CN112101801A - Construction quality unified supervision method and system based on Internet of things technology - Google Patents
Construction quality unified supervision method and system based on Internet of things technology Download PDFInfo
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Abstract
The invention relates to the technical field of supervision of construction quality of nuclear power stations, in particular to a construction quality unified supervision method and system based on the technology of the Internet of things. The method comprises the following steps: step 1: the method comprises the steps that an Internet of things server receives an input construction process flow comprising a plurality of construction processes; step 2: the recorder downloads the construction process flow from the Internet of things server, and sequentially acquires inspection videos of the completed construction processes according to the construction process flow and uploads the inspection videos to the Internet of things server; and 3, step 3: the recorder uploads the received qualified inspection information to the Internet of things server; and 4, step 4: and (5) repeatedly executing the step (2) and the step (3) until all the construction procedures in the construction procedure flow are checked. The inspection mode in the prior art is easy to cause missed inspection and is convenient for being counterfeited. Compared with the prior art, the method and the system have the advantages that the gradual inspection is carried out according to the construction process flow, and the inspection result is verified through the inspection video. Thereby effectively reducing the missed detection and effectively avoiding the false detection.
Description
Technical Field
The invention relates to the technical field of supervision of construction quality of nuclear power stations, in particular to a construction quality unified supervision method and system based on the technology of the Internet of things.
Background
In the prior art, the construction of a nuclear power station can be completed through a plurality of professional construction projects. In consideration of safety particularity of the nuclear power plant, quality inspection needs to be performed on each professional construction project. However, the existing inspection method is that an inspector goes to the site to perform inspection, and if the inspection is qualified, the corresponding paper document is signed to indicate that the inspection is finished. The inspection method can not leave corresponding inspection evidence, and thus, the inspection personnel can easily make a fake. Meanwhile, the construction amount of the nuclear power station is huge, so that paper documents are too many, and the operation is complicated in actual operation, so that inspection personnel can miss inspection easily due to improper operation of the personnel.
Disclosure of Invention
Aiming at the technical problems in the prior art, the invention provides a construction quality unified supervision method and system based on the technology of the Internet of things.
In order to solve the technical problems, the invention provides the following technical scheme:
a construction quality unified supervision method based on the technology of the Internet of things comprises the following steps: step 1: the method comprises the steps that an Internet of things server receives an input construction process flow comprising a plurality of construction processes;
step 2: the recorder downloads the construction process flow from the Internet of things server, and sequentially acquires inspection videos of the completed construction processes according to the construction process flow and uploads the inspection videos to the Internet of things server;
and 3, step 3: the recorder uploads the received qualified inspection information to the Internet of things server;
and 4, step 4: and (5) repeatedly executing the step (2) and the step (3) until all the construction procedures in the construction procedure flow are checked.
And the manager inputs a construction process flow to the Internet of things server according to the actual construction requirement of the nuclear power station. The construction process flow is downloaded through the recorder to the inspector, the recorder is held by the inspector, the inspection video is shot to the site where the construction process is completed, the construction site is inspected at the same time, and if the inspection is qualified, the inspector uploads the inspection qualified information to the internet of things server through the recorder, so that the inspection completion of the current construction process is indicated. And (4) the inspector holds the recorder by hand to shoot an inspection video to the site of the next completed construction process according to the sequence of the construction process flow, and simultaneously inspects the construction site. All the construction processes in the construction process flow can be checked by repeating the above processes. In conclusion, in the inspection process, the inspection video of the corresponding construction process is obtained through the recorder, and is uploaded to the Internet of things server, so that objective inspection evidence is reserved for inspection of the construction process, and further, counterfeit of inspection personnel is effectively avoided. Meanwhile, the construction process flow is stored in the Internet of things server in advance, the inspection personnel inspect the completed construction process in sequence according to the construction process flow downloaded by the recorder, on one hand, complex intermediate flows in the paper file are avoided, and on the other hand, the inspection personnel can clearly know which construction process in the construction process flow is the next construction process to be inspected according to the construction process flow and the current inspection process of the inspection personnel, so that the omission is effectively avoided.
Further, step 1 further comprises the following steps: step 1-1: the method comprises the steps that an Internet of things server receives input data of a plurality of inspection nodes; the inspection nodes correspond to the construction processes one by one.
Further, step 2 further comprises the following steps: step 2-1: the recorder uploads a detection mode of a construction process to the Internet of things server;
step 2-2: and uploading the inspection video of the completed construction process to an inspection node in the server of the Internet of things according to the sequence of the construction process flow by the recorder.
Further, the step 2-1 also comprises the following steps: step 2-1-1: the Internet of things server receives completion information of the construction process in real time, acquires a construction process according to the completion information, and outputs an acceptance instruction of the corresponding construction process to the recorder according to the construction process;
step 2-1-2: and (5) when the recorder receives an acceptance instruction of the corresponding construction procedure, executing the step 2-2.
Further, the steps 2-2 further comprise the following steps: step 2-2-1: when the recorder acquires the inspection video, the recorder acquires and uploads the personnel supervision video to an inspection node in the Internet of things server.
Furthermore, the inspection mode comprises an inspection mode and a sampling inspection mode.
The construction quality unified supervision system based on the Internet of things technology is applied to the construction quality unified supervision method based on the Internet of things technology.
Further, the system comprises a server and a recorder; the server is used for storing a construction process flow, and the construction process flow comprises a plurality of construction processes; the recorder comprises a detection camera for acquiring a detection video corresponding to a construction process, and the recorder further comprises a communication module for uploading the detection video to the server.
Furthermore, data of a plurality of inspection nodes are stored in the server of the Internet of things, and the inspection nodes correspond to the construction procedures one by one; and the communication module can receive the inspection video input by the inspection camera and upload the inspection video to the inspection node.
Further, the recorder also comprises a personnel supervision camera; the personnel supervision camera is used for acquiring personnel supervision videos; the communication module can receive the personnel supervision video input by the personnel supervision camera and upload the personnel supervision video to the inspection node.
Compared with the prior art, the invention has the following advantages:
the inspection is carried out step by step according to the construction process flow, so that the inspection process and the construction process flow are carried out synchronously, the inspection process is not easy to be confused, and the inspection missing of inspectors is effectively avoided.
The inspection result is verified through the inspection video, so that on one hand, inspection personnel are inconvenient to make a fake, and on the other hand, if an engineering accident occurs, the inspection result is easy to trace through the backup inspection video.
And the personnel supervision video is also acquired while the inspection video is acquired, so that the inspection personnel are further prevented from being faked.
The inspection nodes are stored in the server of the Internet of things, the inspection video, the personnel supervision video and the inspection qualified information are uploaded to the inspection nodes, the problem that the server of the Internet of things stores chaos due to the fact that the materials are increased can be effectively avoided, and therefore managers can call corresponding materials according to the inspection nodes conveniently.
Drawings
FIG. 1: a method flow diagram.
FIG. 2: system architecture diagram.
Detailed Description
The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.
The first embodiment is as follows:
a construction quality unified supervision method based on the technology of the Internet of things comprises the following steps: step 1: the method comprises the steps that an Internet of things server receives an input construction process flow comprising a plurality of construction processes;
step 2: the recorder downloads the construction process flow from the Internet of things server, and sequentially acquires inspection videos of the completed construction processes according to the construction process flow and uploads the inspection videos to the Internet of things server;
and 3, step 3: the recorder uploads the received qualified inspection information to the Internet of things server;
and 4, step 4: and (5) repeatedly executing the step (2) and the step (3) until all the construction procedures in the construction procedure flow are checked.
Wherein, step 1 further comprises the following steps: step 1-1: the method comprises the steps that an Internet of things server receives input data of a plurality of inspection nodes; the inspection nodes correspond to the construction processes one by one.
The step 2 further comprises the following steps: step 2-1: the recorder uploads a detection mode of a construction process to the Internet of things server;
step 2-2: and uploading the inspection video of the completed construction process to an inspection node in the server of the Internet of things according to the sequence of the construction process flow by the recorder.
The step 2-1 also comprises the following steps: step 2-1-1: the Internet of things server receives completion information of the construction process in real time, acquires a construction process according to the completion information, and outputs an acceptance instruction of the corresponding construction process to the recorder according to the construction process;
step 2-1-2: and (5) when the recorder receives an acceptance instruction of the corresponding construction procedure, executing the step 2-2.
The steps 2-2 further comprise the following steps: step 2-2-1: when the recorder acquires the inspection video, the recorder acquires and uploads the personnel supervision video to an inspection node in the Internet of things server.
During actual execution, a manager inputs a construction process flow comprising a plurality of construction processes to the internet of things server according to actual construction requirements of the nuclear power station. Meanwhile, the manager inputs data of a plurality of inspection nodes to the Internet of things server according to the construction process flow, and the inspection nodes correspond to the construction process one to one. The inspection node can be represented as a blank folder with a corresponding construction process name or a pull-down menu with a corresponding construction process name in the server of the internet of things and can be displayed through corresponding display equipment. Before checking and accepting the construction processes formally, the checking modes of the construction processes need to be selected in advance, and the checking modes comprise a polling checking mode and a sampling checking mode. The inspection video obtained by the inspection by inspection is a single inspection video from the beginning to the end of the inspection. The inspection video obtained by the sampling inspection mode is an inspection video group consisting of a plurality of inspection videos. And after the inspection mode of the construction process is selected, the construction process and the corresponding inspection mode are stored in the Internet of things server in a matched data set relationship. When one construction process is completed, the constructor feeds back completion information of the corresponding construction process to the Internet of things server, the Internet of things server obtains a current construction process according to the completion information, and the Internet of things server outputs an acceptance instruction of the currently completed construction process according to the construction process. For example: and after receiving the completion information of the first construction process, the Internet of things server indicates that the current construction process is the completion of the first construction process, the second construction process is carried out according to the construction process flow, and the Internet of things server outputs an acceptance instruction corresponding to the first construction process to the recorder. When the inspection personnel receive the acceptance instruction through the recorder, the inspection personnel call the matching data set stored in the Internet of things server through the recorder, so that the inspection mode corresponding to the construction procedure needing acceptance is obtained. The inspection personnel arrive the construction site and acquire the inspection video and upload the inspection video to the inspection node in the thing networking server according to corresponding inspection mode, inspect the completion condition of construction process simultaneously, if the inspection result is qualified, the inspection personnel upload inspection qualified information to the inspection node of thing networking server through the record appearance. Simultaneously, be provided with two cameras on the record appearance, the shooting opposite direction of two cameras for the record appearance is obtaining the in-process of inspection video, also can shoot the video to inspection personnel, thereby obtains personnel's supervision video, and inspection personnel pass through the record appearance with personnel's supervision video and inspection video synchronous upload to the inspection node of thing networking server, thereby monitor inspection personnel. After the next construction process is completed, the above process can be repeated until all the construction processes in the construction process flow are checked. Therefore, the method can be used for gradually inspecting the construction in the construction process flow so as to be synchronous with the construction process, and effectively avoids the complicated intermediate process of the paper inspection mode, thereby effectively avoiding the omission of inspection personnel. Meanwhile, the inspection video and the qualified inspection information are uploaded synchronously, and the inspection video is used as a certificate, so that the inspection personnel can be effectively prevented from making false.
Example two:
the utility model provides a unified supervisory systems of construction quality based on internet of things, includes: the server of the Internet of things and the recorder. The Internet of things server is used for storing a construction process flow, and the construction process flow comprises a plurality of construction processes. The Internet of things server is also internally stored with data of a plurality of inspection nodes, and the inspection nodes correspond to the construction procedures one to one. The recorder comprises a detection camera used for acquiring a detection video corresponding to a construction process, and further comprises a personnel supervision camera used for acquiring a personnel supervision video, and the recorder further comprises a communication module used for uploading the detection video, the personnel supervision video and a detection node in the Internet of things server.
In actual operation, a manager inputs a construction process flow comprising a plurality of construction processes to the internet of things server according to the construction requirements of the nuclear power station. Meanwhile, a manager inputs a plurality of inspection nodes to the Internet of things server, the inspection nodes correspond to the construction procedures one by one, the one-to-one correspondence relationship between the inspection nodes and the construction procedures is stored in the Internet of things server in a form of matching data sets, meanwhile, the inspection nodes are stored in the Internet of things server in a form of electronic data, and the inspection nodes can be represented through display equipment. The representation of the inspection node in the display device may be a blank folder with the corresponding construction process name or a pull-down menu with the corresponding construction process name. And the inspection personnel downloads the construction process flow stored in the Internet of things server and the matching data set through the recorder. And meanwhile, the inspection nodes are displayed through the display equipment on the recorder. The recorder is also provided with an input device, and the input device can be a touch screen, a mouse and other devices. The inspector performs the operation of selecting the inspection mode through the input device. The specific operation process can be as follows: the inspection node is selected through the input equipment, and one of an inspection mode and a sampling inspection mode is selected through the input equipment. After the inspection mode is selected, the recorder generates a new matching data set according to the corresponding relation among the construction process, the inspection node and the inspection mode and uploads the new matching data set to the Internet of things server through the communication module, and the Internet of things server receives the new matching data set and replaces the old matching data set.
When the current construction process is completed, the constructor feeds back completion information of the corresponding construction process to the Internet of things server. And after receiving the completion information, the Internet of things server outputs an acceptance instruction of the corresponding construction process to the recorder according to the completion information. And after the inspection personnel receive the acceptance instruction through the recorder, the inspection mode of the corresponding construction process selected in advance is called through the recorder, and the inspection personnel carry the recorder and inspect the construction site according to the inspection mode. The inspection personnel utilize the inspection camera on the record appearance to shoot the inspection video to select corresponding inspection node through the input device of record appearance, thereby pass through communication module with the inspection video and upload to thing networking server. And if the current construction process is qualified, the inspection personnel uploads inspection qualified information to the inspection node of the corresponding construction process through the recorder. Meanwhile, the shooting direction of the personnel supervision camera on the recorder faces towards the inspection personnel, and when the inspection personnel acquire the inspection video, the personnel supervision camera synchronously acquires the personnel supervision video. When the inspection personnel upload the inspection video, the recorder uploads the personnel supervision video to the inspection node synchronously through the communication module. Therefore, the inspection of one construction process can be completed. At this time, the next construction process can be performed. When the Internet of things server receives completion information of the next construction process, the inspection of the next construction process can be started. All the construction processes in the construction process flow can be checked by repeating the above processes.
Preferably, the construction work of the nuclear power plant is already a mature prior art, so that the time required for completing each professional construction content can be accurately estimated, and further the time required for completing each construction process can be estimated. Therefore, the planning time length can be stored in the server of the Internet of things in advance, and the planning time length corresponds to the construction process and the inspection nodes one to one. When the Internet of things server receives the inspection video of the corresponding construction process and receives the corresponding qualified inspection information, the Internet of things server starts timing of the actual construction time of the next construction process, and therefore the actual construction time is obtained. And the Internet of things server compares the actual construction time with the planned time, and when the actual construction time reaches the planned time but the Internet of things server does not receive corresponding completion information, the Internet of things server outputs a prompt signal to subordinate equipment arranged on a construction site. The subordinate equipment can be a desktop computer in communication connection with the server of the Internet of things. The Internet of things server is also stored with a preset inspection duration, when the Internet of things server receives the inspection video of the corresponding construction process and receives corresponding qualified inspection information, the Internet of things server starts the timing of the actual inspection duration of the next construction process, so as to obtain the actual inspection duration, the Internet of things server compares the actual inspection duration with the preset inspection duration, when the actual inspection duration reaches the preset inspection duration but the Internet of things server receives the corresponding inspection video, the Internet of things outputs an inspection prompt signal to the recorder to prompt an inspector to inspect. Therefore, construction and process inspection can be further integrated, and management of managers is further facilitated. It is worth noting that the actual inspection time length and the actual construction time length are obtained synchronously because: the construction process and the process inspection are part of the whole plant construction of the nuclear power station, the preset construction period of the nuclear power station is fixed time, if the actual inspection time and the actual construction time are separately timed, misjudgment of a manager on the current construction progress is easily caused, and meanwhile, the whole plant construction of the nuclear power station is easily delayed.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.
Claims (10)
1. A construction quality unified supervision method based on the Internet of things technology is characterized by comprising the following steps: the method comprises the following steps: step 1: the method comprises the steps that an Internet of things server receives an input construction process flow comprising a plurality of construction processes;
step 2: the recorder downloads the construction process flow from the Internet of things server, and sequentially acquires inspection videos of the completed construction processes according to the construction process flow and uploads the inspection videos to the Internet of things server;
and 3, step 3: the recorder uploads the received qualified inspection information to the Internet of things server;
and 4, step 4: and repeatedly executing the step 2 and the step 3 until all the construction procedures in the construction procedure flow are checked.
2. The construction quality unified supervision method based on the internet of things technology according to claim 1, characterized in that: the step 1 further comprises the following steps: step 1-1: the Internet of things server receives input data of a plurality of inspection nodes;
the inspection nodes correspond to the construction processes one by one.
3. The construction quality unified supervision method based on the internet of things technology according to claim 2, characterized in that: the step 2 further comprises the following steps: step 2-1: the recorder uploads the inspection mode of the construction process to the Internet of things server;
step 2-2: and the recorder uploads the inspection video of the completed construction process to an inspection node in the server of the Internet of things according to the sequence of the construction process flow.
4. The construction quality unified supervision method based on the internet of things technology according to claim 3, characterized in that: the step 2-1 further comprises the following steps: step 2-1-1: the Internet of things server receives completion information of the construction process in real time, acquires a construction process according to the completion information, and outputs an acceptance instruction of the corresponding construction process to the recorder according to the construction process;
step 2-1-2: and when the recorder receives the acceptance instruction of the corresponding construction procedure, executing the step 2-2.
5. The construction quality unified supervision method based on the internet of things technology according to claim 3, characterized in that: the steps 2-2 further comprise the following steps: step 2-2-1: when the recorder acquires the inspection video, the recorder acquires and uploads the personnel supervision video to an inspection node in the Internet of things server.
6. The construction quality unified supervision method based on the internet of things technology according to claim 3, characterized in that: the inspection mode comprises an inspection mode and a sampling inspection mode.
7. The utility model provides a unified supervisory systems of construction quality based on internet of things, its characterized in that: the construction quality unified supervision method based on the Internet of things technology is applied according to any one of claims 1 to 6.
8. The construction quality unified supervision system based on the internet of things technology according to claim 7, characterized in that: the system comprises an Internet of things server and a recorder;
the Internet of things server is used for storing a construction process flow, and the construction process flow comprises a plurality of construction processes;
the recorder comprises a detection camera used for acquiring a detection video corresponding to the construction process, and the recorder further comprises a communication module used for uploading the detection video to the Internet of things server.
9. The construction quality unified supervision system based on the internet of things technology according to claim 8, characterized in that: the Internet of things server is also stored with data of a plurality of inspection nodes, and the inspection nodes are in one-to-one correspondence with the construction procedures;
the communication module can receive the inspection video input by the inspection camera and upload the inspection video to the inspection node.
10. The construction quality unified supervision system based on the internet of things technology according to claim 9, characterized in that: the recorder also comprises a personnel supervision camera;
the personnel supervision camera is used for acquiring personnel supervision videos;
the communication module can receive the personnel supervision video input by the personnel supervision camera and upload the personnel supervision video to the inspection node.
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Application publication date: 20201218 |