - Intelligent soil analysis and detection flow and laboratory

Info

Publication number: CN114705835A
Application number: CN202210348929.8A
Authority: CN
Inventors: 吴富进; 杨立新; 张一博; 肖乃衍; ***
Original assignee: Hubei Liangqing Agricultural Technology Co ltd
Current assignee: Hubei Liangqing Agricultural Technology Co ltd
Priority date: 2022-04-01
Filing date: 2022-04-01
Publication date: 2022-07-05

Abstract

The invention discloses an intelligent soil analysis and detection process and a laboratory, wherein the detection process comprises the steps of sampling point location tracing, initial sample treatment, sample drying, sample rolling, sample electrostatic impurity removal, sample grinding and screening, sample analysis and detection report output. This soil analysis detects flow adopts the assembly line operation mode, and intelligent degree is high, and artifical participation degree is extremely low, utilizes this intelligent soil analysis to detect the laboratory of flow can realize that soil detection overall process is tracked, and the testing result is reliable and stable to can improve soil detection efficiency greatly.

Description

Intelligent soil analysis and detection flow and laboratory

Technical Field

The invention relates to the technical field of soil detection, in particular to an intelligent soil analysis and detection process and a laboratory.

Background

The life of people changes day by day, and the intellectualization also develops a flashing stage with the era. The intellectualization is not reflected in the life of people, and all things done by people can be informationized and intelligentized from home to outdoors and from eating to living. The intellectualization of the laboratory is the necessary way for the development of the laboratory in the future. The existing soil detection and analysis laboratory has a plurality of problems, almost all the whole processes of the soil detection and analysis laboratory depend on manual work, the stability and the quality are relatively low, the economic cost is high, the detection efficiency is very low, and the increasing soil detection requirements cannot be met.

With the increasing importance of the country on the problems of agriculture and arable land and the development of the coming third national soil screening work. A great deal of complex and arduous work is about to come, and higher requirements are put on the standardization and the efficiency of laboratory work. The traditional laboratory model can not meet the requirements of the current agricultural development large environment, even generates huge resistance, and exposes the problems of work lag, result distortion, poor comprehensive utilization benefit of the laboratory, low management efficiency and the like, so that the intellectualization of the traditional laboratory is in great trend.

Disclosure of Invention

In order to solve the technical problems, the invention provides an intelligent soil analysis and detection process and a laboratory, wherein the soil analysis and detection process adopts a pipeline operation mode, the intelligent degree is high, the manual participation degree is extremely low, the laboratory utilizing the intelligent soil analysis and detection process can realize the whole process tracking of soil detection, the detection result is stable and reliable, and the soil detection efficiency can be greatly improved.

An intelligent soil analysis and detection process, the detection process is as follows:

tracing sampling point positions, inputting sampling point basic information, sample attribute information, acquisition process pictures and video information into an intelligent laboratory management platform by using a field, wherein the intelligent laboratory management platform generates different numbers for each sample in the inputting process;

step two, processing an initial sample, namely putting the initial sample in the step one into a special sample processing box for a laboratory to prepare the initial sample;

step three, drying the sample, wherein the sample prepared in the step two is conveyed into drying equipment through a conveying platform to be dried;

rolling the sample, wherein the dried and formed sample in the step three is rolled and formed by automatic rolling equipment;

step five, electrostatically removing impurities from the sample, namely conveying the sample rolled and formed in the step four to automatic electrostatic impurity removing equipment through transmission equipment, and removing roots and plant sample residues in the soil in an electrostatic adsorption mode;

step six, grinding and screening the samples, conveying the samples subjected to electrostatic impurity removal into full-automatic grinding and screening equipment, grinding soil samples with different meshes according to needs, automatically collecting and sub-packaging the samples in sample bags according to the meshes of the soil and generating derivative new codes based on original sample numbers, and carrying out dust removal treatment on the ground full-automatic grinding and screening equipment;

step seven, analyzing the sample, namely respectively transmitting the sample bags ground and sieved in the step six to different analysis rooms through transmission equipment according to different detection indexes for sample analysis, and synchronously uploading analysis detection videos and analysis data of the analysis rooms to an intelligent laboratory management platform;

and step eight, outputting a detection report, manually logging in an intelligent laboratory management platform to audit the whole process of sample detection and the reasonability of data, printing the detection report and synchronously generating a two-dimensional code if the detection report is qualified, sending a retest instruction if the detection report is not qualified, and re-detecting the unqualified sample until the detection report is qualified.

Preferably, after the sample is ground and screened, the sample is transferred to an intelligent analysis chamber through a transmission device to be stored in sequence, and after the sample is weighed in the intelligent analysis chamber, the residual sample is sent to a sample reserving chamber by a transmission device to be stored.

The utility model provides an intelligent soil analysis detects laboratory, includes special sample processing case, drying equipment, automatic static edulcoration equipment, full-automatic grinding screening equipment, transfer apparatus, intelligent analysis room and stays the appearance room of rolling, special sample processing case, drying equipment, automatic static edulcoration equipment, full-automatic grinding screening equipment, intelligent analysis room and stay the appearance between the room sample and transport through transfer apparatus, getting of sample is put and is realized through vacuum adsorption equipment, intelligent analysis room is equipped with between many, detects index and detection method according to the difference and divides.

Preferably, the sample processing box further comprises a high-pressure spraying area, and the used sample processing box is recovered for standby after being cleaned and dried by the high-pressure spraying area.

Preferably, the specification of a single sample preparation box in the special sample processing box is 20cm multiplied by 20cm, a base and a tray in the special sample processing box are in a magnetic type, and each sample processing box has a unique code.

Preferably, the drying equipment adopts intelligent vacuum drying tunnel furnace equipment.

Preferably, the automatic rolling equipment adopts a hydraulic press.

Preferably, the transfer device is one or a combination of a conveying track and an internet mobile robot.

The invention has the beneficial effects that:

1. the cost is saved, the whole process is intelligently controlled, the intelligent laboratory management platform can automatically send orders, and a large amount of labor and cost are saved.

2. Efficiency is promoted, and the laboratory realizes assembly line automation operation, greatly promotes the ageing of detecting, and the volume of satisfying is big, the time is tight and reduce the dependence to the manual work.

3. The mode can be copied, the operation mode of the intelligent laboratory is reliable, a specific analysis process is not involved, the qualification and capability certification of equipment and personnel is avoided, the common laboratory can be upgraded and modified, and a newly-built laboratory can be put into one time to benefit for the whole life.

4. The quality is stable, and the establishment of the intelligent laboratory platform can help enterprises to quickly establish client trust and promote cooperation achievement.

Drawings

FIG. 1 is a flow chart of the present invention.

Detailed Description

The technical scheme of the invention is clearly and completely described below by combining the attached drawings of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without any inventive step, are within the scope of the present invention.

As shown in fig. 1, the intelligent soil analysis and detection process includes:

tracing sampling points, inputting sampling point basic information, sample attribute information, acquisition process pictures and video information into an intelligent laboratory management platform on site, wherein the intelligent laboratory management platform generates different numbers for each sample in the inputting process; the intelligent laboratory management platform is a working background of an intelligent laboratory, a development laboratory traceability system can be built on the intelligent laboratory management platform for meeting the requirement of point location traceability, the traceability system can be matched with a handheld intelligent device to operate independently, all data are uploaded to the intelligent laboratory management platform synchronously, the handheld intelligent device is connected with a thermal sensitive bar code printer through Bluetooth, and a sample unique code is generated and is pasted on an initial sample packaging bag.

step seven, analyzing the sample, namely respectively transmitting the sample bags ground and sieved in the step six to different analysis rooms through transmission equipment according to different detection indexes for sample analysis, and synchronously uploading analysis detection videos and analysis data of the analysis rooms to an intelligent laboratory management platform; the analysis of the sample is divided according to the detection indexes and the detection method, a plurality of analysis rooms are established, each analysis room receives the sample and then scans and confirms, the whole analysis process is monitored and uploaded to a platform for record storage, and analysis data are recorded into the platform and uploaded to an experiment record table.

And step eight, outputting a detection report, manually logging in an intelligent laboratory management platform to audit the whole process of sample detection and the reasonability of data, printing the detection report and synchronously generating a two-dimensional code if the detection report is qualified, sending a retest instruction if the detection report is not qualified, and re-detecting the unqualified sample until the detection report is qualified. Wherein, the customer can inquire the electronic version detection report by scanning the two-dimensional code.

In this embodiment, the samples are transferred to the intelligent analysis chamber through the transmission device to be stored in sequence after being ground and sieved, and the residual samples are sent to the sample reserving chamber for storage by the transmission device after the samples are weighed in the intelligent analysis chamber.

The utility model provides an intelligent soil analysis detects laboratory, includes special sample processing case, drying equipment, automatic static edulcoration equipment, full-automatic grinding screening equipment, transfer apparatus, intelligent analysis room and stays a kind room of rolling, special sample processing case, drying equipment, automatic static edulcoration equipment, full-automatic grinding screening equipment, intelligent analysis room and stay a kind between the room sample and transport through transfer apparatus, getting of sample is put and is realized through vacuum adsorption equipment, intelligent analysis room is equipped with between many, detects index and detection method according to the difference and divides.

In this embodiment, the sample processing box further comprises a high-pressure spraying area, and the used sample processing box is recovered for standby after being cleaned and dried by the high-pressure spraying area.

In this embodiment, the specification of a single sample preparation box in the special sample processing box is 20cm × 20cm × 20cm, the base and the tray in the special sample processing box are of a magnetic type, and each sample processing box has a unique code. Wherein, 25 system appearance casees can be supported to a tray, and every tray and system appearance case correspond a management platform serial number, and the tray is placed on delivery track.

In this embodiment, the drying device is an intelligent vacuum drying tunnel furnace device.

In this embodiment, the automatic rolling equipment is a hydraulic press. In this embodiment, the hydraulic press is a four-column hydraulic press, and the four-column hydraulic press rolls each sample preparation box in sequence.

In this embodiment, the transfer apparatus employs any one of or a combination of a transfer rail and an internet mobile robot. The internet mobile robot adopts an AGV mobile robot, is used for realizing flexible circulation of samples, is internally provided with an action route and has a scanning and identifying function, and can receive and send corresponding signals in real time. After receiving the signal given by the platform, the sample to be detected is scanned by the robot, and the samples with different meshes are respectively sent to different sample analysis chambers according to the required detection indexes. And after the sample detection is finished, the rest sample is sent to a sample reserving chamber for storage.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an intelligent soil analysis detects flow which characterized in that: the detection process comprises the following steps:

tracing sampling points, inputting sampling point basic information, sample attribute information, acquisition process pictures and video information into an intelligent laboratory management platform on site, wherein the intelligent laboratory management platform generates different numbers for each sample in the inputting process;

step six, grinding and screening the samples, conveying the samples subjected to electrostatic impurity removal into full-automatic grinding and screening equipment, grinding soil samples with different meshes according to needs, automatically collecting and sub-packaging the samples into sample bags according to the meshes of the soil, generating derivative new codes based on original sample numbers, and performing dust removal treatment on the ground full-automatic grinding and screening equipment;

step seven, analyzing the sample, namely respectively conveying the sample bags ground and sieved in the step six to different analysis rooms through conveying equipment according to different detection indexes for sample analysis, and synchronously uploading analysis detection videos and analysis data of the analysis rooms to an intelligent laboratory management platform;

2. The intelligent soil analysis and detection process of claim 1, wherein: after the sample is ground and sieved, the sample is transferred to an intelligent analysis chamber through a transmission device to be stored in sequence, and after the sample is weighed in the intelligent analysis chamber, the residual sample is sent to a sample reserving chamber by a conveying device to be stored.

3. The utility model provides an intelligent soil analysis and detection laboratory which characterized in that: including special sample processing case, drying equipment, automatic static edulcoration equipment, full-automatic grinding screening equipment, transfer apparatus, intelligent analysis room and stay the appearance room, special sample processing case, drying equipment, automatic static edulcoration equipment, full-automatic grinding screening equipment, intelligent analysis room and stay the sample between the appearance room and pass through transfer apparatus and transport, getting of sample is put and is realized through vacuum adsorption equipment, intelligent analysis room is equipped with many rooms, divides according to different detection index and detection method.

4. The intelligent soil analysis and detection laboratory of claim 3, wherein: the device also comprises a high-pressure spraying area, and the used sample processing box is recovered for standby after being cleaned and dried by the high-pressure spraying area.

5. The intelligent soil analysis and detection laboratory of claim 3, wherein: the specification of a single sample preparation box in the special sample treatment box is 20cm multiplied by 20cm, a base and a tray in the special sample treatment box are in a magnetic type, and each sample treatment box is provided with a unique code.

6. The intelligent soil analysis and detection laboratory of claim 3, wherein: the drying equipment adopts intelligent vacuum drying tunnel furnace equipment.

7. The intelligent soil analysis and detection laboratory of claim 3, wherein: the automatic rolling equipment adopts a hydraulic press.

8. The intelligent soil analysis and detection laboratory of claim 3, wherein: the conveying equipment adopts any one or two of a conveying track and an internet mobile robot to be used in combination.