CN109359707B - Method and device for processing rock and soil sample information, computer equipment and storage medium - Google Patents

Abstract

The invention relates to a processing method of geotechnical sample information, a processing device of geotechnical sample information, a computer device and a computer readable storage medium, wherein the method comprises the following steps: receiving a rock and soil sample acquisition information packet of a sample information acquisition terminal, wherein the rock and soil sample acquisition information packet carries a first bar code and rock and soil sample acquisition information corresponding to the first bar code; acquiring the test category of the rock-soil sample corresponding to the first bar code according to the acquired information of the rock-soil sample; according to the test types, indicating each classified test terminal to collect classified test data of the rock and soil samples; and summarizing and classifying test data to obtain a test result of the rock-soil sample. Through reading the first bar code label pasted on the rock soil sample, the information of the collected information and the test data of the rock soil sample can be uploaded and modified conveniently, the problem that a large amount of manual work is needed in the traditional rock soil sample information processing mode, time and labor are wasted is solved, and the processing efficiency of the rock soil sample information is improved.

Description

Processing method and device for rock and soil sample information, computer equipment and storage medium

Technical Field

The invention relates to the field of data processing, in particular to a processing method of rock and soil sample information, a processing device of rock and soil sample information, computer equipment and a computer readable storage medium.

Background

At present, the general production flow of engineering investigation geotechnical tests is as follows: and (4) carrying out rock and soil test sample collection by field personnel, and manually filling paper sample labels and sample delivery lists. After the samples are transported to a laboratory, the testing personnel sequence and check the samples according to the sample delivery list, and after the sequencing and the check, the samples are received and confirmed. After receiving the sample, the tester fills out the classification test label and performs the classification test. After various tests are finished, testers manually summarize different test results of the same sample, summarize the test results of all samples in the same project, and submit geotechnical test reports to project responsible personnel for internal statistical analysis.

The processing of rock and soil sample information in the rock and soil test process links generally implemented in the industry almost completely depends on manual work, wastes time and labor, is easy to generate errors, and has low processing efficiency on the rock and soil sample information.

Disclosure of Invention

In view of the above, it is necessary to provide a method for processing geotechnical sample information, an apparatus for processing geotechnical sample information, a computer device and a computer readable storage medium for the same.

A processing method of geotechnical sample information comprises the following steps:

receiving a rock and soil sample acquisition information packet of a sample information acquisition terminal, wherein the rock and soil sample acquisition information packet carries a first bar code and rock and soil sample acquisition information corresponding to the first bar code; the information of the first bar code is acquired by a first bar code label on a rock and soil sample scanned and acquired by a sample information acquisition terminal, and the acquisition information of the rock and soil sample is acquired by the sample information acquisition terminal receiving the input of a first user;

acquiring the test category of the rock-soil sample corresponding to the first bar code according to the acquired information of the rock-soil sample;

according to the test types, indicating each classified test terminal to collect classified test data of the rock and soil samples; each classified test terminal acquires classified test data of one test class;

and summarizing and classifying test data to obtain a test result of the rock-soil sample.

According to the processing method of the rock and soil sample information, a first user collecting the rock and soil samples can paste a first bar code label on the collected rock and soil samples, the first bar code label is scanned through a sample information collecting terminal to obtain information of the first bar code, the first bar code is assigned through a sample information collecting terminal, the collected information of the rock and soil samples is filled and uploaded to a server, then the rock and soil samples are transported to all classification test terminals for classification tests, the server can obtain test classes required by the corresponding rock and soil samples by utilizing the collected information of the rock and soil samples so as to indicate the classification test terminals to collect the classification test data of the rock and soil samples, and the classification test data is collected to obtain the test results of the rock and soil samples; through reading the first bar code label of pasting on the ground sample, can conveniently upload and modify the information of the collection information of ground sample and test data, can conveniently acquire the more up-to-date data of ground sample simultaneously, solved traditional ground sample information processing mode and need a large amount of manual work, the problem of wasting time and energy and mistake easily appears, promoted the treatment effeciency to ground sample information.

In one embodiment, the obtaining of the test category of the geotechnical sample corresponding to the first barcode according to the collected information of the geotechnical sample includes:

sending the first bar code and the acquisition information of the rock and soil sample corresponding to the first bar code to a test type setting terminal, and indicating the test type setting terminal to display the acquisition information; receiving a test type selection instruction of a test type setting terminal, and acquiring test type information of the rock and soil sample corresponding to the first bar code from the test type selection instruction; and the test type information of the rock and soil sample corresponding to the first bar code is acquired by the test type setting terminal receiving the input of the second user.

According to the technical scheme of the embodiment, the user can conveniently scan the first bar code label of the rock-soil sample through the test type setting terminal, the test type setting terminal calls the collected information of the rock-soil sample corresponding to the first bar code from the server and displays the collected information, and the user inputs the test type information of the rock-soil sample on the test type setting terminal so as to conveniently set the test type of the rock-soil sample according to the test requirement. And then, uploading the set test types of the rock and soil samples to a server record by the test type setting terminal so as to indicate each classification test terminal to perform a corresponding classification test.

In one embodiment, the method for instructing each classified test terminal to collect classified test data of the geotechnical sample according to the test category includes:

generating a plurality of second bar codes according to the test types; the second barcodes are used for generating second barcode labels to be pasted on a small sample divided by the rock and soil sample;

receiving a sample acquisition information request of each classification test terminal, acquiring a second bar code from the sample acquisition information request, and acquiring classification test requirement information of the rock-soil sample according to the second bar code, wherein the classification test requirement information comprises test category information corresponding to the second bar code and acquisition information of the rock-soil sample; the classification test terminal scans a second bar code label on a small sample divided by the rock and soil sample to acquire information of the second bar code;

returning the classification test requirement information to the corresponding classification test terminal for indicating the classification test terminal to display the classification test requirement information of the rock and soil sample;

receiving the rock and soil sample test information packet of each classified test terminal, and acquiring classified test data of the test category corresponding to the second bar code from the rock and soil sample test information packet; the classification test terminal receives classification test data input by a third user.

According to the technical scheme of the embodiment, the generated second barcodes are distributed to the classification tests required to be carried out correspondingly, the second barcode labels printed by each second barcode are adhered to the collected rock and soil sample divided samples and distributed to the corresponding classification laboratories, the third user of each classification laboratory scans the second barcode labels on the samples through the classification test terminals to obtain the information of the second barcodes, and the second barcodes are assigned to the classification test data of the samples obtained through the uploading and recording tests to the server. The second barcodes correspond to one test type of the rock and soil sample, so that the rock and soil sample to which each second barcode belongs can be conveniently obtained.

In one embodiment, aggregating the categorized test data to obtain test results for the geotechnical sample includes:

and summarizing the received classified test data corresponding to each second bar code into the test result of the first bar code to which the second bar code belongs according to the incidence relation between the plurality of second bar codes and the first bar code to which the second bar code belongs, so as to obtain the test result of the rock-soil sample corresponding to the first bar code.

According to the technical scheme of the embodiment, the incidence relation which belongs to the first bar code is formed by the plurality of second bar codes, the received classification test data corresponding to each second bar code is quickly summarized to the test result of the first bar code to which the second bar code belongs, the test result of the rock-soil sample corresponding to the first bar code is obtained, and the data collection processing efficiency is improved. The test data is collected by taking the rock soil sample as a unit, so that the subsequent query and analysis of the data are facilitated.

In one embodiment, before receiving the geotechnical sample collection information packet of the sample information collection terminal, the method further comprises the following steps: newly building an engineering project information group, wherein the engineering project information group comprises engineering information, work point information and drilling information of an engineering project;

when receiving the rock and soil sample collection information packet of the sample information collection terminal, the method further comprises the following steps:

establishing a geotechnical sample information base corresponding to the first bar code, acquiring engineering information of the geotechnical sample from the acquired information of the geotechnical sample, and recording the geotechnical sample information base corresponding to the first bar code into an engineering project information group in an associated manner according to the engineering information; the rock-soil sample information base is used for storing the collected information of the rock-soil sample, the information of the test type, the test requirement information and/or the information of the test result corresponding to the first bar code.

According to the technical scheme of the embodiment, the geotechnical sample information base corresponding to the first bar code is established, the information of all links of each geotechnical sample is collected and recorded together, meanwhile, the collected various information of each geotechnical sample is collected into one engineering project information group by taking one engineering project as a unit, and the information of the geotechnical sample can be conveniently analyzed and called by taking the project as a unit.

In one embodiment, before receiving the geotechnical sample collection information packet of the sample information collection terminal, the method further comprises the following steps:

receiving a first query instruction of a sample information acquisition terminal; and sending the engineering information, the work point information and the drilling information of the corresponding engineering project to the sample information acquisition terminal according to the received first query instruction, and indicating the sample information acquisition terminal to display the engineering information, the work point information and the drilling information of the engineering project.

According to the technical scheme, the engineering information, the work point information and the drilling information of the engineering project are stored in the server in advance, when a first user in outdoor operation needs to collect the geotechnical sample, the engineering information, the work point information and the drilling information of the engineering project can be called through the sample information collecting terminal, so that the rock soil sample collecting requirement of the engineering project is known in the aspect, the geotechnical sample is collected according to the sampling requirement of the engineering project, and the collecting efficiency of the geotechnical sample is improved.

In one embodiment, the collection information of the rock-soil sample is acquired by the sample information collection terminal receiving input of a first user and is stored offline by the sample information collection terminal, and when the sample information collection terminal is in a communication state with the local server, the sample information collection terminal uploads the offline stored sample information collection terminal to the local server.

According to the technical scheme of the embodiment, when the sample information acquisition terminal receives the acquisition information of the rock-soil sample input by the first user, the acquisition information is stored in the sample information acquisition terminal in an off-line mode, and when the sample information acquisition terminal and the home terminal server are in a communicated state, the stored sample information acquisition terminal is uploaded to the home terminal server, so that the storage and transmission stability of the acquisition information of the collected rock-soil sample is ensured.

A device for processing geotechnical sample information, comprising:

the collecting information receiving module is used for receiving a rock and soil sample collecting information packet of the sample information collecting terminal, and the rock and soil sample collecting information packet carries a first bar code and collecting information of a rock and soil sample corresponding to the first bar code; the information of the first bar code is acquired by a first bar code label on a rock and soil sample scanned and acquired by a sample information acquisition terminal, and the acquisition information of the rock and soil sample is acquired by the sample information acquisition terminal receiving the input of a first user;

the test type acquisition module is used for acquiring the test type of the rock and soil sample corresponding to the first bar code according to the acquired information of the rock and soil sample;

the classified test data acquisition module is used for indicating each classified test terminal to acquire classified test data of the rock and soil sample according to the test category, wherein each classified test terminal acquires the classified test data of one test category;

and the test result summarizing module is used for summarizing and classifying test data to obtain the test result of the rock and soil sample.

According to the processing device for the rock-soil sample information, a first user collecting rock-soil samples can paste a first bar code label on the collected rock-soil samples, the first bar code label is scanned through a sample information collecting terminal to obtain information of the first bar code, the first bar code is assigned through a sample information collecting terminal, the collected information of the rock-soil samples is filled and uploaded to a server, then the rock-soil samples are transported to all classification test terminals for classification tests, the server can obtain test classes required by the corresponding rock-soil samples by utilizing the collected information of the rock-soil samples so as to indicate the classification test terminals to collect the classification test data of the rock-soil samples, and the classification test data is collected to obtain the test results of the rock-soil samples; through reading the first bar code label of pasting on the ground sample, can conveniently upload and modify the information of the collection information of ground sample and test data, can conveniently acquire the more up-to-date data of ground sample simultaneously, solved traditional ground sample information processing mode and need a large amount of manual work, the problem of wasting time and energy and mistake easily appears, promoted the treatment effeciency to ground sample information.

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the following steps when executing the computer program:

receiving a rock and soil sample acquisition information packet of a sample information acquisition terminal, wherein the rock and soil sample acquisition information packet carries a first bar code and rock and soil sample acquisition information corresponding to the first bar code; the information of the first bar code is acquired by a first bar code label on a rock and soil sample scanned and acquired by a sample information acquisition terminal, and the acquisition information of the rock and soil sample is acquired by the sample information acquisition terminal receiving the input of a first user;

acquiring the test category of the rock-soil sample corresponding to the first bar code according to the acquired information of the rock-soil sample;

according to the test classes, instructing each classified test terminal to collect classified test data of the rock and soil sample, wherein each classified test terminal collects the classified test data of one test class;

and summarizing and classifying test data to obtain a test result of the rock-soil sample.

When the processor of the computer device executes the program, the steps are realized, so that the information of the first bar code can be acquired by scanning the first bar code label through the sample information acquisition terminal, the first bar code is assigned through the sample information acquisition terminal, the acquisition information of the rock-soil sample is filled in and uploaded to the server, then the rock-soil sample is transported to each classification test terminal for classification test, and the server can obtain the test category required to be carried out by the corresponding rock-soil sample by using the acquisition information of the acquired rock-soil sample, so as to indicate each classification test terminal to acquire the classification test data of the rock-soil sample, and the classification test data is summarized to obtain the test result of the rock-soil sample; through reading the first bar code label of pasting on the ground sample, can conveniently upload and modify the information of the collection information of ground sample and test data, can conveniently acquire the updated data of ground sample simultaneously, solve traditional ground sample information processing mode and need a large amount of manual work, waste time and energy and the problem of mistake appears easily, promoted the treatment effeciency to ground sample information.

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

receiving a rock and soil sample acquisition information packet of a sample information acquisition terminal, wherein the rock and soil sample acquisition information packet carries a first bar code and rock and soil sample acquisition information corresponding to the first bar code; the information of the first bar code is acquired by a first bar code label on a rock and soil sample scanned and acquired by a sample information acquisition terminal, and the acquisition information of the rock and soil sample is acquired by the sample information acquisition terminal receiving the input of a first user;

acquiring the test category of the rock-soil sample corresponding to the first bar code according to the acquired information of the rock-soil sample;

according to the test classes, instructing each classified test terminal to collect classified test data of the rock and soil sample, wherein each classified test terminal collects the classified test data of one test class;

and summarizing and classifying test data to obtain a test result of the rock-soil sample.

The computer readable storage medium stores the computer program, and the steps are implemented, so that the information of the first bar code can be obtained by scanning the first bar code label through the sample information acquisition terminal, the first bar code is assigned through the sample information acquisition terminal, the acquisition information of the rock-soil sample is filled in and uploaded to the server, then the rock-soil sample is transported to each classification test terminal for classification test, and the server can obtain the test category required by the corresponding rock-soil sample by using the acquired acquisition information of the rock-soil sample, so as to indicate each classification test terminal to acquire the classification test data of the rock-soil sample, and the classification test data is collected to obtain the test result of the rock-soil sample; through reading the first bar code label of pasting on the ground sample, can conveniently upload and modify the information of the collection information of ground sample and test data, can conveniently acquire the more up-to-date data of ground sample simultaneously, solved traditional ground sample information processing mode and need a large amount of manual work, the problem of wasting time and energy and mistake easily appears, promoted the treatment effeciency to ground sample information.

Drawings

FIG. 1 is an application environment diagram of a processing method of geotechnical sample information in one embodiment;

FIG. 2 is a schematic flow chart of a processing method of geotechnical sample information in one embodiment;

FIG. 3 is a schematic flow chart illustrating the steps of instructing each of the classification test terminals to collect classification test data of the geotechnical samples according to the test category in one embodiment;

FIG. 4 is a schematic structural diagram of a system for processing geotechnical sample information in one embodiment;

FIG. 5 is a schematic flow chart of a processing method for geotechnical sample information in an application example;

fig. 6 is a block diagram illustrating a structure of a device for processing geotechnical sample information in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The processing method of the geotechnical sample information provided by the invention can be applied to the application environment shown in figure 1. The sample information collection terminal 101 and the server 102 are in communication through a network, and the server 104 is also in communication connection with a plurality of classification test terminals 103. A first user pastes a first bar code label 105 on a collected rock-soil sample 104, the sample information collection terminal 101 scans the first bar code label 105 on the collected rock-soil sample 104 to obtain information of a first bar code, the sample information collection terminal 101 prompts the first user to input the collected information of the rock-soil sample 104, the sample information collection terminal 101 sends a rock-soil sample collection information packet carrying the first bar code and the collected information of the rock-soil sample corresponding to the first bar code to the server 102, the server 102 receives the rock-soil sample collection information packet of the sample information collection terminal 101 to obtain the collected information of the rock-soil sample corresponding to the first bar code from the rock-soil sample collection information packet, the server 102 obtains a test category of the rock-soil sample corresponding to the first bar code according to the collected information of the rock-soil sample and instructs each connected classification test terminal 103 to collect classification test data of the rock-soil sample according to the test category, wherein each classification test terminal 103 collects classification test data of one test category; the classified test terminals 103 upload the classified test data of the collected rock and soil samples to the server 102, and the server 102 collects the received classified test data to obtain the test results of the rock and soil samples. The sample information collecting terminal 101 may be, but not limited to, various personal computers, notebook computers, smart phones, tablet computers, dedicated devices, and the like, and the server 102 may be implemented by an independent server or a server cluster formed by a plurality of servers.

In one embodiment, as shown in fig. 2, there is provided a method for processing geotechnical sample information, which is described by taking the method as an example for being applied to a server in fig. 1, and comprises the following steps:

s210, receiving a rock and soil sample acquisition information packet of a sample information acquisition terminal, wherein the rock and soil sample acquisition information packet carries a first bar code and acquisition information of a rock and soil sample corresponding to the first bar code; the information of the first bar code is acquired by a first bar code label on a rock-soil sample scanned and acquired by a sample information acquisition terminal, and the acquired information of the rock-soil sample is acquired by the sample information acquisition terminal receiving the input of a first user;

the collected information may include information of project name, drill hole number, sampling depth, sample category, and the like; in the embodiment of the present invention, the barcode refers to an identification code having label information, each barcode has a unique code value, and may have various forms, for example, a barcode or a two-dimensional code. The first bar code is used for generating a first bar code label to be adhered to the collected rock and soil sample.

S220, acquiring the test category of the rock-soil sample corresponding to the first bar code according to the collected information of the rock-soil sample;

the test type of the rock-soil sample refers to the type of the test to be performed on the rock-soil sample.

S230, indicating each classified test terminal to collect classified test data of the rock and soil sample according to the test class; each classified test terminal acquires classified test data of one test class;

after an external operator collects rock and soil samples, one rock and soil sample can be divided into a plurality of small samples, each small sample is conveyed to each classification laboratory, each classification laboratory tests the small samples, and classification test data obtained by the test are uploaded to a server through a classification test terminal of the classification laboratory.

And S240, summarizing and classifying test data to obtain a test result of the rock and soil sample.

In the step, the classified test terminals upload the collected classified test data of the rock and soil samples to the server, and the server collects the received classified test data to obtain the test results of the rock and soil samples.

According to the processing method of the rock and soil sample information, a first user collecting the rock and soil samples can paste a first bar code label on the collected rock and soil samples, the first bar code label is scanned through a sample information collecting terminal to obtain information of the first bar code, the first bar code is assigned through a sample information collecting terminal, the collected information of the rock and soil samples is filled and uploaded to a server, then the rock and soil samples are transported to all classification test terminals for classification tests, the server can obtain test classes required by the corresponding rock and soil samples by utilizing the collected information of the rock and soil samples so as to indicate the classification test terminals to collect the classification test data of the rock and soil samples, and the classification test data is collected to obtain the test results of the rock and soil samples; through reading the first bar code label of pasting on the ground sample, can conveniently upload and modify the information of the collection information of ground sample and test data, can conveniently acquire the more up-to-date data of ground sample simultaneously, solved traditional ground sample information processing mode and need a large amount of manual work, the problem of wasting time and energy and mistake easily appears, promoted the treatment effeciency to ground sample information.

In one embodiment, the step S220 of acquiring the test category of the geotechnical sample corresponding to the first barcode according to the collected information of the geotechnical sample includes:

sending the first bar code and the acquisition information of the rock and soil sample corresponding to the first bar code to a test type setting terminal, and indicating the test type setting terminal to display the acquisition information; receiving a test type selection instruction of a test type setting terminal, and acquiring test type information of the rock and soil sample corresponding to the first bar code from the test type selection instruction; and the test type information of the rock and soil sample corresponding to the first bar code is acquired by the test type setting terminal receiving the input of the second user.

The test type setting terminal may be any terminal that can be connected to the server to obtain information stored in the server, for example, the same terminal as the sample information collection terminal, the same terminal as the classification test terminal, or another terminal. The user can set the test type of the rock and soil sample through the terminal connection server.

According to the technical scheme of the embodiment, the user can conveniently scan the first bar code label of the rock-soil sample through the test type setting terminal, the test type setting terminal calls the collected information of the rock-soil sample corresponding to the first bar code from the server and displays the collected information, and the user inputs the test type information of the rock-soil sample on the test type setting terminal so as to conveniently set the test type of the rock-soil sample according to the test requirement. And then, uploading the set test types of the rock and soil samples to a server record by the test type setting terminal so as to indicate each classification test terminal to perform a corresponding classification test.

In one embodiment, as shown in fig. 3, the step S230 of instructing the respective classification test terminals to collect classification test data of the geotechnical sample according to the test category includes:

s231, generating a plurality of second barcodes according to the test categories; the second barcodes are used for generating second barcode labels to be pasted on a small sample divided by the rock and soil sample;

s232, receiving the sample collecting information requests of all the classification test terminals, obtaining second bar codes from the sample collecting information requests, and obtaining classification test requirement information of the geotechnical samples according to the second bar codes, wherein the classification test requirement information comprises test category information corresponding to the second bar codes and collecting information of the geotechnical samples; the classification test terminal scans a second bar code label on a small sample divided by the rock and soil sample to acquire information of the second bar code; the sample acquisition information request carries information of a second bar code;

s233, returning the classification test requirement information to the corresponding classification test terminal for indicating the classification test terminal to display the classification test requirement information of the rock and soil sample;

s234, receiving the rock and soil sample test information packet of each classified test terminal, and acquiring classified test data of the test category corresponding to the second bar code from the rock and soil sample test information packet; the classification test terminal receives classification test data input by a third user.

According to the technical scheme of the embodiment, the generated second barcodes are distributed to the classification tests required to be carried out correspondingly, the second barcode labels printed by each second barcode are adhered to the collected rock and soil sample divided samples and distributed to the corresponding classification laboratories, the third user of each classification laboratory scans the second barcode labels on the samples through the classification test terminals to obtain the information of the second barcodes, and the second barcodes are assigned to the classification test data of the samples obtained through the uploading and recording tests to the server. The second barcodes correspond to one test type of the rock-soil sample, so that the rock-soil sample to which each second barcode belongs can be conveniently obtained.

In one embodiment, the step S240 of summarizing the classified test data to obtain the test result of the geotechnical sample includes:

and summarizing the received classified test data corresponding to each second bar code into the test result of the first bar code to which the second bar code belongs according to the incidence relation between the plurality of second bar codes and the first bar code to which the second bar code belongs, so as to obtain the test result of the rock-soil sample corresponding to the first bar code.

According to the technical scheme of the embodiment, the incidence relation which belongs to the first bar code is formed by the plurality of second bar codes, the received classification test data corresponding to each second bar code is quickly summarized to the test result of the first bar code to which the second bar code belongs, the test result of the rock-soil sample corresponding to the first bar code is obtained, and the data collection processing efficiency is improved. The test data is collected by taking the rock soil sample as a unit, so that the subsequent query and analysis of the data are facilitated.

In one embodiment, before the S210 receives the geotechnical sample collection information packet of the sample information collection terminal, the method further includes the steps of: newly building a project information group, wherein the project information group comprises project information, work point information and drilling information of a project;

when receiving the rock and soil sample collection information packet of the sample information collection terminal at S210, the method further includes the steps of:

establishing a geotechnical sample information base corresponding to the first bar code, acquiring engineering information of the geotechnical sample from the acquired information of the geotechnical sample, and recording the geotechnical sample information base corresponding to the first bar code into an engineering project information group in an associated manner according to the engineering information; the rock-soil sample information base is used for storing the collected information of the rock-soil sample, the test type information, the test requirement information and/or the test result information corresponding to the first bar code.

According to the technical scheme of the embodiment, the geotechnical sample information base corresponding to the first bar code is established, the information of each link of each geotechnical sample is summarized and recorded together, meanwhile, the collected various information of each geotechnical sample is summarized into one engineering project information group by taking one engineering project as a unit, and the information of the geotechnical sample can be conveniently analyzed and called by taking the project as the unit.

In one embodiment, before the S210 receives the geotechnical sample collection information packet of the sample information collection terminal, the method further includes the steps of:

receiving a first query instruction of a sample information acquisition terminal; and sending the engineering information, the work point information and the drilling information of the corresponding engineering project to the sample information acquisition terminal according to the received first query instruction, and indicating the sample information acquisition terminal to display the engineering information, the work point information and the drilling information of the engineering project.

According to the technical scheme of the embodiment, the engineering information, the work point information and the drilling information of the engineering project are stored in the server in advance, when a first user in outdoor operation needs to collect the geotechnical sample, the engineering information, the work point information and the drilling information of the engineering project can be called through the sample information collection terminal, so that the rock soil sample collection requirement of the engineering project can be known in an aspect mode, the geotechnical sample can be collected according to the sampling requirement of the engineering project, and the collection efficiency of the geotechnical sample is improved.

In one embodiment, the collection information of the rock-soil sample is acquired by the sample information collection terminal receiving input of a first user and is stored offline by the sample information collection terminal, and when the sample information collection terminal is in a communication state with the local server, the sample information collection terminal uploads the offline stored sample information collection terminal to the local server.

The collection of rock and soil samples is generally carried out outdoors, and the areas for collecting the rock and soil samples are possibly poor in communication signals, so that the data transmission between the sample information collection terminal and the server is not smooth. According to the technical scheme of the embodiment, when the sample information acquisition terminal receives the acquisition information of the rock and soil sample input by the first user, the acquisition information is stored in the sample information acquisition terminal in an off-line mode, and when the sample information acquisition terminal and the home terminal server are in a communicated state, the stored sample information acquisition terminal is uploaded to the home terminal server, so that the storage and transmission stability of the acquisition information of the acquired rock and soil sample is ensured.

It should be understood that, although the steps in the above-described embodiments are arranged in order of numbers, the steps are not necessarily performed in order of numbers. The steps are not limited to being performed in the exact order illustrated and, unless explicitly stated herein, may be performed in other orders. Moreover, at least some of the steps of the above embodiments may include multiple sub-steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the sub-steps or the stages is not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least some of the sub-steps or stages of other steps.

As shown in fig. 4, the invention further provides a processing system of geotechnical sample information, which comprises a server, a sample information collecting terminal in communication connection with the server, and a plurality of classification testing terminals in communication connection with the server.

The sample information acquisition terminal can be an intelligent device with a camera, the intelligent device can be a portable handheld terminal device, such as a mobile phone or a special device, and when a user collects rock and soil samples in outdoor operation, the user can collect and upload the acquisition information of the rock and soil samples to the server through the sample information acquisition terminal.

The sample information acquisition terminal can have an automatic identification function, a barcode assignment function and a data local cache function, barcode identification is carried out through the automatic identification module, sample acquisition and sample reception are realized through assignment of the barcodes, data are stored in local equipment in an off-line mode, and sample information checking, modification and the like can be realized. Meanwhile, the function of online updating and uploading data is supported, and online updating and uploading data to a server are realized through a mobile communication network, so that information synchronization is realized.

The server can be provided with a sample information management system and a user service module, and the sample information management system has the functions of sample list management, sample secondary distribution management and classification test management. The user service module has a data management function and a personnel management function.

The sample information management system and the user service module adopt a B/S deployment architecture, and a user can directly access the system through a Web page. The development language is JAVA, and the technical framework adopts the SSH integrated framework (struts + spring + hibernate) which is mainstream at present. The system integrating the SSH framework is divided into four layers in terms of responsibility: a presentation layer, a business logic layer, a data persistence layer, and a domain module layer (physical layer). Struts is used as the integral basic framework of the system and is responsible for the separation of MVC, service skip is controlled in the model part of the Struts framework, and a Hibernate framework is utilized to provide support for a persistent layer. Spring is used as a lightweight IoC container, is responsible for finding, locating, creating and managing objects and dependency relationships among the objects, and enables Struts and Hibernate to work better.

In order to make the processing method of the rock and soil sample information according to the embodiment of the present invention clearer, an application example is provided, and the processing method of the rock and soil sample information according to the application example takes the processing system of the rock and soil sample information applied to the above embodiment as an example, as shown in fig. 5, and may operate according to the following steps:

firstly, a reconnaissance project responsible person (interior) adds an engineering project on a geotechnical sample informatization management system, inputs project engineering information, work point information, drilling information and other information, generates a unique coded bar code according to rules, for example, a two-dimensional code, and prints the bar code into a bar code label, and an outsider brings the bar code label to a project site. The sample information acquisition terminal utilizes the internet to update on line, acquires and displays the project engineering information, the work point information, the drilling information and the like from the server, and facilitates field workers to know the rock soil sample acquisition requirement of the project. In the field implementation process, field personnel paste the bar code on the collected rock and soil sample, assign a value to the bar code through the sample information collection terminal, and upload the collected information of the rock and soil sample, such as project name, drilling number, sampling depth, sample category and the like, to the server. Specifically, the collected information of the rock and soil samples can be uploaded to a rock and soil sample information management system of a server on line when the rock and soil samples are connected to the internet in a sample information collecting terminal. The field personnel or field personnel can log in the rock and soil sample informatization management system through the test type setting terminal, and carry out assignment and supplement on the bar code of the collected rock and soil sample so as to set the test type of the rock and soil sample to be tested. Then, after the rock-soil samples are transported to a laboratory, a tester scans and identifies the incoming samples to obtain the information of the sample types of the rock-soil samples, and performs classified storage and management according to the sample types of the rock-soil samples without performing sample sequencing and sample checking according to items, so that the time for classifying, sequencing and checking the samples is greatly saved. After receiving the sample, the laboratory distributes the bar code for the second time according to the test category, and matches the sample through the automatic identification technology, thereby performing the classification test. And finally, classifying the test data, automatically collecting the test data through the bar codes, automatically uploading the test results to a server, and automatically calculating and counting the test results without falling down the data in the whole process.

Compared with the prior art, the method for processing the rock and soil sample information of the application example has the following beneficial effects:

(1) The automatic identification technology is applied to the engineering investigation industry, excessive handwriting work can be simplified, repeated input of all links is avoided, work errors are reduced, work efficiency is improved, and investigation work quality is improved.

(2) The rock-soil sample information management is carried out by adopting an automatic identification technology, the sample data is automatically collected, the information is automatically identified and is automatically transmitted to the rock-soil sample information management system, the sample information can be checked and various spreadsheets can be derived through the system, and the working procedure is simplified.

(3) The method can realize accurate and rapid transmission of sample information in three major links of field work, laboratory and interior work, and improve the cooperation degree of investigation operation.

(4) Through the automatic identification device and the export function of the background management system, the frequent sample sequencing time and the sample checking time in a laboratory can be reduced, and the working efficiency is greatly improved.

(5) By means of data acquisition and classified storage, functions of classified query and statistics according to projects, sample types and the like are achieved, and information and systematic management is conducted on samples.

(6) The project responsible person can check and verify the accuracy of the collected sample information in real time, control the type and the quantity of subsequent samples through statistics and analysis, and feed back the types and the quantity to field operation in time so as to prevent the unreasonable sampling condition of the project.

(7) After receiving the sample, the laboratory matches the sample through an automatic identification technology, thereby carrying out classification test.

(8) The data in the test process is automatically collected, the test result is automatically uploaded to the data center, the test result is automatically calculated and counted, and the data in the whole process does not fall to the ground.

In one embodiment, as shown in fig. 6, there is provided a geotechnical sample information processing apparatus 600 including:

the collected information receiving module 610 is used for receiving a rock and soil sample collected information packet of the sample information collecting terminal, wherein the rock and soil sample collected information packet carries a first barcode and collected information of a rock and soil sample corresponding to the first barcode; the information of the first bar code is acquired by a first bar code label on a rock-soil sample scanned and acquired by a sample information acquisition terminal, and the acquired information of the rock-soil sample is acquired by the sample information acquisition terminal receiving the input of a first user;

the test type obtaining module 620 is used for obtaining the test type of the rock and soil sample corresponding to the first bar code according to the collected information of the rock and soil sample;

a classification test data obtaining module 630, configured to instruct, according to a test category, each classification test terminal to collect classification test data of a rock and soil sample, where each classification test terminal collects classification test data of one test category;

and the test result summarizing module 640 is used for summarizing and classifying the test data to obtain the test result of the rock and soil sample.

In one embodiment, the test category acquisition module 620 is further configured to:

sending the first bar code and the acquisition information of the rock and soil sample corresponding to the first bar code to a test type setting terminal, and indicating the test type setting terminal to display the acquisition information; receiving a test type selection instruction of a test type setting terminal, and acquiring test type information of the rock and soil sample corresponding to the first bar code from the test type selection instruction; and the test type information of the rock and soil sample corresponding to the first bar code is acquired by the test type setting terminal receiving the input of the second user.

In one embodiment, the classification test data acquisition module 630 includes:

the second bar code generating module is used for generating a plurality of second bar codes according to the test types; the second barcodes are used for generating second barcode labels to be pasted on a small sample divided by the rock and soil sample;

the test requirement information query module is used for receiving the sample acquisition information requests of all the classification test terminals, acquiring second bar codes from the sample acquisition information requests, and acquiring classification test requirement information of the rock-soil samples according to the second bar codes, wherein the classification test requirement information comprises test category information corresponding to the second bar codes and acquisition information of the rock-soil samples; the classification test terminal scans a second bar code label on a small sample divided by the rock and soil sample to acquire information of the second bar code;

the test requirement information distribution module is used for returning the classified test requirement information to the corresponding classified test terminal and indicating the classified test terminal to display the classified test requirement information of the rock and soil sample;

the classified test data receiving module is used for receiving the rock and soil sample test information packets of all the classified test terminals and acquiring classified test data of the test classes corresponding to the second codes from the rock and soil sample test information packets; the classification test terminal receives classification test data input by a third user.

In one embodiment, the test result summarization module 640 is further configured to:

and summarizing the received classified test data corresponding to each second bar code into the test result of the first bar code to which the second bar code belongs according to the incidence relation between the plurality of second bar codes and the first bar code to which the second bar code belongs, so as to obtain the test result of the rock-soil sample corresponding to the first bar code.

In one embodiment, the apparatus 600 for processing geotechnical sample information further comprises:

the system comprises an engineering project information group establishing module, a drilling module and a drilling module, wherein the engineering project information group establishing module is used for newly establishing an engineering project information group, and the engineering project information group comprises engineering information, work point information and drilling information of an engineering project;

the acquisition information receiving module is further configured to:

establishing a rock and soil sample information base corresponding to the first bar code; acquiring engineering information of the geotechnical sample from the acquired information of the geotechnical sample; according to the engineering information, recording the geotechnical sample information base corresponding to the first bar code into an engineering project information group in an associated manner;

the rock-soil sample information base is used for storing the collected information of the rock-soil sample, the information of the test type, the test requirement information and/or the information of the test result corresponding to the first bar code.

In one embodiment, the apparatus 600 for processing geotechnical sample information further comprises:

the information query module is used for receiving a query instruction of the sample information acquisition terminal; and sending the engineering information, the work point information and the drilling information of the corresponding engineering project to the sample information acquisition terminal according to the received query instruction, and indicating the sample information acquisition terminal to display the engineering information, the work point information and the drilling information of the engineering project.

In one embodiment, the collection information of the rock-soil sample is acquired by the sample information collection terminal receiving input of a first user and is stored offline by the sample information collection terminal, and when the sample information collection terminal is in a communication state with the local server, the sample information collection terminal uploads the offline stored sample information collection terminal to the local server.

Specific limitations regarding the processing device of the geotechnical sample information can be found in the above limitations regarding the processing method of the geotechnical sample information, and will not be described herein again. The respective modules in the device for processing geotechnical sample information can be wholly or partially realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

The apparatus for processing geotechnical sample information according to the present invention corresponds to the method for processing geotechnical sample information according to the present invention, and technical features and advantageous effects thereof described in the above embodiments of the method for processing geotechnical sample information are applicable to the embodiments of the apparatus for processing geotechnical sample information, which is stated herein.

In one embodiment, a computer device is provided, comprising a memory, a processor, and a computer program stored on the memory and executable on the processor, the processor implementing the following steps when executing the computer program:

receiving a rock and soil sample acquisition information packet of a sample information acquisition terminal, wherein the rock and soil sample acquisition information packet carries a first bar code and rock and soil sample acquisition information corresponding to the first bar code; the information of the first bar code is acquired by a first bar code label on a rock and soil sample scanned and acquired by a sample information acquisition terminal, and the acquisition information of the rock and soil sample is acquired by the sample information acquisition terminal receiving the input of a first user;

acquiring the test category of the rock-soil sample corresponding to the first bar code according to the acquired information of the rock-soil sample;

according to the test classes, instructing each classified test terminal to collect classified test data of the rock and soil sample, wherein each classified test terminal collects the classified test data of one test class;

and summarizing and classifying test data to obtain a test result of the rock-soil sample.

When the processor of the computer equipment executes a program, the steps are realized, so that the information of the first bar code can be acquired by scanning the first bar code label through the sample information acquisition terminal, the first bar code is assigned through the sample information acquisition terminal, the acquisition information of the rock-soil sample is filled and uploaded to the server, then the rock-soil sample is transported to each classification test terminal for classification test, and the server can obtain the test category required to be carried out by the corresponding rock-soil sample by using the acquired acquisition information of the rock-soil sample so as to indicate each classification test terminal to acquire the classification test data of the rock-soil sample and collect the classification test data to obtain the test result of the rock-soil sample; through reading the first bar code label of pasting on the ground sample, can conveniently upload and modify the information of the collection information of ground sample and test data, can conveniently acquire the more up-to-date data of ground sample simultaneously, solved traditional ground sample information processing mode and need a large amount of manual work, the problem of wasting time and energy and mistake easily appears, promoted the treatment effeciency to ground sample information.

According to the computer device provided by the embodiment of the invention, the computer executable instructions are not limited to the operation of the processing method of the geotechnical sample information, and can also execute the relevant operation in the processing method of the geotechnical sample information provided by any embodiment of the invention, and the computer device has corresponding functions and beneficial effects.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

receiving a rock and soil sample acquisition information packet of a sample information acquisition terminal, wherein the rock and soil sample acquisition information packet carries a first bar code and rock and soil sample acquisition information corresponding to the first bar code; the information of the first bar code is acquired by a first bar code label on a rock and soil sample scanned and acquired by a sample information acquisition terminal, and the acquisition information of the rock and soil sample is acquired by the sample information acquisition terminal receiving the input of a first user;

acquiring the test category of the rock-soil sample corresponding to the first bar code according to the acquired information of the rock-soil sample;

according to the test classes, instructing each classified test terminal to collect classified test data of the rock and soil sample, wherein each classified test terminal collects the classified test data of one test class;

and summarizing and classifying test data to obtain a test result of the rock-soil sample.

The computer readable storage medium stores the computer program, and the steps are implemented, so that the information of the first bar code can be obtained by scanning the first bar code label through the sample information acquisition terminal, the first bar code is assigned through the sample information acquisition terminal, the acquisition information of the rock-soil sample is filled in and uploaded to the server, then the rock-soil sample is transported to each classification test terminal for classification test, and the server can obtain the test category required by the corresponding rock-soil sample by using the acquired acquisition information of the rock-soil sample, so as to indicate each classification test terminal to acquire the classification test data of the rock-soil sample, and the classification test data is collected to obtain the test result of the rock-soil sample; through reading the first bar code label of pasting on the ground sample, can conveniently upload and modify the information of the collection information of ground sample and test data, can conveniently acquire the more up-to-date data of ground sample simultaneously, solved traditional ground sample information processing mode and need a large amount of manual work, the problem of wasting time and energy and mistake easily appears, promoted the treatment effeciency to ground sample information.

Of course, the storage medium provided by the embodiments of the present invention includes computer-executable instructions, and the computer-executable instructions are not limited to the operations of the processing method of the geotechnical sample information as described above, and may also perform related operations in the processing method of the geotechnical sample information provided by any embodiments of the present invention, and have corresponding functions and advantages.

It will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by a computer program, which may be stored in a non-volatile computer-readable storage medium, and which, when executed, may include the processes of the above embodiments of the methods. Any reference to memory, storage, databases, or other media used in embodiments provided herein may include non-volatile and/or volatile memory. Non-volatile memory can include read-only memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), rambus (Rambus) direct RAM (RDRAM), direct Rambus Dynamic RAM (DRDRAM), and Rambus Dynamic RAM (RDRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. A processing method of geotechnical sample information is characterized by comprising the following steps:

receiving a rock and soil sample acquisition information packet of a sample information acquisition terminal, wherein the rock and soil sample acquisition information packet carries a first bar code and acquisition information of a rock and soil sample corresponding to the first bar code; the information of the first bar code is acquired by a first bar code label on a rock-soil sample scanned and acquired by the sample information acquisition terminal, the acquisition information of the rock-soil sample is acquired after the sample information acquisition terminal receives input of a first user and assigns a value to the first bar code, the first bar code is stored by the sample information acquisition terminal in an off-line mode, when the sample information acquisition terminal is communicated with the local server, the sample information acquisition terminal uploads the off-line stored sample information acquisition terminal to the local server, and the acquisition information of the rock-soil sample comprises a project name, a drilling number, a sampling depth and a sample category;

acquiring the test category of the rock-soil sample corresponding to the first bar code according to the acquired information of the rock-soil sample;

according to the test classes, instructing each classified test terminal to collect classified test data of the rock and soil sample, wherein each classified test terminal collects the classified test data of one test class; the classification test data is obtained by performing a test by adopting a small sample divided by a rock and soil sample in a classification laboratory;

summarizing the classified test data to obtain a test result of the rock-soil sample;

wherein, according to the information of gathering of ground sample, acquire the experimental classification of the ground sample that first bar code corresponds, include:

sending a first bar code and the acquisition information of the rock and soil sample corresponding to the first bar code to a test type setting terminal, and indicating the test type setting terminal to display the acquisition information;

receiving a test type selection instruction of a test type setting terminal, and acquiring test type information of the rock and soil sample corresponding to the first bar code from the test type selection instruction; the information of the test type of the rock and soil sample corresponding to the first bar code is acquired by the test type setting terminal receiving the input of a second user;

according to the test categories, indicating each classified test terminal to collect classified test data of the rock and soil samples, wherein the classified test data comprises the following steps:

generating a plurality of second bar codes according to the test categories; the second barcodes form an incidence relation attributed to the first barcodes, each second barcode corresponds to one test category of the geotechnical sample, and each second barcode is used for generating a second barcode label to be pasted on a small sample divided from the geotechnical sample;

receiving a sample acquisition information request of each classified test terminal, acquiring a second bar code from the sample acquisition information request, and acquiring classified test demand information of the geotechnical sample according to the second bar code, wherein the classified test demand information comprises test category information corresponding to the second bar code and acquisition information of the geotechnical sample; the classification test terminal scans a second bar code label on a small sample divided by the rock and soil sample to acquire information of the second bar code;

returning the classification test requirement information to a corresponding classification test terminal for indicating the classification test terminal to display the classification test requirement information of the rock and soil sample;

receiving a rock and soil sample test information packet of each classified test terminal, and acquiring classified test data of a test class corresponding to the second bar code from the rock and soil sample test information packet; the classification test terminal receives classification test data input by a third user;

the step of summarizing the classified test data to obtain the test result of the rock-soil sample comprises the following steps:

and summarizing the received classified test data corresponding to each second bar code into the test result of the first bar code to which the second bar code belongs according to the incidence relation between the plurality of second bar codes and the first bar code to which the second bar code belongs, so as to obtain the test result of the rock and soil sample corresponding to the first bar code.

2. The method for processing geotechnical sample information according to claim 1, wherein before receiving the geotechnical sample collection information packet of the sample information collection terminal, further comprising the steps of:

newly building an engineering project information group, wherein the engineering project information group comprises engineering information, work point information and drilling information of the engineering project;

when receiving the rock and soil sample collection information packet of the sample information collection terminal, the method further comprises the following steps:

establishing a rock and soil sample information base corresponding to the first bar code;

acquiring engineering information of the geotechnical sample from the acquired information of the geotechnical sample;

according to the engineering information, recording the geotechnical sample information base corresponding to the first bar code into the engineering project information group in an associated manner;

the rock and soil sample information base is used for storing the collected information of the rock and soil sample, the test type information, the test requirement information and/or the test result information corresponding to the first bar code.

3. The method for processing geotechnical sample information according to claim 1, wherein before receiving the geotechnical sample collection information packet of the sample information collection terminal, further comprising the steps of:

receiving a query instruction of a sample information acquisition terminal;

and sending the engineering information, the work point information and the drilling information of the corresponding engineering project to the sample information acquisition terminal according to the received query instruction, and indicating the sample information acquisition terminal to display the engineering information, the work point information and the drilling information of the engineering project.

4. A processing apparatus of geotechnical sample information, characterized by comprising:

the system comprises an acquisition information receiving module, a data processing module and a data processing module, wherein the acquisition information receiving module is used for receiving a rock and soil sample acquisition information packet of a sample information acquisition terminal, and the rock and soil sample acquisition information packet carries a first bar code and acquisition information of a rock and soil sample corresponding to the first bar code; the information of the first bar code is acquired by a first bar code label on a rock-soil sample scanned and acquired by the sample information acquisition terminal, the acquisition information of the rock-soil sample is acquired after the sample information acquisition terminal receives input of a first user and assigns a value to the first bar code, the first bar code is stored by the sample information acquisition terminal in an off-line mode, when the sample information acquisition terminal is communicated with the local server, the sample information acquisition terminal uploads the off-line stored sample information acquisition terminal to the local server, and the acquisition information of the rock-soil sample comprises a project name, a drilling number, a sampling depth and a sample category;

the test type acquisition module is used for acquiring the test type of the rock and soil sample corresponding to the first bar code according to the acquired information of the rock and soil sample;

the classified test data acquisition module is used for indicating each classified test terminal to acquire classified test data of the rock and soil sample according to the test category, wherein each classified test terminal acquires the classified test data of one test category; the classified test data is obtained by performing a test by a classified laboratory by using a small sample divided by rock and soil samples;

the test result summarizing module is used for summarizing the classified test data to obtain the test result of the rock-soil sample;

the test type acquisition module is specifically used for sending the first bar code and the acquisition information of the rock and soil sample corresponding to the first bar code to the test type setting terminal and indicating the test type setting terminal to display the acquisition information; receiving a test type selection instruction of a test type setting terminal, and acquiring test type information of the rock and soil sample corresponding to the first bar code from the test type selection instruction; the information of the test type of the rock-soil sample corresponding to the first bar code is acquired by receiving the input of a second user through a test type setting terminal;

the classified test data acquisition module is specifically used for generating a plurality of second bar codes according to the test categories; the second barcodes form an incidence relation which belongs to the first barcodes, each second barcode corresponds to one test type of the rock and soil sample, and each second barcode is used for generating a second barcode label to be pasted on a small sample divided by the rock and soil sample; receiving a sample acquisition information request of each classified test terminal, acquiring a second bar code from the sample acquisition information request, and acquiring classified test demand information of the geotechnical sample according to the second bar code, wherein the classified test demand information comprises test category information corresponding to the second bar code and acquisition information of the geotechnical sample; the classification test terminal scans a second bar code label on a small sample divided by the rock and soil sample to acquire information of the second bar code; returning the classification test demand information to a corresponding classification test terminal for indicating the classification test terminal to display the classification test demand information of the rock and soil sample; receiving a rock and soil sample test information packet of each classified test terminal, and acquiring classified test data of a test class corresponding to the second bar code from the rock and soil sample test information packet; the classification test terminal receives classification test data input by a third user;

the test result summarizing module is specifically used for summarizing the received classified test data corresponding to each second bar code into the test result of the first bar code to which the second bar code belongs according to the incidence relation between the plurality of second bar codes and the first bar code to which the second bar code belongs, so as to obtain the test result of the rock-soil sample corresponding to the first bar code.

5. The apparatus for processing geotechnical sample information according to claim 4, further comprising:

the system comprises an engineering project information group establishing module, a drilling module and a monitoring module, wherein the engineering project information group establishing module is used for establishing an engineering project information group, and the engineering project information group comprises engineering information, work point information and drilling information of an engineering project;

the acquisition information receiving module is further configured to:

establishing a rock and soil sample information base corresponding to the first bar code; acquiring engineering information of the geotechnical sample from the acquired information of the geotechnical sample; according to the engineering information, recording the geotechnical sample information base corresponding to the first bar code into the engineering project information group in an associated manner;

the rock and soil sample information base is used for storing the collected information of the rock and soil sample, the test type information, the test requirement information and/or the test result information corresponding to the first bar code.

6. The apparatus for processing geotechnical sample information according to claim 4, further comprising:

the information query module is used for receiving a query instruction of the sample information acquisition terminal; and sending the engineering information, the work point information and the drilling information of the corresponding engineering project to the sample information acquisition terminal according to the received query instruction, and indicating the sample information acquisition terminal to display the engineering information, the work point information and the drilling information of the engineering project.

7. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the steps of the method of processing geotechnical sample information according to any one of claims 1 to 3 when executing the computer program.

8. A computer-readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of processing geotechnical sample information according to any one of claims 1 to 3.

Images