CN114595935A - Management method and system based on construction site laboratory - Google Patents

Abstract

The invention provides a management method and a system based on a construction site laboratory, wherein the method comprises the following steps: initializing the standard section information of the engineering project, wherein the standard section information comprises a standard section name, a building raw material report numbering rule and an engineering name; acquiring mixing station information and laboratory information related to the engineering project, and associating the acquired mixing station information and laboratory information with the mark section information; the server receives the incoming acceptance data and the test order data sent by the material part, sends the received incoming acceptance data to the user terminal, and sends the received test order data to the laboratory equipment terminal corresponding to the laboratory information associated with the section information; and testing the tested material based on the received test order data, and sending the test order data and the test result to a mixing station equipment terminal corresponding to the mixing station information associated with the standard section information.

Description

Management method and system based on building site laboratory

Technical Field

The invention relates to the technical field of engineering project test management, in particular to a management method and a management system based on a construction site laboratory.

Background

Today, the development of the society and enterprises is a necessary trend by utilizing an informatization means, and a railway laboratory informatization system is a mark for the development and modernization of railway business. The application of the laboratory informatization system in the high-speed rail construction is beneficial to supervision of project completion quality, unified evaluation standards are achieved, the working efficiency is improved, and random tampering of test data by workers is prevented. Due to the characteristics of large construction scale, high technical requirements and strict quality requirements of high-speed rail projects, an information system is required to be designed aiming at the characteristics, and pain points in the management process can be solved.

Moreover, informatization plays an indispensable role in railway development, and is an important symbol for development of important strategies and modernization in the railway field. The control of the construction quality on the raw materials is always the central importance of high-speed rail construction, and the intelligent information system can well solve the problem and intervene in advance to control the source. The process can be effectively controlled, the construction is safe and the quality is guaranteed. Therefore, the method has very important significance for railway construction.

The test data in the laboratory informatization system in the prior art prevents random tampering of workers and ensures construction quality in the later construction process, but the laboratory informatization system still has certain defects in the aspects of management efficiency and working efficiency. Therefore, how to improve the management efficiency of the construction site test process, thereby improving the working efficiency is an urgent technical problem to be solved.

Disclosure of Invention

Accordingly, the present invention is directed to a worksite laboratory-based management method and system, which may solve one or more of the problems set forth in the prior art.

In accordance with one aspect of the present invention, a worksite laboratory-based management method is disclosed, the method comprising:

initializing the standard section information of the engineering project, wherein the standard section information comprises a standard section name, a building raw material report numbering rule and an engineering name;

acquiring mixing station information and laboratory information related to the engineering project, and associating the acquired mixing station information and laboratory information with the mark section information;

the server receives the incoming acceptance data and the test order data sent by the material part, sends the received incoming acceptance data to the user terminal, and sends the received test order data to the laboratory equipment terminal corresponding to the laboratory information associated with the section information; the test entrusting order data comprises tested material quantity data, tested material specification data and entrusting test project data;

and testing the tested material based on the received test order data, and sending the test order data and the test result to a mixing station equipment terminal corresponding to the mixing station information associated with the section information.

In some embodiments of the invention, the testing of the material under test based on the received test order data comprises:

acquiring a test task;

and testing the tested material corresponding to the obtained test task by using a universal machine, and sending the test data acquired by the universal machine to a database.

In some embodiments of the present invention, the testing the material under test based on the received test order data further comprises:

acquiring temperature and humidity data in a test room in real time, and judging whether the acquired temperature and humidity data are in a preset temperature and humidity interval or not;

and when the acquired temperature and humidity data are located outside the preset temperature and humidity interval, generating a warning signal and sending the warning signal to the laboratory equipment terminal.

In some embodiments of the present invention, the performing the test on the material under test based on the received test order data further comprises:

and acquiring the weight data of the tested material in real time, and sending the acquired weight data to the database.

In some embodiments of the present invention, the material under test is a concrete test block.

In some embodiments of the invention, the method further comprises:

Acquiring data information of the concrete test block, and generating an electronic tag or a two-dimensional code tag based on the acquired data information of the concrete test block; the data information of the concrete test block comprises the type and the weight of the raw material corresponding to the concrete test block.

In some embodiments of the invention, the method further comprises:

and generating a test report based on the test order data and the test result, wherein the test report comprises a test ledger.

In some embodiments of the invention, the method further comprises:

and receiving user registration information sent by a user side, and finishing user registration based on the received user registration information.

According to another aspect of the present invention, there is also disclosed a worksite laboratory-based management system, the system comprising:

the system comprises an initialization unit, a data processing unit and a data processing unit, wherein the initialization unit is used for initializing the standard section information of the engineering project, and the standard section information comprises a standard section name, a building raw material report numbering rule and an engineering name;

the comprehensive management unit is used for acquiring mixing station information and laboratory information related to the engineering project and associating the acquired mixing station information and laboratory information with the mark section information;

The server is used for receiving the entrance acceptance data and the test order data sent by the material part, sending the received entrance acceptance data to the relevant equipment terminal and sending the received test order data to the laboratory equipment terminal corresponding to the laboratory information associated with the mark section information; the test entrusting sheet data comprises tested material quantity data, tested material specification data and entrusting test project data;

and the test management unit is used for testing the tested materials based on the received test order data and sending the test order data and the test result to the mixing station equipment terminal corresponding to the mixing station information associated with the section information.

In some embodiments of the present invention, the system further includes a user management unit, where the user management unit is configured to receive user registration information sent by a user side, and complete user registration based on the received user registration information.

Through the embodiment, the management method based on the building site laboratory can be found that mixing station information, laboratory information and section information are associated, raw material entrance acceptance is integrated, the information of the raw material entrance acceptance is quoted by a test order, and the information of the test record citation order detection project detection procedures and the like is quoted; in the test process, all levels of management units and related departments can quickly check the test data and the test process through the network, so that the management efficiency is improved, and the working efficiency is improved.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

It will be appreciated by those skilled in the art that the objects and advantages that can be achieved with the present invention are not limited to what has been particularly described hereinabove, and that the above and other objects that can be achieved with the present invention will be more clearly understood from the following detailed description.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention. For purposes of illustrating and describing some portions of the present invention, corresponding parts of the drawings may be exaggerated, i.e., may be larger, relative to other components in an exemplary apparatus actually manufactured according to the present invention. In the drawings:

FIG. 1 is a schematic flow chart of a worksite laboratory-based management method according to an embodiment of the present invention.

Fig. 2 is a first partial architecture diagram of a worksite laboratory-based management system according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a second part of the architecture of a worksite laboratory-based management system according to an embodiment of the present invention.

Fig. 4 is a third partial architecture diagram of a worksite laboratory-based management system according to an embodiment of the present invention.

Fig. 5 is a diagram illustrating a fourth part of the architecture of a worksite laboratory-based management system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention are further described in detail below with reference to the accompanying drawings. The exemplary embodiments and descriptions of the present invention are provided to explain the present invention, but not to limit the present invention.

It should be noted that, in order to avoid obscuring the present invention with unnecessary details, only the structures and/or processing steps closely related to the scheme according to the present invention are shown in the drawings, and other details not closely related to the present invention are omitted.

It should be emphasized that the term "comprises/comprising/comprises/having" when used herein, is taken to specify the presence of stated features, elements, steps or components, but does not preclude the presence or addition of one or more other features, elements, steps or components.

In order to strengthen the construction quality management of railway engineering and strengthen the working specification, the process standard and the quality guarantee in the production process, the technical scheme of the invention realizes controllable, visible and traceable intelligent management on the production process and the test process; and the requirements of iron standards, national standards, execution standards and other specifications are combined, whether data and results in the test and production process meet the requirements of the specifications or not can be further automatically detected, links which do not meet the requirements of timeliness and technical specifications are automatically alarmed through an intelligent technology, and the links are brought into a question bank.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings, the same reference numerals denote the same or similar components, or the same or similar steps.

FIG. 1 is a flowchart illustrating a worksite laboratory-based management method according to an embodiment of the present invention, as shown in FIG. 1, the method includes at least steps S10-S40.

Step S10: and initializing the section information of the engineering project, wherein the section information comprises a section name, a building raw material report numbering rule and an engineering name.

The step can be specifically completed through an initialization unit, namely, in the process of marking segment initialization, marking segment initialization information is completed through the initialization unit. The bidding sections are divided according to construction bidding when construction projects of roads, railways and other long lines are built. The field information specifically comprises field names, building raw material report numbering rules, entrusted units, engineering names and other information.

Step S20: and acquiring mixing station information and laboratory information related to the engineering project, and associating the acquired mixing station information and laboratory information with the mark section information.

The mixing station information and the laboratory information generally comprise specific positions or specific numbers of the mixing station or the laboratory, so that the mixing station information and the laboratory information related to the engineering project are added to the engineering project, and the association of the engineering project with the mixing station and the laboratory is realized. Specifically, mixing station information, laboratory information and the mark section information are correlated, and the correlation can be realized by adopting a coded correlation rule.

Step S30: the server receives the incoming acceptance data and the test order data sent by the material part, sends the received incoming acceptance data to the user terminal, and sends the received test order data to the laboratory equipment terminal corresponding to the laboratory information associated with the section information; the test order data comprises tested material quantity data, tested material specification data and order test project data.

In the step, the material part initiates an entrance request and sends entrance acceptance data to the server, wherein the entrance acceptance data are corresponding to the entrance acceptance sheet. And the data after the entrance acceptance sheet is submitted is stored on a system server in a form of a table and further can be pushed to a corresponding user terminal through the server. Since the incoming acceptance data initiated by the material part needs to be subjected to initial acceptance, the server further pushes the incoming acceptance data to relevant user terminals, for example, the relevant user terminals may be mobile terminals of supervisors or testers, mobile terminals are mobile phones, pads, and the like.

Furthermore, when the incoming site is qualified in the initial test, the material department can fill in a test order and send the data of the test order to the server, and the server further sends the received data of the test order to a corresponding laboratory equipment terminal, such as a laboratory industrial control computer. The material department may also test the order form, request the server to obtain the material order number in the test room, and the order has key information such as the number of the tested materials, the specification, the age, and the order test item as the judgment condition for the qualification of the test.

Step S40: and testing the tested material based on the received test order data, and sending the test order data and the test result to a mixing station equipment terminal corresponding to the mixing station information associated with the section information.

In the step, the laboratory checks and accepts and tests and detects, and the qualified product can be used for the engineering main body. In order to realize information interaction between the laboratory and the mixing station, the mixing station equipment terminal and the laboratory equipment terminal can complete information interaction in an interface mode, and in the interaction process, the mixing station equipment terminal initiates a batching list and the laboratory equipment terminal receives the batching list; and further, the system server generates a two-dimensional code from the test order data and the test result to generate a two-dimensional code dictionary, the laboratory equipment terminal sends the two-dimensional code to the mixing station equipment terminal in an interface mode, and the mixing station scans the code to acquire dictionary information, so that subsequent production can be performed. Wherein, the test material can be a concrete test block. Illustratively, the process of the engineering department reports and tests to complete application of the concrete, a laboratory opens a batching sheet according to the application sheet, a mixing station produces the concrete according to the materials and the dosage of the batching sheet, and the laboratory ensures that the site workability of the concrete meets the requirements and then signs in the site and pours the concrete.

Further, the method also comprises the following steps: and generating a test report based on the test order data and the test result, wherein the test report comprises a test ledger. Specifically, test data can be recorded in the test process, returned to and stored in a database in the system in a character stream mode, numerical calculation is triggered according to the test standard, a test conclusion is generated, and the test conclusion is displayed.

Specifically, the testing of the tested material based on the received test order data includes: acquiring a test task; and testing the tested material corresponding to the obtained test task through the universal machine, and sending the test data acquired by the universal machine to a database.

In the process of acquiring the test task, the test order number and the task acquired by the server can be acquired through a getData path of the request server based on an https protocol, wherein the request type is GET. The parameters obtained include a token (device code) in the Header, and a test item (syxm), a request number (wthb), a tester (qyr), a test date (qyrq), a test piece specification (sjcc), and a test task number (xh) which are responded to at the server side.

Furthermore, a controller can be connected to the laboratory terminal equipment, data received by the laboratory terminal equipment are subjected to digital-to-analog conversion, analog signals are converted into digital signals and sent to the controller, and the controller analyzes the digital signals into electric signals so as to control the universal machine to work. After the universal machine finishes the acquisition, the acquired data such as force values, loads and the like are further converted into analog signals through the controller, the analog signals are transmitted to equipment software through a control bus, and the analog signals are written into an SQLite database according to a certain data format. In the embodiment, the mechanical collection is not limited to five tests of the raw material of the steel bar, mechanical linkage, welding, concrete compression resistance and cement fracture compression resistance, and is expanded to all test projects related to the mechanical collection. The electronic acquisition can reduce errors caused by manual copying and entry, and can also avoid the possibility of maliciously modifying data.

And based on an https protocol, through a saveDate path of a request platform, the request type is POST, parameters of the request include a token (equipment serial number) and a test task serial number (no) added in a Header, and the equipment software analyzes data of the SQLite database into a Json data format after dereferencing and sends the data to the server. After the server is subjected to security authentication, data processing is sent back to the database of the system to be stored in the database of the system, and the data is displayed on a front-end page.

In an embodiment of the present invention, the testing the material under test based on the received test order data further includes: acquiring temperature and humidity data in a test room in real time, and judging whether the acquired temperature and humidity data are in a preset temperature and humidity interval; and when the acquired temperature and humidity data are located outside the preset temperature and humidity interval, generating a warning signal and sending the warning signal to the laboratory equipment terminal.

The temperature and humidity data can be collected through a temperature and humidity sensor, the temperature and humidity sensor can be connected with an industrial personal computer in a laboratory, and temperature and humidity information in a test is automatically collected in real time through the industrial personal computer in the test process and is related to a test record table. In the test process, if the greenhouse temperature of the test room acquired by the temperature and humidity sensor does not meet the preset temperature and humidity requirement, red color can be further displayed at the corresponding position to warn the testers.

In addition, in the experimental process, the specific temperature and humidity can include the following three conditions: 1) if the temperature and humidity data are null, the system prompts that the temperature and humidity are not collected, and the test cannot be stored; 2) the temperature and humidity are too low or too high and do not reach the temperature and humidity acquisition value specified by the standard, and the system prompts that the acquired temperature and humidity do not meet the requirement and cannot store the test; 3) the temperature and humidity value is within the correct range of the test standard, and the test can be normally finished and stored. And the temperature and humidity real-time monitoring can be carried out on the standard curing room and the standard curing box at the same time, the temperature and humidity data are recorded at regular time every day, and the curing record data information of the test block is formed.

Because the test data recorded in the test process accounts for more than 58% of the weighing data; thus, in another embodiment, weight data of the material under test is also acquired in real time and the acquired weight data is transmitted to the database. In the prior art, the method is generally characterized in that manual weighing and manual recording are carried out, and data are input into a system after being sorted; the electronic collection of the weighing data reduces the recording and inputting processes, greatly reduces the error rate of the test data and improves the truth of the data. Specifically, the weight data of the test material can be acquired by an electronic balance.

The electronic balance is provided with a WIFI module, an independent IP address is configured according to a TCP protocol, wireless 2.4G/5G network transmission is utilized, a TCP Server mode is used, an independent monitoring port 25000 is set, and data instructions are acquired: 1B70, the returned data format is 14 bits (ASCII), the data is transmitted to a local industrial personal computer, the data is sent to a server through an HTTPS protocol, the server is subjected to security authentication, data processing is sent back to store the data in a database of the system, and further the data can be displayed on a front-end page.

Optionally, the management method further includes acquiring data information of the concrete test block, and generating an electronic tag or a two-dimensional code tag based on the acquired data information of the concrete test block; the data information of the concrete test block comprises the type and the weight of the raw material corresponding to the concrete test block.

The method disclosed by the embodiment can realize the anti-counterfeiting full life cycle management of the concrete test block. Namely, the concrete test block can be bound with the test block through the electronic tag or the two-dimensional code when being manufactured; during each operation, the test block data is manufactured through an engineering assistant APP, the test block data is written into an electronic tag or a two-dimensional code is generated, and the information of each tag is identified through scanning the two-dimensional code; the method comprises the steps of tracking the concrete test block in the whole process by using an electronic chip or a two-dimensional code, covering complete processes of concrete parts, form removal, warehousing, ex-warehouse, testing and the like, wherein each step has positioning coordinate information. Therefore, the whole life cycle of the concrete test block is monitored.

In addition, the management method also realizes the personnel and institution management function, and the personnel management function can synchronously realize department management, user management and authorization management, and the department management can specifically realize user addition, modification, mobile unbinding and the like; the authorization management is used for managing the authority of the user, and the user management is used for finishing user registration, so that the user obtains account information and corresponding authority.

Through the embodiment, the management method based on the construction site laboratory realizes the omnibearing management of the laboratory, the electronization and automation of all tests and the traceability of the whole life cycle of materials. Specifically, the electronic approval of the laboratory construction scheme, the acceptance scheme and the maternal qualification meets the requirements of the process, standardization and standardization of the laboratory construction scheme, the acceptance scheme and the maternal qualification. Meanwhile, the management of personnel, personnel qualification, capability assessment, sales request, equipment maintenance and technical data in a laboratory is enhanced, so that the management meets the construction requirements, the bidding requirements and the standard requirements; thereby avoiding quality hidden troubles. In addition, the whole test is electronized, raw materials, steel bars, metal materials, concrete, soil engineering, other tests, outsourcing tests and the like are covered, the test records are automatically repaired, manual calculation errors are reduced by automatic calculation (original test data are obtained, and corresponding repair formulas and calculation formulas are written into the system according to repair requirements of test procedures and test data calculation processing requirements); automatically generating a report conclusion; the test record report is directly printed and exported, and the same process is also used for supervision unit level inspection and witness. And the whole process of the test detection is comprehensively covered by auxiliary functions such as entrance acceptance, vehicle inspection test, raw material test stand accounts, process test stand accounts, outsourcing test stand accounts, parallel test stand accounts, witness test stand account functions, sampling, witness process, camera and test task linkage (a video button is clicked when a test is started, the whole process is recorded), mobile phone APP positioning, photographing, video and the like. The test process monitoring system can be used for a manager to remotely monitor in real time, can realize live-action tracing in the test process, and effectively avoids the problems of non-standard test behaviors and processes, fake test data and the like.

Correspondingly, the invention also discloses a management system based on the construction site laboratory, which integrates the whole planning design of subsystems such as the laboratory, the mobile phone assistant APP, the owner management and the like, namely the system functions comprise personnel management, equipment management, detection environment management, material management, laboratory management, supervision and supervision, a problem bank, owner supervision and management, working result assessment and the like.

Referring to fig. 2, 3, 4 and 5, the system includes:

the system comprises an initialization unit, a data processing unit and a data processing unit, wherein the initialization unit is used for initializing the mark section information of the engineering project, and the mark section information comprises a mark section name, a building raw material report numbering rule and an engineering name;

the comprehensive management unit is used for acquiring mixing station information and laboratory information related to the engineering project and associating the acquired mixing station information and laboratory information with the mark section information;

the server is used for receiving the entrance acceptance data and the test order data sent by the material part, sending the received entrance acceptance data to the relevant equipment terminal and sending the received test order data to the laboratory equipment terminal corresponding to the laboratory information associated with the mark section information; the test entrusting sheet data comprises tested material quantity data, tested material specification data and entrusting test project data;

And the test management unit is used for testing the tested material based on the received test order data and sending the test order data and the test result to the mixing station equipment terminal corresponding to the mixing station information associated with the standard section information. In addition, the integrated management unit can also maintain and manage equipment, facilities and personnel and is used for automatically collecting, checking and managing the information of the associated equipment before the test.

Specifically, the test management unit is used for managing the whole test process, entrusting the test, signing, completing the test, generating a test report, and calling a raw material test report to prepare a mixing ratio; generating a test ledger for the test process and the test result, and performing statistical analysis on qualified and unqualified tests and outsourcing tests; in the test stage, the functions of different roles are strictly managed, and the fairness and transparency of test data are ensured.

In addition, the system can also comprise an examination management unit, a communication unit and an in-station test unit. The assessment management unit can assess the problems in a deduction statistical ranking mode, the problems are generated in an automatic judgment mode and a manual confirmation mode, the problems are processed and confirmed, and grading classification management is adopted to clarify the problem rectification and source. The communication unit may be used to receive user-provided feedback regarding the functional requirements and the system Bug. The in-station test unit is used for automatically acquiring the finished in-station moisture content detection records, the blending ratio report and the raw material report number, and can generate a batching adjustment list according to actual conditions.

In addition to the above, the system may further include a user management unit and a system management unit, where the user management unit is configured to receive user registration information sent by a user side, and complete user registration based on the received user registration information. The system management unit is used for meeting role management of role authority distribution, such as a command department, a proctor, a tester and a material department, and providing department management of laboratory initialization. And the system interfaces the batching sheet initiated and pushed by the mixing station on the laboratory system, synchronizes with the ex-commission test and test ledger of the laboratory, and the 'personnel organization management' module of the docking platform, and synchronizes the organization and personnel in the laboratory system.

The system can collect and arrange key data in the experimental process: such as raw material entrance acceptance information, test whole process information, test report information, report approval information, batching list information, concrete workability information and the like. And the server in the system takes the authority role as a distinction, the use pages and functions of different roles are different, and different request information is returned. Therefore, the test and the production are decomposed into a plurality of work task points according to the established flow and different roles, each work task is completed by different roles on time, the next work task point is automatically switched, and related personnel are automatically informed until the closed loop of the flow is finished. The whole process is operated in a standard way, and necessary process systems are displayed comprehensively. Meanwhile, the use burden of each link is reduced, and the system is more intelligent and standardized. The information is permanently stored and can not be changed, the tracing is quick and convenient, the responsibility subject is clear, and the phenomenon of withering and tearing skin through pushing is avoided. In addition, the system also synchronously detects data to the stock house cards corresponding to the mixing stations in real time according to the test detection progress, and reduces the delay and error problems of manual input.

The system adopts a mode of butt joint with the electronic balance and the electronic temperature and humidity equipment, can acquire the weighing data of the balance and the current temperature and humidity of a laboratory, and effectively guarantees the authenticity of the data. In addition, each test result system automatically calculates and repairs according to the requirements of the current test regulations, and the result is more real and reliable. Avoiding the false operation.

The system also integrates the raw material entrance acceptance, the test order, the test record, the test report and the approval time node into a page for convenient query; processing according to logic design data references within the experimental flow: the test order quotes the information of the raw material entering the field for acceptance, the test record quotes the information of the test item detection regulation and the like of the order, and the test report quotes the recorded data information and carries out judgment; the informatization system carries out the design on the forms such as the acceptance, the record, the report and the like of the whole test approach, the information and part of original data required by the test are input each time, the system automatically generates the test report, and the working efficiency is timely, accurately and greatly improved. In addition, after the information system is applied, management units and related departments at all levels can quickly check test data and test processes through a network, and the management efficiency is improved.

Besides, the system can also carry out real-time monitoring and automatic alarm, and can remind managers to pay attention to relevant information at the first time. In each link, each role is closely associated, the whole process is inseparable, the whole test process can be well controlled, and the previous link is not finished and the next link is not started. The test process is clear and convenient for management personnel to control.

Those of ordinary skill in the art will appreciate that the various illustrative components, systems, and methods described in connection with the embodiments disclosed herein may be implemented as hardware, software, or combinations of both. Whether this is done in hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention. When implemented in hardware, it may be, for example, an electronic circuit, an Application Specific Integrated Circuit (ASIC), suitable firmware, plug-in, function card, or the like. When implemented in software, the elements of the invention are the programs or code segments used to perform the required tasks. The program or code segments may be stored in a machine-readable medium or transmitted by a data signal carried in a carrier wave over a transmission medium or a communication link. A "machine-readable medium" may include any medium that can store or transfer information. Examples of a machine-readable medium include electronic circuits, semiconductor memory devices, ROM, flash memory, Erasable ROM (EROM), floppy disks, CD-ROMs, optical disks, hard disks, fiber optic media, Radio Frequency (RF) links, and so forth. The code segments may be downloaded via computer networks such as the internet, intranet, etc.

It should also be noted that the exemplary embodiments noted in this patent describe some methods or systems based on a series of steps or devices. However, the present invention is not limited to the order of the above steps, that is, the steps may be performed in the order mentioned in the embodiments, may be performed in an order different from the order in the embodiments, or may be performed at the same time.

Features that are described and/or illustrated with respect to one embodiment may be used in the same way or in a similar way in one or more other embodiments and/or in combination with or instead of the features of the other embodiments in the present invention.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes may be made to the embodiment of the present invention by 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 (10)

1. A worksite laboratory-based management method, characterized in that the method comprises:

initializing segment information of the engineering project, wherein the segment information comprises a segment name, a building raw material report numbering rule and an engineering name;

Acquiring mixing station information and laboratory information related to the engineering project, and associating the acquired mixing station information and laboratory information with the mark section information;

the server receives the incoming acceptance data and the test order data sent by the material part, sends the received incoming acceptance data to the user terminal, and sends the received test order data to the laboratory equipment terminal corresponding to the laboratory information associated with the section information; the test entrusting order data comprises tested material quantity data, tested material specification data and entrusting test project data;

and testing the tested material based on the received test order data, and sending the test order data and the test result to a mixing station equipment terminal corresponding to the mixing station information associated with the section information.

2. The worksite laboratory-based management method according to claim 1, wherein the testing of the material under test based on the received test order data includes:

acquiring a test task;

and testing the tested material corresponding to the obtained test task through the universal machine, and sending the test data acquired by the universal machine to a database.

3. The worksite laboratory-based management method according to claim 2, wherein the test of the material under test is performed based on the received test order data, further comprising:

acquiring temperature and humidity data in a test room in real time, and judging whether the acquired temperature and humidity data are in a preset temperature and humidity interval or not;

and when the acquired temperature and humidity data are located outside the preset temperature and humidity interval, generating a warning signal and sending the warning signal to the laboratory equipment terminal.

4. The worksite laboratory-based management method according to claim 2, wherein the test of the material under test is performed based on the received test order data, further comprising:

and acquiring the weight data of the tested material in real time, and sending the acquired weight data to the database.

5. The worksite laboratory-based management method according to any one of claims 1 to 4, wherein the material to be tested is a concrete block.

6. The worksite laboratory-based management method of claim 5, further comprising:

acquiring data information of the concrete test block, and generating an electronic tag or a two-dimensional code tag based on the acquired data information of the concrete test block; the data information of the concrete test block comprises the type and the weight of the raw material corresponding to the concrete test block.

7. The worksite laboratory-based management method of claim 5, further comprising:

and generating a test report based on the test order data and the test result, wherein the test report comprises a test ledger.

8. The worksite laboratory-based management method of claim 1, further comprising:

and receiving user registration information sent by a user side, and finishing user registration based on the received user registration information.

9. A worksite laboratory-based management system, the system comprising:

the system comprises an initialization unit, a data processing unit and a data processing unit, wherein the initialization unit is used for initializing the standard section information of the engineering project, and the standard section information comprises a standard section name, a building raw material report numbering rule and an engineering name;

the comprehensive management unit is used for acquiring mixing station information and laboratory information related to the engineering project and associating the acquired mixing station information and laboratory information with the mark section information;

the server is used for receiving the entrance acceptance data and the test order data sent by the material part, sending the received entrance acceptance data to the related equipment terminal and sending the received test order data to the laboratory equipment terminal corresponding to the laboratory information associated with the section information; the test entrustment data comprises raw material quantity data, raw material specification data and entrustment test project data;

And the test management unit is used for testing the tested material based on the received test order data and sending the test order data and the test result to the mixing station equipment terminal corresponding to the mixing station information associated with the standard section information.

10. The management system based on the construction site laboratory is characterized by further comprising a user management unit, wherein the user management unit is used for receiving user registration information sent by a user side and completing user registration based on the received user registration information.

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