CN106339953B - Construction engineering on-site detection management system and method based on Internet of things - Google Patents

Abstract

The invention discloses a construction engineering detection field management system based on the Internet of things, which comprises the following components: the cloud computing platform is used for inputting detection unit information, detection personnel information and detection equipment information in construction engineering; and the clients are connected with the cloud computing platform and are used for inputting the on-site detection information of the construction engineering, finishing the binding of the on-site detection information with the detection unit information, the detection personnel information and the detection equipment information until the detection project is finished, and transmitting the information to the cloud computing platform for storing, calling and forming a detection behavior record report. The invention also discloses a construction engineering detection field management method based on the Internet of things. By adopting the invention, the detection personnel and detection equipment on the engineering site can be effectively monitored, thereby greatly improving the actual reliability of detection.

Description

Construction engineering on-site detection management system and method based on Internet of things

Technical Field

The invention belongs to the technical field of building engineering detection, in particular to a building engineering on-site detection management system and a method based on the Internet of things.

Background

The construction quality detection is an important means for controlling the construction quality, and the task is to provide scientific, fair and accurate detection results for society and provide basis for the judgment of the construction quality. The engineering quality detection runs through various links such as design, construction, supervision, acceptance, maintenance, repair and the like, becomes an important foundation for controlling and judging the engineering quality, and plays a vital role in ensuring the engineering quality. Whether the test detection data are real and effective or not and whether the supervision system is perfect and effective or not are important guarantees for scientifically expressing the quality of engineering.

However, in the case that the current supervision system of the detection mechanism is not perfect, the huge economic benefits of the detection market are faced, and the gradual property makes part of the detection mechanism or the individual compete for the market by giving false detection reports, leaning against detection qualification and other improper means. The phenomena of falsification and malignant competition are unfavorable for detecting the long-term benign development of the market, and simultaneously, the engineering quality is buried safely with great hidden trouble.

Therefore, necessary behavior management is required for site detection, and the phenomena of qualification and leaning of detection personnel, non-site operation of main detection personnel, on-duty evidence of one person and the like are prevented, and the phenomena of unqualified detection of detection instrument equipment, detection of overdue illegal use and the like are avoided.

Disclosure of Invention

In order to solve the problems, a first object of the present invention is to provide a construction engineering field detection management system based on the internet of things, which can effectively monitor detection personnel and detection equipment on an engineering field, thereby greatly improving the detection reliability.

In order to achieve the above purpose, the invention is realized according to the following technical scheme:

the invention relates to a construction engineering field detection management system based on the Internet of things, which comprises:

the cloud computing platform is used for inputting detection unit information, detection personnel information and detection equipment information in construction engineering;

and the clients are connected with the cloud computing platform and are used for inputting the on-site detection information of the construction engineering, finishing the binding of the on-site detection information with the detection unit information, the detection personnel information and the detection equipment information until the detection project is finished, and transmitting the information to the cloud computing platform for storing, calling and forming a detection behavior record report.

Further, the client is provided with a processor, and a GPS positioning device, a camera device, an information input device and a communication interface which are connected with the processor; the GPS positioning device is used for positioning the position information detected on site; the camera device is used for collecting the site detected image information of the work station, time information and reading mark information; the information input device is used for inputting detection unit information, detection personnel information, detection equipment information and data information of field detection; the processor is used for receiving the position information, the image information and the engineering information, processing the position information, the engineering image information, the detection unit information, the detection personnel information, the detection equipment information and the data information into digital information and binding the digital information; and the communication interface is used for transmitting the digital information to the cloud computing platform.

Further, the marking information includes two-dimensional code information of the detection behavior record report.

Further, the tag information further comprises NFC radio frequency information of the detection device.

Further, the cloud computing platform is provided with a two-dimensional code generating device, and the two-dimensional code generating device is used for forming two-dimensional code information corresponding to a detection behavior record report according to the received on-site detection information, the detection unit information, the detection personnel information and the detection equipment information.

Further, the cloud computing platform is provided with an encryption operation device, and the encryption operation device is used for encrypting or decoding the received field detection information, the detection unit information, the detection personnel information and the detection equipment information.

In order to solve the problems, a second object of the present invention is to provide a construction engineering detection site management method based on the internet of things, which can effectively monitor detection personnel and detection equipment on an engineering site, and has simple execution and low cost.

In order to achieve the above purpose, the invention is realized according to the following technical scheme:

the invention discloses a construction engineering field detection management method based on the Internet of things, which comprises the following steps:

recording detection unit information, detection personnel information and detection equipment information required by a detection project;

completing acquisition and input of field detection information;

binding the field detection information, the detection personnel information and the detection equipment information into the detection project;

uploading the bound information to a cloud computing platform for storage and calling, and forming a detection behavior record report;

and releasing the binding of the detection personnel information and the detection equipment information with the detection item.

Further, after the step of uploading the field detection information, the detection personnel information and the detection equipment information to the cloud computing platform for storage and calling, the method comprises the following steps of:

and encrypting or decoding the uploaded information.

Further, before the step of entering the detection unit information, the detection personnel information, and the detection equipment information required for the detection item, the method further comprises the steps of:

registering the detection unit, the detection personnel and the detection equipment to the cloud computing platform.

Further, the field detection information includes position information, work image information, time information, and detection data information;

the work site image information comprises image information of detection personnel and a work site and detection equipment, and the image information of the detection personnel and the detection equipment is consistent with the image information recorded in the cloud computing platform.

Compared with the prior art, the invention has the beneficial effects that:

according to the construction project on-site detection management system based on the Internet of things, the detection units, the detection personnel and the detection equipment are bound with the on-site construction project under detection, so that the purpose that a single detection personnel or a single detection equipment is simultaneously applied to a plurality of construction projects in an actual detection process is achieved, and the authenticity and the effectiveness of the construction projects in an actual detection acceptance process are guaranteed.

According to the construction project on-site detection management method based on the Internet of things, the detection equipment and the information of the detection personnel which are used in the construction project are bound to the detection project of the detection project, so that the detection equipment cannot be used in different construction projects at the same time, and the detection personnel cannot be used in different construction projects at the same time, and further the situation that in the existing acceptance construction project, the on-duty evidence of a certain detection personnel is hung in different construction projects at the same time, and the situation that a certain detection equipment is in different construction projects at the same time is avoided.

According to the construction engineering field detection management method and system based on the Internet of things, related information in the detection process and actually applied manpower and material resources are effectively bound by means of the Internet of things technology, and can be called and referred at any time, so that the problems of various improper means in the prior art are avoided, and great convenience is provided for management and control of the information and the resources.

Drawings

The invention is described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is a schematic block diagram of a construction engineering field detection management system based on the Internet of things;

fig. 2 is a schematic block diagram of a cloud computing platform in the construction engineering field detection management system based on the internet of things in embodiment 1 of the present invention;

fig. 3 is a schematic block diagram of a cloud computing platform in the construction engineering field detection management system based on the internet of things according to embodiment 2 of the present invention;

fig. 4 is a schematic block diagram of a cloud computing platform in a construction engineering field detection management system based on the internet of things in embodiment 3 of the present invention;

FIG. 5 is a schematic block diagram of a client in the on-site detection and management system of construction engineering based on the Internet of things;

fig. 6 is a flow chart of a construction engineering field detection management method based on the internet of things in embodiment 1 of the present invention;

fig. 7 is a flow chart of a construction engineering field detection management method based on the internet of things in embodiment 2 of the present invention;

fig. 8 is a flow chart of a construction engineering field detection management method based on the internet of things in embodiment 3 of the present invention.

In the figure:

1: cloud computing platform

11: two-dimensional code generation device 12: encryption operation device 13: information input device

2: client terminal

21: processor 22: GPS positioning device 23: imaging device 24: information input device 25: communication interface

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

As shown in fig. 1, the construction project on-site detection management system based on the internet of things provided by the invention comprises a cloud computing platform 1 and a client 2, wherein the cloud computing platform 1 is used for inputting detection unit information, detection personnel information and detection equipment information in construction projects, wherein the detection personnel information comprises on-duty evidence information, the detection equipment information comprises a qualified certificate of equipment, and the on-duty evidence information and the qualified certificate are required to be subjected to effective verification.

The client 2 is connected with the cloud computing platform 1 and is used for inputting field detection information of construction engineering, finishing binding of the field detection information with the detection unit information, the detection personnel information and the detection equipment information until detection projects are completed, and transmitting the information to the cloud computing platform for storage, calling and forming a detection behavior record report; the site detection information comprises data information, position information, construction site image information and time information of construction engineering site detection.

According to the construction engineering on-site detection management system based on the Internet of things, the technology of the Internet of things is utilized, and the detection personnel information and the detection equipment information are bound in the detection project, so that the problems of on-duty evidence hanging and detection equipment hanging of the detection personnel are effectively avoided, the authenticity and the effectiveness of detection data of the whole detection management system are ensured, and the benefits of the public and the public are greatly ensured.

Example 1:

the cloud computing platform 1 is provided with a two-dimensional code generating device 11 for generating two-dimensional code information while forming a detection behavior record report, and after the two-dimensional code information is scanned, the content of the detection behavior record report and information such as pictures in the relevant detection process can be correspondingly seen, so that the convenience of consulting the relevant information is greatly improved.

The client 2 includes a plurality of clients, which are specifically determined according to actual requirements. Meanwhile, the mobile client is preferably a mobile client, and the mobile client is embodied by mobile phones, IPAD and other electronic products. The client 2 is connected with the cloud computing platform 1, can perform mutual transmission of information, can be wireless or wired, and particularly according to actual conditions, can perform transmission in a wireless mode as a preferable mode, and particularly can perform transmission in a 3G/4G mode. The client 2 is configured to input various information of field detection of a construction project, and bind the various information with detection unit information, detection personnel information, and detection equipment information, where the various information includes position information, work site image information, and time information of field detection of the construction project, and the work site image information specifically includes image information of detection personnel and a work site, and image information of the detection personnel and the detection equipment is consistent with that recorded in the cloud computing platform. The purpose of the pictures of the three on-site working in the same scene is to prevent the on-duty certificate of one person from being hung in a plurality of construction projects or the qualified certificate of one device from being hung in a plurality of construction projects, so that the phenomenon of falsification is avoided.

As shown in fig. 3, the client 1 is provided with a processor 21, a GPS positioning device 22, an image capturing device 23, an information input device 24, and a communication interface 25, and the GPS positioning device 22, the image capturing device 23, the information input device 24, and the communication interface 25 are respectively connected to the processor 21.

The GPS positioning device 22 is used for positioning the site detected position of the construction engineering so as to automatically provide accurate geographical position information.

The camera device 23 is used for collecting site detection work image information and time information of construction engineering, and can also read mark information, wherein the work image information comprises image information of the same frame of a detection person, a work site and detection equipment, so that the authenticity is further enhanced; the time information then specifically gives the point in time of the detection. The mark information includes two-dimensional code marks in the detection behavior record report formed for the cloud computing platform 1, and the two-dimensional code marks are read by the camera device 23, so that picture information about detection personnel, detection equipment and the like in the detection behavior record report in the current detection process is obtained. Meanwhile, the marking information may also be NFC device information, specifically, the marking information is used for reading an NFC radio frequency tag set on the detection device through the camera device 23, so as to further improve the effective authenticity of the detection device.

The information input device 24 is used for inputting the engineering information detected on site, and specifically includes an engineering name, an engineering project name, a project address, a project responsible person and a construction unit, and even according to the actual situation, the information input device 24 may also include a building area, a construction project, a contact phone, a start date or a completion date, etc., and the information input device 24 may be a key type input or a touch screen input.

The processor 21 is configured to receive the position information, the image information, and the engineering information, and process the position information, the image information, and the engineering information into digital information; the communication interface 25 is configured to transmit the digital information to the cloud computing platform 1.

The structure of the construction engineering on-site detection management system based on the Internet of things is described in detail, and the following simple description is made for specific operation of the system in a specific use process:

(1) The detection units and the personnel are registered on the cloud computing platform 1. Registered detection personnel and detection equipment need to upload the on-duty certificate of the detection personnel, upload the qualification certificate of the detection instrument equipment and effectively verify the certificate;

(2) When the inspection project starts, an inspector inputs engineering information on the client 2, inputs an inspector name, and selects inspection instrument equipment. The inspector and the selected inspection instrument will be tied up with the construction project being inspected, so that the selected inspector and inspection instrument cannot work in other projects at the same time;

(3) At a site gate, a client 2 is used for locating the site position and shooting the site, GPS coordinate information of a detection site is obtained, site information (including work illumination of detection personnel) is detected, and date and time information is obtained;

(4) In the detection process, shooting and evidence obtaining of detection behaviors (including detection instrument equipment) are carried out, and photos containing time stamps and GPS (global positioning system) stamps are uploaded to the cloud computing platform 1;

(5) After the detection is finished, confirming that the work is finished, and unbinding the bound detection personnel and instrument equipment for other engineering selection;

(6) The cloud computing platform 1 forms a detection behavior record for engineering detection behavior information uploaded by the client 2, forms a detection behavior record report and retrieves the two-dimensional code.

As shown in fig. 6, the construction engineering field detection management method based on the internet of things specifically comprises the following steps:

s101: recording detection unit information, detection personnel information and detection equipment information required by a detection project;

and inputting the detection unit information, the detection personnel information and the detection equipment information through the client.

S102: completing acquisition and input of field detection information;

the field detection information comprises position information, engineering image information, time information and detection data information; collecting the position information through a GPS positioning device 22 of the client 1, and collecting the image information of the work site through a camera device 23; the time information is also based on the time of the client 1 itself and is automatically printed onto the site image information as a time stamp.

S103: binding the field detection information, the detection personnel information and the detection equipment information into the detection project;

the detection personnel information and the detection equipment information recorded in the step S101 and the field detection information in the step S102 are bound with the detection projects of the construction project, so that the detection personnel and the detection equipment cannot be simultaneously present in other detection projects, and meanwhile, the corresponding field detection information is real and reliable.

S104: uploading the bound information to a cloud computing platform for storage and calling, and forming a detection behavior record report;

wherein, the two-dimensional code retrieval mark is attached on the detection behavior record report and is used for the client 1 to directly acquire the relevant detection information through the ray device 23.

S105: and releasing the binding of the detection personnel information and the detection equipment information with the detection item.

After the detection is completed, the binding of the detection personnel and the detection equipment with the detection items can be released, so that the detection personnel and the detection equipment can be used by other equipment.

Example 2:

as shown in fig. 3, the present embodiment differs from embodiment 1 only in that: in the construction engineering field detection management system based on the internet of things according to the embodiment, the cloud computing platform 1 further includes an encryption operation device 12, configured to encrypt or decode various received information, and aims to: the information security is further improved, and the data reliability in the detection process is improved.

Meanwhile, in the corresponding method for detecting and managing construction engineering sites based on the internet of things, after step S104, the method further includes a step of encrypting or decoding, as shown in fig. 7 specifically:

s201: recording detection unit information, detection personnel information and detection equipment information required by a detection project;

and inputting the detection unit information, the detection personnel information and the detection equipment information through the client.

S202: completing acquisition and input of field detection information;

the field detection information comprises position information, engineering image information, time information and detection data information; collecting the position information through a GPS positioning device 22 of the client 1, and collecting the image information of the work site through a camera device 23; the time information is also based on the time of the client 1 itself and is automatically printed onto the site image information as a time stamp.

S203: binding the field detection information, the detection personnel information and the detection equipment information into the detection project;

the detection personnel information and the detection equipment information recorded in the step S201 and the field detection information in the step S202 are bound with the detection projects of the construction project, so that the detection personnel and the detection equipment cannot be simultaneously present in other detection projects, and meanwhile, the corresponding field detection information is real and reliable.

S204: uploading the bound information to a cloud computing platform for storage and calling, and forming a detection behavior record report;

wherein, the two-dimensional code retrieval mark is attached on the detection behavior record report and is used for the client 1 to directly acquire the relevant detection information through the ray device 23.

S205: and encrypting or decoding the uploaded information.

The field detection information, the detection personnel information and the detection equipment information are encrypted, namely the safety of the information is improved, and the information cannot be tampered randomly.

S206: and releasing the binding of the detection personnel information and the detection equipment information with the detection item.

After the detection is completed, the binding of the detection personnel and the detection equipment with the detection items can be released, so that the detection personnel and the detection equipment can be used by other equipment.

Example 3:

as shown in fig. 4, the present embodiment differs from embodiment 2 only in that: in the on-site detection management system for construction engineering based on the internet of things according to the embodiment, the cloud computing platform 1 further includes an information input device 13, which is used for registering and recording information such as a detection unit, a detection person, detection equipment and the like in advance, so that when the detection unit, the detection person and the detection equipment are input through a client in the later stage, the information can be effectively checked and managed.

Meanwhile, the corresponding method for detecting and managing construction projects on site based on the internet of things further includes a step of registering after step S201, as shown in fig. 8 specifically:

s301: registering a detection unit, a detection person and detection equipment to the cloud computing platform 1;

the step is used for recording information such as a detection unit, detection personnel and detection equipment in the detection process in the cloud computing platform 1 in advance.

S302: recording detection unit information, detection personnel information and detection equipment information required by a detection project;

and inputting the detection unit information, the detection personnel information and the detection equipment information through the client.

S303: completing acquisition and input of field detection information;

the field detection information comprises position information, engineering image information, time information and detection data information; collecting the position information through a GPS positioning device 22 of the client 1, and collecting the image information of the work site through a camera device 23; the time information is also based on the time of the client 1 itself and is automatically printed onto the site image information as a time stamp.

S304: binding the field detection information, the detection personnel information and the detection equipment information into the detection project;

the detection personnel information and the detection equipment information recorded in the step S302 and the detection information which can be checked in the step 303 are bound with the detection items of the construction engineering, so that the detection personnel and the detection equipment cannot be simultaneously present in other detection items, and meanwhile, the corresponding field detection information is real and reliable.

S305: uploading the bound information to a cloud computing platform for storage and calling, and forming a detection behavior record report;

wherein, the two-dimensional code retrieval mark is attached on the detection behavior record report and is used for the client 1 to directly acquire the relevant detection information through the ray device 23.

S306: and encrypting or decoding the uploaded information.

The field detection information, the detection personnel information and the detection equipment information are encrypted, namely the safety of the information is improved, and the information cannot be tampered randomly.

S307: and releasing the binding of the detection personnel information and the detection equipment information with the detection item.

After the detection is completed, the binding of the detection personnel and the detection equipment with the detection items can be released, so that the detection personnel and the detection equipment can be used by other equipment.

The present invention is not limited to the preferred embodiments, and any modifications, equivalent variations and modifications made to the above embodiments according to the technical principles of the present invention are within the scope of the technical proposal of the present invention.

Claims (5)

1. Construction engineering on-site detection management system based on thing networking, characterized by comprising:

the cloud computing platform is used for inputting detection unit information, detection personnel information and detection equipment information in construction engineering;

the clients are connected with the cloud computing platform and used for inputting field detection information of construction projects, binding the field detection information with the detection unit information, the detection personnel information and the detection equipment information is completed until the detection project is completed, and transmitting the information to the cloud computing platform for storing, calling and forming a detection behavior record report;

the client is provided with a processor, and a GPS positioning device, a camera device, an information input device and a communication interface which are connected with the processor;

the GPS positioning device is used for positioning the position information detected on site;

the camera device is used for collecting the site detected image information of the work station, time information and reading mark information;

the information input device is used for inputting detection unit information, detection personnel information, detection equipment information and data information of field detection;

the processor is used for receiving the position information, the image information and the engineering information, processing the position information, the engineering image information, the detection unit information, the detection personnel information, the detection equipment information and the data information into digital information and binding the digital information;

the communication interface is used for transmitting the digital information to the cloud computing platform;

the marking information comprises two-dimensional code information of a detection behavior record report;

the marking information also comprises NFC radio frequency information of the detection equipment;

the cloud computing platform is provided with a two-dimensional code generating device which is used for forming two-dimensional code information corresponding to the detection behavior record report according to the received various information;

the cloud computing platform is provided with an encryption operation device which is used for encrypting or decoding the received field detection information, the detection unit information, the detection personnel information and the detection equipment information.

2. The construction engineering on-site detection management method based on the Internet of things is characterized by comprising the following steps of:

recording detection unit information, detection personnel information and detection equipment information required by a detection project;

completing acquisition and input of field detection information, wherein the field detection information comprises position information, site image information, time information and detection data information; collecting the position information through a GPS positioning device of the client, and collecting the image information of the work station through a camera device; the time information is also according to the self-carried time of the client and is automatically printed on the image information of the work station as a time stamp;

binding the field detection information, the detection personnel information and the detection equipment information into the detection project;

uploading the bound information to a cloud computing platform for storage and calling, and forming a detection behavior record report, wherein the detection behavior record report is attached with a two-dimensional code retrieval mark for directly acquiring related detection information by a client through a ray device;

and releasing the binding of the detection personnel information and the detection equipment information with the detection item.

3. The construction engineering field detection management method based on the internet of things according to claim 2, wherein the method is characterized in that:

after the step of uploading the field detection information, the detection personnel information and the detection equipment information to the cloud computing platform for storage and calling, the method comprises the following steps of:

and encrypting or decoding the uploaded information.

4. The construction engineering field detection management method based on the internet of things according to claim 2, wherein the method is characterized in that:

before the step of entering the detection unit information, the detection personnel information and the detection equipment information required for detecting the project, the method further comprises the following steps of:

registering the detection unit, the detection personnel and the detection equipment to the cloud computing platform.

5. The construction engineering field detection management method based on the internet of things according to claim 2, wherein the method is characterized in that:

the field detection information comprises position information, engineering image information, time information and detection data information;

the work site image information comprises image information of detection personnel and a work site and detection equipment, and the image information of the detection personnel and the detection equipment is consistent with the image information recorded in the cloud computing platform.