CN106815779B - System and method for preventing false sample in construction engineering quality detection - Google Patents

Abstract

The invention relates to the technical field of construction engineering quality detection, in particular to a false sample prevention system and method for construction engineering quality detection, comprising the following steps: the first cloud computing platform: the cloud computing platform is used for receiving information and data fed back by the sampling client, the sampling client and the first cloud computing platform; sampling client: the first cloud computing platform is connected with the first cloud computing platform and used for confirming sample information; sample testing client: the first cloud computing platform is connected with the first cloud computing platform and used for verifying sample information; and (3) a test module: for testing the sample and generating test data. The invention has strong practicability.

Description

System and method for preventing false sample in construction engineering quality detection

Technical Field

The invention relates to the technical field of construction engineering quality detection, in particular to a construction engineering quality detection false-proof system and a construction engineering quality detection false-proof method.

Background

In recent years, the construction industry management has been in informatization construction, and as an important means for engineering quality supervision, engineering quality detection and market standardization have been increasingly attracting attention from government authorities. The state construction department and Zhejiang province issue files such as construction project quality detection management Specification, construction project quality detection management method, zhejiang province construction project quality detection management implementation method, and the like, and require strengthening the supervision of construction project detection business, ensuring the standardization and fairness of construction project detection business market, and promoting the healthy development of the construction industry.

However, since the detection market was opened, the detection unit changed from the former public institutions and state-of-the-art enterprises to the current private limited liability company, which also resulted in the following problems, and the sample was counterfeited: the special staff is used as test blocks to manufacture false samples. In order to better promote the supervision, further promote engineering quality supervision standardization and standardization construction, the invention provides a real-time and dynamic supervision system for construction engineering quality detection, which is a current primary task.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a real-time and dynamic supervision system and method for detecting the quality of construction engineering to prevent false samples.

In order to achieve the above purpose, the present invention provides the following technical solutions: the false sample prevention system for construction engineering quality detection is characterized by comprising:

the first cloud computing platform: the system comprises a sampling client, a sample testing client and a sampling server, wherein the sampling client is used for receiving information and data fed back by the sampling client and the sample testing client;

sampling client: the first cloud computing platform is connected with the first cloud computing platform and used for confirming sample information;

sample testing client: the first cloud computing platform is connected with the first cloud computing platform and used for verifying sample information;

and (3) a test module: for testing the sample and generating test data.

The present invention is further configured such that the first cloud computing platform further comprises a supervisory system, the supervisory system comprising:

the online delegation module: the method comprises the steps of generating an order with a bar code;

and a receiving module: for receiving sample information and data.

The invention further provides that the test module comprises test equipment and a camera which is connected with the test equipment in a triggering way when the test equipment is started.

The construction engineering quality detection false sample prevention method suitable for the platform is characterized by comprising the following specific steps of:

a entrusting: the construction unit self-service entrusts on the internet on the platform and prints the entrust with the bar code;

b, sampling: the sample sending unit and the proctoring unit sample together, a label with a two-dimensional code is attached to the sample in advance, the proctoring unit photographs the sample for the first time through the sampling client, and meanwhile, the barcode of the order form and the two-dimensional code on the sample are scanned, so that the order form and the sample are bound and uploaded;

c, first receiving: the receiving module receives the two-dimensional code, the bar code and the first shot photo on the label;

d, sample feeding: the sample sending unit sends the sample to the detection mechanism;

and e, sample testing: the detection mechanism scans the two-dimensional code on the label through the sample testing client, and performs secondary photographing on the sample and uploading;

f, second receiving: the receiving module receives the two-dimensional code, the bar code and the second shot photo on the label;

g pushing: pushing the photos shot for the first time and the second time and the codes analyzed by the two-dimensional codes to a sampling client to ensure that supervision confirms whether the photos are consistent;

h, test: the detection mechanism scans a sample two-dimensional code through the test equipment to test the sample, automatically collects test data, test curves and anomalies in the test process, and the camera records and uploads a test process video;

i third receiving: the receiving module receives test data, test curves, abnormal conditions and test process videos recorded by the camera.

The invention further provides that the two-dimensional code manufacturing method in the step b comprises the following steps: the numbers are converted into binary streams by encryption, and 0 and 1 in the binary are replaced by a combination of space characters and TAB characters.

Compared with the defects of the prior art, the technical scheme provided by the invention has the beneficial effects that: sample information (sample photo and order bar code), sample testing client (sample photo and label two-dimensional code) and test video are confirmed through the sampling client and transmitted to the monitoring system in real time, so that the sample during sampling and the sample during testing are ensured to be the same sample, and false samples are effectively prevented from being generated.

Drawings

Fig. 1 is a schematic block diagram of the structure of the present invention.

Fig. 2 is a flowchart of a construction engineering quality detection and supervision method in the present invention.

FIG. 3 is a schematic diagram of a flow chart of preventing false samples in the invention.

Detailed Description

The invention is further described with reference to fig. 1-3.

As shown in fig. 1-3: the false sample prevention system for construction engineering quality detection is characterized by comprising:

first cloud computing platform 1: the sampling client is used for receiving information and data fed back by the sampling client 2 and the sampling client 3;

sampling client 2: the first cloud computing platform 1 is connected with the first cloud computing platform and is used for confirming sample information;

sample verification client 3: the first cloud computing platform 1 is connected with the first cloud computing platform and is used for verifying sample information;

test module 4: for testing the sample and generating test data.

The present invention is further configured such that the first cloud computing platform 1 further comprises a supervisory system comprising:

the online delegation module: the method comprises the steps of generating an order with a bar code;

and a receiving module: for receiving sample information and data.

The invention further provides that the test module 4 comprises test equipment and a camera which is connected with the test equipment in a triggering manner when the test equipment is started.

The test module 4 comprises test equipment and a camera which is triggered and connected when the test equipment is started, a sample is installed in the test equipment, once the test equipment starts to test, the camera is triggered to open, the whole test process is recorded, and the test equipment automatically forms a test number by scanning a two-dimensional code on the label.

The sample information (sample photo and order bar code), the sample checking client 3 (sample photo and label two-dimensional code) and the test video are confirmed through the sampling client 2 and transmitted to the supervision system in real time, the supervision system pushes the sample information to the supervision system, and the supervision system ensures that the sample during sampling and the sample during test are the same sample through comparison of the sample information, the sample photo and label two-dimensional code, and the generation of false samples is effectively prevented.

It should be noted that: in order to realize data resource sharing, data exchange between systems is realized between each client and the first cloud computing platform through an interface. Mainly realizes the following functions:

1. and (3) accessing a system: the function of connection with other systems is realized, for example, test data of a detection system, a detection report, data of a detection service system such as detection equipment and the like are transmitted into a monitoring system, and effective monitoring of a detection mechanism is realized. Meanwhile, once the failure report is generated, the failure report is transmitted to the supervision system in real time.

2. Conversion of information: because of the wide variety of different service systems, the database structure is different, the function of data conversion is needed to be provided, the data with different formats are converted into standard formats, and the returned data can be converted into the formats required by the systems.

The construction engineering quality detection false sample prevention method suitable for the platform is characterized by comprising the following specific steps of:

a entrusting: the construction unit self-service entrusts on the internet on the platform and prints the entrust with the bar code;

b, sampling: the sample sending unit and the proctoring unit sample together, a label with a two-dimensional code is attached to the sample in advance, the proctoring unit photographs the sample for the first time through the sampling client, and meanwhile, the barcode of the order form and the two-dimensional code on the sample are scanned, so that the order form and the sample are bound and uploaded;

c, first receiving: the receiving module receives the two-dimensional code, the bar code and the first shot photo on the label;

d, sample feeding: the sample sending unit sends the sample to the detection mechanism;

and e, sample testing: the detection mechanism scans the two-dimensional code on the label through the sample testing client, and performs secondary photographing on the sample and uploading;

f, second receiving: the receiving module receives the two-dimensional code, the bar code and the second shot photo on the label;

g pushing: pushing the photos shot for the first time and the second time and the codes analyzed by the two-dimensional code to a sampling client to confirm whether the photos are consistent;

h, test: the detection mechanism scans a sample two-dimensional code through the test equipment to test the sample, automatically collects test data, test curves and anomalies in the test process, and the camera records and uploads a test process video;

i third receiving: the receiving module receives test data, test curves, abnormal conditions and test process videos recorded by the camera.

The sample information (order number, bar code, sample photo, GPS position during sampling and sampler information), the sample testing client (sample testing app) 3 (sample two-dimension code, sample photo during sample collection and sample tester information) and the test video are confirmed through the sampling client (sample app) 2 and transmitted to the monitoring system in real time, the monitoring system pushes the sample information to the supervision, and the supervision ensures that the sample during sampling and the sample during test are the same sample through comparison of the three, thereby effectively preventing the generation of false samples.

The invention further provides that the two-dimensional code manufacturing method in the step b comprises the following steps: the serial numbers are converted into binary streams through encryption, and 0 and 1 in the binary streams are replaced by the combination of space characters and TAB characters, so that common two-dimension code scanning software can not be recognized or seen by the prefabricated two-dimension code labels.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the invention, but one skilled in the art can make common changes and substitutions within the scope of the technical solution of the present invention.

Claims (1)

1. The false sample prevention system for construction engineering quality detection is characterized by comprising: the first cloud computing platform: the system comprises a sampling client, a sample testing client and a sampling server, wherein the sampling client is used for receiving information and data fed back by the sampling client and the sample testing client; sampling client: the first cloud computing platform is connected with the first cloud computing platform and used for confirming sample information; sample testing client: the first cloud computing platform is connected with the first cloud computing platform and used for verifying sample information; and (3) a test module: the method comprises the steps of testing a sample and generating test data; the first cloud computing platform further includes a supervisory system, the supervisory system including: the online delegation module: the method comprises the steps of generating an order with a bar code; and a receiving module: for receiving sample information and data; the test module comprises test equipment and a camera which is connected with the test equipment in a triggering way when the test equipment is started; the sample photo and the order bar code of the sample information are confirmed through the sampling client, the sample photo and the label two-dimensional code of the sample testing client and the test video are transmitted to the supervision system in real time, the supervision system pushes the sample photo and the label two-dimensional code to the supervision system, and the supervision system compares the sample photo and the order bar code to ensure that the sample in sampling and the sample in test are the same sample;

the specific construction engineering quality detection false sample prevention steps are as follows:

a entrusting: the construction unit self-service entrusts on the internet on the platform and prints the entrust with the bar code;

b, sampling: the serial numbers are converted into binary streams through encryption, 0 and 1 in the binary streams are replaced by the combination of space characters and TAB characters to manufacture two-dimension codes, a sample feeding unit and a supervision are used for sampling together, a label with the two-dimension codes is attached to a sample in advance, the supervision photographs the sample for the first time through a sampling client, and meanwhile, the bar codes of the order form and the two-dimension codes on the sample are scanned, so that the order form and the sample are bound and uploaded;

c, first receiving: the receiving module receives the two-dimensional code, the bar code and the first shot photo on the label;

d, sample feeding: the sample sending unit sends the sample to the detection mechanism;

and e, sample testing: the detection mechanism scans the two-dimensional code on the label through the sample testing client, and performs secondary photographing on the sample and uploading;

f, second receiving: the receiving module receives the two-dimensional code, the bar code and the second shot photo on the label;

g pushing: pushing the pictures shot for the first time and the second time and the codes analyzed by the two-dimensional codes to a sampling client;

h, test: the detection mechanism scans a sample two-dimensional code through the test equipment to test the sample, automatically collects test data, test curves and anomalies in the test process, and the camera records and uploads a test process video;

i third receiving: the receiving module receives test data, test curves, abnormal conditions and test process videos recorded by the camera.